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683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.2.3 Multiband signalling / RR / Handover / Multiband BCCH / successful / active call / non synchronized
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.2.3.1 Conformance requirements	This test relates to cells supporting frequencies in GSM 400, GSM 710, GSM 750, GSM 850, GSM 900, DCS 1800 and PCS 1900 bands. The MS shall correctly apply the handover procedure in the non synchronized case when a call is in progress and when handover is performed from a TCH/F without frequency hopping in one band towards a TCH/F either with frequency hopping or not in another band. References 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.4 and 9.1.15. 3GPP TS 04.13 subclause 5.2.6.2. 3GPP TS 05.08 subclause 6.7.1.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.2.3.2 Test purpose	To test that when the MS is ordered to make a non synchronized handover it sends continuously access bursts on the main DCCH (and optionally on the SACCH) until it receives a PHYSICAL INFORMATION message from the SS. To test that the MS correctly handles the Timing Advance IE in the PHYSICAL INFORMATION. To test that the MS activates the new channel correctly and transmits the HANDOVER COMPLETE message without undue delay.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.2.3.3 Method of test	Initial Conditions For execution counter M =1, 2. System Simulator: For 450/900 MS: 2 cells, A and B with same LAI, default parameters except: Cell A has: BCCH ARFCN = 263 GSM 450 frequencies: 259, 263, 267, 271, 275, 279, 283, 291. GSM 900 frequencies: 10, 20, 34, 45, 52, 66, 74, 114. Cell B has: BCCH ARFCN = 268 GSM 450 frequencies: 260, 261, 268, 277, 281, 287, 288, 289. GSM 900 frequencies: 14, 17, 32, 59, 73, 76, 87, 108. For 480/900 MS: 2 cells, A and B with same LAI, default parameters except: Cell A has: BCCH ARFCN = 310 GSM 480 frequencies: 306, 310, 314, 318, 322, 326, 332, 338. GSM 900 frequencies: 10, 20, 34, 45, 52, 66, 74, 114. Cell B has: BCCH ARFCN = 315 GSM 480 frequencies: 307, 308, 315, 324, 328, 334, 335, 336. GSM 900 frequencies: 14, 17, 32, 59, 73, 76, 87, 108. For 450/1 800 MS: 2 cells, A and B with same LAI, default parameters except: Cell A has: BCCH ARFCN = 263 GSM 450 frequencies: 259, 263, 267, 271, 275, 279, 283, 291. DCS 1 800 frequencies: 739, 746, 756, 761, 771, 782, 798, 832. Cell B has: BCCH ARFCN = 268 GSM 450 frequencies: 260, 261, 268, 277, 281, 287, 288, 289. DCS 1 800 frequencies: 743, 749, 758, 764, 779, 791, 829, 844. For 480/1 800 MS: 2 cells, A and B with same LAI, default parameters except: Cell A has: BCCH ARFCN = 310 GSM 480 frequencies: 306, 310, 314, 318, 322, 326, 332, 338. DCS 1 800 frequencies: 739, 746, 756, 761, 771, 782, 798, 832. Cell B has: BCCH ARFCN = 315 GSM 480 frequencies: 307, 308, 315, 324, 328, 334, 335, 336. DCS 1 800 frequencies: 743, 749, 758, 764, 779, 791, 829, 844. For 900/1 800 MS: 2 cells, A and B with same LAI, default parameters except: Cell A has: BCCH ARFCN = 20 GSM 900 frequencies: 10, 20, 34, 45, 52, 66, 74, 114. DCS 1 800 frequencies: 739, 746, 756, 761, 771, 782, 798, 832. Cell B has: BCCH ARFCN = 32 GSM 900 frequencies: 14, 17, 32, 59, 73, 76, 87, 108. DCS 1 800 frequencies: 743, 749, 758, 764, 779, 791, 829, 844. For 710/1 900 MS, 750/1 900 MS: 2 cells, A and B with same LAI, default parameters except: Cell A has: BCCH ARFCN = 457 GSM 710, GSM 750 frequencies: 447, 457, 471, 482, 489, 498, 501, 508. PCS 1 900 frequencies: 739, 746, 756, 761, 771, 782, 798, 804. Cell B has: BCCH ARFCN = 469 GSM 710, GSM 750 frequencies: 451, 454, 469, 496, 500, 503, 505, 506. PCS 1 900 frequencies: 743, 749, 758, 764, 779, 791, 803, 806. For 850/1 900 MS: 2 cells, A and B with same LAI, default parameters except: Cell A has: BCCH ARFCN = 147 GSM 850 frequencies: 137, 147, 161, 172, 179, 193, 201, 241. PCS 1 900 frequencies: 739, 746, 756, 761, 771, 782, 798, 804. Cell B has: BCCH ARFCN = 159 GSM 850 frequencies: 141, 144, 159, 186, 200, 203, 214, 235. PCS 1 900 frequencies: 743, 749, 758, 764, 779, 791, 803, 806. Mobile Station: For execution counter M = 1, the MS is in the active state (U10) of a call on cell A, using a TCH in the lower band. For execution counter M = 2, the MS is in the active state (U10) of a call on cell B, using a TCH in the upper band. Specific PICS statements: - GSM 450 Band (TSPC_Type_GSM_450_Band) - Standard GSM Band (P-GSM) (TSPC_Type_GSM_P_Band) - Extended GSM Band (E-GSM) (TSPC_Type_GSM_E_Band) - GSM 480 Band (TSPC_Type_GSM_480_Band) - DCS 1800 band (TSPC_Type_DCS_Band) - GSM 750 band (TSPC_Type_GSM_750_Band) - GSM 710 band (TSPC_Type_GSM_710_Band) PIXIT statements: - Foreseen Final State of the MS For execution counter M = 1 The active state (U10) of a call with a TCH in the upper band on cell B. For execution counter M = 2 The active state (U10) of a call in hopping mode in the upper band on cell A. Test Procedure The MS is in the active state (U10) of a call. The SS sends a HANDOVER COMMAND on the main DCCH. The MS shall begin to send access bursts on the new DCCH (and optionally on the SACCH) of the target cell. The SS observes the access bursts and after receiving n (n being randomly drawn between values [10-20]) access bursts, the SS sends one PHYSICAL INFORMATION message with an arbitrary Timing Advance. The MS shall activate the channel in sending and receiving mode. The MS shall establish a signalling link. The MS shall be ready to transmit a HANDOVER COMPLETE message, before "x" ms after the end of the PHYSICAL INFORMATION message, but not before a UA frame has been sent by the SS. The term "ready to transmit" is defined in 3GPP TS 04.13. The value of "x" depends upon the target channel and is specified in the specific message contents section. Note: the CRH parameter is set to 12 dB. After the Channel release, the MS is required to go to the BCCH carrier of cell A. Then C1 on cell A is greater than_that on cell B Hence the MS shall not location update on cell B. The absence of additional cell (re)selection parameters means that C2 = C1. where A = Received Level Average - RXLEV_ACCESS_MIN B = MS_TXPWR_MAX_CCH - P with the system information used, MS_TXPWR_MAC_CCH and RXLEV_ACCESS_MIN are set to their minimum value. Hence B will be negative and hence C1=(A-0)= A. For DCS, GSM 400, GSM 900, GSM 700 and GSM 850, RXLEV_ACCESS_MIN is -110 dBm. Cell B (upper band cell) is transmitting 10 dB less power than cell A, thus the received signal from cell A should be greater than that from cell B. Maximum Duration of Test 5 minutes, including 1 minute for any necessary operator actions. Expected Sequence This sequence is performed for an execution counter M = 1 and 2 for an MS which supports TCH/F. Step Direction Message Comments 0 MS -> SS M = 1, The MS and SS are using a full rate TCH in lower band, in non hopping mode on cell A. M=2, the MS and SS are using a full rate TCH in upper band, in non hopping mode on cell B. 1 SS -> MS HANDOVER COMMAND See Specific message contents 2 MS -> SS HANDOVER ACCESS Repeated on every burst of the uplink main DCCH (and optionally on the SACCH) until reception of PHYSICAL INFORMATION. Handover Reference as included in the HANDOVER COMMAND. 3 SS -> MS PHYSICAL INFORMATION Sent after reception of n HANDOVER ACCESS messages. See specific message contents. 4 MS -> SS SABM Sent without information field 5 SS -> MS UA 6 MS -> SS HANDOVER COMPLETE The message shall be ready to be transmitted before "x" ms after the completion of step 3. 7 MS -> SS The MS and SS are in the active state of a call. For 450/900 MS: SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 261, 263, 268, 282, 284, 287, 290, 293 - EXT-IND "The information element carries the complete BA" For M = 1: Step 0: The MS and SS are using a full rate TCH in the GSM 450 band, in non-hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 268 Channel description - Channel type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel. - ARFCN Chosen arbitrarily from the GSM 900 frequencies allocated to the cell. Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance. PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in the GSM 900 band, in non hopping mode on cell B. For M = 2: Step 0: The MS and SS are using a full rate TCH in the GSM 900 band, in non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 263 Channel Description - Channel Type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1,2,..63) Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication. - Report Observed Time Difference Shall not be included - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance Cell Channel Description: GSM 450 frequencies: 259, 263, 267, 271, 275, 279, 283, 291 GSM 900 frequencies: 10, 20, 34, 45, 52, 66, 74, 114 Channel Mode IE is not included. Mobile Allocation Indicates GSM 900 frequencies (10, 34, 45, 66, 114). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing Advance Arbitrarily selected but different to default value. Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in hopping mode in the GSM 900 band on cell A. For 480/900 MS: SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 308, 310, 315, 329, 331, 334, 337, 340 - EXT-IND "The information element carries the complete BA" For M = 1: Step 0: The MS and SS are using a full rate TCH in the GSM 480 band, in non-hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 315 Channel description - Channel type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel. - ARFCN Chosen arbitrarily from the GSM 900 frequencies allocated to the cell. Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance. PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in the GSM 900 band, in non hopping mode on cell B. For M = 2: Step 0: The MS and SS are using a full rate TCH in the GSM 900 band, in non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 310 Channel Description - Channel Type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1,2,..63) Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication. - Report Observed Time Difference Shall not be included - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance Cell Channel Description: GSM 480 frequencies: 306, 310, 314, 318, 322, 326, 332, 338 GSM 900 frequencies: 10, 20, 34, 45, 52, 66, 74, 114 Channel Mode IE is not included. Mobile Allocation Indicates GSM 900 frequencies (10, 34, 45, 66, 114). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing Advance Arbitrarily selected but different to default value. Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in hopping mode in the GSM 900 band on cell A. For 450/1 800 MS: SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 261, 263, 268, 282, 284, 287, 290, 293 - EXT-IND "The information element carries the complete BA" For M = 1: Step 0: The MS and SS are using a full rate TCH in the GSM 450 band, in non-hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 268 Channel description - Channel type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel. - ARFCN Chosen arbitrarily from the DCS 1 800 frequencies allocated to the cell. Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance. PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in the DCS 1 800 band, in non hopping mode on cell B. For M = 2: Step 0: The MS and SS are using a full rate TCH in the DCS 1 800 band, in non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 263 Channel Description - Channel Type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1,2,..63) Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication. - Report Observed Time Difference Shall not be included - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance Cell Channel Description: GSM 450 frequencies: 259, 263, 267, 271, 275, 279, 283, 291 GSM 1800 frequencies: 739, 746, 756, 761, 771, 782, 798, 832 Channel Mode IE is not included. Mobile Allocation Indicates DCS 1 800 frequencies (739, 756, 761, 782, 832). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing Advance Arbitrarily selected but different to default value. Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in hopping mode in the DCS band on cell A. For 480/1 800 MS: SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 308, 310, 315, 329, 331, 334, 337, 340 - EXT-IND "The information element carries the complete BA" For M = 1: Step 0: The MS and SS are using a full rate TCH in the GSM 480 band, in non-hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 315 Channel description - Channel type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel. - ARFCN Chosen arbitrarily from the DCS 1 800 frequencies allocated to the cell. Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance. PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in the DCS 1 800 band, in non hopping mode on cell B. For M = 2: Step 0: The MS and SS are using a full rate TCH in the DCS 1 800 band, in non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 310 Channel Description - Channel Type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1,2,..63) Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication. - Report Observed Time Difference Shall not be included - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance Cell Channel Description GSM 480 frequencies: 306, 310, 314, 318, 322, 326, 332, 338 GSM 1800 frequencies: 739, 746, 756, 761, 771, 782, 798, 832 Channel Mode IE is not included. Mobile Allocation Indicates DCS 1 800 frequencies (739, 756, 761, 782, 832). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing Advance Arbitrarily selected but different to default value. Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in hopping mode in the DCS band on cell A. For 900/1 800 MS: SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Bit map 0 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 10, 20, 32, 80, 90, 100, 110 and 120 - EXT-IND "The information element carries the complete BA" For M = 1: Step 0: The MS and SS are using a full rate TCH in the GSM 900 band, in non-hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 32 Channel description - Channel type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel. - ARFCN Chosen arbitrarily from the DCS 1 800 frequencies allocated to the cell. Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance. PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in the DCS 1 800 band, in non hopping mode on cell B. For M = 2: Step 0: The MS and SS are using a full rate TCH in the DCS 1 800 band, in non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 20 Channel Description - Channel Type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1,2,..63) Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication. - Report Observed Time Difference Shall not be included - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance Cell channel description: GSM 900 frequencies: 10, 20, 34, 45, 52, 66, 74, 114 GSM 1800 frquencies: 739, 746, 756, 761, 771, 782, 798, 832 Channel Mode IE is not included. Mobile Allocation Indicates DCS 1 800 frequencies (739, 756, 761, 782, 832). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing Advance Arbitrarily selected but different to default value. Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in hopping mode in the DCS band on cell A. For 710/1 900 MS, 750/1 900 MS: SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier 128 range - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 447, 457, 469, 480, 499, 504, 507 and 510 - EXT-IND "The information element carries the complete BA" For M = 1: Step 0: The MS and SS are using a full rate TCH in the GSM 710 or GSM 750 band, in non-hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 469 Channel description - Channel type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel. - ARFCN Chosen arbitrarily from the PCS 1 900 frequencies allocated to the cell. Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance. PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in the PCS 1 900 band, in non hopping mode on cell B. For M = 2: Step 0: The MS and SS are using a full rate TCH in the PCS 1 900 band, in non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 457 Channel Description - Channel Type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1,2,..63) Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication. - Report Observed Time Difference Shall not be included - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance Cell channel description: GSM 710, GSM 750 frequencies: 447, 457, 471, 482, 489, 498, 501, 508 PCS 1 900 frquencies: 739, 746, 756, 761, 771, 782, 798, 804 Channel Mode IE is not included. Mobile Allocation Indicates PCS 1 900 frequencies (739, 756, 761, 782, 804). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing Advance Arbitrarily selected but different to default value. Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in hopping mode in the PCS band on cell A. For 850/1 900 MS: SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier 128 range - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 137, 147, 159, 207, 217, 227, 237 and 247 - EXT-IND "The information element carries the complete BA" For M = 1: Step 0: The MS and SS are using a full rate TCH in the GSM 850 band, in non-hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 159 Channel description - Channel type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel. - ARFCN Chosen arbitrarily from the PCS 1 900 frequencies allocated to the cell. Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance. PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in the PCS 1 900 band, in non hopping mode on cell B. For M = 2: Step 0: The MS and SS are using a full rate TCH in the PCS 1 900 band, in non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 147 Channel Description - Channel Type TCH/F + ACCHs - Timeslot number Chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1,2,..63) Handover Reference - Value Chosen arbitrarily from the range (0, 1..255) Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication. - Report Observed Time Difference Shall not be included - Synchronization Indication "Non Synchronized". - Normal Cell Indication Ignore out of range timing advance Cell channel description: GSM 850 frequencies: 137, 147, 161, 172, 179, 193, 201, 241 PCS 1 900 frquencies: 739, 746, 756, 761, 771, 782, 798, 804 Channel Mode IE is not included. Mobile Allocation Indicates PCS 1 900 frequencies (739, 756, 761, 782, 804). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing Advance Arbitrarily selected but different to default value. Step 6: x = 650 ms. Step 7: The MS and SS are using a full rate TCH in hopping mode in the DCS band on cell A.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.2.4 Multiband signalling / RR / Handover/ Multiband BCCH / Intracell Handover - Interband Assignment	In case of multi-band networks, an intracell change of channel can be requested by upper layers in order to change the channel type (Directed Retry from a channel belonging to one frequency band to a channel belonging to another frequency band), or it may be initiated by the RR-sublayer for an intra cell and inter-band handover for cells supporting GSM 400, GSM 710, GSM750, GSM 850, GSM 900 and DCS 1 800 frequencies. This change is performed using the channel assignment procedure.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.2.4.1 Dedicated assignment / successful case	This test is only applicable to an MS supporting a TCH.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.2.4.1.1 Conformance requirements	1. Upon receipt of the ASSIGNMENT COMMAND message, the mobile station initiates a local end release of link layer connections, disconnects the physical channels, commands the switching to the assigned channels and initiates the establishment of lower layer connections (this includes the activation of the channels, their connection and the establishment of the main signalling links). 2. MM-messages and CM-messages using SAPI=0 sent from the mobile station to the network can be duplicated by the data link layer in the following case: - a channel change of dedicated channels is required (assignment or handover procedure) and the last layer 2 frame has not been acknowledged by the peer data link layer before the mobile station leaves the old channel; - in this case, the mobile station does not know whether the network has received the message correctly. Therefore, the mobile station has to send the message again after the new dedicated channel is established. 3. The MS shall establish the link with the power level specified in the ASSIGNMENT COMMAND message. - The MS shall confirm the power control level that it is currently employing in the uplink SACCH L1 header. The indicated value shall be the power control level actually used by the mobile for the last burst of the previous SACCH period. 4. The MS shall apply the hopping frequencies specified in ASSIGNMENT COMMAND message in the Mobile Allocation IE or the Frequency List IE at the time of accessing the new channel using the last received Cell Allocation. 5. After receipt of the ASSIGNMENT COMMAND the MS shall perform the assignment and return an ASSIGNMENT COMPLETE without undue delay. References 1, 3, 5 3GPP TS 04.08 / 3GPP TS 44.018, subclause 3.4.3. 2. 3GPP TS 04.08 / 3GPP TS 44.018, subclause 3.1.4.3. 4. 3GPP TS 04.08 / 3GPP TS 44.018, subclause 3.4.3; 3GPP TS 05.08, subclause 4.2. 6. 3GPP TS 04.13, subclause 5.2.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.2.4.2 Test purpose	1. To verify that upon receipt of an ASSIGNMENT COMMAND, the MS switches to the channel defined in the ASSIGNMENT COMMAND, establishes the link and sends an ASSIGNMENT COMPLETE message. This is tested for an MS supporting TCH in the special cases of a transition. NOTE: in all cases the old and the new channel assigned belong to different frequency bands. 1.1 from non-hopping SDCCH in the lower band to hopping TCH/F in the upper band using a different timeslot; 1.2 from hopping TCH/F in the upper band to non-hopping TCH/F in the lower band using a different timeslot; 1.3 from non-hopping TCH/F in the lower band to hopping TCH/F in the upper band using a different timeslot. 1.4 from hopping TCH/F in the upper band to hopping TCH/H in the lower band using a different timeslot; this test purpose is only applicable if the MS supports TCH/H; 1.5 from hopping TCH/H in the lower band to non-hopping TCH/H in the upper band using a different timeslot; this test purpose is only applicable if the MS supports TCH/H; 1.6 from non-hopping TCH/H in the upper band to hopping TCH/F in the lower band using a different timeslot; this test purpose is only applicable if the MS supports TCH/H. 2. To verify that an MS supporting TCH, having received an ASSIGNMENT COMMAND, is able in the case of frequency hopping to decode the Mobile Allocation and Frequency List IEs correctly and applies the specified frequencies using the correct Cell Allocation. 3. To verify that after receipt of the ASSIGNMENT COMMAND the MS returns an ASSIGNMENT COMPLETE without undue delay.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.2.4.3 Method of test	Initial Conditions System Simulator: For 450/900 MS: 1 cell with GSM 450 and GSM 900 frequencies, using a BCCH in the GSM 450 band, default parameters except: BCCH ARFCN =263. System Information 1 Cell Allocation = 259, 263, 267, 271, 275, 279, 283, 291, 10, 20, 34, 45, 52, 66, 76, 114. For 480/900 MS: 1 cell with GSM 480 and GSM 900 frequencies, using a BCCH in the GSM 480 band, default parameters except: BCCH ARFCN =310. System Information 1 Cell Allocation = 306, 310, 314, 318, 322, 326, 332, 338, 10, 20, 34, 45, 52, 66, 76, 114. For 450/1 800 MS: 1 cell with GSM 450 and DCS 1 800 frequencies, using a BCCH in the GSM 450 band, default parameters except: BCCH ARFCN =263. System Information 1 Cell Allocation = 259, 263, 267, 271, 275, 279, 283, 291, 739, 746, 756, 761, 771, 782, 798, 832. For 480/1 800 MS: 1 cell with GSM 480 and DCS 1 800 frequencies, using a BCCH in the GSM 480 band, default parameters except: BCCH ARFCN =310. System Information 1 Cell Allocation = 306, 310, 314, 318, 322, 326, 332, 338, 739, 746, 756, 761, 771, 782, 798, 832. For 900/1 800 MS: 1 cell with GSM and DCS 1 800 frequencies, using a BCCH in the GSM band, default parameters except: BCCH ARFCN =20. System Information 1 Cell Allocation = 10, 20, 34, 45, 52, 66, 76, 114, 739, 746, 756, 761, 771, 782, 798, 832. For 710/1 900 MS, 750/1 900 MS: 1 cell with GSM and PCS 1 900 frequencies, using a BCCH in the GSM band, default parameters except: BCCH ARFCN =457. System Information 1 Cell Allocation = 447, 457, 471, 482, 489, 498, 503, 508, 739, 746, 756, 761, 771, 782, 798, 804. For 850/1 900 MS: 1 cell with GSM and PCS 1 900 frequencies, using a BCCH in the GSM band, default parameters except: BCCH ARFCN =147. System Information 1 Cell Allocation = 137, 147, 161, 172, 179, 193, 203, 241, 739, 746, 756, 761, 771, 782, 798, 804. NOTE: Cell Allocation IE broadcasted in SYSTEM INFORMATION 1 shall be coded with a format so that frequencies belonging to both lower and upper frequency band can be included. Format Identifier of Cell Channel Description IE will thus be Range 1024. Mobile Station: The MS is in the "idle, updated" state with a TMSI allocated. Specific PICS statements: - GSM 450 Band (TSPC_Type_GSM_450_Band) - Standard GSM Band (P-GSM) (TSPC_Type_GSM_P_Band) - Extended GSM Band (E-GSM) (TSPC_Type_GSM_E_Band) - GSM 480 Band (TSPC_Type_GSM_480_Band) - DCS 1800 band (TSPC_Type_DCS_Band) - GSM 750 band (TSPC_Type_GSM_750_Band) - GSM 710 band (TSPC_Type_GSM_710_Band) - at least one half rate service (TSPC_AddInfo_HalfRate) PIXIT statements: - Foreseen Final State of the MS "Idle, updated", with TMSI allocated. Test Procedure The SS pages the MS and allocates an SDCCH. Then three channels are assigned with ASSIGNMENT COMMANDs messages. Each time the MS shall switch to the assigned channel, establish the link and send an ASSIGNMENT COMPLETE message. For an MS not supporting TCH/H, the SS initiates the channel release procedure and the test ends here. For an MS supporting TCH/H, the channel assignment procedure is performed another three times, with half rate channels involved, and again it is checked that the MS correctly completes the procedures, before the SS initiates the channel release procedure. Maximum Duration of Test 60 s. Expected Sequence Step Direction Message Comments 1 SS -> MS PAGING REQUEST TYPE 1 2 MS -> SS CHANNEL REQUEST 3 SS -> MS IMMEDIATE ASSIGNMENT See specific message contents. 4 MS -> SS PAGING RESPONSE 5 SS -> MS ASSIGNMENT COMMAND See specific message contents. 6 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 5. 7 SS -> MS ASSIGNMENT COMMAND See specific message contents. 8 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 7. 9 SS -> MS ASSIGNMENT COMMAND See specific message contents. 10 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 9. A This test part is performed if the MS doesn't support TCH/H (see PICS) A 11 SS -> MS CHANNEL RELEASE The main signalling link is released. B This test part is performed if the MS supports TCH/H (see PICS). B11 SS -> MS ASSIGNMENT COMMAND See specific message contents. B12 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 11. B13 SS -> MS ASSIGNMENT COMMAND See specific message contents. B14 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 13. B15 SS -> MS ASSIGNMENT COMMAND See specific message contents. B16 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 15. B17 SS -> MS CHANNEL RELEASE The main signalling link is released. Specific Message Contents For 450/900 MS: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM 450 part of the list. Step 5 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+1) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Channel Mode - Mode Signalling Mobile Allocation Indicates only GSM 900 frequencies of the CA (broadcast on the BCCH). (10, 20, 45, 52, 66, 114) Starting Time Not included Step 7 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+2) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM 450 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Cell Channel Description Range 1024 format encodes: (271, 275, 279, 283, 291, 10, 20, 34, 45, 52, 66, 76, 114.). Mobile Allocation Not included Starting Time Not included Step 9 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+3) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF Hopping Channel - MAIO Chosen arbitrarily from the set (O, 1 to N-1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63). Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Mobile Allocation Indicates GSM 900 frequencies (10, 45, 114). Starting Time Not included Step 11 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+4) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode Not included unless the Channel Mode allocated in step 9 is incompatible for a Half Rate Channel Type. Frequency list IE Not included Cell Channel Description Range 1024 format encodes: (259, 263, 267, 271, 275, 279, 283, 291, 10, 20, 34, 45, 52, 66, 76, 114). Mobile Allocation Indicates frequencies (259, 263, 267, 271, 275, 279, 283, 291). Starting Time Not included Step 13 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+5) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the BCCH in the GSM 900 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode signalling Frequency list IE Not included Cell Channel Description Not included Mobile Allocation Not included Starting Time not included Step 15 ASSIGNMENT COMMAND: Channel Description - Channel Type TCH/F TDMA offset Chosen arbitrarily - Timeslot Number (N+6) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of GSM 450 frequencies in the Frequency List IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Cell Channel Description Not included Frequency list IE Use Range 128 to encode (259, 263, 267, 271, 275, 279, 283, 291). Mobile Allocation Not included Starting Time Not included For 480/900 MS: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM 480 part of the list. Step 5 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+1) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Channel Mode - Mode Signalling Mobile Allocation Indicates only GSM 900 frequencies of the CA (broadcast on the BCCH). (10, 20, 45, 52, 66, 114) Starting Time Not included Step 7 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+2) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM 480 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Cell Channel Description Range 1024 format encodes: (318, 322, 326, 332, 338, 10, 20, 34, 45, 52, 66, 76, 114.). Mobile Allocation Not included Starting Time Not included Step 9 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+3) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF Hopping Channel - MAIO Chosen arbitrarily from the set (O, 1 to N-1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63). Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Mobile Allocation Indicates GSM 900 frequencies (10, 45, 114). Starting Time Not included Step 11 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+4) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode Not included unless the Channel Mode allocated in step 9 is incompatible for a Half Rate Channel Type. Frequency list IE Not included Cell Channel Description Range 1024 format encodes: (306, 310, 314, 318, 322, 326, 332, 338, 10, 20, 34, 45, 52, 66, 76, 114.). Mobile Allocation Indicates frequencies (306, 310, 314, 318, 322, 326, 332, 338). Starting Time Not included Step 13 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+5) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the BCCH in the GSM 900 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode signalling Frequency list IE Not included Cell Channel Description Not included Mobile Allocation Not included Starting Time not included Step 15 ASSIGNMENT COMMAND: Channel Description - Channel Type TCH/F TDMA offset Chosen arbitrarily - Timeslot Number (N+6) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of GSM 480 frequencies in the Frequency List IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Cell Channel Description Not included Frequency list IE Uses Range 128 to encode (306, 310, 314, 318, 322, 326, 332, 338). Mobile Allocation Not included Starting Time Not included For 450/1 800 MS: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM 450 part of the list. Step 5 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+1) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Channel Mode - Mode Signalling Mobile Allocation Indicates only DCS 1 800 frequencies of the CA (broadcast on the BCCH). (739, 746, 761, 771, 782, 832) Starting Time Not included Step 7 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+2) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM 450 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Cell Channel Description Range 1024 format encodes: (271, 275, 279, 283, 291, 739, 746, 756, 761, 771, 782, 798, 832.). Mobile Allocation Not included Starting Time Not included Step 9 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+3) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF Hopping Channel - MAIO Chosen arbitrarily from the set (O, 1 to N-1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63). Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Mobile Allocation Indicates DCS frequencies (739, 761, 832). Starting Time Not included Step 11 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+4) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode Not included unless the Channel Mode allocated in step 9 is incompatible for a Half Rate Channel Type. Frequency list IE Not included Cell Channel Description Range 1024 format encodes: (259, 263, 267, 271, 275, 279, 283, 291, 739, 746, 756, 761, 771, 782, 798, 832.). Mobile Allocation Indicates frequencies (259, 263, 267, 271, 275, 279, 283, 291). Starting Time Not included Step 13 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+5) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the BCCH in the DCS 1 800 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode signalling Frequency list IE Not included Cell Channel Description Not included Mobile Allocation Not included Starting Time not included Step 15 ASSIGNMENT COMMAND: Channel Description - Channel Type TCH/F TDMA offset Chosen arbitrarily - Timeslot Number (N+6) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of GSM 450 frequencies in the Frequency List IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Cell Channel Description Not included Frequency list IE Use Range 128 to encode (259, 263, 267, 271, 275, 279, 283, 291). Mobile Allocation Not included Starting Time Not included For 480/1 800 MS: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM 480 part of the list. Step 5 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+1) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Channel Mode - Mode Signalling Mobile Allocation Indicates only DCS 1 800 frequencies of the CA (broadcast on the BCCH). (739, 746, 761, 771, 782, 832) Starting Time Not included Step 7 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+2) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM 480 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Cell Channel Description Range 1024 format encodes: (318, 322, 326, 332, 338, 739, 746, 756, 761, 771, 782, 798, 832.). Mobile Allocation Not included Starting Time Not included Step 9 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+3) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF Hopping Channel - MAIO Chosen arbitrarily from the set (O, 1 to N-1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63). Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Mobile Allocation Indicates DCS frequencies (739, 761, 832). Starting Time Not included Step 11 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+4) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode Not included unless the Channel Mode allocated in step 9 is incompatible for a Half Rate Channel Type. Frequency list IE Not included Cell Channel Description Range 1024 format encodes: (306, 310, 314, 318, 322, 326, 332, 338, 739, 746, 756, 761, 771, 782, 798, 832.). Mobile Allocation Indicates frequencies (306, 310, 314, 318, 322, 326, 332, 338). Starting Time Not included Step 13 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+5) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the BCCH in the DCS 1 800 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode signalling Frequency list IE Not included Cell Channel Description Not included Mobile Allocation Not included Starting Time not included Step 15 ASSIGNMENT COMMAND: Channel Description - Channel Type TCH/F TDMA offset Chosen arbitrarily - Timeslot Number (N+6) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of GSM 480 frequencies in the Frequency List IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Cell Channel Description Not included Frequency list IE Use Range 128 to encode (306, 310, 314, 318, 322, 326, 332, 338). Mobile Allocation Not included Starting Time Not included For 900/1 800 MS: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM part of the list. Step 5 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+1) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Channel Mode - Mode Signalling Mobile Allocation Indicates only DCS 1 800 frequencies of the CA (broadcast on the BCCH). (739, 746, 761, 771, 782, 832) Starting Time Not included Step 7 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+2) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Cell Channel Description Range 1024 format encodes: (45, 52, 66, 76, 114, 739, 746, 756, 761, 771, 782, 798, 832.). Mobile Allocation Not included Starting Time Not included Step 9 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+3) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF Hopping Channel - MAIO Chosen arbitrarily from the set (O, 1 to N-1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63). Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Mobile Allocation Indicates DCS frequencies (739, 761, 832). Starting Time Not included Step 11 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+4) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode Not included unless the Channel Mode allocated in step 9 is incompatible for a Half Rate Channel Type. Frequency list IE Not included Cell Channel Description Range 1024 format encodes: (10, 20, 34, 45, 52, 66, 76, 114, 739, 746, 756, 761, 771, 782, 798, 832.). Mobile Allocation Indicates frequencies ( 10, 20, 34, 45, 52, 66, 76, 114). Starting Time Not included Step 13 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+5) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the BCCH in the DCS 1 800 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode signalling Frequency list IE Not included Cell Channel Description Not included Mobile Allocation Not included Starting Time not included Step 15 ASSIGNMENT COMMAND: Channel Description - Channel Type TCH/F TDMA offset Chosen arbitrarily - Timeslot Number (N+6) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of GSM frequencies in the Frequency List IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Cell Channel Description Not included Frequency list IE Uses Bitmap 0 to indicate ( 10, 20, 34, 45, 52, 66, 76, 114). Mobile Allocation Not included Starting Time Not included For 710/1 900 MS, 750/1 900 MS: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM part of the list. Step 5 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+1) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Channel Mode - Mode Signalling Mobile Allocation Indicates only PCS 1 900 frequencies of the CA (broadcast on the BCCH). (739, 746, 761, 771, 782, 804) Starting Time Not included Step 7 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+2) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Cell Channel Description Range 1024 format encodes: (482, 489, 498, 503, 508, 739, 746, 756, 761, 771, 782, 798, 804). Mobile Allocation Not included Starting Time Not included Step 9 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+3) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF Hopping Channel - MAIO Chosen arbitrarily from the set (O, 1 to N-1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63). Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Mobile Allocation Indicates PCS frequencies (739, 761, 804). Starting Time Not included Step 11 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+4) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode Not included unless the Channel Mode allocated in step 9 is incompatible for a Half Rate Channel Type. Frequency list IE Not included Cell Channel Description Range 1024 format encodes: (447, 457, 471, 482, 489, 498, 503, 508, 739, 746, 756, 761, 771, 782, 798, 804). Mobile Allocation Indicates frequencies ( 447, 457, 471, 482, 489, 498, 503, 508). Starting Time Not included Step 13 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+5) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the BCCH in the PCS 1 900 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode Signalling Frequency list IE Not included Cell Channel Description Not included Mobile Allocation Not included Starting Time not included Step 15 ASSIGNMENT COMMAND: Channel Description - Channel Type TCH/F TDMA offset Chosen arbitrarily - Timeslot Number (N+6) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of GSM frequencies in the Frequency List IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Cell Channel Description Not included Frequency list IE Uses 128 range to indicate ( 447, 457, 471, 482, 489, 498, 503, 508). Mobile Allocation Not included Starting Time Not included For 850/1 900 MS: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM part of the list. Step 5 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+1) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Channel Mode - Mode Signalling Mobile Allocation Indicates only PCS 1 900 frequencies of the CA (broadcast on the BCCH). (739, 746, 761, 771, 782, 804) Starting Time Not included Step 7 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+2) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the common BCCH in the GSM part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Cell Channel Description Range 1024 format encodes: (172, 179, 193, 203, 241, 739, 746, 756, 761, 771, 782, 798, 804). Mobile Allocation Not included Starting Time Not included Step 9 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/F - Timeslot Number (N+3) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF Hopping Channel - MAIO Chosen arbitrarily from the set (O, 1 to N-1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63). Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Frequency list IE Not Included Mobile Allocation Indicates PCS frequencies (739, 761, 804). Starting Time Not included Step 11 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+4) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode Not included unless the Channel Mode allocated in step 9 is incompatible for a Half Rate Channel Type. Frequency list IE Not included Cell Channel Description Range 1024 format encodes: (137, 147, 161, 172, 179, 193, 203, 241, 739, 746, 756, 761, 771, 782, 798, 804). Mobile Allocation Indicates frequencies ( 137, 147, 161, 172, 179, 193, 203, 241). Starting Time Not included Step 13 ASSIGNMENT COMMAND: Channel Description - Channel Type and TDMA offset TCH/H - Timeslot Number (N+5) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN chosen arbitrarily from CA of the BCCH in the PCS 1 900 part of the list. Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode Signalling Frequency list IE Not included Cell Channel Description Not included Mobile Allocation Not included Starting Time not included Step 15 ASSIGNMENT COMMAND: Channel Description - Channel Type TCH/F TDMA offset Chosen arbitrarily - Timeslot Number (N+6) mod 8 - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of GSM frequencies in the Frequency List IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Channel Mode A non-signalling mode arbitrarily selected from the full rate capabilities declared for the MS Cell Channel Description Not included Frequency list IE Uses 128 range to indicate ( 137, 147, 161, 172, 179, 193, 203, 241). Mobile Allocation Not included Starting Time Not included
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.3 Multiband signalling / RR / Measurement reporting	This test applies to any multiband MSs supporting simultaneous multiband operation.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.3.1 Conformance requirements	The MS shall continuously send MEASUREMENT REPORT messages on every SACCH blocks and the measurement valid indication shall be set to valid (0) within the second block at the latest. After 20 s the values in the MEASUREMENT REPORT message shall contain measurement results for up to the 6 strongest BCCH carriers among those with known and allowed NCC part of BSIC on which the mobile is asked to report. For a multi band MS the number of neighbour cells, for each frequency band supported, which shall be included is indicated by the parameter MULTIBAND_REPORTING. References 3GPP TS 04.08 / 3GPP TS 44.018 subclause 3.4.1.2. 3GPP TS 05.08 subclause 8.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.3.2 Test purpose	To test that, when the SS gives information about neighbouring cells, the MS reports the appropriate results and correctly orders the BA list made from System Information 5 and System Information 5ter.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.2.3.3 Method of test	Initial Conditions System Simulator: For 450/900 MS: 8 cells with the following settings: Transmitter Level NCC BCC ARFCN Cell identity Serving, S1 ‑60 1 3 259 0001H Neighbour, N1 ‑85 1 5 002 0002H Neighbour, N2 ‑79 1 7 261 0003H Neighbour, N3 ‑75 1 1 263 0004H Neighbour, N4 ‑55 1 3 088 0005H Neighbour, N5 ‑50 1 5 274 0006H Neighbour, N6 ‑45 1 7 114 0007H Neighbour, N7 ‑40 1 1 278 0008H For 480/900 MS: 8 cells with the following settings: Transmitter Level NCC BCC ARFCN Cell identity Serving, S1 ‑60 1 3 306 0001H Neighbour, N1 ‑85 1 5 002 0002H Neighbour, N2 ‑79 1 7 308 0003H Neighbour, N3 ‑75 1 1 310 0004H Neighbour, N4 ‑55 1 3 088 0005H Neighbour, N5 ‑50 1 5 321 0006H Neighbour, N6 ‑45 1 7 114 0007H Neighbour, N7 ‑40 1 1 325 0008H For 450/1 800 MS: 8 cells with the following settings: Transmitter Level NCC BCC ARFCN Cell identity Serving, S1 ‑60 1 3 259 0001H Neighbour, N1 ‑85 1 5 520 0002H Neighbour, N2 ‑79 1 7 261 0003H Neighbour, N3 ‑75 1 1 263 0004H Neighbour, N4 ‑55 1 3 780 0005H Neighbour, N5 ‑50 1 5 274 0006H Neighbour, N6 ‑45 1 7 880 0007H Neighbour, N7 ‑40 1 1 278 0008H For 480/1 800 MS: 8 cells with the following settings: Transmitter Level NCC BCC ARFCN Cell identity Serving, S1 ‑60 1 3 306 0001H Neighbour, N1 ‑85 1 5 520 0002H Neighbour, N2 ‑79 1 7 308 0003H Neighbour, N3 ‑75 1 1 310 0004H Neighbour, N4 ‑55 1 3 780 0005H Neighbour, N5 ‑50 1 5 321 0006H Neighbour, N6 ‑45 1 7 880 0007H Neighbour, N7 ‑40 1 1 325 0008H For 900/1 800 MS: 8 cells with the following settings: Transmitter Level NCC BCC ARFCN Cell Identity Serving, S1 ‑60 1 3 002 0001H Neighbour, N1 ‑85 1 5 520 0002H Neighbour, N2 ‑79 1 7 014 0003H Neighbour, N3 ‑75 1 1 020 0004H Neighbour, N4 ‑55 1 3 780 0005H Neighbour, N5 ‑50 1 5 032 0006H Neighbour, N6 ‑45 1 7 880 0007H Neighbour, N7 ‑40 1 1 044 0008H For 710/1 900 MS, 750/1 900 MS: 8 cells with the following settings: Transmitter Level NCC BCC ARFCN Cell Identity Serving, S1 ‑60 1 3 439 0001H Neighbour, N1 ‑85 1 5 520 0002H Neighbour, N2 ‑79 1 7 451 0003H Neighbour, N3 ‑75 1 1 457 0004H Neighbour, N4 ‑55 1 3 780 0005H Neighbour, N5 ‑50 1 5 469 0006H Neighbour, N6 ‑45 1 7 805 0007H Neighbour, N7 ‑40 1 1 481 0008H For 850/1 900 MS: 8 cells with the following settings: Transmitter Level NCC BCC ARFCN Cell Identity Serving, S1 ‑60 1 3 129 0001H Neighbour, N1 ‑85 1 5 520 0002H Neighbour, N2 ‑79 1 7 141 0003H Neighbour, N3 ‑75 1 1 147 0004H Neighbour, N4 ‑55 1 3 780 0005H Neighbour, N5 ‑50 1 5 159 0006H Neighbour, N6 ‑45 1 7 805 0007H Neighbour, N7 ‑40 1 1 171 0008H With the exception of the Cell Allocation, the rest of the parameters for all eight cells are the same as the default settings and default SYSTEM INFORMATION TYPE 1, 2 and 4 message contents for cell A. The Cell Allocation for the serving cell is the same as the default setting for cell A. The Cell Allocations for the neighbour cells need have only one entry, consisting of the ARFCN of that cell's BCCH. Mobile Station: The MS is in the active state of a call (U10). Specific PICS statements: - GSM 450 Band (TSPC_Type_GSM_450_Band) - Standard GSM Band (P-GSM) (TSPC_Type_GSM_P_Band) - Extended GSM Band (E-GSM) (TSPC_Type_GSM_E_Band) - GSM 480 Band (TSPC_Type_GSM_480_Band) - DCS 1800 band (TSPC_Type_DCS_Band) - GSM 750 band (TSPC_Type_GSM_750_Band) - GSM 710 band (TSPC_Type_GSM_710_Band) PIXIT statements: - Foreseen Final State of the MS Active state of a call (U10). Test Procedure This test procedure is performed three times. With the MS having a call in progress, the SS sends SYSTEM INFORMATION TYPE 5, 5ter & 6 on the SACCH. All 8 of the BCCHs "on air" are indicated in the BA. The MS shall send MEASUREMENT REPORTs back to the SS, and it shall be indicated in these that measurement results for the 6 strongest carriers, on which the mobile is asked to report (indicated by the parameter MULTIBAND_REPORTING), have been obtained. Maximum Duration of Test 5 minutes, including 1 minute for any necessary operator actions. Expected Sequence This sequence is performed for execution counter, k = 1, 2, 3. Since SYSTEM INFORMATION TYPE 5, SYSTEM INFORMATION TYPE 5ter, SYSTEM INFORMATION TYPE 6 and MEASUREMENT REPORT are sent continuously, a table is not applicable in this test. The interval between 2 successive Layer 2 frames containing MEASUREMENT REPORTs shall not exceed one Layer 2 frame. Specific Message Contents For 450/900 MS: SYSTEM INFORMATION TYPE 2ter: Information Element value/remark As defaults except: Neighbour Cells Description 2 Multiband Reporting k=1, 3: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. k=2: Normal reporting of six strongest cells, irrespective of the band used. SYSTEM INFORMATION TYPE 3: Information Element value/remark as default except: SI 3 rest octets - SI 2ter indicator System Information 2ter is available - Early Classmark Sending Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 5: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5. Neighbour Cells Description - Format Identifier k=1, 2: Range 128 k=3: Bit map 0 - BCCH Allocation Sequence 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 261, 263, 274, 278 k=3: ARFCN 2, 88, 114 - EXT IND Information Element carries the complete BA. SYSTEM INFORMATION TYPE 5ter: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5ter. - Neighbour Cells Description 2 - Multiband reporting k=1, 3: Normal reporting of six strongest cells, irrespective of the band used k=2: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. - Format notation Range 512 - BA_IND 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 2, 88, 114 k=3: ARFCN 261, 263, 274, 278 MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA-used 1 DTX-used DTX was not used RXLEV-FULL-SERVING-CELL See note 1 RXLEV-SUB-SERVING-CELL See note 1 MEAS-VALID See note 3 RXQUAL-FULL-SERVING-CELL See note 1 RXQUAL-SUB-SERVING-CELL See note 1 NO-NCELL-M 6 neighbour cell measurement results RXLEV-NCELL‑1 See note 1 BCCH-FREQ-NCELL‑1 See note 2 BSIC-NCELL‑1 Corresponds to that of BCCH-FREQ-NCELL‑1 RXLEV-NCELL‑2 See note 1 BCCH-FREQ-NCELL‑2 See note 2 BSIC-NCELL‑2 Corresponds to that of BCCH-FREQ-NCELL‑2 RXLEV-NCELL‑3 See note 1 BCCH-FREQ-NCELL‑3 See note 2 BSIC-NCELL‑3 Corresponds to that of BCCH-FREQ-NCELL‑3 RXLEV-NCELL‑4 See note 1 BCCH-FREQ-NCELL‑4 See note 2 BSIC-NCELL‑4 Corresponds to that of BCCH-FREQ-NCELL‑4 RXLEV-NCELL‑5 See note 1 BCCH-FREQ-NCELL‑5 See note 2 BSIC-NCELL‑5 Corresponds to that of BCCH-FREQ-NCELL‑5 RXLEV-NCELL‑6 See note 1 BCCH-FREQ-NCELL‑6 See note 2 BSIC-NCELL‑6 Corresponds to that of BCCH-FREQ-NCELL‑6 NOTE 1: These actual values are not checked. NOTE 2: k=1; report on ARFCNs 261, 263, 274, 278, 88, 114 ie: BSIC-NCELL values of 0, 1, 2, 3, 5 and 6 but not 4 k=2; report on ARFCNs 263, 274, 278, 2, 88, 114 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 k=3; report on ARFCNs 88, 114, 261, 263, 274, 278 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 NOTE 3: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest. For 480/900 MS: SYSTEM INFORMATION TYPE 2ter: Information Element value/remark As defaults except: Neighbour Cells Description 2 Multiband Reporting k=1, 3: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. k=2: Normal reporting of six strongest cells, irrespective of the band used. SYSTEM INFORMATION TYPE 3: Information Element value/remark as default except: SI 3 rest octets - SI 2ter indicator System Information 2ter is available - Early Classmark Sending Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 5: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5. Neighbour Cells Description - Format Identifier k=1, 2: Range 128 k=3: Bit map 0 - BCCH Allocation Sequence 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 308, 310, 321, 325 k=3: ARFCN 2, 88, 114 - EXT IND Information Element carries the complete BA. SYSTEM INFORMATION TYPE 5ter: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5ter. - Neighbour Cells Description 2 - Multiband reporting k=1, 3: Normal reporting of six strongest cells, irrespective of the band used k=2: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. - Format notation Range 512 - BA_IND 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 2, 88, 114 k=3: ARFCN 308, 310, 321, 325 MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA-used 1 DTX-used DTX was not used RXLEV-FULL-SERVING-CELL See note 1 RXLEV-SUB-SERVING-CELL See note 1 MEAS-VALID See note 3 RXQUAL-FULL-SERVING-CELL See note 1 RXQUAL-SUB-SERVING-CELL See note 1 NO-NCELL-M 6 neighbour cell measurement results RXLEV-NCELL‑1 See note 1 BCCH-FREQ-NCELL‑1 See note 2 BSIC-NCELL‑1 Corresponds to that of BCCH-FREQ-NCELL‑1 RXLEV-NCELL‑2 See note 1 BCCH-FREQ-NCELL‑2 See note 2 BSIC-NCELL‑2 Corresponds to that of BCCH-FREQ-NCELL‑2 RXLEV-NCELL‑3 See note 1 BCCH-FREQ-NCELL‑3 See note 2 BSIC-NCELL‑3 Corresponds to that of BCCH-FREQ-NCELL‑3 RXLEV-NCELL‑4 See note 1 BCCH-FREQ-NCELL‑4 See note 2 BSIC-NCELL‑4 Corresponds to that of BCCH-FREQ-NCELL‑4 RXLEV-NCELL‑5 See note 1 BCCH-FREQ-NCELL‑5 See note 2 BSIC-NCELL‑5 Corresponds to that of BCCH-FREQ-NCELL‑5 RXLEV-NCELL‑6 See note 1 BCCH-FREQ-NCELL‑6 See note 2 BSIC-NCELL‑6 Corresponds to that of BCCH-FREQ-NCELL‑6 NOTE 1: These actual values are not checked. NOTE 2: k=1; report on ARFCNs 308, 310, 321, 325, 88, 114 ie: BSIC-NCELL values of 0, 1, 2, 3, 5 and 6 but not 4 k=2; report on ARFCNs 310, 321, 325, 2, 88, 114 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 k=3; report on ARFCNs 88, 114, 308, 310, 321, 325 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 NOTE 3: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest. For 450/1 800 MS: SYSTEM INFORMATION TYPE 2ter: Information Element value/remark As defaults except: Neighbour Cells Description 2 Multiband Reporting k=1, 3: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. k=2: Normal reporting of six strongest cells, irrespective of the band used. SYSTEM INFORMATION TYPE 3: Information Element value/remark as default except: SI 3 rest octets - SI 2ter indicator System Information 2ter is available - Early Classmark Sending Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 5: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5. Neighbour Cells Description - Format Identifier k=1, 2: Range 128 k=3: Range 512 - BCCH Allocation Sequence 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 261, 263, 274, 278 k=3: ARFCN 520, 780, 880 - EXT IND Information Element carries the complete BA. SYSTEM INFORMATION TYPE 5ter: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5ter. - Neighbour Cells Description 2 - Multiband reporting k=1, 3: Normal reporting of six strongest cells, irrespective of the band used k=2: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. - Format notation Range 512 - BA_IND 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 520, 780, 880 k=3: ARFCN 261, 263, 274, 278 MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA-used 1 DTX-used DTX was not used RXLEV-FULL-SERVING-CELL See note 1 RXLEV-SUB-SERVING-CELL See note 1 MEAS-VALID See note 3 RXQUAL-FULL-SERVING-CELL See note 1 RXQUAL-SUB-SERVING-CELL See note 1 NO-NCELL-M 6 neighbour cell measurement results RXLEV-NCELL‑1 See note 1 BCCH-FREQ-NCELL‑1 See note 2 BSIC-NCELL‑1 Corresponds to that of BCCH-FREQ-NCELL‑1 RXLEV-NCELL‑2 See note 1 BCCH-FREQ-NCELL‑2 See note 2 BSIC-NCELL‑2 Corresponds to that of BCCH-FREQ-NCELL‑2 RXLEV-NCELL‑3 See note 1 BCCH-FREQ-NCELL‑3 See note 2 BSIC-NCELL‑3 Corresponds to that of BCCH-FREQ-NCELL‑3 RXLEV-NCELL‑4 See note 1 BCCH-FREQ-NCELL‑4 See note 2 BSIC-NCELL‑4 Corresponds to that of BCCH-FREQ-NCELL‑4 RXLEV-NCELL‑5 See note 1 BCCH-FREQ-NCELL‑5 See note 2 BSIC-NCELL‑5 Corresponds to that of BCCH-FREQ-NCELL‑5 RXLEV-NCELL‑6 See note 1 BCCH-FREQ-NCELL‑6 See note 2 BSIC-NCELL‑6 Corresponds to that of BCCH-FREQ-NCELL‑6 NOTE 1: These actual values are not checked. NOTE 2: k=1; report on ARFCNs 261, 263, 274, 278, 780, 880 ie: BSIC-NCELL values of 0, 1, 2, 3, 5 and 6 but not 4 k=2; report on ARFCNs 263, 274, 278, 520, 780, 880 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 k=3; report on ARFCNs 780, 880, 261, 263, 274, 278 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 NOTE 3: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest. For 480/1 800 MS: SYSTEM INFORMATION TYPE 2ter: Information Element value/remark As defaults except: Neighbour Cells Description 2 Multiband Reporting k=1, 3: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. k=2: Normal reporting of six strongest cells, irrespective of the band used. SYSTEM INFORMATION TYPE 3: Information Element value/remark as default except: SI 3 rest octets - SI 2ter indicator System Information 2ter is available - Early Classmark Sending Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 5: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5. Neighbour Cells Description - Format Identifier k=1, 2: Range 128 k=3: Range 512 - BCCH Allocation Sequence 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 308, 310, 321, 325 k=3: ARFCN 520, 780, 880 - EXT IND Information Element carries the complete BA. SYSTEM INFORMATION TYPE 5ter: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5ter. - Neighbour Cells Description 2 - Multiband reporting k=1, 3: Normal reporting of six strongest cells, irrespective of the band used k=2: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. - Format notation Range 512 - BA_IND 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 520, 780, 880 k=3: ARFCN 308, 310, 321, 325 MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA-used 1 DTX-used DTX was not used RXLEV-FULL-SERVING-CELL See note 1 RXLEV-SUB-SERVING-CELL See note 1 MEAS-VALID See note 3 RXQUAL-FULL-SERVING-CELL See note 1 RXQUAL-SUB-SERVING-CELL See note 1 NO-NCELL-M 6 neighbour cell measurement results RXLEV-NCELL‑1 See note 1 BCCH-FREQ-NCELL‑1 See note 2 BSIC-NCELL‑1 Corresponds to that of BCCH-FREQ-NCELL‑1 RXLEV-NCELL‑2 See note 1 BCCH-FREQ-NCELL‑2 See note 2 BSIC-NCELL‑2 Corresponds to that of BCCH-FREQ-NCELL‑2 RXLEV-NCELL‑3 See note 1 BCCH-FREQ-NCELL‑3 See note 2 BSIC-NCELL‑3 Corresponds to that of BCCH-FREQ-NCELL‑3 RXLEV-NCELL‑4 See note 1 BCCH-FREQ-NCELL‑4 See note 2 BSIC-NCELL‑4 Corresponds to that of BCCH-FREQ-NCELL‑4 RXLEV-NCELL‑5 See note 1 BCCH-FREQ-NCELL‑5 See note 2 BSIC-NCELL‑5 Corresponds to that of BCCH-FREQ-NCELL‑5 RXLEV-NCELL‑6 See note 1 BCCH-FREQ-NCELL‑6 See note 2 BSIC-NCELL‑6 Corresponds to that of BCCH-FREQ-NCELL‑6 NOTE 1: These actual values are not checked. NOTE 2: k=1; report on ARFCNs 308, 310, 321, 325, 780, 880 ie: BSIC-NCELL values of 0, 1, 2, 3, 5 and 6 but not 4 k=2; report on ARFCNs 310, 321, 325, 520, 780, 880 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 k=3; report on ARFCNs 780, 880, 308, 310, 321, 325 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 NOTE 3: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest. For 900/1 800 MS: SYSTEM INFORMATION TYPE 2ter: Information Element value/remark As defaults except: Neighbour Cells Description 2 Multiband Reporting k=1, 3: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. k=2: Normal reporting of six strongest cells, irrespective of the band used. SYSTEM INFORMATION TYPE 3: Information Element value/remark as default except: SI 3 rest octets - SI 2ter indicator System Information 2ter is available - Early Classmark Sending Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 5: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5. Neighbour Cells Description - Format Identifier k=1, 2: Bit map 0 k=3: Range 512 - BCCH Allocation Sequence 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 14, 20, 32, 44 k=3: ARFCN 520, 780, 880 - EXT IND Information Element carries the complete BA. SYSTEM INFORMATION TYPE 5ter: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5ter. - Neighbour Cells Description 2 - Multiband reporting k=1, 3: Normal reporting of six strongest cells, irrespective of the band used k=2: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. - Format notation Range 512 - BA_IND 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 520, 780, 880 k=3: ARFCN 14, 20, 32, 44 MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA-used 1 DTX-used DTX was not used RXLEV-FULL-SERVING-CELL See note 1 RXLEV-SUB-SERVING-CELL See note 1 MEAS-VALID See note 3 RXQUAL-FULL-SERVING-CELL See note 1 RXQUAL-SUB-SERVING-CELL See note 1 NO-NCELL-M 6 neighbour cell measurement results RXLEV-NCELL‑1 See note 1 BCCH-FREQ-NCELL‑1 See note 2 BSIC-NCELL‑1 Corresponds to that of BCCH-FREQ-NCELL‑1 RXLEV-NCELL‑2 See note 1 BCCH-FREQ-NCELL‑2 See note 2 BSIC-NCELL‑2 Corresponds to that of BCCH-FREQ-NCELL‑2 RXLEV-NCELL‑3 See note 1 BCCH-FREQ-NCELL‑3 See note 2 BSIC-NCELL‑3 Corresponds to that of BCCH-FREQ-NCELL‑3 RXLEV-NCELL‑4 See note 1 BCCH-FREQ-NCELL‑4 See note 2 BSIC-NCELL‑4 Corresponds to that of BCCH-FREQ-NCELL‑4 RXLEV-NCELL‑5 See note 1 BCCH-FREQ-NCELL‑5 See note 2 BSIC-NCELL‑5 Corresponds to that of BCCH-FREQ-NCELL‑5 RXLEV-NCELL‑6 See note 1 BCCH-FREQ-NCELL‑6 See note 2 BSIC-NCELL‑6 Corresponds to that of BCCH-FREQ-NCELL‑6 NOTE 1: These actual values are not checked. NOTE 2: k=1; report on ARFCNs 14, 20, 32, 44, 780, 880 ie: BSIC-NCELL values of 0, 1, 2, 3, 5 and 6 but not 4 k=2; report on ARFCNs 20, 32, 44, 520, 780, 880 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 k=3; report on ARFCNs 780, 880, 14, 20, 32, 44 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 NOTE 3: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest. For 710/1 900 MS, 750/1 900 MS: SYSTEM INFORMATION TYPE 2ter: Information Element value/remark As defaults except: Neighbour Cells Description 2 Multiband Reporting k=1, 3: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. k=2: Normal reporting of six strongest cells, irrespective of the band used. SYSTEM INFORMATION TYPE 3: Information Element value/remark as default except: SI 3 rest octets - SI 2ter indicator System Information 2ter is available - Early Classmark Sending Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 5: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5. Neighbour Cells Description - Format Identifier k=1, 2: 128 range k=3: Range 512 - BCCH Allocation Sequence 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 451, 457, 469, 481 k=3: ARFCN 520, 780, 805 - EXT IND Information Element carries the complete BA. SYSTEM INFORMATION TYPE 5ter: Information Element Value/remark Protocol Discriminator RR management Message Type Sys Info 5ter. - Neighbour Cells Description 2 - Multiband reporting k=1, 3: Normal reporting of six strongest cells, irrespective of the band used k=2: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. - Format notation Range 512 - BA_IND 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 520, 780, 805 k=3: ARFCN 451, 457, 469, 481 MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA-used 1 DTX-used DTX was not used RXLEV-FULL-SERVING-CELL See note 1 RXLEV-SUB-SERVING-CELL See note 1 MEAS-VALID See note 3 RXQUAL-FULL-SERVING-CELL See note 1 RXQUAL-SUB-SERVING-CELL See note 1 NO-NCELL-M 6 neighbour cell measurement results RXLEV-NCELL‑1 See note 1 BCCH-FREQ-NCELL‑1 See note 2 BSIC-NCELL‑1 Corresponds to that of BCCH-FREQ-NCELL‑1 RXLEV-NCELL‑2 See note 1 BCCH-FREQ-NCELL‑2 See note 2 BSIC-NCELL‑2 Corresponds to that of BCCH-FREQ-NCELL‑2 RXLEV-NCELL‑3 See note 1 BCCH-FREQ-NCELL‑3 See note 2 BSIC-NCELL‑3 Corresponds to that of BCCH-FREQ-NCELL‑3 RXLEV-NCELL‑4 See note 1 BCCH-FREQ-NCELL‑4 See note 2 BSIC-NCELL‑4 Corresponds to that of BCCH-FREQ-NCELL‑4 RXLEV-NCELL‑5 See note 1 BCCH-FREQ-NCELL‑5 See note 2 BSIC-NCELL‑5 Corresponds to that of BCCH-FREQ-NCELL‑5 RXLEV-NCELL‑6 See note 1 BCCH-FREQ-NCELL‑6 See note 2 BSIC-NCELL‑6 Corresponds to that of BCCH-FREQ-NCELL‑6 NOTE 1: These actual values are not checked. NOTE 2: k=1; report on ARFCNs 451, 457, 469, 481, 780, 805 ie: BSIC-NCELL values of 0, 1, 2, 3, 5 and 6 but not 4 k=2; report on ARFCNs 457, 469, 481, 520, 780, 805 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 k=3; report on ARFCNs 780, 805, 451, 457, 469, 481 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 NOTE 3: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest. For 850/1 900 MS: SYSTEM INFORMATION TYPE 2ter: Information Element value/remark As defaults except: Neighbour Cells Description 2 Multiband Reporting k=1, 3: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. k=2: Normal reporting of six strongest cells, irrespective of the band used. SYSTEM INFORMATION TYPE 3: Information Element value/remark as default except: SI 3 rest octets - SI 2ter indicator System Information 2ter is available - Early Classmark Sending Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 5: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5. Neighbour Cells Description - Format Identifier k=1, 2: 128 range k=3: Range 512 - BCCH Allocation Sequence 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 141, 147, 159, 171 k=3: ARFCN 520, 780, 805 - EXT IND Information Element carries the complete BA. SYSTEM INFORMATION TYPE 5ter: Information Element Value/remark Protocol Discriminator RR management Message Type Sys Info 5ter. - Neighbour Cells Description 2 - Multiband reporting k=1, 3: Normal reporting of six strongest cells, irrespective of the band used k=2: Minimum 3 cells reported from each band supported excluding the frequency band of the serving cell. - Format notation Range 512 - BA_IND 1 - BCCH Allocation ARFCN k=1, 2: ARFCN 520, 780, 805 k=3: ARFCN 141, 147, 159, 171 MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA-used 1 DTX-used DTX was not used RXLEV-FULL-SERVING-CELL See note 1 RXLEV-SUB-SERVING-CELL See note 1 MEAS-VALID See note 3 RXQUAL-FULL-SERVING-CELL See note 1 RXQUAL-SUB-SERVING-CELL See note 1 NO-NCELL-M 6 neighbour cell measurement results RXLEV-NCELL‑1 See note 1 BCCH-FREQ-NCELL‑1 See note 2 BSIC-NCELL‑1 Corresponds to that of BCCH-FREQ-NCELL‑1 RXLEV-NCELL‑2 See note 1 BCCH-FREQ-NCELL‑2 See note 2 BSIC-NCELL‑2 Corresponds to that of BCCH-FREQ-NCELL‑2 RXLEV-NCELL‑3 See note 1 BCCH-FREQ-NCELL‑3 See note 2 BSIC-NCELL‑3 Corresponds to that of BCCH-FREQ-NCELL‑3 RXLEV-NCELL‑4 See note 1 BCCH-FREQ-NCELL‑4 See note 2 BSIC-NCELL‑4 Corresponds to that of BCCH-FREQ-NCELL‑4 RXLEV-NCELL‑5 See note 1 BCCH-FREQ-NCELL‑5 See note 2 BSIC-NCELL‑5 Corresponds to that of BCCH-FREQ-NCELL‑5 RXLEV-NCELL‑6 See note 1 BCCH-FREQ-NCELL‑6 See note 2 BSIC-NCELL‑6 Corresponds to that of BCCH-FREQ-NCELL‑6 NOTE 1: These actual values are not checked. NOTE 2: k=1; report on ARFCNs 141, 147, 159, 171, 780, 805 ie: BSIC-NCELL values of 0, 1, 2, 3, 5 and 6 but not 4 k=2; report on ARFCNs 147, 159, 171, 520, 780, 805 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 k=3; report on ARFCNs 780, 805, 141, 147, 159, 171 ie: BSIC-NCELL values of 1, 2, 3, 4, 5 and 6 but not 0 NOTE 3: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.3 Multiband signalling / MM
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.3.1 Multiband signalling / MM / Location updating	This procedure is used to register the MS in the network. If it is not performed correctly, no call can be established.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.3.1.1 Location updating / accepted	This test is applicable for any Multiband MSs supporting simultaneous multiband operation.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.3.1.1.1 Conformance requirement	If the network accepts a location updating from the Mobile, the Mobile Station shall, after receiving a Location updating Accept message, store the received LAI, stop timer T3210,reset the attempt counter and set the update status in the SIM to updated. A mobile station that makes use of System information 2ter (to choose correct cell for location updating) , shallnot ignore this message if it has a L2 pseudolength different from 18. Reference(s) 3GPP TS 04.08 / 3GPP TS 24.008 subclause 4.4.4.6. 26.11.3.1 1.2 Test purpose To test the behaviour of the MS if the network accepts the location updating of the MS, irrespective of frequency band used. To test the behaviour of the MS if it receives a System information 2ter with L2pseudolength different from 18 .
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.3.1.1.3 Method of test	Initial conditions: System Simulator: Two cells, A and B, belonging to different location areas with location area identification a and b of the same PLMN and using frequencies from different frequency bands. IMSI attach/detach is allowed in both cells. The T3212 time-out value is 1/10 hour in both cells. Mobile Station: The MS has a valid TMSI, CKSN (CKSN1). It is "idle updated" on cell A. Specific PICS statements: - GSM 450 Band (TSPC_Type_GSM_450_Band) - Standard GSM Band (P-GSM) (TSPC_Type_GSM_P_Band) - Extended GSM Band (E-GSM) (TSPC_Type_GSM_E_Band) - GSM 480 Band (TSPC_Type_GSM_480_Band) - DCS 1800 band (TSPC_Type_DCS_Band) - GSM 750 band (TSPC_Type_GSM_750_Band) - GSM 710 band (TSPC_Type_GSM_710_Band) PIXIT statements: - Foreseen final state of the MS The MS has a valid TMSI and CKSN. It is "idle, updated" on cell A. Test Procedure The MS is made to select cell B. A normal location updating is performed in cell B. The channel is released. The MS is made to select cell A. A normal location updating is performed in cell A. The LOCATION UPDATING ACCEPT message contains neither IMSI nor TMSI. Maximum duration of test 3 minutes. Expected sequence Step Direction Message Comments 1 SS The RF level of cell A is lowered but kept suitable , and the RF level of cell B is set higher, in order that the MS can choose cell B as a better cell than cell A , if it correctly read the information broadcasted on the BCCH. The following message are received and sent on cell B . 2 MS -> SS CHANNEL REQUEST "Establishment cause": Location updating. 3 SS -> MS IMMEDIATE ASSIGNMENT 4 MS -> SS LOCATION UPDATING REQUEST "location updating type" = normal, "CKSN" = CKSN1, "location area identification" = a and "mobile identity" = TMSI. 5 SS -> MS UA(LOCATION UPDATING REQUEST) 6 MS -> SS CLASSMARK CHANGE Indicating the frequency and power capability of the MS 7 SS -> MS LOCATION UPDATING ACC "Mobile identity" IE not included. 8 SS -> MS CHANNEL RELEASE After the sending of this message, the SS waits for the disconnection of the main signalling link. 9 SS The RF level of cell B is lowered but kept suitable , and the RF level of cell A is set higher, in order that the MS can choose cell A as a better cell than cell B , if it correctly read the information broadcasted on the BCCH. The following message are received and sent on cell A . 10 MS -> SS CHANNEL REQUEST "Establishment cause": Location updating 11 SS -> MS IMMEDIATE ASSIGNMENT 12 MS -> SS LOCATION UPDATING REQUEST "location updating type" = normal, "CKSN" = CKSN1, "location area identification" = b and "mobile identity" = TMSI. 13 SS -> MS UA(LOCATION UPDATING REQUEST) 14 MS -> SS CLASSMARK CHANGE Indicating the frequency and power capability of the MS 15 SS -> MS LOCATION UPDATING ACC "Mobile identity" IE not included 16 SS -> MS CHANNEL RELEASE After the sending of this message, the SS waits for the disconnection of the main signalling link. Specific message contents: SYSTEM INFORMATION 2TER of CELL B Information element Value/remark as default except: L2 pseudolength = 0 LOCATION UPDATING REQUEST Information element Value/remark as default except: Mobile station Classmark 1 - ES IND Controlled Early Classmark Sending option is implemented - RF power capability corresponding to frequency band used CLASSMARK CHANGE Information element Value/remark as default except: Mobile station Classmark 2 -ES IND Controlled Early Classmark Sending is implemented. -RF power capability corresponding to the frequency band in use Additional MS Classmark information -Band 1 (P-GSM) supported According to PICS statement -Band 2 (E-GSM) supported According to PICS statement - R-Band (R-GSM) supported According to PICS statement - ER-Band (ER-GSM) supported According to PICS statement -Band 3 (DCS) supported According to PICS statement, Note , Note -GSM 400 Band supported According to PICS statement -Associated radio capability Corresponding to GSM 400 band -Associated radio capability Corresponding to GSM 900 band -Associated radio capability Corresponding to DCS 1 800 band - R-Band Associated radio capability Corresponding to R-GSM 900 band - GSM 710 Associated radio capability Corresponding to GSM 710 band - GSM 750 Associated radio capability Corresponding to GSM 750 band - GSM 850 Associated radio capability Corresponding to GSM 850 band - PCS 1 900 Associated radio capability Corresponding to PCS 1 900 band NOTE: Due to shared radio frequency channel numbers between GSM 1800 and GSM 1900, the mobile should indicate support for either GSM 1800 band OR GSM 1900 band
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.3.1.2 Location updating / periodic	This test is applicable for any Multiband MSs supporting simultaneous multiband operation.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.3.1.2.1 Conformance requirement	1) If the Mobile Station is in service state NO CELL AVAILABLE, LIMITED SERVICE, PLMN SEARCH or PLMN SEARCH-NORMAL SERVICE when the timer expires the location updating procedure is delayed until this service state is left. 2) The T3212 time-out value shall not be changed in the NO CELL AVAILABLE, LIMITED SERVICE, PLMN SEARCH and PLMN SEARCH-NORMAL SERVICE states. 3) If the selected cell is in the location area where the mobile station is registered and IMSI ATTACH is not required and timer T3212 has not expired, then the state is NORMAL SERVICE. References 3GPP TS 04.08 / 3GPP TS 24.008 subclauses 4.4.2 and 4.2.1.1.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.3.1.2.2 Test purpose	1) To check that if the PLU timer expires while the MS is out of coverage, the MS informs the network of its return to coverage, irrespective of frequency band used. 2) To check that the PLU timer is not disturbed by cells of forbidden PLMNs. 3) To check that if the PLU timer does not expire while out of coverage and if the mobile returns to the LA where it is updated, the mobile does not inform the network of its return to coverage.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.3.1.2.3 Method of test	Initial conditions System Simulator: Two cells, A and B, belonging to the same location area but using different frequency bands. Cell A is switched on and cell B is switched off. T3212 is set to 12 minutes on cell A and cell B. IMSI attach is allowed in both cells. Mobile Station: The MS has a valid TMSI. It is "idle updated" on cell A. Specific PICS statements: - GSM 450 Band (TSPC_Type_GSM_450_Band) - Standard GSM Band (P-GSM) (TSPC_Type_GSM_P_Band) - Extended GSM Band (E-GSM) (TSPC_Type_GSM_E_Band) - GSM 480 Band (TSPC_Type_GSM_480_Band) - DCS 1800 band (TSPC_Type_DCS_Band) - GSM 750 band (TSPC_Type_GSM_750_Band) - GSM 710 band (TSPC_Type_GSM_710_Band) PIXIT statements: - Foreseen final state of the MS The MS is "idle updated" on cell A. Test procedure The MS is deactivated. The MS is then activated and placed in automatic network selection mode. It performs IMSI attach. 1 minute after the end of the IMSI attach procedure, cell A is switched off. 8 minutes after the end of the IMSI attach procedure, cell B is switched on. The MS shall not location update on cell B before 11,75 minutes after the end of the IMSI attach procedure. The MS shall perform a periodic location update on cell B between 11,75 minutes and 12,25 minutes after the end of the IMSI attach procedure. 3 minutes after the end of the periodic location updating procedure, cell B is switched off. 14 minutes after the end of the periodic location updating procedure, cell A is switched on. The MS shall perform a location update on cell A before 17 minutes after the end of the periodic location updating procedure. Maximum duration of test 35 minutes. Expected sequence Step Direction Message Comments 1 MS The MS is activated in automatic network selection mode 2 MS -> SS CHANNEL REQUEST 3 SS -> MS IMMEDIATE ASSIGNMENT 4 MS -> SS LOCATION UPDATING REQUEST "location updating type": IMSI attach 5 SS -> MS UA(LOCATION UPDATING REQUEST) 6 MS -> SS CLASSMARK CHANGE Indicating the frequency and power capability of the MS 7 SS -> MS LOCATION UPDATING ACC 8 SS -> MS CHANNEL RELEASE After the sending of this message, the SS waits for the disconnection of the main signalling link. 9 SS 1 minute after step 6, cell A is switched off 10 SS 8 minutes after step 6, cell B is switched on 11 MS -> SS CHANNEL REQUEST This message shall be sent on cell B by the MS between 11 minutes 45s and 12 minutes 15s after step 6. 12 SS -> MS IMMEDIATE ASSIGNMENT 13 MS -> SS LOCATION UPDATING REQUEST "location updating type": periodic updating 14 SS -> MS UA(LOCATION UPDATING REQUEST) 15 MS -> SS CLASSMARK CHANGE Indicating the frequency and power capability of the MS 16 SS -> MS LOCATION UPDATING ACC 17 SS -> MS CHANNEL RELEASE After the sending of this message, the SS waits for the disconnection of the main signalling link. 18 SS 3 minutes after step 13, cell B is switched off 19 SS 14 minutes after step 13, cell A is switched on. 20 MS -> SS CHANNEL REQUEST This message shall be sent on cell A by the MS before 17 minutes after step 13. 21 SS -> MS IMMEDIATE ASSIGNMENT 22 MS -> SS LOCATION UPDATING REQUEST "Location updating type" = periodic 23 SS -> MS UA(LOCATION UPDATING REQUEST) 24 MS -> SS CLASSMARK CHANGE Indicating the frequency and power capability of the MS 25 SS -> MS LOCATION UPDATING ACC 26 SS -> MS CHANNEL RELEASE After the sending of this message, the SS waits for the disconnection of the main signalling link. Specific message contents LOCATION UPDATING REQUEST Information element Value/remark as default except: Mobile station Classmark 1 - ES IND Controlled Early Classmark Sending option is implemented - RF power capability corresponding to frequency band used CLASSMARK CHANGE Information element Value/remark as default except: Mobile station Classmark 2 -ES IND Controlled Early Classmark Sending is implemented. -RF power capability corresponding to the frequency band in use Additional MS Classmark information -Band 1 (P-GSM) supported According to PICS statement -Band 2 (E-GSM) supported According to PICS statement -Band 3 (DCS) supported According to PICS statement, Note -GSM 400 Band supported According to PICS statement - R-Band (R-GSM) supported According to PICS statement - ER-Band (ER-GSM) supported According to PICS statement -Associated radio capability Corresponding to GSM 400 band -Associated radio capability Corresponding to GSM 900 band -Associated radio capability Corresponding to DCS 1 800 band - R-Band Associated radio capability Corresponding to R-GSM 900 band - GSM 710 Associated radio capability Corresponding to GSM 710 band - GSM 750 Associated radio capability Corresponding to GSM 750 band - GSM 850 Associated radio capability Corresponding to GSM 850 band - PCS 1 900 Associated radio capability Corresponding to PCS 1 900 band NOTE: Due to shared radio frequency channel numbers between GSM 1800 and GSM 1900, the mobile should indicate support for either GSM 1800 band OR GSM 1900 band
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.4 Multiband signalling / CC	Reserved for future use.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.5 Multiband signalling / Structured procedures	These tests applies only to multiband mobile stations.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.5.1 Multiband signalling / Structured procedures / MS originated call / early assignment
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.5.1.1 Conformance requirements	1) An MS in MM state "idle, updated" and in RR idle mode, when made to initiate a call, if it provides a human interface, shall display the dialled number. 2) An MS in MM state "idle, updated" and in RR idle mode, when made to initiate a call for a selected teleservice that is supported by the MS, shall start to initiate the immediate assignment procedure by sending a CHANNEL REQUEST message with correct establishment cause. 3) After the initial message the multiband MS shall send a CLASSMARK CHANGE message in the uplink block followed direct after the Layer 2 UA message sent from the network. The CLASSMARK CHANGE message shall contain information elements Mobile Station Classmark 2 and Mobile Station Classmark 3. 4) Subsequently after establishment of an MM connection, the MS shall send a SETUP message with correct parameters. 5) The call control entity of the Mobile Station in the "call initiated" state, in the "mobile originating call proceeding" state or in the "call delivered" state, shall, upon receipt of a CONNECT message: - attach the user connection to the radio path; - return a CONNECT ACKNOWLEDGE message. 6) Subsequently when the network initiates call clearing by sending a DISCONNECT message, the MS shall proceed to release the call by sending a RELEASE message. 7) On receipt of a CHANNEL RELEASE message, the MS shall disconnect the main signalling link. References Conformance requirement 1: 3GPP TS 02.07. Conformance requirement 2: 3GPP TS 04.08 / 3GPP TS 44.018 subclause 3.3.1.1. Conformance requirement 3: 3GPP TS 04.08 / 3GPP TS 44.018 subclause 3.3.1.1.4. Conformance requirement 4: 3GPP TS 04.08 / 3GPP TS 24.008 subclause 5.2.1.1. Conformance requirement 5: 3GPP TS 04.08 / 3GPP TS 24.008 subclause 5.2.1.6. Conformance requirement 6: 3GPP TS 04.08 / 3GPP TS 24.008 subclause 5.4.4. Conformance requirement 7: 3GPP TS 04.08 / 3GPP TS 44.018, subclause 3.4.13.1.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.5.1.2 Test purpose	1) To verify that the MS in MM state "idle, updated" with a TMSI assigned, when made to initiate a call for a selected teleservice that is supported by the MS as declared in a PICS/PIXIT statement, displays the dialled number in the way described in a PICS/PIXIT statement. 2) To verify that the MS in MM state "idle, updated" and in RR idle mode, with a TMSI assigned, when made to initiate a call for a selected teleservice that is supported by the MS as declared in a PICS/PIXIT statement, starts to initiate an immediate assignment procedure by sending the CHANNEL REQUEST message with correct establishment cause. 3) To verify that a multiband MS is able to send an early CLASSMARK CHANGE on the DCCH uplink. 4) To verify that subsequently after receipt of an IMMEDIATE ASSIGNMENT message allocating an SDCCH, after completion of establishment of the main signalling link, after having sent a CM SERVICE REQUEST message, after having successfully performed the authentication and cipher mode setting procedures, the MS sends a SETUP message with correct parameters. 5) To verify that subsequently, after receipt of a CALL PROCEEDING message and of an HANDOVER COMMAND message allocating an appropriate TCH in another band, after having completed the traffic channel early assignment procedure by replying with the HANDOVER COMPLETE message, after receipt of an ALERTING message and a CONNECT message, the MS returns a CONNECT ACKNOWLEDGE message. To verify that subsequently the MS has attached the user connection to the radio path. (This is checked by verifying that there is a point in time after transmission of the first L2 frame containing the (complete) CONNECT message, where the MS is sending appropriate speech or data frames whenever it does not have to transmit or acknowledge an I frame on layer 2 of the FACCH.) 6) To verify that subsequently upon the network initiating call clearing by sending a DISCONNECT message, the MS proceed to release the call with RELEASE. 7) To verify that subsequently, on receipt of a RELEASE COMPLETE message followed by a CHANNEL RELEASE message, the MS disconnects the main signalling link.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.5.1.3 Method of test	Initial Conditions System Simulator: For 450/900 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 450 cell with default parameters. Cell B is a GSM 900 cell with default parameters. For 480/900 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 480 cell with default parameters. Cell B is a GSM 900 cell with default parameters. For 450/1800 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 450 cell with default parameters. Cell B is a DCS 1 800 cell with default parameters. For 480/1800 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 480 cell with default parameters. Cell B is a DCS 1 800 cell with default parameters. For 900/1 800 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 900 cell with default parameters. Cell B is a DCS 1 800 cell with default parameters. For 710/1900 MS, 750/1900 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 710 or GSM 750 cell with default parameters. Cell B is a PCS 1 900 cell with default parameters. For 850/1900 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 850 cell with default parameters. Cell B is a PCS 1 900 cell with default parameters. Mobile Station: The MS is in MM-state idle, updated on cell A with valid TMSI. Specific PICS statements: - GSM 450 Band (TSPC_Type_GSM_450_Band) - Standard GSM Band (P-GSM) (TSPC_Type_GSM_P_Band) - Extended GSM Band (E-GSM) (TSPC_Type_GSM_E_Band) - GSM 480 Band (TSPC_Type_GSM_480_Band) - DCS 1800 band (TSPC_Type_DCS_Band) - GSM 750 band (TSPC_Type_GSM_750_Band) - GSM 710 band (TSPC_Type_GSM_710_Band) PIXIT statements: - Way to indicate mobile originated alerting. -. Way to display the called number Foreseen Final State of the MS The MS is in MM-state idle, updated on cell B with valid TMSI. Test procedure The following test is performed for one teleservice supported by the MS: - A teleservice is selected that is supported by the MS; if the MS supports speech, the selected teleservice is speech. If necessary, the MS is configured for that teleservice. - The MS is made to initiate a call on any frequency band supported by the MS. The call is established with early assignment. Having reached the active state, the call is cleared by the SS. Maximum Duration of Test 1 minute. Expected Sequence Step Direction Message Comments 1 MS The "called number" is entered 2 MS -> SS CHANNEL REQUEST Establishment cause is "originating call and the network does not set the NECI bit to 1". 3 SS -> MS IMMEDIATE ASSIGNMENT 4 MS -> SS CM SERVICE REQUEST Message is contained in SABM. Indicating early sending of CLASSMARK CHANGE 5 SS -> MS UA (CM SERVICE REQUEST) 6 MS -> SS CLASSMARK CHANGE Indicating the frequency and power capability of the MS 7 SS -> MS AUTHENTICATION REQUEST 8 MS -> SS AUTHENTICATION RESP SRES specifies correct value. 9 SS -> MS CIPHERING MODE COMMAND SS starts deciphering after sending the message. 10 MS -> SS CIPHERING MODE COMPLETE Shall be sent enciphered. All following messages shall be sent enciphered. 11 SS SS starts ciphering. 12 MS -> SS SETUP 13 SS -> MS CALL PROCEEDING 14 SS -> MS HANDOVER COMMAND See specific message contents below. 15 MS -> SS HANDOVER ACCESS May or may not be sent. The sending of the MS -> SS HANDOVER ACCESS HANDOVER ACCESS is optional as indicated in MS -> SS HANDOVER ACCESS HANDOVER COMMAND. MS -> SS HANDOVER ACCESS Handover Reference is included in the HANDOVER COMMAND. Before completion of the 4 access bursts on the new DCCH, additional access bursts may also be sent on the SACCH 16 MS -> SS SABM Sent without information field 17 SS -> MS UA 18 MS -> SS HANDOVER COMPLETE 19 SS -> MS ALERTING 20 MS Depending on the PIXIT, an alerting indication is given 21 SS -> MS CONNECT 22 MS -> SS CONNECT ACKNOWLEDGE 23 MS The appropriate bearer channel is through connected in both directions. 24 SS -> MS DISCONNECT 25 MS -> SS RELEASE 26 SS -> MS RELEASE COMPLETE 27 SS -> MS CHANNEL RELEASE The main signalling link is released. Specific Message Contents: For 450/900 MS: CM SERVICE REQUEST as default except: Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE as default except: Information element Value/remark Protocol Discriminator RR management Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 1 (P-GSM) supported According to PICS statement - Band 2 (E-GSM) supported According to PICS statement - R-Band (R-GSM) supported According to PICS statement - ER-Band (ER-GSM) supported According to PICS statement - GSM 400 Band supported According to PICS statement - GSM 400 Associated radio capability Corresponding to GSM 450 band - Associated radio capability 1 Corresponding to GSM 900 band - R-Band Associated radio capability Corresponding to R-GSM 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 20 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 50 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is optional Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the First Channel appropriate for the selected bearer service For 480/900 MS: CM SERVICE REQUEST as default except: Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE as default except: Information element Value/remark Protocol Discriminator RR management Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 1 (P-GSM) supported According to PICS statement - Band 2 (E-GSM) supported According to PICS statement - GSM 400 Band supported According to PICS statement - R-Band (R-GSM) supported According to PICS statement - ER-Band (ER-GSM) supported According to PICS statement - GSM 400 Associated radio capability Corresponding to GSM 400 band - Associated radio capability 1 Corresponding to GSM 900 band - R-Band Associated radio capability Corresponding to R-GSM 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 20 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 50 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is optional Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the First Channel appropriate for the selected bearer service For 450/1 800 MS: CM SERVICE REQUEST as default except: Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE as default except: Information element Value/remark Protocol Discriminator RR management Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 3 (DCS 1 800) supported According to PICS statement - GSM 400 Band supported According to PICS statement - GSM 400 Associated radio capability Corresponding to GSM 450 band - Associated radio capability 2 Corresponding to DCS 1 800 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is optional Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the First Channel appropriate for the selected bearer service For 480/1 800 MS: CM SERVICE REQUEST as default except: Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE as default except: Information element Value/remark Protocol Discriminator RR management Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 3 (DCS 1 800) supported According to PICS statement - GSM 400 Band supported According to PICS statement - GSM 400 Associated radio capability Corresponding to GSM 480 band - Associated radio capability 2 Corresponding to DCS 1 800 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is optional Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the First Channel appropriate for the selected bearer service For 900/1 800 MS: CM SERVICE REQUEST as default except: Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE as default except: Information element Value/remark Protocol Discriminator RR management Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 1 (P-GSM) supported According to PICS statement - Band 2 (E-GSM) supported According to PICS statement - Band 3 (DCS 1 800) supported According to PICS statement - R-Band (R-GSM) supported According to PICS statement - ER-Band (ER-GSM) supported According to PICS statement - Associated radio capability 1 Corresponding to GSM 900 band - Associated radio capability 2 Corresponding to DCS 1 800 band - R-Band Associated radio capability Corresponding to R-GSM 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is optional Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the First Channel appropriate for the selected bearer service For 710/1 900 MS, 750/1 900 MS: CM SERVICE REQUEST as default except: Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE as default except: Information element Value/remark Protocol Discriminator RR management Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - GSM 710 Associated radio capability Corresponding to GSM 710 band - GSM 750 Associated radio capability Corresponding to GSM 750 band - PCS 1 900 Associated radio capability Corresponding to PCS 1 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is optional Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the First Channel appropriate for the selected bearer service For 850/1 900 MS: CM SERVICE REQUEST as default except: Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE as default except: Information element Value/remark Protocol Discriminator RR management Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - GSM 850 Associated radio capability Corresponding to GSM 850 - PCS 1 900 Associated radio capability Corresponding to PCS 1 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is optional Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the First Channel appropriate for the selected bearer service
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.5.2 Structured procedures / MS terminated call / late assignment
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.5.2.1 Conformance requirement	1) After the initial message the multiband MS shall send a CLASSMARK CHANGE message in the uplink block followed direct after Layer 2 UA message sent from the network. 2) The MS shall acknowledge the SETUP message with a CALL CONFIRMED message, if compatibility checking was successful, the MS is not busy, and the user does not refuse the call. 3) The MS on acceptance of the call sends a CONNECT, otherwise user alerting is initiated. 4) The MS indicates acceptance of a call by sending a CONNECT message. 5) HANDOVER COMMAND is answered by HANDOVER COMPLETE. 6) For speech calls: The mobile station shall attach the user connection at latest when sending the connect message, except if there is no compatible radio resource available at this time. In this case the attachment shall be delayed until such a resource becomes available. For data calls: The mobile station shall attach the user connection when receiving the CONNECT ACKNOWLEDGE message from the network. Requirement reference: Conformance requirement 1: 3GPP TS 04.08 / 3GPP TS 44.018, subclause 3.3.1.1.4. Conformance requirements 2, 3, 4: 3GPP TS 04.08 / 3GPP TS 24.008, subclauses 5.2.2.3.1, 5.2.2.3.2 and 5.2.2.5. Conformance requirement 5: 3GPP TS 04.08 / 3GPP TS 44.018, subclause 3.4.4.3. Conformance requirement 6: 3GPP TS 04.08 / 3GPP TS 24.008, subclause 5.2.2.9.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.5.2.2 Test purpose	1) To verify that a multiband MS is able to send an early CLASSMARK CHANGE message on the DCCH uplink. 2) To verify that the MS in "Idle, Updated" state with a TMSI assigned, after being paged by the network on the correct paging subchannel, after initiating the immediate assignment procedure by sending the CHANNEL REQUEST message, after receipt of an IMMEDIATE ASSIGNMENT message allocating an SDCCH, after having established the main signalling link, after having sent a PAGING RESPONSE message, after having performed successful authentication and cipher mode setting procedures, after receipt of a SETUP message containing a signal information element, returns a CALL CONFIRMED message followed by: - an ALERTING message; - or a CONNECT message. 3) To verify that in the situation of test purpose 1, if the MS sends an ALERTING message, the MS generates an alerting indication in the way described in a PIXIT statement. 4) To verify that subsequently the MS, if it had not yet sent a CONNECT message, upon acceptance of the call, sends a CONNECT message. 5) To verify that subsequently after receipt of an HANDOVER COMMAND ALLOCATING A tch IN another band, the MS sends an HANDOVER COMPLETE message. 6) To verify that subsequently the MS: - if the call is a speech call: after sending the HANDOVER COMPLETE message has through connected the TCH in both directions (this is checked by verifying that after transmission of the first L2 frame containing the (complete) HANDOVER COMPLETE message, the MS is sending appropriate speech or data frames whenever it does not have to transmit or acknowledge an I frame on layer 2 of the FACCH). - if the call is a data call: after receipt of a subsequent CONNECT ACKNOWLEDGE message through connects the TCH in both directions (this is checked by verifying that there is a point in time after transmission of the first L2 frame containing the (complete) CONNECT ACKNOWLEDGE message, where the MS is sending appropriate speech or data frames whenever it does not have to transmit or acknowledge an I frame on layer 2 of the FACCH).
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.5.2.3 Method of test	Initial Conditions System Simulator: For 450/900 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 450 cell with default parameters. Cell B is a GSM 900 cell with default parameters. For 480/900 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 480 cell with default parameters. Cell B is a GSM 900 cell with default parameters. For 450/1 800 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 450 cell with default parameters. Cell B is a DCS 1 800 cell with default parameters. For 480/1 800 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 480 cell with default parameters. Cell B is a DCS 1 800 cell with default parameters. For 900/1 800 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 900 cell with default parameters. Cell B is a DCS 1 800 cell with default parameters. For 710/1 900 MS, 750/1 900 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 710 or GSM 750 cell with default parameters. Cell B is a PCS 1 900 cell with default parameters. For 850/1 900 MS: 2 cells, A and B, with same LAI. Cell A is a GSM 850 cell with default parameters. Cell B is a PCS 1 900 cell with default parameters. Mobile Station: The MS is in MM-state idle, updated on cell A with valid TMSI. Specific PICS statements: - GSM 450 Band (TSPC_Type_GSM_450_Band) - Standard GSM Band (P-GSM) (TSPC_Type_GSM_P_Band) - Extended GSM Band (E-GSM) (TSPC_Type_GSM_E_Band) - GSM 480 Band (TSPC_Type_GSM_480_Band) - DCS 1800 band (TSPC_Type_DCS_Band) - GSM 750 band (TSPC_Type_GSM_750_Band) - GSM 710 band (TSPC_Type_GSM_710_Band) PIXIT statements: - Way to indicate mobile originated alerting. -. Way to display the called number Foreseen Final State of the MS The MS is in MM-state idle, updated on cell B with valid TMSI. Test procedure A teleservice is selected that is supported by the MS; if the MS supports speech, the selected teleservice is speech. If necessary, the MS is configured for that teleservice. The MS is paged on any frequency band supported by the MS and a MT call is established with late assignment (after CONNECT). The release of the call is initiated by the MS. Maximum Duration of Test 40 s. Expected Sequence Step Direction Message Comments 1 SS -> MS PAGING REQUEST TYPE 1 Sent on the correct paging subchannel 2 MS -> SS CHANNEL REQUEST Establishment cause indicates "answer to paging". 3 SS -> MS IMMEDIATE ASSIGNMENT 4 MS -> SS PAGING RESPONSE Message is contained in SABM. 5 SS -> MS UA (PAGING RESPONSE) 6 MS -> SS CLASSMARK CHANGE Indicating the frequency and power capability of the MS 7 SS -> MS AUTHENTICATION REQUEST 8 MS -> SS AUTHENTICATION RESP SRES specifies correct value. 9 SS -> MS CIPHERING MODE COMMAND SS starts deciphering after sending the message. 10 MS -> SS CIPHERING MODE COMPLETE Shall be sent enciphered. All following messages shall be sent enciphered. 11 SS SS starts ciphering. 12 SS -> MS SETUP Message contains the signal IE. 13 MS -> SS CALL CONFIRMED A14 MS -> SS CONNECT B14 MS -> SS ALERTING B15 MS An alerting indication as defined in an PIXIT statement is given by the MS. B16 MS The MS is made to accept the call in the way described in a PIXIT statement. B18 MS -> SS CONNECT 19 SS -> MS HANDOVER COMMAND See specific message contents below. 20 MS -> SS HANDOVER ACCESS Handover Reference is included in the 21 MS -> SS HANDOVER ACCESS HANDOVER COMMAND. 22 MS -> SS HANDOVER ACCESS 23 MS -> SS HANDOVER ACCESS Before completion of the 4 access bursts on the new DCCH, additional access bursts may also be sent on the SACCH 24 MS -> SS SABM Sent without information field 25 SS -> MS UA 26 MS -> SS HANDOVER COMPLETE 27 MS If the call is a speech call, the TCH shall be through connected in both directions. 28 SS -> MS CONNECT ACKNOWLEDGE 29 MS If the call is a data call, the MS shall through connect the TCH in both directions 30 MS The MS is made to release the call. 31 MS -> SS DISCONNECT 32 SS -> MS RELEASE 33 MS -> SS RELEASE COMPLETE 34 SS -> MS CHANNEL RELEASE The main signalling link is released. Specific Message Contents: For 450/900 MS: PAGING RESPONSE Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE Information element Value/remark Protocol Discriminator RR management Mobile station Classmark - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 1 (P-GSM) supported According to PICS statement - Band 2 (E-GSM) supported According to PICS statement - GSM 400 Band supported According to PICS statement - R-Band (R-GSM) supported According to PICS statement - ER-Band (ER-GSM) supported According to PICS statement - GSM 400 Associated radio capability Corresponding to GSM 450 band - Associated radio capability 1 Corresponding to GSM 900 band - R-Band Associated radio capability Corresponding to R-GSM 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 20 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 50 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is mandatory. Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the first channel appropriate for the selected bearer service For 480/900 MS: PAGING RESPONSE Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE Information element Value/remark Protocol Discriminator RR management Mobile station Classmark - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 1 (P-GSM) supported According to PICS statement - Band 2 (E-GSM) supported According to PICS statement - GSM 400 Band supported According to PICS statement - R-Band (R-GSM) supported According to PICS statement - ER-Band (ER-GSM) supported According to PICS statement - GSM 400 Associated radio capability Corresponding to GSM 480 band - Associated radio capability 1 Corresponding to GSM 900 band - R-Band Associated radio capability Corresponding to R-GSM 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 20 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 50 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is mandatory. Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the first channel appropriate for the selected bearer service For 450/1 800 MS: PAGING RESPONSE Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE Information element Value/remark Protocol Discriminator RR management Mobile station Classmark - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 3 (DCS 1 800) supported According to PICS statement - GSM 400 Band supported According to PICS statement - GSM 400 Associated radio capability Corresponding to GSM 450 band - Associated radio capability 2 Corresponding to DCS 1 800 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is mandatory. Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the first channel appropriate for the selected bearer service For 480/1 800 MS: PAGING RESPONSE Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE Information element Value/remark Protocol Discriminator RR management Mobile station Classmark - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 3 (DCS 1 800) supported According to PICS statement - GSM 400 Band supported According to PICS statement - GSM 400 Associated radio capability Corresponding to GSM 480 band - Associated radio capability 2 Corresponding to DCS 1 800 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is mandatory. Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the first channel appropriate for the selected bearer service For 900/1 800 MS: PAGING RESPONSE Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE Information element Value/remark Protocol Discriminator RR management Mobile station Classmark - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - Band 1 (P-GSM) supported According to PICS statement - Band 2 (E-GSM) supported According to PICS statement - Band 3 (DCS 1 800) supported According to PICS statement - R-Band (R-GSM) supported According to PICS statement - ER-Band (ER-GSM) supported According to PICS statement - Associated radio capability 1 Corresponding to GSM 900 band - Associated radio capability 2 Corresponding to DCS 1 800 band - R-Band Associated radio capability Corresponding to R-GSM 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is mandatory. Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the first channel appropriate for the selected bearer service For 710/1 900 MS, 750/1 900 MS: PAGING RESPONSE Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE Information element Value/remark Protocol Discriminator RR management Mobile station Classmark - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - GSM 710 Associated radio capability Corresponding to GSM 710 band - GSM 750 Associated radio capability Corresponding to GSM 750 band - PCS 1 900 Associated radio capability Corresponding to PCS 1 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is mandatory. Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the first channel appropriate for the selected bearer service For 850/1 900 MS: PAGING RESPONSE Information element Value/remark Mobile station Classmark 2 - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use CLASSMARK CHANGE Information element Value/remark Protocol Discriminator RR management Mobile station Classmark - ES IND Shall indicate early autonomous sending of CLASSMARK CHANGE - RF power capability corresponding to the frequency band in use Additional MS Classmark information - GSM 850 Associated radio capability Corresponding to GSM 850 band - PCS 1 900 Associated radio capability Corresponding to PCS 1 900 band HANDOVER COMMAND Information element Value/remark Protocol Discriminator RR management Cell Description - NCC 1 - BCC 5 - BCCH Carrier Number 590 Channel description - Channel type TCH/F + ACCH's - Timeslot number Arbitrary value - Training sequence code Chosen arbitrarily - Hopping Single RF channel - ARFCN 650 Handover Reference Chosen arbitrarily from the range (0,1...255) Power Command & Access type - Power level Arbitrarily chosen, but different to the one already in use and within the range supported by the MS. - Access type control Sending of HANDOVER ACCESS is mandatory. Synchronization Indication pre-synchronized; ROT=0; NCI=0. Timing Advance same as in IMMEDIATE ASSIGNMENT Mode of the first channel appropriate for the selected bearer service
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.11.6 Multiband signalling / Default messages contents	Default SYSTEM INFORMATION The following parameters shall be coded into the system information messages. Parameters shall be coded according to 3GPP TS 04.08 / 3GPP TS 44.018. SYSTEM INFORMATION TYPE 2bis, SYSTEM INFORMATION TYPE 5bis, SYSTEM INFORMATION TYPE 7 and SYSTEM INFORMATION TYPE 8 messages are not used. For 450/900 MS: SYSTEM INFORMATION TYPE 1 Information Element Value/remark Cell channel description For Cell A - Format identifier Range 128 - Cell Allocation ARFCN ARFCN 263, 267, 275 and 279 For Cell B - Format identifier Bit map 0 - Cell Allocation ARFCN ARFCN 20, 30, 50 and 70 RACH control parameters see below SI1 rest octets see below SYSTEM INFORMATION TYPE 2 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 261, 263, 282, 284, 287, 290, 293 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Bit map 0 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 - EXT-IND "This IE carries the complete BA" NCC permitted see below RACH control parameters see below SYSTEM INFORMATION TYPE 2ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 1024 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 For Cell B - Format notation Range 128 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 261, 263, 282, 284, 287, 290, 293 SI 2ter rest octets see below SYSTEM INFORMATION TYPE 3 Information Element Value/remark Cell identity see below Location Area Identification see below Control Channel Description see below Cell options see below Cell selection parameters see below RACH control parameters see below SI3 rest octets SI 2ter Indicator System Information 2ter is available Early Sending Classmark Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 4 Information Element Value/remark Location Area Identification see below Cell selection parameters see below RACH control parameters see below CBCH Channel Description see below CBCH Mobile Allocation see below SI4 rest octets see below SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 261, 263, 282, 284, 287, 290, 293 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Bit map 0 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 - EXT-IND This IE carries the complete BA SYSTEM INFORMATION TYPE 5ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 1024 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 For Cell B - Format notation Range 128 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 261, 263, 282, 284, 287, 290, 293 SYSTEM INFORMATION TYPE 6 Information Element Value/remark Cell identity see below Location Area Identification see below Cell options see below NCC permitted see below Common contents of information elements in SYSTEM INFORMATION TYPE 1 to 6 messages. CBCH Channel Description Not present CBCH Mobile Allocation Not present Cell identity CI VALUE 0001H for cell A, 0002H for cell B Cell options Power Control Indicator power control indicator is not set DTX Indicator MS shall not use DTX RADIO LINK TIME-OUT 8 SACCH blocks Cell selection parameters CELL RESELECT HYSTERESIS 12 dB MS-TXPWR-MAX-CCH Minimum level RXLEV-ACCESS-MIN Minimum level ACS There are no additional cell parameters included in SI7 and SI8 NECI New establishment cause not supported Control Channel Description ATT No Attach/Detach BS-AG-BLKS-RES 0 blocks reserved CCCH-CONF Combined CCCH/SDCCH BS-PA-MFRMS 5 multiframes T3212 Infinite L2 pseudo length SI 1 21 SI 2 22 SI 2ter 18 SI 3 18 SI 4 12 Location Area Identification MCC 001 decimal MNC 01 decimal LAC 0001H Message Type SI 1 00011001 SI 2 00011010 SI 2ter 00000011 SI 3 00011011 SI 4 00011100 SI 5 00011101 SI 5ter 00000110 SI 6 00011110 NCC permitted 00000010 RACH control parameters MAX RETRANS Max 1 retrans TX-INTEGER 5 slots used CELL BAR ACCESS Not barred CALL RE-ESTABLISHMENT Not Allowed EMERGENCY CALL Allowed ACCESS CONTROL CLASS None Barred (0...9, 11...15) SI 1 rest octets Not used (all bits are set to spare) SI 2 rest octets Not used (all bits are set to spare) SI 2ter rest octets Not used (all bits are set to spare) SI 4 rest octets Not used (all bits are set to spare) Default settings for cell A Downlink input level 63 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 263 Default settings for cell B Downlink input level 53 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 20 For 480/900 MS: SYSTEM INFORMATION TYPE 1 Information Element Value/remark Cell channel description For Cell A - Format identifier Range 128 - Cell Allocation ARFCN ARFCN 310, 315, 322, 326 For Cell B - Format identifier Bit map 0 - Cell Allocation ARFCN ARFCN 20, 30, 50 and 70 RACH control parameters see below SI1 rest octets see below SYSTEM INFORMATION TYPE 2 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 308, 310, 329, 331, 334, 337, 340 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Bit map 0 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 - EXT-IND "This IE carries the complete BA" NCC permitted see below RACH control parameters see below SYSTEM INFORMATION TYPE 2ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Bit map 0 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 For Cell B - Format notation Range 128 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 308, 310, 329, 331, 334, 337, 340 SI 2ter rest octets see below SYSTEM INFORMATION TYPE 3 Information Element Value/remark Cell identity see below Location Area Identification see below Control Channel Description see below Cell options see below Cell selection parameters see below RACH control parameters see below SI3 rest octets SI 2ter Indicator System Information 2ter is available Early Sending Classmark Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 4 Information Element Value/remark Location Area Identification see below Cell selection parameters see below RACH control parameters see below CBCH Channel Description see below CBCH Mobile Allocation see below SI4 rest octets see below SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 308, 310, 329, 331, 334, 337, 340 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Bit map 0 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 - EXT-IND This IE carries the complete BA SYSTEM INFORMATION TYPE 5ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 1024 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 For Cell B - Format notation Range 128 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 308, 310, 329, 331, 334, 337, 340 SYSTEM INFORMATION TYPE 6 Information Element Value/remark Cell identity see below Location Area Identification see below Cell options see below NCC permitted see below Common contents of information elements in SYSTEM INFORMATION TYPE 1 to 6 messages. CBCH Channel Description Not present CBCH Mobile Allocation Not present Cell identity CI VALUE 0001H for cell A, 0002H for cell B Cell options Power Control Indicator power control indicator is not set DTX Indicator MS shall not use DTX RADIO LINK TIME-OUT 8 SACCH blocks Cell selection parameters CELL RESELECT HYSTERESIS 12 dB MS-TXPWR-MAX-CCH Minimum level RXLEV-ACCESS-MIN Minimum level ACS There are no additional cell parameters included in SI7 and SI8 NECI New establishment cause not supported Control Channel Description ATT No Attach/Detach BS-AG-BLKS-RES 0 blocks reserved CCCH-CONF Combined CCCH/SDCCH BS-PA-MFRMS 5 multiframes T3212 Infinite L2 pseudo length SI 1 21 SI 2 22 SI 2ter 18 SI 3 18 SI 4 12 Location Area Identification MCC 001 decimal MNC 01 decimal LAC 0001H Message Type SI 1 00011001 SI 2 00011010 SI 2ter 00000011 SI 3 00011011 SI 4 00011100 SI 5 00011101 SI 5ter 00000110 SI 6 00011110 NCC permitted 00000010 RACH control parameters MAX RETRANS Max 1 retrans TX-INTEGER 5 slots used CELL BAR ACCESS Not barred CALL RE-ESTABLISHMENT Not Allowed EMERGENCY CALL Allowed ACCESS CONTROL CLASS None Barred (0...9, 11...15) SI 1 rest octets Not used (all bits are set to spare) SI 2 rest octets Not used (all bits are set to spare) SI 2ter rest octets Not used (all bits are set to spare) SI 4 rest octets Not used (all bits are set to spare) Default settings for cell A Downlink input level 63 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 310 Default settings for cell B Downlink input level 53 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 20 For 450/1 800 MS: SYSTEM INFORMATION TYPE 1 Information Element Value/remark Cell channel description For Cell A - Format identifier Range 128 - Cell Allocation ARFCN ARFCN 263, 267, 275 and 279 For Cell B - Format identifier Range 512 - Cell Allocation ARFCN ARFCN 590, 650, 750 and 850 RACH control parameters see below SI1 rest octets see below SYSTEM INFORMATION TYPE 2 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 261, 263, 282, 284, 287, 290, 293 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 - EXT-IND "This IE carries the complete BA" NCC permitted see below RACH control parameters see below SYSTEM INFORMATION TYPE 2ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 For Cell B - Format notation Range 128 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 261, 263, 282, 284, 287, 290, 293 SI 2ter rest octets see below SYSTEM INFORMATION TYPE 3 Information Element Value/remark Cell identity see below Location Area Identification see below Control Channel Description see below Cell options see below Cell selection parameters see below RACH control parameters see below SI3 rest octets SI 2ter Indicator System Information 2ter is available Early Sending Classmark Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 4 Information Element Value/remark Location Area Identification see below Cell selection parameters see below RACH control parameters see below CBCH Channel Description see below CBCH Mobile Allocation see below SI4 rest octets see below SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 261, 263, 282, 284, 287, 290, 293 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 - EXT-IND This IE carries the complete BA SYSTEM INFORMATION TYPE 5ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 For Cell B - Format notation Range 128 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 261, 263, 282, 284, 287, 290, 293 SYSTEM INFORMATION TYPE 6 Information Element Value/remark Cell identity see below Location Area Identification see below Cell options see below NCC permitted see below Common contents of information elements in SYSTEM INFORMATION TYPE 1 to 6 messages. CBCH Channel Description Not present CBCH Mobile Allocation Not present Cell identity CI VALUE 0001H for cell A, 0002H for cell B Cell options Power Control Indicator power control indicator is not set DTX Indicator MS shall not use DTX RADIO LINK TIME-OUT 8 SACCH blocks Cell selection parameters CELL RESELECT HYSTERESIS 12 dB MS-TXPWR-MAX-CCH Minimum level RXLEV-ACCESS-MIN Minimum level ACS There are no additional cell parameters included in SI7 and SI8 NECI New establishment cause not supported Control Channel Description ATT No Attach/Detach BS-AG-BLKS-RES 0 blocks reserved CCCH-CONF Combined CCCH/SDCCH BS-PA-MFRMS 5 multiframes T3212 Infinite L2 pseudo length SI 1 21 SI 2 22 SI 2ter 18 SI 3 18 SI 4 12 Location Area Identification MCC 001 decimal MNC 01 decimal LAC 0001H Message Type SI 1 00011001 SI 2 00011010 SI 2ter 00000011 SI 3 00011011 SI 4 00011100 SI 5 00011101 SI 5ter 00000110 SI 6 00011110 NCC permitted 00000010 RACH control parameters MAX RETRANS Max 1 retrans TX-INTEGER 5 slots used CELL BAR ACCESS Not barred CALL RE-ESTABLISHMENT Not Allowed EMERGENCY CALL Allowed ACCESS CONTROL CLASS None Barred (0...9, 11...15) SI 1 rest octets Not used (all bits are set to spare) SI 2 rest octets Not used (all bits are set to spare) SI 2ter rest octets Not used (all bits are set to spare) SI 4 rest octets Not used (all bits are set to spare) Default settings for cell A Downlink input level 63 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 263 Default settings for cell B Downlink input level 53 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 590 For 480/1 800 MS: SYSTEM INFORMATION TYPE 1 Information Element Value/remark Cell channel description For Cell A - Format identifier Range 128 - Cell Allocation ARFCN ARFCN 310, 315, 322, 326 For Cell B - Format identifier Range 512 - Cell Allocation ARFCN ARFCN 590, 650, 750 and 850 RACH control parameters see below SI1 rest octets see below SYSTEM INFORMATION TYPE 2 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 308, 310, 329, 331, 334, 337, 340 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 - EXT-IND "This IE carries the complete BA" NCC permitted see below RACH control parameters see below SYSTEM INFORMATION TYPE 2ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 For Cell B - Format notation Range 128 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 308, 310, 329, 331, 334, 337, 340 SI 2ter rest octets see below SYSTEM INFORMATION TYPE 3 Information Element Value/remark Cell identity see below Location Area Identification see below Control Channel Description see below Cell options see below Cell selection parameters see below RACH control parameters see below SI3 rest octets SI 2ter Indicator System Information 2ter is available Early Sending Classmark Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 4 Information Element Value/remark Location Area Identification see below Cell selection parameters see below RACH control parameters see below CBCH Channel Description see below CBCH Mobile Allocation see below SI4 rest octets see below SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Range 128 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 308, 310, 329, 331, 334, 337, 340 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 - EXT-IND This IE carries the complete BA SYSTEM INFORMATION TYPE 5ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 For Cell B - Format notation Range 128 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 308, 310, 329, 331, 334, 337, 340 SYSTEM INFORMATION TYPE 6 Information Element Value/remark Cell identity see below Location Area Identification see below Cell options see below NCC permitted see below Common contents of information elements in SYSTEM INFORMATION TYPE 1 to 6 messages. CBCH Channel Description Not present CBCH Mobile Allocation Not present Cell identity CI VALUE 0001H for cell A, 0002H for cell B Cell options Power Control Indicator power control indicator is not set DTX Indicator MS shall not use DTX RADIO LINK TIME-OUT 8 SACCH blocks Cell selection parameters CELL RESELECT HYSTERESIS 12 dB MS-TXPWR-MAX-CCH Minimum level RXLEV-ACCESS-MIN Minimum level ACS There are no additional cell parameters included in SI7 and SI8 NECI New establishment cause not supported Control Channel Description ATT No Attach/Detach BS-AG-BLKS-RES 0 blocks reserved CCCH-CONF Combined CCCH/SDCCH BS-PA-MFRMS 5 multiframes T3212 Infinite L2 pseudo length SI 1 21 SI 2 22 SI 2ter 18 SI 3 18 SI 4 12 Location Area Identification MCC 001 decimal MNC 01 decimal LAC 0001H Message Type SI 1 00011001 SI 2 00011010 SI 2ter 00000011 SI 3 00011011 SI 4 00011100 SI 5 00011101 SI 5ter 00000110 SI 6 00011110 NCC permitted 00000010 RACH control parameters MAX RETRANS Max 1 retrans TX-INTEGER 5 slots used CELL BAR ACCESS Not barred CALL RE-ESTABLISHMENT Not Allowed EMERGENCY CALL Allowed ACCESS CONTROL CLASS None Barred (0...9, 11...15) SI 1 rest octets Not used (all bits are set to spare) SI 2 rest octets Not used (all bits are set to spare) SI 2ter rest octets Not used (all bits are set to spare) SI 4 rest octets Not used (all bits are set to spare) Default settings for cell A Downlink input level 63 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 310 Default settings for cell B Downlink input level 53 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 590 For 900/1 800 MS: SYSTEM INFORMATION TYPE 1 Information Element Value/remark Cell channel description For Cell A - Format identifier Bit map 0 - Cell Allocation ARFCN ARFCN 20, 30, 50 and 70 For Cell B - Format identifier Range 512 - Cell Allocation ARFCN ARFCN 590, 650, 750 and 850 RACH control parameters see below SI1 rest octets see below SYSTEM INFORMATION TYPE 2 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Bit map 0 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 - EXT-IND "This IE carries the complete BA" NCC permitted see below RACH control parameters see below SYSTEM INFORMATION TYPE 2ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 For Cell B - Format notation Range 1024 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 SI 2ter rest octets see below SYSTEM INFORMATION TYPE 3 Information Element Value/remark Cell identity see below Location Area Identification see below Control Channel Description see below Cell options see below Cell selection parameters see below RACH control parameters see below SI3 rest octets SI 2ter Indicator System Information 2ter is available Early Sending Classmark Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 4 Information Element Value/remark Location Area Identification see below Cell selection parameters see below RACH control parameters see below CBCH Channel Description see below CBCH Mobile Allocation see below SI4 rest octets see below SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier Bit map 0 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 - EXT-IND This IE carries the complete BA SYSTEM INFORMATION TYPE 5ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 810 and 870 For Cell B - Format notation Range 1024 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 10, 20, 80, 90, 100, 110 and 120 SYSTEM INFORMATION TYPE 6 Information Element Value/remark Cell identity see below Location Area Identification see below Cell options see below NCC permitted see below Common contents of information elements in SYSTEM INFORMATION TYPE 1 to 6 messages. CBCH Channel Description Not present CBCH Mobile Allocation Not present Cell identity CI VALUE 0001H for cell A, 0002H for cell B Cell options Power Control Indicator power control indicator is not set DTX Indicator MS shall not use DTX RADIO LINK TIME-OUT 8 SACCH blocks Cell selection parameters CELL RESELECT HYSTERESIS 12 dB MS-TXPWR-MAX-CCH Minimum level RXLEV-ACCESS-MIN Minimum level ACS There are no additional cell parameters included in SI7 and SI8 NECI New establishment cause not supported Control Channel Description ATT No Attach/Detach BS-AG-BLKS-RES 0 blocks reserved CCCH-CONF Combined CCCH/SDCCH BS-PA-MFRMS 5 multiframes T3212 Infinite L2 pseudo length SI 1 21 SI 2 22 SI 2ter 18 SI 3 18 SI 4 12 Location Area Identification MCC 001 decimal MNC 01 decimal LAC 0001H Message Type SI 1 00011001 SI 2 00011010 SI 2ter 00000011 SI 3 00011011 SI 4 00011100 SI 5 00011101 SI 5ter 00000110 SI 6 00011110 NCC permitted 00000010 RACH control parameters MAX RETRANS Max 1 retrans TX-INTEGER 5 slots used CELL BAR ACCESS Not barred CALL RE-ESTABLISHMENT Not Allowed EMERGENCY CALL Allowed ACCESS CONTROL CLASS None Barred (0...9, 11...15) SI 1 rest octets Not used (all bits are set to spare) SI 2 rest octets Not used (all bits are set to spare) SI 2ter rest octets Not used (all bits are set to spare) SI 4 rest octets Not used (all bits are set to spare) Default settings for cell A Downlink input level 63 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 20 Default settings for cell B Downlink input level 53 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 590 For 710/1 900 MS, 750/1 900 MS: SYSTEM INFORMATION TYPE 1 Information Element Value/remark Cell channel description For Cell A - Format identifier 128 range - Cell Allocation ARFCN ARFCN 457, 467, 475 and 497 For Cell B - Format identifier Range 512 - Cell Allocation ARFCN ARFCN 590, 650, 750 and 807 RACH control parameters see below SI1 rest octets see below SYSTEM INFORMATION TYPE 2 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier 128 range - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 447, 457, 480, 499, 504, 507 and 510 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 800 and 810 - EXT-IND "This IE carries the complete BA" NCC permitted see below RACH control parameters see below SYSTEM INFORMATION TYPE 2ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 800 and 810 For Cell B - Format notation Range 1024 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 447, 457, 480, 499, 504, 507 and 510 SI 2ter rest octets see below SYSTEM INFORMATION TYPE 3 Information Element Value/remark Cell identity see below Location Area Identification see below Control Channel Description see below Cell options see below Cell selection parameters see below RACH control parameters see below SI3 rest octets SI 2ter Indicator System Information 2ter is available Early Sending Classmark Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 4 Information Element Value/remark Location Area Identification see below Cell selection parameters see below RACH control parameters see below CBCH Channel Description see below CBCH Mobile Allocation see below SI4 rest octets see below SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier 128 range - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 447, 457, 480, 499, 504, 507 and 510 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 800 and 810 - EXT-IND This IE carries the complete BA SYSTEM INFORMATION TYPE 5ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 800 and 810 For Cell B - Format notation Range 1024 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 447, 457, 480, 499, 504, 507 and 510 SYSTEM INFORMATION TYPE 6 Information Element Value/remark Cell identity see below Location Area Identification see below Cell options see below NCC permitted see below Common contents of information elements in SYSTEM INFORMATION TYPE 1 to 6 messages. CBCH Channel Description Not present CBCH Mobile Allocation Not present Cell identity CI VALUE 0001H for cell A, 0002H for cell B Cell options Power Control Indicator power control indicator is not set DTX Indicator MS shall not use DTX RADIO LINK TIME-OUT 8 SACCH blocks Cell selection parameters CELL RESELECT HYSTERESIS 12 dB MS-TXPWR-MAX-CCH Minimum level RXLEV-ACCESS-MIN Minimum level ACS There are no additional cell parameters included in SI7 and SI8 NECI New establishment cause not supported Control Channel Description ATT No Attach/Detach BS-AG-BLKS-RES 0 blocks reserved CCCH-CONF Combined CCCH/SDCCH BS-PA-MFRMS 5 multiframes T3212 Infinite L2 pseudo length SI 1 21 SI 2 22 SI 2ter 18 SI 3 18 SI 4 12 Location Area Identification MCC 001 decimal MNC 01 decimal LAC 0001H Message Type SI 1 00011001 SI 2 00011010 SI 2ter 00000011 SI 3 00011011 SI 4 00011100 SI 5 00011101 SI 5ter 00000110 SI 6 00011110 NCC permitted 00000010 RACH control parameters MAX RETRANS Max 1 retrans TX-INTEGER 5 slots used CELL BAR ACCESS Not barred CALL RE-ESTABLISHMENT Not Allowed EMERGENCY CALL Allowed ACCESS CONTROL CLASS None Barred (0...9, 11...15) SI 1 rest octets Not used (all bits are set to spare) SI 2 rest octets Not used (all bits are set to spare) SI 2ter rest octets Not used (all bits are set to spare) SI 4 rest octets Not used (all bits are set to spare) Default settings for cell A Downlink input level 63 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 457 Default settings for cell B Downlink input level 53 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 590 For 850/1 900 MS: SYSTEM INFORMATION TYPE 1 Information Element Value/remark Cell channel description For Cell A - Format identifier 128 range - Cell Allocation ARFCN ARFCN 147, 157, 177 and 197 For Cell B - Format identifier Range 512 - Cell Allocation ARFCN ARFCN 590, 650, 750 and 807 RACH control parameters see below SI1 rest octets see below SYSTEM INFORMATION TYPE 2 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier 128 range - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 137, 147, 207, 217, 227, 237 and 247 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 800 and 810 - EXT-IND "This IE carries the complete BA" NCC permitted see below RACH control parameters see below SYSTEM INFORMATION TYPE 2ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 800 and 810 For Cell B - Format notation Range 1024 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 137, 147, 207, 217, 227, 237 and 247 SI 2ter rest octets see below SYSTEM INFORMATION TYPE 3 Information Element Value/remark Cell identity see below Location Area Identification see below Control Channel Description see below Cell options see below Cell selection parameters see below RACH control parameters see below SI3 rest octets SI 2ter Indicator System Information 2ter is available Early Sending Classmark Control Early Sending is explicitly accepted SYSTEM INFORMATION TYPE 4 Information Element Value/remark Location Area Identification see below Cell selection parameters see below RACH control parameters see below CBCH Channel Description see below CBCH Mobile Allocation see below SI4 rest octets see below SYSTEM INFORMATION TYPE 5 Information Element Value/remark BCCH Frequency list For Cell A - Format identifier 128 range - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 137, 147, 207, 217, 227, 237 and 247 - EXT-IND "The information element carries the complete BA" For Cell B - Format identifier Range 512 - BCCH Allocation Sequence 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 800 and 810 - EXT-IND This IE carries the complete BA SYSTEM INFORMATION TYPE 5ter Information Element Value/remark Neighbour Cells Description 2 Multiband reporting 0 For Cell A - Format notation Range 512 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 520, 590, 600, 700, 780, 800 and 810 For Cell B - Format notation Range 1024 - BA_IND 0 - BCCH Allocation ARFCN ARFCN 137, 147, 207, 217, 227, 237 and 247 SYSTEM INFORMATION TYPE 6 Information Element Value/remark Cell identity see below Location Area Identification see below Cell options see below NCC permitted see below Common contents of information elements in SYSTEM INFORMATION TYPE 1 to 6 messages. CBCH Channel Description Not present CBCH Mobile Allocation Not present Cell identity CI VALUE 0001H for cell A, 0002H for cell B Cell options Power Control Indicator power control indicator is not set DTX Indicator MS shall not use DTX RADIO LINK TIME-OUT 8 SACCH blocks Cell selection parameters CELL RESELECT HYSTERESIS 12 dB MS-TXPWR-MAX-CCH Minimum level RXLEV-ACCESS-MIN Minimum level ACS There are no additional cell parameters included in SI7 and SI8 NECI New establishment cause not supported Control Channel Description ATT No Attach/Detach BS-AG-BLKS-RES 0 blocks reserved CCCH-CONF Combined CCCH/SDCCH BS-PA-MFRMS 5 multiframes T3212 Infinite L2 pseudo length SI 1 21 SI 2 22 SI 2ter 18 SI 3 18 SI 4 12 Location Area Identification MCC 001 decimal MNC 01 decimal LAC 0001H Message Type SI 1 00011001 SI 2 00011010 SI 2ter 00000011 SI 3 00011011 SI 4 00011100 SI 5 00011101 SI 5ter 00000110 SI 6 00011110 NCC permitted 00000010 RACH control parameters MAX RETRANS Max 1 retrans TX-INTEGER 5 slots used CELL BAR ACCESS Not barred CALL RE-ESTABLISHMENT Not Allowed EMERGENCY CALL Allowed ACCESS CONTROL CLASS None Barred (0...9, 11...15) SI 1 rest octets Not used (all bits are set to spare) SI 2 rest octets Not used (all bits are set to spare) SI 2ter rest octets Not used (all bits are set to spare) SI 4 rest octets Not used (all bits are set to spare) Default settings for cell A Downlink input level 63 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 147 Default settings for cell B Downlink input level 53 dBmicroVolt emf Uplink output power Minimum supported by the MS Propagation profile Static BCCH/CCCH ARFCN 590 Default message contents for other messages For subclause 26.11.2 Refer to table 26.6 For subclause 26.11.3 same as in subclause 26.7. For subclause 26.11.4 no tests yet defined. For subclause 26.11.5 same as in subclause 26.9.7.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12 Enhanced Full Rate signalling	This subclause only applies to MS supporting enhanced full rate speech. As an EFR mobile station necessarily supports the speech full rate version 1 or both speech full rate version 1 and speech half rate version 1, conformance requirements of clause 26 fully apply to this mobile. The purpose of this extra section is to test the different procedures which may be impacted when Enhanced full rate speech codec is used.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.1 EFR signalling/ test of the channel mode modify procedure	NOTE: This test is derived from the tests in subclauses 26.6.7.1 and 26.6.7.2 respectively entitled "Test of the channel mode modify procedure / full rate" and "Test of the channel mode modify procedure / half rate".
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.1.1 Conformance requirement	The MS with a TCH/F allocated acknowledges a CHANNEL MODE MODIFY message by sending a CHANNEL MODE MODIFY ACKNOWLEDGE message specifying the new mode and by swithcing to this mode when this one is set to: - speech full rate or half rate version 1. - speech full rate or half rate version 2. - any other mode declared supported by the mobile. If the mobile station does not support the indicated mode, it shall retain the old mode and return the associated channel mode information in the CHANNEL MODE MODIFY ACKNOWLEDGE message. References 3GPP TS 02.06, subclause 3.2.3. 3GPP TS 04.08 / 3GPP TS 44.018, subclauses 3.4.6.1.1 and 3.4.6.1.2.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.1.2 Test purpose	To verify that the MS with a TCH/F allocated acknowledges a CHANNEL MODE MODIFY message by sending a CHANNEL MODE MODIFY ACKNOWLEDGE message specifying the new mode and by swithcing to this mode when this one is set to: - speech full rate or half rate version 1. - speech full rate or half rate version 2. - any other mode declared supported by the mobile. To verify that the MS, in an RR connected state, acknowledges a CHANNEL MODE MODIFY message by sending a CHANNEL MODE MODIFY ACKNOWLEDGE message specifying the old mode when the new mode is not declared as supported by the mobile
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.1.3 Method of test	Initial Conditions System Simulator: 1 cell, default parameters. Mobile Station: The MS is "idle updated", with TMSI allocated. Specific PICS statements: - Speech supported for Full rate version 3 (TSPC_AddInfo_Full_rate_version_3) - 2.4 k full rate data mode (TSPC__AddInfo_24DataF) - 4.8 k full rate data mode. (TSPC__AddInfo_48DataF) - 9.6 k full rate data mode. (TSPC__AddInfo_96Data) PIXIT statements: - Foreseen Final State of the MS "Idle, updated", with TMSI allocated. Test procedure A Mobile Terminated call is initiated, however following the CHANNEL REQUEST received from the Mobile Station, the SS sends an IMMEDIATE ASSIGNMENT to the MS commanding it to go to a TCH/F. This sets the Channel Mode automatically to "Signalling Only". The SS then sends a series of CHANNEL MODE MODIFY messages to the MS. Each time it is checked that the MS responds with a CHANNEL MODE MODIFY ACKNOWLEDGE message specifying: - the channel mode that has been specified in the CHANNEL MODE MODIFY message, if the MS supports that mode (this mode then becomes the "channel mode in use"). If necessary, the MS shall be correctly configured in order to accept this mode. - the channel mode that was in use when the CHANNEL MODE MODIFY message has been received, if the MS does not support the channel mode specified in the CHANNEL MODE MODIFY message. Maximum Duration of Test 50 s. Expected Sequence Step Direction Message Comments 1 SS->MS PAGING REQUEST TYPE 1 Sent on correct paging subchannel 2 MS->SS CHANNEL REQUEST Establishment cause indicates "answer to paging" 3 SS->MS IMMEDIATE ASSIGNMENT Assignment to a non hopping TCH/F 4 SS->MS CHANNEL MODE MODIFY 5 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 6 SS->MS CHANNEL MODE MODIFY 7 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 8 SS->MS CHANNEL MODE MODIFY 9 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 10 SS->MS CHANNEL MODE MODIFY 11 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 12 SS->MS CHANNEL MODE MODIFY 13 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 14 SS->MS CHANNEL MODE MODIFY 15 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 16 SS->MS CHANNEL MODE MODIFY 17 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 18 SS->MS CHANNEL MODE MODIFY 19 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 20 SS->MS CHANNEL MODE MODIFY 21 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 22 SS->MS CHANNEL MODE MODIFY 23 MS->SS CHANNEL MODE MODIDY ACKNOWLEDGE 24 SS->MS CHANNEL RELEASE Specific Message Contents In step 4 / step 6 /step 8 / step 10 / step 12 / step 14 / step 16 / step 18 / step 20: CHANNEL MODE MODIFY Information Element value/remark Channel description describes the already assigned dedicated channel Channel mode Mode in step 4: speech full or half rate version 2 in step 6: data 3,6 Kb/s in step 8: speech full or half rate version 2 in step 10: data 6 Kb/s in step 12: speech full or half rate version 2 in step 14: data 12 Kb/s in step 16: speech full or half rate version 2 in step 18: speech full or half rate version 1 in step 20: speech full or half rate version 2 In step 22 : CHANNEL MODE MODIFY Information Element value/remark Channel description describes the already assigned dedicated channel Channel mode Mode speech full or half rate version3 Multi-Rate configuration adaptive multirate codec mode chosen arbitrarily (see 3GPP TS 04.08 subclause 10.5.2.21aa) CHANNEL MODE MODIFY ACKNOWLEDGE Channel mode Mode in steps 5, 9, 13, 17, 21: speech full rate version 2 in step 7: if TSPC__AddInfo_24DataF: data 3,6 Kb/s else same as in step 5 in step 11: if TSPC__AddInfo_48DataF: data 6,0 Kb/s full rate else same as in step 9 in step 15: if TSPC__AddInfo_96Data: data 12 Kb/s full rate else same as in step 13 in step 19: speech full rate version 2 in step 23: if TSPC_AddInfo_Full_rate_version_3speech full rate version 3 else same as in step 21
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.2 EFR signalling/ tests of handover	With the Handover procedure, it is possible to completely alter the channels allocated to a MS. This makes it possible in particular to switch a call in progress from one cell to another. The procedure is always initiated by the network and with the MS in a dedicated mode. Subclause 26.12.2.1 contains generic test procedures to be used for executing successful Handover tests dealing with EFR mode. It deals with EFR signalling in the Handover/successful/active call/non synchronised case. Table 1 contains a summary of the different combinations of parameters which have to be tested, together with a reference to the appropriate generic test procedure. If a test uses a channel rate which the MS under test does not support, the test shall be skipped. sv1 stands for speech full/half rate version 1. sv2 stands for speech full/half rate version 2 (enhanced full rate). Table 1 From To Timing Adv. Start Time Syn ? State of call Subclause Exec Coun-ter TCH/F, sv2, no FH TCH/F, sv2, no FH 20 none no U10 26.12.2.1 1 TCH/F, sv2, no FH TCH/F, sv2, FH arbitrary none no U10 26.12.2.1 2 TCH/F, sv2, FH TCH/F, sv2, no FH 20 1,1s no U10 26.12.2.1 3 TCH/F, sv2, no FH TCH/F, sv1, no FH 20 none no U10 26.12.2.1 4 TCH/F, sv1,no FH TCH/F, sv2, no FH arbitrary none no U10 26.12.2.1 5 TCH/F, sv2, no FH TCH/F, sv1, FH arbitrary none no U10 26.12.2.1 6 TCH/F, sv1, FH TCH/F, sv2,FH 20 1,1 no U10 26.12.2.1 7 TCH/F, sv2, FH TCH/F, sv1, FH arbitrary none no U10 26.12.2.1 8 TCH/F, sv1, FH TCH/F, sv2, no FH arbitrary none no U10 26.12.2.1 9 TCH/F, sv2, no FH TCH/H, sv1, FH arbitrary none no U10 26.12.2.1 10 TCH/H, sv1, FH TCH/F, sv2, FH 20 1,1 no U10 26.12.2.1 11 TCH/F, sv2, FH TCH/H, sv1, FH arbitrary none no U10 26.12.2.1 12 TCH/H, sv1, FH TCH/F, sv2, noFH 20 none no U10 26.12.2.1 13 TCH/F, sv2, noFH TCH/H, sv1, noFH 20 none no U10 26.12.2.1 14 TCH/H, sv1, noFH TCH/F, sv2, noFH 20 none no U10 26.12.2.1 15 Table 2 TCH/FS TCH/HS SDCCH n 10-20 5-10 2-5 n: number of access bursts.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.2.1 EFR signalling / Handover / active call / successful case	NOTE: This test is derived from the one defined in subclause 26.6.5.1 "Handover/successful/active call/non‑synchronized". This test only applies for MS supporting full rate speech version 2 (enhanced full rate speech).
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.2.1.1 Conformance requirements	The MS shall correctly apply the handover procedure in the non-synchronized case when: - a call is in progress; and - handover is performed from a TCH/F with/without frequency hopping towards a TCH/F with/without frequency hopping; and - the mode of either the current or the target channel is set to full rate speech version 2 (enhanced full rate speech). The MS also supporting half rate shall correctly apply the handover procedure in the non-synchronized case when: - a call is in progress; and - a handover is performed between a TCH/H with/without frequency hopping and a TCH/F with/without frequency hopping; and - the mode of the TCH/F is set to full rate speech version 2. References 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.4 and 9.1.15. 3GPP TS 04.13 subclause 5.2.6.2.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.2.1.2 Test purpose	To test that the MS shall correctly apply the handover procedure in the non-synchronized case when: - a call is in progress; and - handover is performed from a TCH/F with/without frequency hopping towards a TCH/F with/without frequency hopping; and - the mode of either the current or the target channel is set to full rate speech version 2 (enhanced full rate speech). To test that the MS also supporting half rate shall correctly apply the handover procedure in the non-synchronized case when: - a call is in progress; and - a handover is performed between a TCH/H with/without frequency hopping and a TCH/F with/without frequency hopping; and - the mode of the TCH/F is set to full rate speech version 2.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.2.1.3 Method of test	Initial Conditions System Simulator: 2 cells, A and B with same LAI, default parameters except. Band Cell A Cell B Both Cells BCCH ARFCN Cell Allocation BCCH ARFCN Cell Allocation Format GSM 450 263 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291 274 260, 262, 264, 266, 268, 270, 272, 274, 276, 279, 281, 283, 285, 287, 289, 291 Range 128 GSM 480 310 306, 308, 310, 312, 314, 316, 318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338 321 307, 309, 311, 313, 315, 317, 319, 321, 323, 326, 328, 330, 332, 334, 336, 338 Range 128 GSM 710 457 447, 454, 457, 463, 471, 479, 482 ,483 ,489, 496, 498, 500, 501, 502, 503, 506, 508 477 451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508 Range 128 GSM 750 457 447, 454, 457, 463, 471, 479, 482 ,483 ,489, 496, 498, 500, 501, 502, 503, 506, 508 477 451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508 Range 128 T-GSM 810 457 447, 454, 457, 463, 471, 479, 482 ,483 ,489, 496, 498, 500, 501, 502, 503, 506, 508 477 451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508 Range 128 GSM 850 147 137, 144, 147, 153, 161, 169, 172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241 167 141, 145, 149, 151, 157, 158, 165, 167, 187, 193, 200, 201, 202, 203, 235, 241 Range 128 GSM 900 20 10, 17, 20, 26, 34, 42, 45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114 40 14, 18, 22, 24, 30, 31, 38, 40, 60, 66, 73, 74, 75, 76, 108, 114 Range 128 DCS 1 800 747 734, 741, 747, 754, 759, 762, 766, 767, 773, 775, 779, 782, 791, 798, 829, 832, 844 764 739, 743, 746, 749, 756, 758, 761, 764, 771, 779, 782, 791, 798, 829, 832, 844 Range 256 PCS 1 900 647 634, 641, 647, 654, 659, 662, 666, 667, 673, 675, 679, 682, 691, 698, 729, 732, 744 664 639, 643, 646, 649, 656, 658, 661, 664, 671, 679, 682, 691, 698, 729, 732, 744 Range 256 The frame numbers of cells A and B shall be different by 100. The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. Mobile Station: The MS is in the active state (U10) of a call on cell A. Specific PICS statements: - Speech supported for Half rate version 1 (TSPC_AddInfo_Half_rate_version_1) PIXIT statements: - Foreseen Final State of the MS The active state (U10) of a call on cell A. Test Procedure This procedure is repeated for execution counter M = 1 to 15. The MS is in the active state (U10) of a call. The SS sends a HANDOVER COMMAND on the main DCCH. The MS shall (at the time defined by the Starting Time information element, if included in the message) begin to send access bursts on the new DCCH (and optionally on the SACCH) of the target cell. The SS observes the access bursts and after receiving n (n being arbitrarily chosen between values according to table 2 of subclause 26.12.2) access bursts, the SS sends one PHYSICAL INFORMATION message with a Timing Advance as specified in table 1 of subclause 26.12.2. The MS shall activate the channel in sending and receiving mode. The MS shall establish a signalling link. The MS shall be ready to transmit a HANDOVER COMPLETE message, before 'x' MS after the end of the PHYSICAL INFORMATION message, but not before a UA frame has been sent by the SS. The term 'ready to transmit' is defined in 3GPP TS 04.13. The value of 'x' depends upon the target channel and is specified in the specific message contents section. Maximum Duration of Test 10 minutes, including 1 minute for any necessary operator actions. Expected Sequence This sequence is performed for an execution counter M = 1, 2.. 9 for an MS which supports enhanced full speech codec and only TCH/F . This sequence is performed for an execution counter M = 1, 2.. 15 for an MS which supports enhanced full speech codec and TCH/F and H. Step Direction Message Comments 0 MS -> SS The MS and SS are in the active state of a call on the channel described below. 1 SS -> MS HANDOVER COMMAND See Specific message contents 2 MS -> SS HANDOVER ACCESS Repeated on every burst of the uplink main DCCH (and optionally on the SACCH) until reception of PHYSICAL INFORMATION. Handover Reference as included in the HANDOVER COMMAND. If the HANDOVER COMMAND includes a starting time IE then the first HANDOVER ACCESS message shall be transmitted in the indicated frame (unless the indicated frame is not used by that channel, in which case the next frame used by that channel shall be used) 3 SS -> MS PHYSICAL INFORMATION Sent after reception of n HANDOVER ACCESS messages. See specific message contents. 4 MS -> SS SABM Sent without information field 5 SS -> MS UA 6 MS -> SS HANDOVER COMPLETE The message shall be ready to be transmitted before 'x' ms after the completion of step 3. 7 MS -> SS The MS and SS are in the active state of a call on the TCH described below. The SS checks that the TCH is through connected in the correct mode. Specific Message Contents For M = 1: Step 0: The MS and SS are using a full rate TCH with speech full rate version 2 and in non-hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number See the table below. Synchronisation Indication - Report Observed Time Difference Shall not be included. - Synchronisation Indication 'Non synchronised'. - Normal Cell Indication Ignore out of range timing advance. HANDOVER COMMAND Band BCCH ARFCN GSM 450 274 GSM 480 321 GSM 710 477 GSM 750 477 T-GSM 810 477 GSM 850 167 GSM 900 40 DCS 1 800 764 PCS 1 900 664 PHYSICAL INFORMATION Information Element value/remarks As default message contents. Step 6: x = 500 Step 7: The MS and SS are using a full rate TCH with speech full rate version 2 and in non hopping mode on cell B. For M = 2: Step 0: The MS and SS are using a full rate TCH with speech full rate version 2 and in non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number See the table below. Channel Description - Channel Type TCH/F + ACCHs - Timeslot number Chosen arbitrarily, but not Zero - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set ( 0, 1 to N-1 ), where N is the number of frequencies encoded in the Frequency List IE. - HSN Chosen arbitrarily from the set ( 1,2,..63 ) Synchronisation Indication IE is not included. Channel Mode IE is not included. Frequency List after time - Frequency List Allocate frequencies as per the table below HANDOVER COMMAND Band BCCH ARFCN Frequency Format Frequency List GSM 450 263 259, 261, 263, 265, 277, 279, 281, 283, 285, 287, 289, 291 GSM 480 310 306, 308, 310, 312, 324, 326, 328, 330, 332, 334, 336, 338 GSM 710 457 447, 454, 457, 463, 496, 498, 500, 501, 502, 503, 506, 508 GSM 750 457 447, 454, 457, 463, 496, 498, 500, 501, 502, 503, 506, 508 T-GSM 810 457 447, 454, 457, 463, 496, 498, 500, 501, 502, 503, 506, 508 GSM 850 147 137, 144, 147, 153, 186, 193, 200, 201, 202, 203, 235, 241 GSM 900 20 10, 17, 20, 26, 59, 66, 73, 74, 75, 76,108, 114 DCS 1 800 747 Range 256 747, 775, 779, 782, 791, 798, 829, 832, 844 PCS 1 900 647 Range 256 647, 675, 679, 682, 691, 698, 729, 732, 744 PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. Step 6: x = 500 Step 7: The MS and SS are using a full rate TCH with speech full rate version 2 and in hopping mode on cell A. For M = 3: Step 0: The MS and SS are using a full rate TCH ith speech full rate version 2 and in hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number See the table below. Synchronisation Indication - Report Observed Time Difference Shall not be included. - Synchronisation Indication 'Non synchronised'. - Normal Cell Indication Out of range timing advance shall trigger a handover failure procedure. Starting Time Indicates the frame number of cell B that will occur approximately 1,1 seconds ( 238 frames have elapsed ) after the HANDOVER COMMAND is sent by cell A. HANDOVER COMMAND Band BCCH ARFCN GSM 450 274 GSM 480 321 GSM 710 477 GSM 750 477 T-GSM 810 477 GSM 850 167 GSM 900 40 DCS 1 800 764 PCS 1 900 664 PHYSICAL INFORMATION Information Element value/remarks As default message contents. Step 6: x = 500 Step 7: The MS and SS are using a full rate TCH with speech full rate version 2 and in non-hopping mode on cell B. For M = 4: Step 0: The MS and SS are using a full rate TCH with full rate speech version 2 and in non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 263 See the table below. Synchronisation Indication - Report Observed Time Difference Shall not be included. - Synchronisation Indication 'Non synchronised'. - Normal Cell Indication Ignore out of range timing advance. Mode of the first channel - Mode speech full rate or half rate version 1 HANDOVER COMMAND Band BCCH ARFCN GSM 450 263 GSM 480 310 GSM 710 457 GSM 750 457 T-GSM 810 457 GSM 850 147 GSM 900 20 DCS 1 800 747 PCS 1 900 647 PHYSICAL INFORMATION Information Element value/remarks As default message contents. Step 6: x = 500 Step 7: The MS and SS are using a full rate TCH with speech full rate version 1 and in non hopping mode on cell A. For M = 5: Step 0: The MS and SS are using a full rate TCH with full rate speech version 1 and in non-hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number See the table below. Synchronisation Indication - Report Observed Time Difference Shall not be included. - Synchronisation Indication 'Non synchronised'. - Normal Cell Indication Ignore out of range timing advance. Mode of the first channel - Mode speech full rate version 2 HANDOVER COMMAND Band BCCH ARFCN GSM 450 274 GSM 480 321 GSM 710 477 GSM 750 477 T-GSM 810 167 GSM 850 477 GSM 900 40 DCS 1 800 764 PCS 1 900 664 PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. Step 6: x = 500 Step 7: The MS and SS are using a full rate TCH with speech full rate version 2 and in non hopping mode on cell B. For M = 6: Step 0: The MS and SS are using a full rate TCH with speech full rate version 2 and non-hopping mode on cell B. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number See the table below. Channel Description - Channel Type TCH/F + ACCHs - Timeslot number Chosen arbitrarily, but not Zero - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set ( 0, 1 to N-1 ), where N is the number of frequencies encoded in the Frequency List IE. - HSN Chosen arbitrarily from the set ( 1,2,..63 ) Synchronisation Indication IE is not included. Mode of the first channel. - Mode speech full rate or half rate version 1 Frequency List after time - Frequency List Allocates frequencies as per the table below HANDOVER COMMAND Band BCCH ARFCN Frequency Format Frequency List GSM 450 263 259, 261, 263, 265, 277, 279, 281, 283, 285, 287, 289, 291 GSM 480 310 306, 308, 310, 312, 324, 326, 328, 330, 332, 334, 336, 338 GSM 710 457 447, 454, 457, 463, 496, 498, 500, 501, 502, 503, 506, 508 GSM 750 457 447, 454, 457, 463, 496, 498, 500, 501, 502, 503, 506, 508 T-GSM 810 457 447, 454, 457, 463, 496, 498, 500, 501, 502, 503, 506, 508 GSM 850 147 137, 144, 147, 153, 186, 193, 200, 201, 202, 203, 235, 241 GSM 900 20 10, 17, 20, 26, 59, 66, 73, 74, 75, 76,108, 114 DCS 1 800 747 Range 256 747, 775, 779, 782, 791, 798, 829, 832, 844 PCS 1 900 647 Range 256 647, 675, 679, 682, 691, 698, 729, 732, 744 PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. Step 6: x = 500 Step 7: The MS and SS are using a full rate TCH with speech full rate version 1 and hopping mode on cell A. For M = 7: Step 0: The MS and SS are using a full rate TCH with full rate speech version 1 and in hopping mode on cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number See the table below. Channel Description - Channel Type TCH/F + ACCHs - TDMA offset Chosen arbitrarily - Timeslot number Chosen arbitrarily, but not Zero - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set ( 0, 1 to N-1 ), where N is the number of frequencies encoded in the Frequency List IE. - HSN Chosen arbitrarily from the set ( 1,2,..63 ) Frequency List after time - Frequency List Allocates frequencies as per the table below Synchronisation Indication - Report Observed Time Difference Shall not be included. - Synchronisation Indication 'Non synchronised'. - Normal Cell Indication Ignore out of range timing advance. Starting Time Indicates the frame number of cell B. that will occur approximately 1,1 seconds ( 238 frames have elapsed ) after the HANDOVER COMMAND is sent by cell A. Mode of the first channel - Mode speech full rate version 2 HANDOVER COMMAND Band BCCH ARFCN Frequency Format Frequency List GSM 450 274 Range 128 260, 262, 264, 266, 276, 279, 281, 283, 285, 287, 289, 291 GSM 480 321 Range 128 307, 309, 311, 313, 323, 326, 328, 330, 332, 334, 336, 338 GSM 710 477 Range 128 451, 455, 459, 461, 497, 498, 500, 501, 502, 503,506, 508 GSM 750 477 Range 128 451, 455, 459, 461, 497, 498, 500, 501, 502, 503,506, 508 T-GSM 810 477 Range 128 451, 455, 459, 461, 497, 498, 500, 501, 502, 503,506, 508 GSM 850 167 Range 128 141, 145, 149, 151, 187, 193, 200, 201, 202, 203, 235, 241 GSM 900 40 Bit Map 0 14, 18, 22, 24, 60, 66, 73, 74, 75, 76,108, 114 DCS 1 800 764 Range 1024 749, 758, 761, 764, 771, 779, 782, 791, 798, 829, 832, 844 PCS 1 900 664 Range 1024 649, 658, 661, 664, 671, 679, 682, 791, 798, 729, 732, 744 PHYSICAL INFORMATION Information Element value/remarks As default message contents. Step 6: x = 750 Step 7: The MS and SS are using a full rate TCH with full rate speech version 2 and in hopping mode on cell B. For M = 8: Step 0: The MS and SS are using a full rate TCH with full rate speech version 2 and in hopping mode on cell B. HANDOVER COMMAND same as for M = 6 PHYSICAL INFORMATION same as for M = 6 Step 6: x = 750 Step 7: The MS and SS are using a full rate TCH with speech full rate version 1 and in hopping mode on cell A. For M = 9: Step 0: The MS and SS are using a full rate TCH with speech full rate version 1 and in hopping mode on cell A. HANDOVER COMMAND same as for M = 5. PHYSICAL INFORMATION same as For M = 5. Step 6: x = 750 Step 7: The MS and SS are using a full rate TCH with speech full rate version 2 and in non hopping mode on cell B. For M = 10: Step 0: The MS and SS are using a full rate TCH with full rate speech version 2 and in non hopping mode on cell B. HANDOVER COMMAND same as for M = 6 except: - Channel Description - Channel Type: TCH/H + ACCHs PHYSICAL INFORMATION same as for M = 6 Step 6: x = 750 Step 7: The MS and SS are using a half rate TCH with speech half rate version 1 and in hopping mode on cell A. For M = 11: Step 0: The MS and SS are using a half rate TCH with speech half rate version 1 and in hopping mode on cell A. HANDOVER COMMAND same as for M = 7 PHYSICAL INFORMATION same as For M = 7. Step 6: x = 750 Step 7: The MS and SS are using a full rate TCH with speech full rate version 2 and in hopping mode on cell B. For M = 12: Step 0: The MS and SS are using a full rate TCH with full rate speech version 2 and in hopping mode on cell B. HANDOVER COMMAND same as for M = 6 except: Channel Description - Channel Type TCH/H + ACCHs PHYSICAL INFORMATION same as for M = 6 Step 6: x = 750 Step 7: The MS and SS are using a half rate TCH with speech half rate version 1 and in hopping mode on cell A. For M = 13: Step 0: The MS and SS are using a half rate TCH with speech half rate version 1 and in hopping mode on cell A. HANDOVER COMMAND same as for M = 1 except: Mode of the first channel - Mode speech full rate version 2 PHYSICAL INFORMATION same as For M = 1. Step 6: x = 750 Step 7: The MS and SS are using a full rate TCH with speech full rate version 2 and in non hopping mode on cell B. For M = 14: Step 0: The MS and SS are using a full rate TCH with full rate speech version 2 and in non hopping mode on cell B. HANDOVER COMMAND same as for M = 4 except: Channel Description - Channel Type TCH/H + ACCHs PHYSICAL INFORMATION same as for M = 4 Step 6: x = 750 Step 7: The MS and SS are using a half rate TCH with speech half rate version 1 and in non hopping mode on cell A. For M = 15: Step 0: The MS and SS are using a half rate TCH with speech half rate version 1 and in non hopping mode on cell A. HANDOVER COMMAND same as for M = 1 except: Mode of the first channel - Mode speech full rate version 2 PHYSICAL INFORMATION same as For M = 1. Step 6: x = 750 Step 7: The MS and SS are using a full rate TCH with speech full rate version 2 and in non hopping mode on cell B.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.3 EFR Signalling / Structured procedures / MS originated call / late assignment	NOTE: this test is derived from the one defined in subclause 26.9.3 and entitled "Structured procedures / MS originated call / late assignment".
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.3.1 Conformance requirement	1) The MS shall indicate and include in the mobile originating SETUP for speech call all the speech versions that it supports. 2) Upon receipt of the ASSIGNMENT COMMAND message specifying either speech full rate version 1 or speech full rate version 2 or speech half rate version 1 (for an MS also supporting half rate), the Mobile Station starts a normal channel assignment procedure. It means that the MS initiates a local end release of link layer connections, disconnects the physical channels, commands the switching to the assigned channels and initiates the establishment of lower layer connections (this includes the activation of the channels, their connection and the establishment of the data links). After the main signalling link is successfully established, the MS returns an ASSIGNMENT COMPLETE message, specifying cause 'normal event', to the network on the main DCCH. 3, 4) The call control entity of the Mobile Station in the "call initiated" state, in the "mobile originating call proceeding" state or in the "call delivered" state, shall, upon receipt of a CONNECT message: - attach the user connection to the radio path; - return a CONNECT ACKNOWLEDGE message. References Conformance requirement 1: 3GPP TS 04.08 / 3GPP TS 24.008 subclauses 10.5.4.5 and 10.5.4.5.1, and 3GPP TS 02.06 subclause 3.2.3. Conformance requirement 2: 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.3.1 and 3.4.3.2. Conformance requirement 3: 3GPP TS 04.08 / 3GPP TS 24.008 subclause 5.2.1.6.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.3.2 Test purpose	1) To verify that the MS indicates and includes in the mobile originating SETUP for speech call all the speech versions that it supports. 2) To verify that subsequently after receipt of an IMMEDIATE ASSIGNMENT message allocating an SDCCH, after completion of establishment of the main signalling link, after having sent a CM SERVICE REQUEST message, after having successfully performed authentication and cipher mode setting procedures, after having sent a SETUP message, after having received a CALL PROCEEDING message followed by an ALERTING message and an ASSIGNMENT COMMAND message allocating either speech full rate version 1 TCH or speech full rate version 2 TCH or speech half rate version 1 TCH (for an MS also supporting half rate version 1), the MS sends an ASSIGNMENT COMPLETE message. 3) To verify that subsequently, after the suite of actions specified in test purposes 1 and 2, the MS after receiving a CONNECT message returns a CONNECT ACKNOWLEDGE message. 4) To verify that after the suite of actions specified in test purposes 1 and 2, the MS after receiving a CONNECT message attaches the user connection to the radio path. (This is checked by verifying that there is a point in time after transmission of the first L2 frame containing the (complete) CONNECT message, where the MS is sending appropriate speech or data frames whenever it doesn't have to transmit or acknowledge an I frame on layer 2 of the FACCH.)
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.3.3 Method of test	Specific PICS statements: - Speech supported for Half rate version 1 (TSPC_AddInfo_Half_rate_version_1) PIXIT statements: - Way to indicate mobile originated alerting. -. Way to display the called number Initial Conditions System Simulator: 1 cell, default parameters. Mobile Station: The MS is in MM-state "idle, updated" with valid TMSI and CKSN. Foreseen Final State of the MS The MS has a MO call in state U10, "active". Test procedure The following test is performed for all rates (full rate/half rate) supported by the MS: The MS is made to initiate a speech call. The call is established with late assignment. Maximum Duration of Test 3 minutes. Expected Sequence This test is repeated for execution counter M = 1, 2 for an MS supporting full rate channels only. This test is repeated for execution counter M = 1, 2, 3 for an MS supporting both half rate speech version 1 and full rate channels. Step Direction Message Comments 1 MS The "called number" is entered 2 MS 3 MS -> SS CHANNEL REQUEST Establishment cause is "originating call and the network does not set the NECI bit to 1". 4 SS -> MS IMMEDIATE ASSIGNMENT 5 MS -> SS CM SERVICE REQUEST Message is contained in SABM. 6 SS -> MS AUTHENTICATION REQ 7 MS -> SS AUTHENTICATION RESP SRES specifies correct value. 8 SS -> MS CIPHER MODE COMMAND SS starts deciphering after sending the message. 9 MS -> SS CIPHER MODE COMPLETE Shall be sent enciphered. All following messages shall be sent enciphered. 10 SS SS starts ciphering. 11 MS -> SS SETUP MS shall indicate and include all the speech versions that it supports. 12 SS -> MS CALL PROCEEDING 13 SS -> MS ALERTING 14 MS Depending on the PICS, an alerting indication is given. 15 SS -> MS ASSIGNMENT COMMAND 16 MS -> SS ASSIGNMENT COMPLETE 17 SS -> MS CONNECT 18 MS -> SS CONNECT ACKNOWLEDGE 19 MS The appropriate bearer channel is through connected in both directions. Specific Message Contents: For M = 1: Assignment command See default message contents subclause 26.12.8. Setup Same contents as subclause 26.12.8 but all the speech versions supported by the MS shall be indicated in octet_3a_etc(s). For M = 2: Assignment command same as for default message contents except: Mode of the first channel - Mode speech full rate or half rate version 1 Setup Same contents as subclause 26.12.8 but all the speech versions supported by the MS shall be indicated in octet_3a_etc(s). For M = 3: Assignment command same as for default message contents except: Channel Description - TDMA offset TCH/H+ACCHs Mode of the first channel - Mode speech full rate or half rate version 1 Setup same contents as subclause 26.12.8 but the supported speech versions and their preferred order indicated in octet_3a_etc(s) shall be as declared by the manufacturer.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.4 Structured procedures / MS terminated call / l early assignment	NOTE: this test is derived from the one described in subclause 26.9.4 and entitled "Structured procedures / MS terminated call / early assignment".
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.4.1 Conformance requirement	1) In acceptance to a SETUP message indicating speech, the MS shall indicate and include in the CALL CONFIRMED message all the speech versions that it supports. 2) Upon receipt of the ASSIGNMENT COMMAND message specifying either speech full rate version 1 or speech full rate version 2 or speech half rate version 1 (for an MS also supporting half rate), the Mobile Station continues a mobile terminating call establishment with early assignment of traffic channel: a) by replying to the ASSIGNMENT command with an ASSIGNMENT COMPLETE message; and b) by continuing the call establishment by through connecting TCH in both directions if it supports immediate connect or by sending an ALERTING message otherwise. 3) For speech calls, the mobile station shall attach the user connection at latest when sending the connect message, except if there is no compatible radio resource available at this time. In this case the attachment shall be delayed until such a resource becomes available. References Conformance requirement 1: 3GPP TS 04.08 / 3GPP TS 24.008 subclauses 10.5.4.5 and 10.5.4.5.1 3GPP TS 02.06 subclause 3.2.3. Conformance requirement 2: 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.3.1 and 3.4.3.2. Conformance requirement 3: 3GPP TS 04.08 / 3GPP TS 24.008 subclause 5.2.2.9.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.4.2 Test purpose	1) To verify that, in acceptance to a SETUP message indicating speech, the MS indicates and includes in the CALL CONFIRMED message all the speech versions that it supports. 2) To verify that upon receipt of the ASSIGNMENT COMMAND message specifying either speech full rate version 1 or speech full rate version 2 or speech half rate version 1 (for an MS also supporting half rate speech version 1), the Mobile Station continues a mobile terminating call establishment with early assignment of traffic channel a) by replying to the ASSIGNMENT command with an ASSIGNMENT COMPLETE message; and b) by continuing the call establishment by through connecting TCH in both directions if it supports immediate connect or by sending an ALERTING message otherwise. 3) To verify that for speech calls, the mobile station shall attach the user connection at latest when sending the connect message, except if there is no compatible radio resource available at this time. In this case the attachment shall be delayed until such a resource becomes available.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.4.3 Method of test	Specific PICS statements: - Speech supported for Half rate version 1 (TSPC_AddInfo_Half_rate_version_1) - Immediate connect supported for all circuit switched basic services. (TSPC_AddInfo_ImmConn) PIXIT statements: - Way to indicate alerting. - Way to make the MS accept an incoming call after alerting. Initial Conditions System Simulator: 1 cell, default parameters. Mobile Station: The MS is in MM-state "idle, updated" with valid TMSI and CKSN. Foreseen Final State of the MS CC state U10-call active. Test procedure The following test is performed for all rates (full rate/half rate) supported by the MS: - A teleservice is selected that is supported by the MS; if the MS supports speech, the selected teleservice is speech. If necessary, the MS is configured for that teleservice. - The MS is paged and the resulting call is established. Having reached the active state, the MS is made to clear the call. Maximum Duration of Test 3 minutes. Expected Sequence This test is repeated for execution counter M = 1, 2 for an MS supporting full rate channels only. This test is repeated for execution counter M = 1, 2, 3 for an MS supporting both half rate speech version 1 and full rate channels. Step Direction Message Comments 1 SS -> MS PAGING REQUEST TYPE 1 Sent on the correct paging subchannel 2 MS -> SS CHANNEL REQUEST 3 SS -> MS IMMEDIATE ASSIGNMENT 4 MS -> SS PAGING RESPONSE Message is contained in SABM. 5 SS -> MS AUTHENTICATION REQUEST 6 MS -> SS AUTHENTICATION RESPONSE SRES specifies correct value. 7 SS -> MS CIPHERING MODE COMMAND SS starts deciphering after sending the message. 8 MS -> SS CIPHERING MODE COMPLETE Shall be sent enciphered. All following messages shall be sent enciphered. 9 SS SS starts ciphering. 10 SS -> MS SETUP Message does not contain the signal IE. 11 MS -> SS CALL CONFIRMED MS shall indicate and include all the speech versions that it supports. If the MS supports an Immediate connection then branch A applies. If the MS doesn't support an immediate connection then branch B applies. A12 MS -> SS CONNECT sent on the old channel A13 SS -> MS ASSIGNMENT COMMAND A14 MS -> SS ASSIGNMENT COMPLETE B12 SS -> MS ASSIGNMENT COMMAND B13 MS -> SS ASSIGNMENT COMPLETE Sent on the new channel. B14 MS -> SS ALERTING B15 MS An alerting indication as defined in an PIXIT statement is given by the MS. B16 MS The MS is made to accept the call in the way described in a PIXIT statement. B17 MS -> SS CONNECT 18 MS the TCH shall be through connected in both directions. in the indicated mode. 19 SS -> MS CONNECT ACKNOWLEDGE 20 MS The MS is made to release the call. 21 MS -> SS DISCONNECT 22 SS -> MS RELEASE 23 MS -> SS RELEASE COMPLETE 24 SS -> MS CHANNEL RELEASE The main signalling link is released. Specific Message Contents: For M = 1: Assignment command See default message contents subclause 26.12.8. call confirmed Same contents as subclause 26.12.8 but all the speech versions supported by the MS shall be indicated in octet_3a_etc(s). For M = 2 : Assignment command Same as for default message contents except: Mode of the first channel - Mode speech full rate or half rate version 1 call confirmed Same contents as subclause 26.12.8 but all the speech versions supported by the MS shall be indicated in octet_3a_etc(s). For M = 3: Assignment command Same as for default message contents except: Channel Description - TDMA offset TCH/H+ACCHs Mode of the first channel - Mode speech full rate or half rate version 1 CALL CONFIRMED Same contents as subclause 26.12.8 but all the speech versions supported by the MS shall be indicated in octet_3a_etc(s).
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.5 Structured procedures / emergency call	NOTE: This test is derived from the ones described in subclauses 26.9.6.1.1 and 26.9.6.1.2 and respectively entitled "Structured procedures / emergency call / idle updated, preferred channel rate " and "Structured procedures / emergency call / idle updated, non-preferred channel rate". This test applies to mobiles supporting Enhanced Full Rate speech.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.5.1 Conformance requirement	1) For R97/98 MS: The MS in the "idle, updated" state, as after a successful location update, after the number 112 (for GSM 900 and 1 DCS 800 MS), or 911 (for GSM 710, GSM 750, T_GSM 810, GSM 850, PCS 1 900 MS in USA and Canada), or 08 (for GSM 710, GSM 750, T_GSM 810, GSM 850, PCS 1 900 MS in Mexico) has been entered by user, shall send a CHANNEL REQUEST message with correct establishment cause ("emergency call"). For R99 MS: When a SIM/USIM containing stored emergency numbers is present, those numbers are identified as emergency numbers. As an optional requirement, the ME shall also identify 112 and 911 as emergency numbers irrespective of whether these are stored in the SIM/USIM. Any other emergency numbers stored in the ME shall be ignored. When no emergency numbers are stored within the SIM the following numbers shall be stored in the ME for use as emergency numbers: 112, and 911. When no emergency numbers are stored within the USIM the following numbers shall be stored in the ME for use as emergency numbers: 112, and 911. 2) After assignment of a dedicated channel the first layer message sent by the MS on the assigned dedicated channel shall be a CM SERVICE REQUEST message specifying the correct CKSN and TMSI , with CM Service Type "emergency call establishment". 3) Authentication and cipher mode setting shall be performed successfully. 4) After cipher mode setting acceptance by the network, the MS shall send an EMERGENCY SETUP message. 5) The EFR mobile station shall accept channel assignment to a TCH full rate speech version 1 or 2 and if it supports half rate, in addition it shall accept channel assignment to a TCH half rate speech version 1. 6) After receipt of a CONNECT ACKNOWLEDGE message during correct establishment of the emergency call the TCH shall be through connected in both directions if an appropriate TCH is available. 7) The call shall be cleared correctly. Requirement Reference: For conformance requirement 1 and 2: 3GPP TS 04.08 / 3GPP TS 44.018 subclause 3.3.1.1, 3GPP TS 04.08 / 3GPP TS 24.008, subclauses 5.2.1 and 4.5.1.5, 3GPP TS 02.30, clause 4,, 3GPP TS 22.101 clause 8. For conformance requirement 3: 3GPP TS 04.08 / 3GPP TS 44.018, subclause 3.4.7, 3GPP TS 04.08 / 3GPP TS 24.008, subclause 4.3.2. For conformance requirement 4: 3GPP TS 04.08 / 3GPP TS 24.008, subclause 5.2.1.1. For conformance requirement 5: 3GPP TS 04.08 / 3GPP TS 24.008, subclause 5.2.1.1, 3GPP TS 04.08 / 3GPP TS 44.018, subclause 3.4.3, 3GPP TS 02.06, subclause 3.2.3. For conformance requirement 6: 3GPP TS 04.08 / 3GPP TS 24.008, subclause 5.2.1.6. For conformance requirement 7: 3GPP TS 04.08 / 3GPP TS 24.008, subclause 5.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.5.2 Test purpose	1) To verify that an R97/98 MS supporting speech in the MM state "idle, updated", when made to call the number 112, (for GSM 900 and DCS 1800 MS), or 911 (for GSM 710, GSM 750, T_GSM 810, GSM 850 and PCS 1 900 MS in USA and Canada), or 08 (for GSM 710, GSM 750, T_GSM 810, GSM 850 and PCS 1 900 MS in Mexico) sends a CHANNEL REQUEST message with establishment cause "emergency call". To verify that an R99 MS supporting speech in the MM state "idle, updated", when made to call the number 112 or 911, sends a CHANNEL REQUEST message with establishment cause "emergency call". 2) To verify that after assignment of a dedicated channel the first layer message sent by the MS on the assigned dedicated channel is a CM SERVICE REQUEST message specifying the correct CKSN and TMSI, with CM Service Type "emergency call establishment". 3) To verify that authentication and cipher mode setting are performed successfully. 4) To verify that after cipher mode setting acceptance by the SS, the MS sends an EMERGENCY SETUP message. 5) To verify that the EFR mobile station shall both accept channel assignment to a TCH full rate speech versions 1 or 2 and if it supports half rate, in addition it shall accept channel assignment to a TCH half rate speech version 1. 6) To verify that subsequently the MS has through connected the TCH in both directions. 7) To verify that the call is cleared correctly.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.5.3 Method of test	Specific PICS statements: - Speech supported for Half rate version 1 (GSM HR) (TSPC_AddInfo_Half_rate_version_1) - Use of R99 Emergency numbers (TSPC_R99_Emerg) PIXIT statements: - . Initial Conditions System Simulator: 1 cell, default parameters. Mobile Station: The MS is in MM-state "idle, updated" with valid TMSI and CKSN. Foreseen Final State of the MS The MS is in MM-state "idle, updated" with valid TMSI and CKSN. Test procedure The MS is made to initiate an emergency call. The call is established with late assignment. Having reached the active state, the call is cleared by the SS. This procedure is repeated so that the assignment is made with all the channel rates and speech versions supported by the mobile station. Maximum Duration of Test 3 minutes Expected Sequence The expected sequence is executed for M = 1 and 2, for a full rate only mobile station which includes the bearer capability IE in the emergency setup message. The expected sequence is executed for M = 1, 2 and 3, for a dual rate mobile station which includes the bearer capability IE in the emergency setup message. The expected sequence is executed for M = 1, for a mobile which does not include the bearer capability IE in the emergency setup message. Step Direction Message Comments 1 MS The appropriate emergency number is entered 3 MS -> SS CHANNEL REQUEST Establishment cause is emergency call establishment. 4 SS -> MS IMMEDIATE ASSIGNMENT 5 MS -> SS CM SERVICE REQUEST Message is contained in SABM. The CM service type IE indicates "emergency call establishment". 6 SS -> MS AUTHENTICATION REQUEST 7 MS -> SS AUTHENTICATION RESPONSE SRES specifies correct value. 8 SS -> MS CIPHERING MODE COMMAND SS starts deciphering after sending the message. 9 MS -> SS CIPHERING MODE COMPLETE Shall be sent enciphered. All following messages shall be sent enciphered. 10 SS SS starts ciphering. 11 MS -> SS EMERGENCY SETUP If the bearer capability IE is including, it shall be checked that all the speech versions supported by the MS are present. 12 SS -> MS CALL PROCEEDING 13 SS -> MS ALERTING 14 SS -> MS ASSIGNMENT COMMAND See specific message contents. 15 MS -> SS ASSIGNMENT COMPLETE 16 SS -> MS CONNECT 17 MS -> SS CONNECT ACKNOWLEDGE 18 MS The TCH is through connected in both directions in the correct mode. 19 SS -> MS DISCONNECT 20 MS -> SS RELEASE 21 SS -> MS RELEASE COMPLETE 23 SS -> MS CHANNEL RELEASE The main signalling link is released. Note: According to the conformance requirements there is no need to execute the test case by dialling the number 08 for an R99 MS. Specific Message Contents: For M= 1 ASSIGNMENT COMMAND same as for default message contents except: Mode of the first channel - Mode Speech full rate or half rate version 1 For M= 2 ASSIGNMENT COMMAND same as for default message contents. For M= 3 ASSIGNMENT COMMAND same as for default message contents except: Channel Description - TDMA offset TCH/H+ACCHs Mode of the first channel - Mode Speech full rate or half rate version 1
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.6 EFR Signalling / Directed Retry / Mobile Originated Call	This test is derived from the one defined in subclause 26.9.7 and entitled "Directed Retry / MS originated call".
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.6.1 Conformance requirements	The MS shall correctly apply the Directed Retry procedure from SDCCH/8 (no frequency hopping) to TCH/EFR with frequency hopping in the non-synchronized case during call establishment. The call control entity of the Mobile Station in the "mobile originating call proceeding" state shall, upon receipt of a CONNECT message, attach the EFR speech connection to the radio path and return a CONNECT ACKNOWLEDGE message to the SS. References 3GPP TS 04.08 / 3GPP TS 44.018, subclauses 3.4.4 and 9.1.15. 3GPP TS 04.08 / 3GPP TS 24.008 subclause 5.2.1.6. 3GPP TS 04.13, subclause 5.2.6.2.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.6.2 Test purpose	To test that, when the MS is ordered to perform a non-synchronized handover after the CALL PROCEED message, it continuously sends access bursts on the main DCCH (and optionally on the SACCH) until it receives a PHYSICAL INFORMATION message from the SS. To test that the MS correctly takes the values of the Timing Advance information element in the PHYSICAL INFORMATION message into account. To test that the MS activates the new channel correctly and transmits the HANDOVER COMPLETE message without undue delay. To test that the call control entity of the Mobile Station in the "mobile originating call proceeding" state, upon receipt of a CONNECT message, attaches the EFR speech connection to the radio path and returns a CONNECT ACKNOWLEDGE message to the SS.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.6.3 Method of test	Initial Conditions System Simulator: 2 cells A and B with same LAI, default parameters, except: Cell A has: BCCH ARFCN = See the table below. Cell Allocation = Allocate as per the table below. PLMN colour code, NCC = as defaults. BS colour code, BCC = as defaults. PLMN_PERM = 00001010. Cell B has: BCCH ARFCN =See the table below. Cell Allocation = Allocate as per the table below. PLMN colour code, NCC = 3. BS colour code, BCC = 0. Band Cell A Cell B Both Cells BCCH ARFCN Cell Allocation BCCH ARFCN Cell Allocation Format GSM 450 263 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291 274 260, 262, 264, 266, 268, 270, 272, 274, 276, 279, 281, 283, 285, 287, 289, 291 Range 128 GSM 480 310 306, 308, 310, 312, 314, 316, 318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338 321 307, 309, 311, 313, 315, 317, 319, 321, 323, 326, 328, 330, 332, 334, 336, 338 Range 128 GSM 710 457 447, 454, 457, 463, 471, 479, 482 ,483 ,489, 496, 498, 500, 501, 502, 503, 506, 508 477 451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508 Range 128 GSM 750 457 447, 454, 457, 463, 471, 479, 482 ,483 ,489, 496, 498, 500, 501, 502, 503, 506, 508 477 451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508 Range 128 T-GSM 810 457 447, 454, 457, 463, 471, 479, 482 ,483 ,489, 496, 498, 500, 501, 502, 503, 506, 508 477 451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508 Range 128 GSM 850 147 137, 144, 147, 153, 161, 169, 172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241 167 141, 145, 149, 151, 157, 158, 165, 167, 187, 193, 200, 201, 202, 203, 235, 241 Range 128 GSM 900 20 10, 17, 20, 26, 34, 42, 45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114 40 14, 18, 22, 24, 30, 31, 38, 40, 60, 66, 73, 74, 75, 76, 108, 114 Range 128 DCS 1 800 747 734, 741, 747, 754, 759, 762, 766, 767, 773, 775, 779, 782, 791, 798, 829, 832, 844 764 739, 743, 746, 749, 756, 758, 761, 764, 771, 779, 782, 791, 798, 829, 832, 844 Range 512 PCS 1 900 647 634, 641, 647, 654, 659, 662, 666, 667, 673, 675, 679, 682, 691, 698, 729, 732, 744 664 639, 643, 646, 649, 656, 658, 661, 664, 671, 679, 682, 691, 698, 729, 732, 744 Range 512 The timebase of Cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. A non-combined SDCCH is used. Mobile Station: The MS is in the "idle, updated" state, with a TMSI allocated and camped on cell A. Specific PICS statements: - PIXIT statements: - Way to indicate mobile originated alerting. -. Way to display the called number Foreseen Final State of the MS "Idle, updated" with TMSI allocated and camped on cell B. Test Procedure The MS is made to initiate a speech call on Cell A. After the SS has sent the CALL PROCEEDING message the SS sends a HANDOVER COMMAND message, ordering the MS to switch to cell B. The MS shall then begin to send access bursts on the new DCCH (and optionally on the SACCH) to cell B. The SS observes the access bursts and after receiving n (n being arbitrarily chosen between values according to table 26.6‑2 of subclause 26.6.5) access bursts, the SS sends one PHYSICAL INFORMATION message with an arbitrarily chosen Timing Advance. The MS shall activate the channel in sending and receiving mode. The MS shall establish a signalling link. The MS shall be ready to transmit a HANDOVER COMPLETE message before x ms after the end of the PHYSICAL INFORMATION message, but not before a UA frame has been sent by the SS. After the successful handover procedure the SS sends the ALERTING message. The correct alerting indication shall be given to the user (only applicable if the MS supports this feature). The SS sends the CONNECT message indicating that the call has been answered. The EFR speech channel shall be through connected in both directions. The MS shall send then the CONNECT ACKNOWLEDGE message as the response on the CONNECT message. Having reached the active state, the call is cleared by the SS. The term "ready to transmit" is defined in 3GPP TS 04.13. The value of "x" depends upon the target channel and is specified in the specific message contents section. Maximum Duration of Test 1 minute, including 30 s for any necessary operator actions. Expected Sequence Step Direction Message Comments 1 -------- -------- A MO call is initiated on cell A. 2 MS -> SS CHANNEL REQUEST Establishment cause is "originating call and the network does not set the NECI bit to 1". 3 SS -> MS IMMEDIATE ASSIGNMENT See specific message contents. 4 MS -> SS CM SERVICE REQUEST CM Service Type = Mobile Originating Call Establishment. 5 SS -> MS AUTHENTICATION REQUEST 6 MS -> SS AUTHENTICATION RESPONSE SRES specifies correct value. 7 SS -> MS CIPHERING MODE COMMAND SS starts deciphering after sending the message. 8 MS -> SS CIPHERING MODE COMPLETE Shall be sent enciphered. All following messages shall be sent enciphered. 9 SS SS starts ciphering. 10 MS -> SS SETUP EFR speech 11 SS -> MS CALL PROCEEDING 12 SS -> MS HANDOVER COMMAND See specific message contents. 13 MS -> SS HANDOVER ACCESS Repeated on every burst of the uplink main DCCH (and optionally on the SACCH) until reception of PHYSICAL INFORMATION. Handover Reference as included in the HANDOVER COMMAND. 14 SS -> MS PHYSICAL INFORMATION Sent after reception of n HANDOVER ACCESS message. Timing Advance is arbitrarily chosen. 15 MS -> SS SABM Sent without information field. 16 SS -> MS UA 17 MS -> SS HANDOVER COMPLETE This message shall be ready to be transmitted before "x" ms after the completion of step 14. 18 SS -> MS ALERTING 19 MS Depending on the PICS, an alerting indication is given. 20 SS -> MS CONNECT 21 MS -> SS CONNECT ACKNOWLEDGE 22 MS The EFR speech channel is through connected in both directions. 23 SS -> MS DISCONNECT 24 MS -> SS RELEASE 25 SS -> MS RELEASE COMPLETE 26 SS -> MS CHANNEL RELEASE The main signalling link is released. Specific Message Contents IMMEDIATE ASSIGNMENT Information Element value/remark As default message contents except: Channel Description Channel Description. - Channel Type SDCCH/8 - TDMA offset As default message contents. - Timeslot number As default message contents. - Training Sequence Code Chosen arbitrarily. - Hopping Single RF Channel. - ARFCN Chosen arbitrarily from the Cell Allocation of Cell A. HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 3 - Base Station Colour Code 0 - BCCH Carrier Number See the table below. Channel Description - Channel Type TCH/F + ACCHs - TDMA offset Chosen arbitrarily. - Timeslot number Chosen arbitrarily but not zero. - Training Sequence Code Chosen arbitrarily. - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies encoded in the Frequency List IE. - HSN Zero (this gives cyclic hopping). Synchronization Indication IE is not included Frequency list after time - Frequency List Allocate frequencies as per the following table. Channel Mode IE Speech (full rate version 2 or half rate version 2). HANDOVER COMMAND Band Frequency List BCCH Carrier Number Format ARFCNs ARFCN GSM 450 Range 128 260, 262, 264, 266, 268, 270, 272, 276, 279, 281, 283, 285, 287, 289, 291 274 GSM 480 Range 128 307, 309, 311, 313, 315, 317, 319, 323, 326, 328, 330, 332, 334, 336, 338 321 GSM 710 Range 128 451, 455, 459, 461, 467, 468, 475, 497, 498, 500, 501, 502, 503, 506, 508 477 GSM 750 Range 128 451, 455, 459, 461, 467, 468, 475, 497, 498, 500, 501, 502, 503, 506, 508 477 T-GSM 810 Range 128 451, 455, 459, 461, 467, 468, 475, 497, 498, 500, 501, 502, 503, 506, 508 477 GSM 850 Range 128 141, 145, 149, 151, 157, 158, 165, 187, 193, 200, 201, 202, 203, 235, 241 167 GSM 900 Bitmap 0 14, 18, 22, 24, 30, 31, 38, 60, 66, 73, 74, 75, 76, 108, 114 40 DCS 1 800 Range 128 746, 779 764 PCS 1 900 Range 128 646, 679 664 Step 17: "x" = 500.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.7 EFR Signalling / Directed Retry / Mobile Terminated Call	This test is applicable to all MS which support EFR speech. NOTE: This test is derived from the one defined in subclause 26.9.8 and entitled "Directed Retry / MS originated call".
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.7.1 Conformance requirements	The MS shall correctly apply the Directed Retry procedure from SDCCH/8 with frequency hopping to TCH/EFR with frequency hopping and starting time in the non-synchronized case during call establishment. The call control entity of the Mobile Station in the "call delivered" state shall, if the MS supports immediate connect, continue the call establishment by through-connecting the EFR traffic channel in both directions, or if the MS does not support immediate connect, send an ALERTING message. The MS indicates acceptance of a MT call by sending CONNECT. The mobile station shall attach the user connection at latest when sending the CONNECT message, except if there is no compatible radio resource available at this time. In this case the attachment shall be delayed until such a resource becomes available. References 3GPP TS 04.08 / 3GPP TS 44.018, subclauses 3.4.4 and 9.1.15. 3GPP TS 04.08 / 3GPP TS 24.008, subclauses 5.2.2.5, 5.2.2.6 and 5.2.2.9. 3GPP TS 04.13, subclause 5.2.6.2.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.7.2 Test purpose	To test that when the MS is ordered to perform a non-synchronized handover after the CALL CONFIRM message, it continuously sends access bursts on the main DCCH (and optionally on the SACCH) until it receives a PHYSICAL INFORMATION message from the SS. To test that the MS correctly takes the values of the Timing Advance information element in the PHYSICAL INFORMATION message into account. To test that the MS activates the new channel correctly and transmits the HANDOVER COMPLETE message without undue delay. To test that the call control entity of the Mobile Station in the "call delivered" state, if the MS supports immediate connect, continues the call establishment by through-connecting the EFR traffic channel in both directions, or if the MS does not support immediate connect, sends an ALERTING message. To test that the MS indicates acceptance of a MT call by sending CONNECT. To test that the mobile station attaches the user connection at latest when sending the CONNECT message, except if there is no compatible radio resource available at this time. To test that in this case the attachment is delayed until such a resource becomes available.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.7.3 Method of test	Initial Conditions System Simulator: 2 cells A and B with same LAI, default parameters, except: Cell A has: BCCH ARFCN = See the table below Cell Allocation = Allocate as per the table below. PLMN colour code, NCC = as defaults. BS colour code, BCC = as defaults. PLMN_PERM = 00001010. Cell B has: BCCH ARFCN = See the table below.. Cell Allocation = Allocate as per the table below. PLMN colour code, NCC = 3. BS colour code, BCC = 0. Band Cell A Cell B Both Cells BCCH ARFCN Cell Allocation BCCH ARFCN Cell Allocation Format GSM 450 263 259, 261, 263, 265, 267, 269, 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291 274 260, 262, 264, 266, 268, 270, 272, 274, 276, 279, 281, 283, 285, 287, 289, 291 Range 128 GSM 480 310 306, 308, 310, 312, 314, 316, 318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338 321 307, 309, 311, 313, 315, 317, 319, 321, 323, 326, 328, 330, 332, 334, 336, 338 Range 128 GSM 710 457 447, 454, 457, 463, 471, 479, 482 ,483 ,489, 496, 498, 500, 501, 502, 503, 506, 508 477 451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508 Range 128 GSM 750 457 447, 454, 457, 463, 471, 479, 482 ,483 ,489, 496, 498, 500, 501, 502, 503, 506, 508 477 451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508 Range 128 T-GSM 810 457 447, 454, 457, 463, 471, 479, 482 ,483 ,489, 496, 498, 500, 501, 502, 503, 506, 508 477 451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508 Range 128 GSM 850 147 137, 144, 147, 153, 161, 169, 172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241 167 141, 145, 149, 151, 157, 158, 165, 167, 187, 193, 200, 201, 202, 203, 235, 241 Range 128 GSM 900 20 10, 17, 20, 26, 34, 42, 45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114 40 14, 18, 22, 24, 30, 31, 38, 40, 60, 66, 73, 74, 75, 76, 108, 114 Range 128 DCS 1 800 747 734, 741, 747, 754, 759, 762, 766, 767, 773, 775, 779, 782, 791, 798, 829, 832, 844 764 739, 743, 746, 749, 756, 758, 761, 764, 771, 779, 782, 791, 798, 829, 832, 844 Range 512 PCS 1 900 647 634, 641, 647, 654, 659, 662, 666, 667, 673, 675, 679, 682, 691, 698, 729, 732, 744 664 639, 643, 646, 649, 656, 658, 661, 664, 671, 679, 682, 691, 698, 729, 732, 744 Range 512 Both cells send SYSTEM INFORMATION TYPE 1 messages containing the complete Cell Allocation of the cell.The timebase of Cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. A non-combined SDCCH is used. Mobile Station: The MS is in the "idle, updated" state, with a TMSI allocated and camped on cell A. Specific PICS statements: - Immediate connect supported for all circuit switched basic services. (TSPC_AddInfo_ImmConn) PIXIT statements: - Way to indicate alerting. - Way to make the MS accept an incoming call after alerting. Foreseen Final State of the MS "Idle, updated" with TMSI allocated and camped on cell B. Test Procedure The MS is paged on Cell A. The MS responds to the PAGING REQUEST message and establishes a mobile terminated speech call on Cell A. If the MS supports immediate connect, it continues the call establishment by through-connecting the traffic channel in both directions, or if the MS does not support immediate connect, it sends an ALERTING message. The MS indicates acceptance of a MT call by sending CONNECT. After the MS has sent the CALL CONFIRMED message (if the MS supports immediate connect then the MS sends the CONNECT message after the CALL CONFIRMED message on the old channel) the SS sends a HANDOVER COMMAND message, ordering the MS to switch to cell B. The MS shall then begin to send access bursts on the new DCCH (and optionally on the SACCH) to cell B. The SS observes the access bursts and after receiving n (n being arbitrarily chosen between values according to table 26.6‑2 of subclause 26.6.5) access bursts, the SS sends one PHYSICAL INFORMATION message with an arbitrarily chosen Timing Advance. The MS shall activate the channel in sending and receiving mode. The MS shall establish a signalling link. The MS shall be ready to transmit a HANDOVER COMPLETE message before x ms after the end of the PHYSICAL INFORMATION message, but not before a UA frame has been sent by the SS. After the successful handover procedure the MS sends the ALERTING message (if the MS runs the immediate connect procedure then the MS does not send an ALERTING message). The correct alerting indication shall be given to the user (only applicable if the MS supports the feature or if the MS is not using the immediate connect procedure). After the MS sent the CONNECT message the EFR speech channel shall be through connected in both directions. The SS sends then the CONNECT ACKNOWLEDGE message as the response on the CONNECT message. Having reached the active state, the call is cleared by the SS. The term "ready to transmit" is defined in 3GPP TS 04.13. The value of "x" depends upon the target channel and is specified in the specific message contents section. Maximum Duration of Test 1 minute, including 30 s for any necessary operator actions. Expected Sequence Step Direction Message Comments 1 SS -> MS PAGING REQUEST TYPE 1 Sent on the correct paging subchannel on cell A. 2 MS -> SS CHANNEL REQUEST 3 SS -> MS IMMEDIATE ASSIGNMENT See specific message contents. 4 MS -> SS PAGING RESPONSE Message is contained in SABM. 5 SS -> MS AUTHENTICATION REQUEST 6 MS -> SS AUTHENTICATION RESPONSE SRES specifies correct value. 7 SS -> MS CIPHERING MODE COMMAND SS starts deciphering after sending the message. 8 MS -> SS CIPHERING MODE COMPLETE Shall be sent enciphered. All following messages shall be sent enciphered. 9 SS SS starts ciphering. 10 SS -> MS SETUP EFR speech. 11 MS -> SS CALL CONFIRMED If the MS supports immediate connect then branch A applies. If the MS does not support immediate connect then branch B applies A12 MS -> SS CONNECT sent on the old channel A13 SS -> MS HANDOVER COMMAND See specific message contents. A14 MS -> SS HANDOVER ACCESS Repeated on every burst of the uplink main DCCH (and optionally on the SACCH) until reception of PHYSICAL INFORMATION. Handover Reference as included in the HANDOVER COMMAND. The first HANDOVER ACCESS message shall be transmitted in the indicated frame (unless the indicated frame is not used by that channel, in which case the next frame used by that channel shall be used). A15 SS -> MS PHYSICAL INFORMATION Sent after reception of n HANDOVER ACCESS message. Timing Advance is arbitrarily chosen. A16 MS -> SS SABM Sent without information field. A17 SS -> MS UA A18 MS -> SS HANDOVER COMPLETE This message shall be ready to be transmitted before "x" ms after the completion of step A15. B12 SS -> MS HANDOVER COMMAND See specific message contents. B13 MS -> SS HANDOVER ACCESS Repeated on every burst of the uplink main DCCH (and optionally on the SACCH) until reception of PHYSICAL INFORMATION. Handover Reference as included in the HANDOVER COMMAND. The first HANDOVER ACCESS message shall be transmitted in the indicated frame (unless the indicated frame is not used by that channel, in which case the next frame used by that channel shall be used). B14 SS -> MS PHYSICAL INFORMATION Sent after reception of n HANDOVER ACCESS message. Timing Advance is arbitrarily chosen. B15 MS -> SS SABM Sent without information field. B16 SS -> MS UA B17 MS -> SS HANDOVER COMPLETE This message shall be ready to be transmitted before "x" ms after the completion of step B14. B18 MS -> SS ALERTING B19 MS Gives an alerting indication as defined in a PICS/PIXIT statement is given by the MS B20 MS The MS is made to accept the call in the way described in a PICS/PIXIT statement B21 MS -> SS CONNECT 22 MS The TCH/EFR channel shall be through connected in both directions. 23 SS -> MS CONNECT ACKNOWLEDGE 24 SS -> MS DISCONNECT 25 MS -> SS RELEASE 26 SS -> MS RELEASE COMPLETE 27 SS -> MS CHANNEL RELEASE The main signalling link is released. Specific Message Contents IMMEDIATE ASSIGNMENT Information Element value/remark As default message contents except: L2 pseudo length 14 octets (11 + contents of the MA). Channel Description - Channel Type SDCCH/8 - TDMA offset As default message contents. - Timeslot number Arbitrary value, but not zero. - Training Sequence Code Chosen arbitrarily. - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies encoded in the Mobile Allocation. - HSN Chosen arbitrarily from the set (1,2,..63). Mobile Allocation Contents Indicates only three frequencies. See the table below. IMMEDIATE ASSIGNMENT Band Mobile Allocation Length Contents GSM 450 3 Octets 281, 283, 285 GSM 480 3 Octets 328, 330, 332 GSM 710 3 Octets 500, 501, 502 GSM 750 3 Octets 500, 501, 502 T-GSM 810 3 Octets 500, 501, 502 GSM 850 3 Octets 200, 201, 202 GSM 900 3 Octets 73, 74, 75 DCS 1 800 3 Octets 773, 775, 779 PCS 1 900 3 Octets 673, 675, 679 HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 3 - Base Station Colour Code 0 - BCCH Carrier Number See below table Channel Description - Channel Type TCH/F + ACCHs - TDMA offset Chosen arbitrarily. - Timeslot number Chosen arbitrarily, but not Zero. - Training Sequence Code Chosen arbitrarily. - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies encoded in the Frequency List IE. - HSN Chosen arbitrarily from the set (1,2,..63). Frequency List after time - Frequency List Allocate frequencies as per the table below Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Non synchronized". - Normal Cell Indication Ignore out of range timing advance. Mode of First Channel Speech (full rate version 2 or half rate version 2). Starting Time Indicates the frame number of cell B. that will occur approximately 1,1 seconds (238 frames have elapsed) after the HANDOVER COMMAND is sent by cell A. HANDOVER COMMAND Band Frequency List BCCH Carrier Number Format ARFCNs ARFCN GSM 450 Range 128 260, 262, 264, 266, 276, 279, 281, 283, 285, 287, 289, 291 274 GSM 480 Range 128 307, 309, 311, 313, 323, 326, 328, 330, 332, 334, 336, 338 321 GSM 710 Range 128 451, 455, 459, 461, 497, 498, 500, 501, 502, 503, 506, 508 477 GSM 750 Range 128 451, 455, 459, 461, 497, 498, 500, 501, 502, 503, 506, 508 477 T-GSM 810 Range 128 451, 455, 459, 461, 497, 498, 500, 501, 502, 503, 506, 508 477 GSM 850 Range 128 141, 145, 149, 151, 187, 193, 200, 201, 202, 203,235, 241 167 GSM 900 Bitmap 0 14, 18, 22, 24, 60, 66, 73, 74, 75, 76,108, 114 40 DCS 1 800 Range 1 024 749, 758, 761, 764, 771, 779, 782, 791, 798, 829, 832, 844 764 PCS 1 900 Range 1 024 649, 658, 661, 664, 671, 679, 682, 691, 698, 729, 732, 744 664 Step A18 / B17: "x" = 750.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.12.8 Default contents of layer 3 messages for Enhanced Full rate speech tests	Refer to table 26.6, except for: Contents of ASSIGNMENT COMMAND message: Protocol Discriminator RR Management Skip Indicator 0000 Message Type 00101110 Channel Description - Channel Type and TDMA offset TCH/F + ACCHs - Timeslot Number Chosen arbitrarily by the test house - Training Sequence Code Chosen arbitrarily by the test house - Hopping Single RF channel - ARFCN See the table below Power Command - Power level Chosen arbitrarily by the test house Mode of the first channel - Mode speech full rate or half rate version 2 All other information elements Not present ASSIGNMENT COMMAND Band Channel Description ARFCN GSM 450 267 GSM 480 315 GSM 710 467 GSM 750 467 T-GSM 810 467 GSM 850 157 GSM 900 30 DCS 1 800 650 PCS 1 900 650 CALL CONFIRMED Information element Value/remark Repeat indicator Omitted Bearer capability 1 coding as described in subclause 11.8.2.9 Bearer capability 2 Omitted Cause Omitted Contents of CHANNEL MODE MODIFY message: Protocol Discriminator RR Management Skip Indicator 0000 Message Type 00010000 Channel Description same as the dedicated channel currently allocated Channel Mode - Mode speech full rate version 2 Contents of CHANNEL MODE MODIFY ACKNOWLEDGE message: Protocol Discriminator RR Management Skip Indicator 0000 Message Type 00010111 Channel Description same as the dedicated channel currently allocated Channel Mode - Mode Speech full rate version 2 Contents of HANDOVER COMMAND message: Protocol Discriminator RR Management Skip Indicator 0000 Message Type 00101011 Cell Description - Network Colour Code 1 - Base station Colour Code 5 - BCCH Carrier Number Set to the BCCH carrier number of cell B. (one of the values from the below table) Channel Description - Channel Type and TDMA offset TCH/F + ACCHs - Timeslot Number Chosen arbitrarily by the test house - Training Sequence Code Chosen arbitrarily by the test house - Hopping Single RF channel - ARFCN Chosen arbitrarily by the test house from those supported on the target cell Handover Reference - Handover Reference Value Chosen arbitrarily by the test house. Power Command - Power level Chosen arbitrarily by the test house Mode of the first channel - Mode speech full/half rate version 2 All other information elements Not present HANDOVER COMMAND Band Cell Description BCCH ARFCN GSM 450 261, 263, 282, 284, 287, 290, 293 GSM 480 308, 310, 329, 331, 334, 337, 340 GSM 710 447, 457, 480, 499, 504, 507, 510 GSM 750 447, 457, 480, 499, 504, 507, 510 T-GSM 810 447, 457, 480, 499, 504, 507, 510 GSM 850 137, 147, 207, 217, 227, 237, 247 GSM 900 10, 20, 80, 90, 100, 110, 120 DCS 1 800 of 520, 590, 600, 700, 780, 810, 870 PCS 1 900 520, 590, 650, 600, 680, 710, 770 Contents of SETUP message; (MS to SS); Protocol Discriminator Call Control Transaction Identifier TI value any value from the set {0, ..., 6} TI flag 0 Message Type 0X000101 Other information elements Not checked Protocol Discriminator Call Control Transaction Identifier set {0, ..., 6} TI flag 0 BC repeat indicator Not present Bearer capability 1 coding as described in subclause 11.8.2.9 All other information elements Not present Contents of SETUP message; (SS to MS for speech teleservice) Protocol Discriminator Call Control Transaction Identifier TI value any value from the set {0, ..., 6} TI flag 0 Message Type 0X000101 Other information elements Not checked Protocol Discriminator Call Control Transaction Identifier set {0, ..., 6} TI flag 0 BC repeat indicator Not present Bearer capability 1 octet 2 length 01 H octet 3 extension 1 radio channel requirement 01 coding standard GSM standardized coding transfer mode circuit mode information transfer capability speech All other information elements Not present 26.13 Multislot signalling
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1 Multislot signalling / RR
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1 Multislot signalling / RR / Measurement
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.1 Multislot signalling / RR / Measurement / symmetric
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.1.1 Conformance requirements	The MS shall continuously send MEASUREMENT REPORT messages, on every uplink HSCSD channel used, on every SACCH blocks and the measurement valid indication shall be set to valid (0) within the second block at the latest. After 20 s the values in the MEASUREMENT REPORT message shall contain measurement results for the 4 strongest BCCH carriers with known and allowed NCC part of BSIC. References 3GPP TS 04.08 / 3GPP TS 44.018, subclauses 3.4.1.2 and 9.1.21. 3GPP TS 05.08, subclause 8.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.1.2 Test purpose	1) To test that, when a combination of normal neighbours, and non-permitted NCCs is "on air", the MS reports only on normal neighbours and that in symmetric HSCSD configuration the neighbouring cell measurement reports are copied on every uplink HSCSD channel used.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.1.3 Method of test	Initial Conditions System Simulator: For GSM 450 or GSM 480: 8 cells with the following settings: Transmitter Level NCC BSCC ARFCN ARFCN Cell Identity (GSM 450) (GSM 480) Serving, S1 ‑60 1 3 260 307 0001H Neighbour, N1 ‑85 1 5 264 311 0002H Neighbour, N2 ‑80 1 7 268 315 0003H Neighbour, N3 ‑75 2 1 272 319 0004H Neighbour, N4 ‑55 3 3 276 323 0005H Neighbour, N5 ‑50 4 5 280 327 0006H Neighbour, N6 ‑45 1 7 284 331 0007H Neighbour, N7 ‑40 1 1 288 335 0008H For GSM 900 or DCS 1 800: 8 cells with the following settings: Transmitter Level NCC BSCC ARFCN ARFCN Cell Identity (GSM 900) (DCS 1 800) Serving, S1 ‑60 1 3 002 514 0001H Neighbour, N1 ‑85 1 5 008 530 0002H Neighbour, N2 ‑80 1 7 014 602 0003H Neighbour, N3 ‑75 2 1 020 665 0004H Neighbour, N4 ‑55 3 3 026 762 0005H Neighbour, N5 ‑50 4 5 032 686 0006H Neighbour, N6 ‑45 1 7 038 549 0007H Neighbour, N7 ‑40 1 1 044 810 0008H For GSM 700 or GSM 850: 8 cells with the following settings: Transmitter Level NCC BSCC ARFCN ARFCN Cell Identity (GSM 700) GSM 850) Serving, S1 ‑60 1 3 439 129 0001H Neighbour, N1 ‑85 1 5 445 135 0002H Neighbour, N2 ‑80 1 7 451 141 0003H Neighbour, N3 ‑75 2 1 457 147 0004H Neighbour, N4 ‑55 3 3 463 153 0005H Neighbour, N5 ‑50 4 5 469 159 0006H Neighbour, N6 ‑45 1 7 475 165 0007H Neighbour, N7 ‑40 1 1 481 171 0008H With the exception of the Cell Allocation, the rest of the parameters for all eight cells are the same as the default settings and default SYSTEM INFORMATION TYPE 1 to 4 message contents for cell A. The Cell Allocation for the serving cell is the same as the default setting for cell A. The Cell Allocations for the neighbour cells need have only one entry, consisting of the ARFCN of that cell's BCCH. Mobile Station: The MS is in the active state of a service using symmetric multislot connection. Specific PICS statements: - Multislot class (TSPC_Type_Multislot_ClassX) PIXIT statements: - Foreseen Final State of the MS Active state of a service using symmetric multislot connection. Test Procedure This test procedure is repeated for all the symmetric multislot configurations MS supports. With the MS having a multislot connection in progress, the SS sends SYSTEM INFORMATION TYPE 5 & 6 on the SACCH/M. All 7 of the BCCHs "on air" are indicated in the BA (N1 is excluded). The MS shall send MEASUREMENT REPORTs back to the SS on every uplink HSCSD channel, and it shall be indicated in these that measurement results for the 4 strongest carriers have been obtained. Maximum Duration of Test 5 minutes, including 1 minute for any necessary operator actions. Expected Sequence SYSTEM INFORMATION TYPE 5, SYSTEM INFORMATION TYPE 6 and MEASUREMENT REPORT are sent continuously, a table is not applicable in this test. The interval between 2 successive Layer 2 frames containing MEASUREMENT REPORTs shall not exceed one Layer 2 frame. Specific Message Contents SYSTEM INFORMATION TYPE 5 DCS 1 800 and PCS 1 900 begin: Information Element value/remark Neighbour Cells Description - Format Identifier 1024 range - EXT IND Information Element carries complete BA. - W(i) Non null for ARFCN 514, 549, 602, 665, 686, 762, 810. DCS 1 800 and PCS 1 900 end: Other bands begin: Information Element value/remark Neighbour Cells Description Format Identifier See the table below BCCH Allocation Sequence 1 BCCH Allocation ARFCN See the table below - EXT IND Information Element carries complete BA. Band Neighbour Cells Description Format Identifier BCCH Allocation ARFCN GSM 450 Range 128 259, 260, 262, 263, 264, 266, 267, 268, 269, 270, 271, 272, 274, 275, 276, 277, 278, 280, 281, 282, 283, 284, 285, 286, 287, 288, 290, 291, 292, 293 GSM 480 Range 128 306, 307, 308, 310, 311, 312, 313, 315, 316, 317, 318, 319, 321, 322, 323, 324, 325, 326, 327, 329, 330, 331, 332, 333, 334, 335, 337, 338, 339, 340 GSM 710 Range 128 439, 441, 442, 443, 444, 446, 447, 448, 449, 450, 451, 453, 454, 455, 456, 457, 458, 460, 461, 463, 465, 466, 467, 469, 471, 472, 473, 475, 477 and 481 GSM 750 Range 128 439, 441, 442, 443, 444, 446, 447, 448, 449, 450, 451, 453, 454, 455, 456, 457, 458, 460, 461, 463, 465, 466, 467, 469, 471, 472, 473, 475, 477 and 481 T-GSM 810 Range 128 439, 441, 442, 443, 444, 446, 447, 448, 449, 450, 451, 453, 454, 455, 456, 457, 458, 460, 461, 463, 465, 466, 467, 469, 471, 472, 473, 475, 477 and 481 GSM 850 Range 128 129, 131, 132, 133, 134, 136, 137, 138, 139, 140, 141, 143, 144, 145, 146, 147, 148, 150, 151, 153, 155, 156, 157, 159, 161, 162, 163, 165, 167 and 171 GSM 900 Bit map 0 2, 4, 5, 6, 7, 9, 10, 11, 12, 13, 14, 16, 17, 18, 19, 20, 21, 23, 24, 26, 28, 29, 30, 32, 34, 35, 36, 38, 40 and 44 Other bands end: SYSTEM INFORMATION TYPE 6: Information Element value/ remark Protocol Discriminator RR Management Message Type sys info 6 Cell Identity Default LAI Default Cell Options - Power Control Indicator Power Control Indicator is set - DTX Indicator MS shall not use DTX - Radio-Link-Time-out Default PLMN permitted only NCC 1 permitted MEASUREMENT REPORT Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA_used 1 DTX_used DTX was not used RXLEV_FULL_SERVING_CELL See note 1 RXLEV_SUB_SERVING_CELL See note 1 MEAS_VALID See note 2 RXQUAL_FULL_SERVING_CELL See note 1 RXQUAL_SUB_SERVING_CELL See note 1 NO_NCELL_M 4 neighbour cell measurement results RXLEV_NCELL_1 See note 1 BCCH_FREQ_NCELL_1 Corresponds to one of N7, N6, S1 or N2 BSIC_NCELL_1 Corresponds to that of BCCH_FREQ_NCELL_1 RXLEV_NCELL_2 See note 1 BCCH_FREQ_NCELL_2 Corresponds to one of N7, N6, S1 or N2 BSIC_NCELL_2 Corresponds to that of BCCH_FREQ_NCELL_2 RXLEV_NCELL_3 See note 1 BCCH_FREQ_NCELL_3 Corresponds to one of N7, N6, S1 or N2 BSIC_NCELL_3 Corresponds to that of BCCH_FREQ_NCELL_3 RXLEV_NCELL_4 See note 1 BCCH_FREQ_NCELL_4 Corresponds to one of N7, N6, S1 or N2 BSIC_NCELL_4 Corresponds to that of BCCH_FREQ_NCELL_4 RXLEV_NCELL_5 00 0000 BCCH_FREQ_NCELL_5 0 0000 BSIC_NCELL_5 00 0000 RXLEV_NCELL_6 00 0000 BCCH_FREQ_NCELL_6 0 0000 BSIC_NCELL_6 00 0000 This message shall contain one report on each of N7, N6, S1 and N2. NOTE 1: These actual values are not checked. NOTE 2: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.2 Multislot signalling / RR / Measurement / asymmetric
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.2.1 Conformance requirements	The MS shall continuously send MEASUREMENT REPORT messages, on every uplink HSCSD channel used, on every SACCH blocks and the measurement valid indication shall be set to valid (0) within the second block at the latest. After 20 s the values in the MEASUREMENT REPORT message shall contain measurement results for the 4 strongest BCCH carriers with known and allowed NCC part of BSIC. References 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.1.2 and 9.1.21. 3GPP TS 05.08 subclause 8.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.2.2 Test purpose	1) To test that, when a combination of normal neighbours, barred cells and non-permitted NCCs is "on air", the MS reports only on normal neighbours and that in asymmetric HSCSD configuration the neighbouring cell measurement reports are copied on every uplink HSCSD channel used.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.2.3 Method of test	Initial Conditions System Simulator: For GSM 450 or GSM 480: 8 cells with the following settings: Transmitter Level NCC BSCC ARFCN ARFCN Cell Identity (GSM 450) (GSM 480) Serving, S1 ‑60 1 3 260 307 0001H Neighbour, N1 ‑85 1 5 264 311 0002H Neighbour, N2 ‑80 1 7 268 315 0003H Neighbour, N3 ‑75 2 1 272 319 0004H Neighbour, N4 ‑55 3 3 276 323 0005H Neighbour, N5 ‑50 4 5 280 327 0006H Neighbour, N6 ‑45 1 7 284 331 0007H Neighbour, N7 ‑40 1 1 288 335 0008H For GSM 900 or DCS 1 800: 8 cells with the following settings: Transmitter Level NCC BSCC ARFCN ARFCN Cell Identity (GSM 900) (DCS 1 800) Serving, S1 ‑60 1 3 002 514 0001H Neighbour, N1 ‑85 1 5 008 530 0002H Neighbour, N2 ‑80 1 7 014 602 0003H Neighbour, N3 ‑75 2 1 020 665 0004H Neighbour, N4 ‑55 3 3 026 762 0005H Neighbour, N5 ‑50 4 5 032 686 0006H Neighbour, N6 ‑45 1 7 038 549 0007H Neighbour, N7 ‑40 1 1 044 810 0008H For GSM 700 or GSM 850: 8 cells with the following settings: Transmitter Level NCC BSCC ARFCN ARFCN Cell Identity (GSM 700) GSM 850) Serving, S1 ‑60 1 3 439 129 0001H Neighbour, N1 ‑85 1 5 445 135 0002H Neighbour, N2 ‑80 1 7 451 141 0003H Neighbour, N3 ‑75 2 1 457 147 0004H Neighbour, N4 ‑55 3 3 463 153 0005H Neighbour, N5 ‑50 4 5 469 159 0006H Neighbour, N6 ‑45 1 7 475 165 0007H Neighbour, N7 ‑40 1 1 481 171 0008H With the exception of the Cell Allocation, the rest of the parameters for all eight cells are the same as the default settings and default SYSTEM INFORMATION TYPE 1 to 4 message contents for cell A. The Cell Allocation for the serving cell is the same as the default setting for cell A. The Cell Allocations for the neighbour cells need have only one entry, consisting of the ARFCN of that cell's BCCH. Mobile Station: The MS is in the active state of a service using asymmetric multislot connection. Specific PICS statements: - Multislot class (TSPC_Type_Multislot_ClassX) PIXIT statements: - Foreseen Final State of the MS Active state of a service using asymmetric multislot connection. Test Procedure This test procedure is performed twice. MS having a multislot connection with maximum number of timeslots in the downlink and one slot in uplink direction in progress, the SS sends SYSTEM INFORMATION TYPE 5 & 6 (on the second iteration of the test two timeslots are used in the downlink and one in uplink direction the SS also sends SYSTEM INFORMATION TYPE 5bis) on the SACCH/M. All 7 of the BCCHs "on air" are indicated in the BA (N1 is excluded). The MS shall send MEASUREMENT REPORTs back to the SS on every uplink HSCSD channel, and it shall be indicated in these that measurement results for the 4 strongest carriers have been obtained. Maximum Duration of Test 5 minutes, including 1 minute for any necessary operator actions. Expected Sequence This sequence is performed for execution counter, k = 1, 2. Since when k = 1, SYSTEM INFORMATION TYPE 5, SYSTEM INFORMATION TYPE 6 and MEASUREMENT REPORT (and when k = 2 an additional SYSTEM INFORMATION TYPE 5bis is included) are sent continuously, a table is not applicable in this test. The interval between 2 successive Layer 2 frames containing MEASUREMENT REPORTs shall not exceed one Layer 2 frame. Specific Message Contents SYSTEM INFORMATION TYPE 5 DCS 1 800 and PCS 1 900 begin: Information Element value/remark Neighbour Cells Description - Format Identifier 1024 range - EXT IND k = 1. Information Element carries complete BA. k = 2. Information Element carries only a part of the BA. - W(i) k = 1. Non null for ARFCN 514, 530, 549, 602, 665, 686, 762, 810. k = 2. Non null for ARFCN 549, 602, 665, 686, 810. DCS 1 800 and PCS 1 900 end: Other bands begin: Information Element value/remark Neighbour Cells Description Format Identifier See the table below BCCH Allocation Sequence 1 BCCH Allocation ARFCN See the table below - EXT IND k = 1. Information Element carries complete BA. k = 2. Information Element carries only a part of the BA. Band Neighbour Cells Description Format Identifier BCCH Allocation ARFCN GSM 450 Range 128 259, 260, 261, 262, 263, 264, 265, 267, 268, 269, 270, 271, 272, 273, 274, 275, 276, 278, 279, 280, 281, 282, 283, 284, 285, 286, 287, 288, 289, 290, 291, 292 GSM 480 Range 128 306, 307, 308, 309, 310, 311, 312, 314, 315, 316, 317, 318, 319, 320, 321, 322, 323, 325, 326, 327, 328, 329, 330, 331, 332, 333, 334, 335, 336, 337, 338, 339 GSM 710 Range 128 439, 441, 442, 443, 444, 445, 446, 447, 448, 449, 450, 451, 453, 454, 455, 457, 457, 458, 459, 460, 461, 463, 465, 466, 467, 469, 471, 472, 473, 475, 477, 481 GSM 750 Range 128 439, 441, 442, 443, 444, 445, 446, 447, 448, 449, 450, 451, 453, 454, 455, 457, 457, 458, 459, 460, 461, 463, 465, 466, 467, 469, 471, 472, 473, 475, 477, 481 T-GSM 810 Range 128 439, 441, 442, 443, 444, 445, 446, 447, 448, 449, 450, 451, 453, 454, 455, 457, 457, 458, 459, 460, 461, 463, 465, 466, 467, 469, 471, 472, 473, 475, 477, 481 GSM 850 Range 128 129, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 143, 144, 145, 146, 147, 148, 149, 150, 151, 153, 155, 156, 157, 159, 161, 162, 163, 165, 167, 171 GSM 900 Bit map 0 2, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 16, 17, 18, 19, 20, 21, 22, 23, 24, 26, 28, 29, 30, 32, 34, 35, 36, 38, 40, 44 Other bands end: SYSTEM INFORMATION TYPE 5bis (Sent only when k = 2) Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5bis. Neighbour Cells Description - Format 256 range - EXT IND k = 2. Information Element carries only a part of the BA. - W(i) GSM 450: Channel 0 and 800 belong to the BCCH allocation. GSM 480: Channel 0 and 800 belong to the BCCH allocation. GSM 710: Channel 438 and 800 belong to the BCCH allocation. GSM 750: Channel 438 and 800 belong to the BCCH allocation. T-GSM 810: Channel 438 and 800 belong to the BCCH allocation. GSM 850: Channel 128 and 800 belong to the BCCH allocation. GSM 900: Channel 0 and 800 belong to the BCCH allocation. DCS 1 800: Non null ARFCN 20, 514, 530, 549, 762. PCS 1 900: Non null ARFCN 20, 514, 530, 549, 762. SYSTEM INFORMATION TYPE 6: Information Element value/ remark Protocol Discriminator RR Management Message Type sys info 6 Cell Identity default LAI default Cell Options - Power Control Indicator Power Control Indicator is set - DTX Indicator MS shall not use DTX - Radio_Link_Timeout default PLMN permitted only NCC 1 permitted MEASUREMENT REPORT Information Element Value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA_used 1 DTX_used DTX was not used RXLEV_FULL_SERVING_CELL See note 1 RXLEV_SUB_SERVING_CELL See note 1 MEAS_VALID See note 2 RXQUAL_FULL_SERVING_CELL See note 1 RXQUAL_SUB_SERVING_CELL See note 1 NO_NCELL_M 4 neighbour cell measurement results RXLEV_NCELL_1 See note 1 BCCH_FREQ_NCELL_1 Corresponds to one of N7, N6, S1 or N2 BSIC_NCELL_1 Corresponds to that of BCCH_FREQ_NCELL_1 RXLEV_NCELL_2 See note 1 BCCH_FREQ_NCELL_2 Corresponds to one of N7, N6, S1 or N2 BSIC_NCELL_2 Corresponds to that of BCCH_FREQ_NCELL_2 RXLEV_NCELL_3 See note 1 BCCH_FREQ_NCELL_3 Corresponds to one of N7, N6, S1 or N2 BSIC_NCELL_3 Corresponds to that of BCCH_FREQ_NCELL_3 RXLEV_NCELL_4 See note 1 BCCH_FREQ_NCELL_4 Corresponds to one of N7, N6, S1 or N2 BSIC_NCELL_4 Corresponds to that of BCCH_FREQ_NCELL_4 RXLEV_NCELL_5 00 0000 BCCH_FREQ_NCELL_5 0 0000 BSIC_NCELL_5 00 0000 RXLEV_NCELL_6 00 0000 BCCH_FREQ_NCELL_6 0 0000 BSIC_NCELL_6 00 0000 This message shall contain one report on each of N7, N6, S1 and N2. NOTE 1: These actual values are not checked. NOTE 2: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.3 Multislot signaling / RR / Measurement / asymmetric / change of the reported subchannel
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.3.1 Conformance requirements	The MS shall continuously send MEASUREMENT REPORT messages, on the main channel, reporting the worst subchannel. One of the other subchannels is made worse than the one originally reported one and the MEASUREMENT REPORTs sent on the main channel are based on the new worst subchannel. References 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.1.2 and 9.1.21. 3GPP TS 05.08 subclause 8.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.3.2 Test purpose	1) To test that the MS shall report on the main SACCH: RXLEV_FULL and RXLEV_SUB from the main channel and the worst RXQUAL_FULL values and RXQUAL_SUB values from the main channel and the unidirectional channels. 2) To test that, when an another subchannel becomes the worst, MEASUREMENT REPORTs sent on the main channel are based on the new worst subchannel.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.1.3.3 Method of test	Initial Conditions System Simulator: For GSM 450 or GSM 480: 1 cell with the following settings: Transmitter Level NCC BCC ARFCN ARFCN Cell Identity (GSM 450) (GSM 480) Serving, S1 ‑60 1 3 260 307 0001H For GSM 900 or DCS 1 800: 1 cell with the following settings: Transmitter Level NCC BCC ARFCN ARFCN Cell Identity (GSM 900) (DCS 1 800) Serving, S1 ‑60 1 3 002 514 0001H For GSM 700 or GSM 850: 1 cell with the following settings: Transmitter Level NCC BCC ARFCN ARFCN Cell Identity (GSM 700) (GSM 850) Serving, S1 ‑60 1 3 439 129 0001H Mobile Station: The MS is in the active state of a service using asymmetric multislot connection. Specific PICS statements: - Multislot class (TSPC_Type_Multislot_ClassX) PIXIT statements: - Foreseen Final State of the MS Active state of a service using asymmetric multislot connection. Test Procedure MS having a multislot connection with maximum number of timeslots in the downlink and one slot in uplink direction in progress, the SS sends SYSTEM INFORMATION TYPE 5 & 6 on the SACCH/M. The MS shall send MEASUREMENT REPORTs back to the SS on the main channel based on the worst subchannel. The SS allows 2 seconds for the MS to get used to the RF conditions and then records the reported RXQUAL_FULL_SERVING_CELL and RXQUAL_SUB_SERVING_CELL values. Then an arbitrarily chosen uni-directional subchannel is made the worst from the RX quality point of view by switching off the ciphering in the SS on this channel. The MS shall send MEASUREMENT REPORTs back to the SS on the main channel based on the new worst channel. The SS allows 2 seconds for the MS to get used to the new RF conditions and then records the reported RXQUAL_FULL_SERVING_CELL and RXQUAL_SUB_SERVING_CELL values. The difference between the RXQUAL values recorded before and after the change in RX quality shall be greater than 3. Maximum Duration of Test 5 minutes, including 1 minute for any necessary operator actions. Expected Sequence Since SYSTEM INFORMATION TYPE 5, SYSTEM INFORMATION TYPE 6 and MEASUREMENT REPORT are sent continuously, a table is not applicable in this test. The interval between 2 successive Layer 2 frames containing MEASUREMENT REPORTs shall not exceed one Layer 2 frame. Specific Message Contents GSM 450 begin: SYSTEM INFORMATION TYPE 5: Information Element value/remark Neighbour Cells Description Format Identifier Range 128 BCCH Allocation Sequence 1 BCCH Allocation ARFCN The channel numbers 259, 260, 261, 262, 263, 264, 266, 267, 268, 269, 270, 271, 272, 273, 274, 275, 276, 277, 278, 280, 281, 282, 283, 284, 285, 286, 287, 288, 290, 291, 292 and 293 belong to the BCCH allocation. - EXT IND Information Element carries complete BA. SYSTEM INFORMATION TYPE 6: Information Element value/ remark Protocol Discriminator RR Management Message Type sys info 6 Cell Identity default LAI default Cell Options - Power Control Indicator Power Control Indicator is set - DTX Indicator MS shall not use DTX - Radio_Link_Timeout default PLMN permitted NCC 1 permitted MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA_used 1 DTX_used DTX was not used RXLEV_FULL_SERVING_CELL See note 1 RXLEV_SUB_SERVING_CELL See note 1 MEAS_VALID See note 2 RXQUAL_FULL_SERVING_CELL The worst subchannel RXQUAL_SUB_SERVING_CELL The worst subchannel GSM 450 end: GSM 480 begin: SYSTEM INFORMATION TYPE 5: Information Element value/remark Neighbour Cells Description Format Identifier Range 128 BCCH Allocation Sequence 1 BCCH Allocation ARFCN The channel numbers numbers 306, 307, 308, 309, 310, 311, 312, 313, 315, 316, 317, 318, 319, 320, 321, 322, 323, 324, 325, 326, 327, 329, 330, 331, 332, 333, 334, 335, 337, 338, 339 and 340 belong to the BCCH allocation. - EXT IND Information Element carries complete BA. SYSTEM INFORMATION TYPE 6: Information Element value/ remark Protocol Discriminator RR Management Message Type sys info 6 Cell Identity default LAI default Cell Options - Power Control Indicator Power Control Indicator is set - DTX Indicator MS shall not use DTX - Radio_Link_Timeout default PLMN permitted NCC 1 permitted MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA_used 1 DTX_used DTX was not used RXLEV_FULL_SERVING_CELL See note 1 RXLEV_SUB_SERVING_CELL See note 1 MEAS_VALID See note 2 RXQUAL_FULL_SERVING_CELL The worst subchannel RXQUAL_SUB_SERVING_CELL The worst subchannel GSM 480 end: GSM 900 begin: SYSTEM INFORMATION TYPE 5: Information Element value/remark Neighbour Cells Description Format Identifier bit map 0 BCCH Allocation Sequence 1 BCCH Allocation ARFCN The channel numbers 2, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 16, 17, 18, 19, 20, 21, 22, 23, 24, 26, 28, 29, 30, 32, 34, 35, 36, 38, 40 and 44 belong to the BCCH allocation. - EXT IND Information Element carries complete BA. SYSTEM INFORMATION TYPE 6: Information Element value/ remark Protocol Discriminator RR Management Message Type sys info 6 Cell Identity default LAI default Cell Options - Power Control Indicator Power Control Indicator is set - DTX Indicator MS shall not use DTX - Radio_Link_Timeout default PLMN permitted NCC 1 permitted MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA_used 1 DTX_used DTX was not used RXLEV_FULL_SERVING_CELL See note 1 RXLEV_SUB_SERVING_CELL See note 1 MEAS_VALID See note 2 RXQUAL_FULL_SERVING_CELL The worst subchannel RXQUAL_SUB_SERVING_CELL The worst subchannel GSM 900 end: DCS 1 800 begin: SYSTEM INFORMATION TYPE 5: Information Element value/remark Protocol Discriminator RR management Message Type Sys Info 5. Neighbour Cells Description - Format 1024 range - EXT IND Information Element carries complete BA. - W(i) Non null for ARFCN 514, 530, 549, 602, 665, 686, 762, 810. SYSTEM INFORMATION TYPE 6: Information Element value/ remark Protocol Discriminator RR Management Message Type sys info 6 Cell Identity default LAI default Cell Options - Power Control Indicator Power Control Indicator is set - DTX Indicator MS shall not use DTX - Radio_Link_Timeout default PLMN permitted only NCC 1 permitted MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA_used 1 DTX_used DTX was not used RXLEV_FULL_SERVING_CELL See note 1 RXLEV_SUB_SERVING_CELL See note 1 MEAS_VALID See note 2 RXQUAL_FULL_SERVING_CELL The worst subchannel RXQUAL_SUB_SERVING_CELL The worst subchannel DCS 1 800 end: GSM 700 begin: SYSTEM INFORMATION TYPE 5: Information Element value/remark Neighbour Cells Description Format Identifier 128 range BCCH Allocation Sequence 1 BCCH Allocation ARFCN The channel numbers 439, 441, 442, 443, 444, 445, 446, 447, 448, 449, 450, 451, 453, 454, 455, 456, 457, 458, 459, 460, 461, 463, 465, 466, 467, 469, 471, 472, 473, 475, 477 and 481 belong to the BCCH allocation.. - EXT IND Information Element carries complete BA. SYSTEM INFORMATION TYPE 6: Information Element value/ remark Protocol Discriminator RR Management Message Type sys info 6 Cell Identity Default LAI Default Cell Options - Power Control Indicator Power Control Indicator is set - DTX Indicator MS shall not use DTX - Radio_Link_Timeout Default PLMN permitted NCC 1 permitted MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA_used 1 DTX_used DTX was not used RXLEV_FULL_SERVING_CELL See note 1 RXLEV_SUB_SERVING_CELL See note 1 MEAS_VALID See note 2 RXQUAL_FULL_SERVING_CELL The worst subchannel RXQUAL_SUB_SERVING_CELL The worst subchannel GSM 700 end: GSM 850 begin: SYSTEM INFORMATION TYPE 5: Information Element value/remark Neighbour Cells Description Format Identifier 128 range BCCH Allocation Sequence 1 BCCH Allocation ARFCN The channel numbers 129, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 143, 144, 145, 146, 147, 148, 149 150, 151, 153, 155, 156, 157, 159, 161, 162, 163, 165, 167 and 171 belong to the BCCH allocation. - EXT IND Information Element carries complete BA. SYSTEM INFORMATION TYPE 6: Information Element value/ remark Protocol Discriminator RR Management Message Type sys info 6 Cell Identity Default LAI Default Cell Options - Power Control Indicator Power Control Indicator is set - DTX Indicator MS shall not use DTX - Radio_Link_Timeout Default PLMN permitted NCC 1 permitted MEASUREMENT REPORT: Information Element value/remark Protocol Discriminator RR Management Transaction Identifier 0000 Message Type MEASUREMENT REPORT Measurement Results BA_used 1 DTX_used DTX was not used RXLEV_FULL_SERVING_CELL See note 1 RXLEV_SUB_SERVING_CELL See note 1 MEAS_VALID See note 2 RXQUAL_FULL_SERVING_CELL The worst subchannel RXQUAL_SUB_SERVING_CELL The worst subchannel GSM 850 end: NOTE 1: These actual values are not checked. NOTE 2: The Measurement Valid Indication shall be set to valid within the second SACCH block at the latest.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.2 Multislot signalling / RR / Dedicated assignment
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.2.1 Multislot signalling / RR / Dedicated assignment / successful case
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.2.1.1 Conformance requirements	1) Upon receipt of the ASSIGNMENT COMMAND message, the mobile station initiates a local end release of link layer connections, disconnects the physical channels, commands the switching to the assigned channels and initiates the establishment of lower layer connections (this includes the activation of the channels, their connection and the establishment of the main signalling links). 2) MM-messages and CM-messages using SAPI=0 sent from the mobile station to the network can be duplicated by the data link layer in the following case: - a channel change of dedicated channels is required (assignment or handover procedure) and the last layer 2 frame has not been acknowledged by the peer data link layer before the mobile station leaves the old channel; - in this case, the mobile station does not know whether the network has received the message correctly. Therefore, the mobile station has to send the message again after the new dedicated channel is established. 3) The MS shall establish the link with the power level specified in the ASSIGNMENT COMMAND message. The MS shall confirm the power control level that it is currently employing in the uplink SACCH L1 header. The indicated value shall be the power control level actually used by the mobile for the last burst of the previous SACCH period. 4) The MS shall apply the hopping frequencies specified in ASSIGNMENT COMMAND message in the Mobile Allocation IE or the Frequency List IE at the time of accessing the new channel using the last received Cell Allocation. 5) After receipt of the ASSIGNMENT COMMAND the MS shall perform the assignment and return an ASSIGNMENT COMPLETE without undue delay. References Conformance requirements 1), 4) 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.3 and 9.1.2. Conformance requirements 2) 3GPP TS 04.08 / 3GPP TS 44.018 subclause 3.1.4.3. Conformance requirements 3) 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.3 and 9.1.2; 3GPP TS 05.08, subclause 4.2. Conformance requirements 5) 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.3 and 9.1.3, 3GPP TS 04.13 subclause 5.2.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.2.1.2 Test purpose	1) To verify that upon receipt of an ASSIGNMENT COMMAND, the MS switches to the channel(s) defined in the ASSIGNMENT COMMAND, establishes the link and sends an ASSIGNMENT COMPLETE message. This is tested for an MS supporting TCH and multislot configuration in the special cases of a transition. 1.1) from non-hopping SDCCH to hopping multislot configuration; 1.2) from hopping multislot configuration to non-hopping multislot configuration; 1.3) from non-hopping multislot configuration to hopping multislot configuration; 1.4) from hopping symmetric multislot configuration to hopping asymmetric multislot configuration, resource upgrading used; NOTE: The step 1.5 is applicable to all MS that supports multislot configuration Tx > 1 and Sum > 3. 1.5) from hopping asymmetric multislot configuration to hopping symmetric multislot configuration; 1.6) from hopping multislot configuration to non-hopping multislot configuration, resources downgrading to one TCH/F; 1.7) from non-hopping multislot configuration with one TCH/F to non-hopping multislot configuration, resource upgrading used; 1.8) from non-hopping multislot configuration to hopping multislot configuration, relocating all channels in multislot configuration call without changing the number of TCH/Fs allocated; 1.9) from hopping multislot configuration to non-hopping multislot configuration, partially relocating the channels in multislot configuration call without changing the number of TCH/Fs allocated; 1.10) from non-hopping multislot configuration to hopping multislot configuration, resource downgrading to one TCH/F; 2) To verify that an MS supporting TCH and multislot configuration, having sent a MM- or CM message that was not acknowledged on L2 before the channel assignment procedure was initiated and before the MS has left the old channel, repeats that message after completion of the assignment procedure without incrementing N(SD). This is tested in the special case of MM message AUTHENTICATION RESPONSE. 3) To verify that an MS supporting TCH and multislot configuration, having received an ASSIGNMENT COMMAND, having sent an SABM frame to establish the main signalling link on the assigned main channel of the multislot configuration, reports the power level(s) specified in the ASSIGNMENT COMMAND message, in the uplink SACCH L1 header of the SACCH message sent int the SACCH period following the transmission of the SABM frame. 4) To verify that an MS supporting TCH and multislot configuration, having received an ASSIGNMENT COMMAND, is able in the case of frequency hopping to decode the Mobile Allocation and Frequency List IEs correctly and applies the specified frequencies using the correct Cell Allocation. 5) To verify that after receipt of the ASSIGNMENT COMMAND the MS returns an ASSIGNMENT COMPLETE without undue delay.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.2.1.3 Method of test	Initial Conditions System Simulator: - 1 cell, default parameters except: - Early classmark sending enabled in SI3 rest octets. GSM 450: - BCCH ARFCN =263. - Throughout the test, the CA broadcast in System Information 1 is (259, 261, 263, 265, 267, 269, 271, 273, 275, 277). - Note that the actual CA of the cell contains other frequencies. GSM 480: - BCCH ARFCN =310. - Throughout the test, the CA broadcast in System Information 1 is (306, 308, 310, 312, 314, 316, 318, 320, 322, 324). - Note that the actual CA of the cell contains other frequencies. GSM 900: - BCCH ARFCN =20. - Throughout the test, the CA broadcast in System Information 1 is (10, 17, 20, 26, 34, 42, 45, 46, 52, 59). - Note that the actual CA of the cell contains other frequencies. DCS 1 800: - BCCH ARFCN =747. - Throughout the test, the CA broadcast in System Information 1 is (734, 741, 747, 754, 759, 766, 773, 775, 779, 782). - Note that the actual CA of the cell contains other frequencies. GSM 700: - BCCH ARFCN =457. - Throughout the test, the CA broadcast in System Information 1 is (447, 454, 457, 463, 471, 479, 482, 483, 489, 496). - Note that the actual CA of the cell contains other frequencies. GSM 850: - BCCH ARFCN =147. - Throughout the test, the CA broadcast in System Information 1 is (137, 144, 147, 153, 161, 169, 172, 173, 179, 186). - Note that the actual CA of the cell contains other frequencies. Mobile Station: - The MS is in the "idle, updated" state with a TMSI allocated. Specific PICS statements: - Multislot class (TSPC_Type_Multislot_ClassX) PIXIT statements: - Foreseen Final State of the MS "Idle, updated", with TMSI allocated. Test Procedure The SS pages the MS and allocates an SDCCH. Each time the MS shall switch to the assigned channel, establish the link and send an ASSIGNMENT COMPLETE message. Then the SS sends an AUTHENTICATION REQUEST message. The MS shall answer with an AUTHENTICATION RESPONSE message, which is not acknowledged on L2 by the SS. Immediately after the AUTHENTICATION RESPONSE message is received, the SS sends an ASSIGNMENT COMMAND. The MS shall switch to the assigned channel, establish the link with the commanded power level and send as ASSIGNMENT COMPLETE message. Then MS shall repeat the AUTHENTICATION RESPONSE message, with the same N(SD) value. Then the SS sends an ASSIGNMENT COMMAND, which includes a Starting Time IE. The MS shall react as specified above, but this shall be done at the time specified in Starting Time IE. The SS initiates the channel release procedure and the main signalling link is released. Maximum Duration of Test 30 s. Expected Sequence An MS supporting Multilsot Class 1 need only perform steps 1..12, 21..24 and 30. Step Direction Message Comments 1 SS -> MS PAGING REQUEST TYPE 1 2 MS -> SS CHANNEL REQUEST 3 SS -> MS IMMEDIATE ASSIGNMENT See specific message contents. 4 MS -> SS PAGING RESPONSE 5 MS -> SS CLASSMARK CHANGE Multislot class 6 SS -> MS ASSIGNMENT COMMAND See specific message contents. 7 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 6. 8 SS The SS checks that the MS reports the requested power level in the layer 1 header of the SACCH message that is sent in the first SACCH multiframe following the SABM. 9 SS -> MS ASSIGNMENT COMMAND See specific message contents. 10 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 9. 11 SS -> MS ASSIGNMENT COMMAND See specific message contents. 12 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 11. 13 SS -> MS ASSIGNMENT COMMAND See specific message contents. 14 MS -> SS ASSIGNMENT COMPLETE 15 (note) SS -> MS ASSIGNMENT COMMAND See specific message contents. 16 (note) MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 15. 17 SS -> MS ASSIGNMENT COMMAND See specific message contents. 18 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 17. 19 SS -> MS ASSIGNMENT COMMAND See specific message contents. 20 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 19. 21 SS -> MS ASSIGNMENT COMMAND See specific message contents. 22 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be ready to be transmitted before 600 ms after the completion of step 21. 23 SS -> MS AUTHENTICATION REQUEST 24 MS -> SS AUTHENTICATION RESPONSE This message is not L2 acknowledged by the SS. 25 SS -> MS ASSIGNMENT COMMAND See specific message contents. 26 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be transmitted before 600 ms after the completion of step 25. 27 MS -> SS AUTHENTICATION RESPONSE N(SD) shall be the same as in step 24. 28 SS -> MS ASSIGNMENT COMMAND See specific message contents. 29 MS -> SS ASSIGNMENT COMPLETE Sent on the correct channel after establishment of the main signalling link. This message shall be transmitted at the specified Starting Time in step 28. 30 SS -> MS CHANNEL RELEASE The main signalling link is released. NOTE: This step is applicable to all MS that supports multislot configuration Tx > 1 and Sum > 3. Specific Message Contents. GSM 450 begin: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Step 6 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Multislot allocation - Downlink assignment Maximum number of timeslots supported by the MS - Uplink assignment Maximum number of timeslots supported by the MS after specifying Downlink timeslots - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates all of the CA (broadcast on the BCCH) except for the BCCH carrier. Starting Time Not included Step 9 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Maximum number of possible additional bidirectional TCH/Fs and SACCH/Ms substracted by one, minimum being one) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 11 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Depending on Multislot class, Shall not have maximum number of timeslots. - Uplink assignment Appropriate for the test, but as many as in downlink assignment - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (271, 273, 281, 283, 285, 287, 289, 291) Starting Time Not included Step 13 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 11XXX (Appropriate number of additional unidirectional TCH/FDs and SACCH/MDs or Additional bidirectional TCH/F and SACCH/M and additional unidirectional TCH/FD and SACCH/MD Number of downlink timeslots shall be more than in step 11) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (271, 273, 281, 283, 285, 287, 289, 291) Starting Time Not included Step 15 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Must be more than one. - Uplink assignment Appropriate for the test, but as many as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (271, 273, 281, 283, 285, 287, 289, 291) Starting Time Not included Step 17 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode 271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Appropriate for the test, but more than one timeslot allocated and excluding timeslot 0.. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Same number of TCH/Fs and timeslot mapping as in step 19) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (273, 281, 283) Starting Time Not included Step 25 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Indicate same timeslots as step 19. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 28 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (273, 281, 283) Starting Time Chosen arbitrarily GSM 450 end: GSM 480 begin: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Step 6 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Multislot allocation - Downlink assignment Maximum number of timeslots supported by the MS - Uplink assignment Maximum number of timeslots supported by the MS after specifying Downlink timeslots - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates all of the CA (broadcast on the BCCH) except for the BCCH carrier. Starting Time Not included Step 9 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Maximum number of possible additional bidirectional TCH/Fs and SACCH/Ms substracted by one, minimum being one) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 11 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Depending on Multislot class, Shall not have maximum number of timeslots. - Uplink assignment Appropriate for the test, but as many as in downlink assignment - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (318, 320, 328, 330, 332, 334, 336, 338) Starting Time Not included Step 13 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 11XXX (Appropriate number of additional unidirectional TCH/FDs and SACCH/MDs or Additional bidirectional TCH/F and SACCH/M and additional unidirectional TCH/FD and SACCH/MD Number of downlink timeslots shall be more than in step 11) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (318, 320, 328, 330, 332, 334, 336, 338) Starting Time Not included Step 15 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Must be more than one. - Uplink assignment Appropriate for the test, but as many as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (318, 320, 328, 330, 332, 334, 336, 338) Starting Time Not included Step 17 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Appropriate for the test, but more than one timeslot allocated and excluding timeslot 0.. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Same number of TCH/Fs and timeslot mapping as in step 19) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (320, 328, 330) Starting Time Not included Step 25 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Indicate same timeslots as step 19. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 28 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (320, 328, 330) Starting Time Chosen arbitrarily GSM 480 end: GSM 900 begin: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Step 6 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Multislot allocation - Downlink assignment Maximum number of timeslots supported by the MS - Uplink assignment Maximum number of timeslots supported by the MS after specifying Downlink timeslots - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates all of the CA (broadcast on the BCCH) except for the BCCH carrier. Starting Time Not included Step 9 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Maximum number of possible additional bidirectional TCH/Fs and SACCH/Ms substracted by one, minimum being one) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 11 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Depending on Multislot class, Shall not have maximum number of timeslots. - Uplink assignment Appropriate for the test, but as many as in downlink assignment - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (45, 46, 73, 74, 75, 76, 108, 114) Starting Time Not included Step 13 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 11XXX (Appropriate number of additional unidirectional TCH/FDs and SACCH/MDs or Additional bidirectional TCH/F and SACCH/M and additional unidirectional TCH/FD and SACCH/MD Number of downlink timeslots shall be more than in step 11) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (45, 46, 73, 74, 75, 76, 108, 114) Starting Time Not included Step 15 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Must be more than one. - Uplink assignment Appropriate for the test, but as many as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (45, 46, 73, 74, 75, 76, 108, 114) Starting Time Not included Step 17 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Appropriate for the test, but more than one timeslot allocated and excluding timeslot 0.. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Same number of TCH/Fs and timeslot mapping as in step 19) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (46, 73 74) Starting Time Not included Step 25 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Indicate same timeslots as step 19. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 28 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (46, 73 74) Starting Time Chosen arbitrarily GSM 900 end: GSM 1800 begin: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Step 6 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Multislot allocation - Downlink assignment Maximum number of timeslots supported by the MS - Uplink assignment Maximum number of timeslots supported by the MS after specifying Downlink timeslots - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates all of the CA (broadcast on the BCCH) except for the BCCH carrier. Starting Time Not included Step 9 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Maximum number of possible additional bidirectional TCH/Fs and SACCH/Ms substracted by one, minimum being one) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 11 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Depending on Multislot class, Shall not have maximum number of timeslots. - Uplink assignment Appropriate for the test, but as many as in downlink assignment - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (773, 775, 779, 829, 832, 844) Starting Time Not included Step 13 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 11XXX (Appropriate number of additional unidirectional TCH/FDs and SACCH/MDs or Additional bidirectional TCH/F and SACCH/M and additional unidirectional TCH/FD and SACCH/MD Number of downlink timeslots shall be more than in step 11) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (773, 775, 779, 829, 832, 844) Starting Time Not included Step 15 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Must be more than one. - Uplink assignment Appropriate for the test, but as many as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (773, 775, 779, 829, 832, 844) Starting Time Not included Step 17 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Appropriate for the test, but more than one timeslot allocated and excluding timeslot 0. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Same number of TCH/Fs and timeslot mapping as in step 19) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (782, 791, 798) Starting Time Not included Step 25 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Indicate same timeslots as step 19. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 28 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Not Included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (782, 791, 798) Starting Time Chosen arbitrarily GSM 1800 end: GSM 700 begin: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Step 6 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Multislot allocation - Downlink assignment Maximum number of timeslots supported by the MS - Uplink assignment Maximum number of timeslots supported by the MS after specifying Downlink timeslots - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates all of the CA (broadcast on the BCCH) except for the BCCH carrier. Starting Time Not included Step 9 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Maximum number of possible additional bidirectional TCH/Fs and SACCH/Ms substracted by one, minimum being one) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 11 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Depending on Multislot class, Shall not have maximum number of timeslots. - Uplink assignment Appropriate for the test, but as many as in downlink assignment - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (482, 483, 500, 501, 502, 503, 506, 508) Starting Time Not included Step 13 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 11XXX (Appropriate number of additional unidirectional TCH/FDs and SACCH/MDs or Additional bidirectional TCH/F and SACCH/M and additional unidirectional TCH/FD and SACCH/MD Number of downlink timeslots shall be more than in step 11) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (482, 483, 500, 501, 502, 503, 506, 508) Starting Time Not included Step 15 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Must be more than one. - Uplink assignment Appropriate for the test, but as many as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (482, 483, 500, 501, 502, 503, 506, 508) Starting Time Not included Step 17 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Appropriate for the test, but more than one timeslot allocated and excluding timeslot 0.. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Same number of TCH/Fs and timeslot mapping as in step 19) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (483, 500, 501) Starting Time Not included Step 25 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Indicate same timeslots as step 19. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 28 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (483, 500, 501) Starting Time Chosen arbitrarily GSM 700 end: GSM 850 begin: Step 3 IMMEDIATE ASSIGNMENT: As default message contents except Channel Description - Channel Type SDCCH/8 TDMA offset Chosen arbitrarily - Timeslot Number N, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Step 6 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Multislot allocation - Downlink assignment Maximum number of timeslots supported by the MS - Uplink assignment Maximum number of timeslots supported by the MS after specifying Downlink timeslots - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates all of the CA (broadcast on the BCCH) except for the BCCH carrier. Starting Time Not included Step 9 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Maximum number of possible additional bidirectional TCH/Fs and SACCH/Ms substracted by one, minimum being one) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 11 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Depending on Multislot class, Shall not have maximum number of timeslots. - Uplink assignment Appropriate for the test, but as many as in downlink assignment - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (172, 173, 200, 201, 202, 203, 235, 241) Starting Time Not included Step 13 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 11XXX (Appropriate number of additional unidirectional TCH/FDs and SACCH/MDs or Additional bidirectional TCH/F and SACCH/M and additional unidirectional TCH/FD and SACCH/MD Number of downlink timeslots shall be more than in step 11) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (172, 173, 200, 201, 202, 203, 235, 241) Starting Time Not included Step 15 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not included Cell Channel Description Not included Multislot allocation - Downlink assignment Appropriate for the test. Must be more than one. - Uplink assignment Appropriate for the test, but as many as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicates frequencies (172, 173, 200, 201, 202, 203, 235, 241) Starting Time Not included Step 17 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Appropriate for the test, but more than one timeslot allocated and excluding timeslot 0.. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10XXX (Same number of TCH/Fs and timeslot mapping as in step 19) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (173, 200, 201) Starting Time Not included Step 25 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Single RF Channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Indicate same timeslots as step 19. - Uplink assignment Appropriate for the test according to MS Class described in Annex B 05.02. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 28 ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 10000 (no additional timeslots) - Timeslot Number Same as in step 19 - Training Sequence Code Chosen arbitrarily - Hopping Frequency hopping - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Not included Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Indicate frequencies (173, 200, 201) Starting Time Chosen arbitrarily GSM 850 end:
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.2.2 Multislot signalling / RR / Dedicated assignment / failure / general case
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.2.2.1 Conformance requirements	On the mobile station side, if a lower layer failure happens on the new channel before the ASSIGNMENT COMPLETE message has been sent, the mobile station deactivates the new channels, reactivates the old channels, reconnects the TCHs if any and triggers the establishment of the main signalling link. It then sends an ASSIGNMENT FAILURE message, cause "protocol error unspecified" on the main DCCH and resumes the normal operation, as if no assignment attempt had occurred. The operational parameters (e.g. ciphering mode) when returning on the old channel are those applied before the procedure. References Conformance requirements: 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.3, 9.1.3 and 9.1.4.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.2.2.2 Test purpose	1) To test that, when the MS fails to seize the new channel, the MS reactivates the old channel. 2) This is tested in the special cases of transition: 2.1) from non-hopping SDCCH to hopping symmetric multislot configuration; 2.2) from hopping asymmetric multislot configuration to non-hopping symmetric; 2.3) from non hopping symmetric multislot configuration to non-hopping symmetric multislot configuration, resource upgrading used; 2.4) from non-hopping asymmetric multislot configuration to non-hopping asymmetric multislot configuration, resource upgrading used; 2.5) from hopping symmetric multislot configuration to hopping asymmetric multislot configuration, resource upgrading used; 2.6) from hopping asymmetric multislot configuration to non-hopping multislot configuration, resources downgrading to one TCH/F.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.2.2.3 Method of test	Initial Conditions System Simulator: 1 cell, default parameters. Mobile Station: The MS is "idle updated". Specific PICS statements: - Multislot class (TSPC_Type_Multislot_ClassX) PIXIT statements: - Foreseen Final State of the MS The MS is "idle updated". Test Procedure A mobile terminated RR connection is established on an SDCCH. The following is repeated six times with different parameters: The SS sends an ASSIGNMENT COMMAND message allocating a hopping/non-hopping symmetric/asymmetric multislot configuration with or without resource upgrading/downgrading, but does not activate the assigned channels. The MS shall try to activate the new channel (this is not verified) and shall then reactivate the old channel and trigger the establishment of the main signalling link on the old channel. Then the MS shall send an ASSIGNMENT FAILURE. The SS initiates the channel release procedure and the test ends here. Maximum Duration of Test 30 s. Expected Sequence An MS supporting Multilsot Class 1 need only perform steps 1..7, 11..13 and 34. Step Direction Message Comments 1 SS -> MS PAGING REQUEST TYPE 1 2 MS -> SS CHANNEL REQUEST 3 SS -> MS IMMEDIATE ASSIGNMENT Channel Type: SDCCH/4. 4 MS -> SS PAGING RESPONSE 5 SS -> MS ASSIGNMENT COMMAND See specific message contents below. The MS attempts (and fails) to establish a signalling link on the new channel. 6 The MS re-establishes the signalling link on the old channel. 7 MS -> SS ASSIGNMENT FAILURE RR cause value = "protocol error unspecified". 8 SS The SS checks that the MS reports the old power level (prior to the Assignment command) in the layer 1 header of the SACCH message that is sent in the first SACCH multiframe following the SABM. 9 SS -> MS ASSIGNMENT COMMAND See specific message contents below. 10 MS -> SS ASSIGNMENT COMPLETE Assignment command is successfully performed. 11 SS -> MS ASSIGNMENT COMMAND Channel Type = TCH/F, non-hopping, symmetric multislot configuration. The MS attempts (and fails) to establish a signalling link on the new channel. 12 The MS re-establishes the signalling link on the old channel. 13 MS -> SS ASSIGNMENT FAILURE RR cause value = "protocol error unspecified". 14 SS -> MS ASSIGNMENT COMMAND Assignment command to non-hopping, symmetric multislot configuration is successfully performed. 15 MS -> SS ASSIGNMENT COMPLETE 16 SS -> MS ASSIGNMENT COMMAND Channel Type = TCH/F, non-hopping, symmetric multislot configuration, resource upgrading used. The MS attempts (and fails) to establish a signalling link on the new channel. 17 The MS re-establishes the signalling link on the old channel. 18 MS -> SS ASSIGNMENT FAILURE RR cause value = "protocol error unspecified". 19 SS -> MS ASSIGNMENT COMMAND Assignment command to non-hopping, asymmetric multislot configuration is successfully performed. 20 MS -> SS ASSIGNMENT COMPLETE 21 SS -> MS ASSIGNMENT COMMAND Channel Type = TCH/F, non-hopping, asymmetric multislot configuration, resource downgrading used. The MS attempts (and fails) to establish a signalling link on the new channel. 22 The MS re-establishes the signalling link on the old channel. 23 MS -> SS ASSIGNMENT FAILURE RR cause value = "protocol error unspecified". 24 SS -> MS ASSIGNMENT COMMAND Assignment command to hopping, symmetric multislot configuration is successfully performed. 25 MS -> SS ASSIGNMENT COMPLETE 26 SS -> MS ASSIGNMENT COMMAND Channel Type = TCH/F, hopping, asymmetric multislot configuration, resource upgrading used. The MS attempts (and fails) to establish a signalling link on the new channel. 27 The MS re-establishes the signalling link on the old channel. 28 MS -> SS ASSIGNMENT FAILURE RR cause value = "protocol error unspecified". 29 SS -> MS ASSIGNMENT COMMAND Assignment command to hopping, asymmetric multislot configuration is successfully performed. 30 MS -> SS ASSIGNMENT COMPLETE 31 SS -> MS ASSIGNMENT COMMAND Channel Type = TCH/F, non-hopping, multislot configuration, resources downgrading to one TCH/F. The MS attempts (and fails) to establish a signalling link on the new channel. 32 The MS re-establishes the signalling link on the old channel. 33 MS -> SS ASSIGNMENT FAILURE RR cause value = "protocol error unspecified". 34 SS -> MS CHANNEL RELEASE The main signalling link is released. Specific Message Contents GSM 450 begin: Step 5: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots assigned. - Uplink assignment As many timeslots as downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 9: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 11: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots supported by MS assigned. - Uplink assignment As many timeslots as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 14: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 16: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Maximum number of timeslots that MS supports. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment More than one timeslot but less than maximum number of timeslots is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 24: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 26: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 29: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 31: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (271, 273, 275, 277, 279, 281, 283, 285, 287, 289, 291) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included GSM 450 end: GSM 480 begin: Step 5: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots assigned. - Uplink assignment As many timeslots as downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 9: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 11: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots supported by MS assigned. - Uplink assignment As many timeslots as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 14: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 16: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Maximum number of timeslots that MS supports. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment More than one timeslot but less than maximum number of timeslots is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 24: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 26: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 29: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 31: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (318, 320, 322, 324, 326, 328, 330, 332, 334, 336, 338) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included GSM 480 end: GSM 900 begin: Step 5: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots assigned. - Uplink assignment As many timeslots as downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 9: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 11: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots supported by MS assigned. - Uplink assignment As many timeslots as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 14: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 16: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Maximum number of timeslots that MS supports. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment More than one timeslot but less than maximum number of timeslots is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 24: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 26: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 29: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 31: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Bit map zero encodes (45, 46, 52, 59, 66, 73, 74, 75, 76, 108, 114) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included GSM 900 end: GSM 1800 begin: Step 5: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots assigned. - Uplink assignment As many timeslots as downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 9: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 11: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Maximum number symmetrical of timeslots supported by MS assigned. - Uplink assignment As many timeslots as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 14: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 16: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Maximum number of timeslots that MS supports. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment More than one timeslot but less than maximum number of timeslots is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 24: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 26: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 29: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 31: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description Use Range 128 to encode (773, 775, 779, 782, 791, 798, 829, 832, 844) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included GSM 1800 end: GSM 700 begin: Step 5: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots assigned. - Uplink assignment As many timeslots as downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 9: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 11: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots supported by MS assigned. - Uplink assignment As many timeslots as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 14: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 16: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Maximum number of timeslots that MS supports. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment More than one timeslot but less than maximum number of timeslots is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 24: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 26: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 29: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 31: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (482, 483, 489, 496, 498, 500, 501, 502, 503, 506, 508) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included GSM 700 end: GSM 850 begin: Step 5: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots assigned. - Uplink assignment As many timeslots as downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 9: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Arbitrarily chosen from Cell channel description Starting Time Not included Step 11: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Maximum number of symmetrical timeslots supported by MS assigned. - Uplink assignment As many timeslots as in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 14: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 16: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Maximum number of timeslots that MS supports. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 19: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment More than one timeslot but less than maximum number of timeslots is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 21: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included Step 24: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 26: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 29: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel - MAIO Chosen arbitrarily from the set (0, 1 to N‑1) where N is the number of frequencies in the Mobile Allocation IE. - HSN Chosen arbitrarily from the set (1 to 63) Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Maximum number of timeslots that MS supports. - Uplink assignment Less timeslots assigned than in downlink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Chosen arbitrarily from the Cell channel description Starting Time Not included Step 31: ASSIGNMENT COMMAND Channel Description 2 - Channel Type and TDMA offset 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily - Training Sequence Code Chosen arbitrarily - Hopping Single RF channel - ARFCN the ARFCN of the BCCH carrier Power Command - Power level Chosen arbitrarily but with a changed value. Frequency list IE Not Included Cell Channel Description 128 range encodes (172, 173, 179, 186, 193, 200, 201, 202, 203, 235, 241) Multislot allocation - Downlink assignment Only one timeslot is assigned in downlink direction. - Uplink assignment Only one timeslot is assigned in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test Channel Mode - Mode Data, 12.0 kbit/s radio interface rate Mobile Allocation Not included Starting Time Not included GSM 850 end:
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3 Test of handover	With the Handover procedure, it is possible to completely alter the channels allocated to a MS. This makes it possible in particular to switch a call in progress from one cell to another. The procedure is always initiated by the network and with the MS in a dedicated mode. Subclauses 26.13.1.3.1 to 26.13.1.3.5 contain test procedures to be used for executing successful Handover tests in multislot configuration. Table 26.13.1.3‑1 contains a summary of the different combinations of parameters that have to be tested, together with a reference to the appropriate test procedure. Table 26.13.1.3-1 From To Timing Adv. Start Time Syn ? State of call Subclause Exec Counter Multislot configuration, MAX number of timeslots, no FH Multislot configuration, MAX number of timeslots, FH arbitrarily none no U10 26.13.1.3.1 1 Multislot configuration, MIN number of timeslots, no FH Multislot configuration, MAX number of timeslots, no FH arbitrarily none no estab (note) 26.13.1.3.2 1 Multislot configuration, MAX number of timeslots, FH Multislot configuration, MIN number of timeslots, no FH arbitrarily none finely U10 26.13.1.3.3 1 Multislot configuration, FH Multislot configuration, FH arbitrarily none finely estab (note) 26.13.1.3.4 1 Multislot configuration, MIN number of timeslots, FH Multislot configuration, MAX number of timeslots, no FH arbitrarily none pre estab (note) 26.13.1.3.5 1 NOTE: The MS is in the "idle, updated" state, with a TMSI allocated and camped on cell A.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.1 Multislot signalling / RR / Handover / successful / active call / non-synchronized
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.1.1 Conformance requirements	1) The MS shall correctly apply the handover procedure in the non-synchronized case when a multislot connection is in progress and when handover is performed from a non-hopping multislot configuration towards a hopping multislot configuration. References Conformance requirement 1: 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.4 and 9.1.15. 3GPP TS 04.13 subclause 5.2.6.2.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.1.2 Test purpose	1) To test that when the MS is ordered to make a non-synchronized handover from non-hopping multislot configuration to hopping multislot configuration, it continuously sends access bursts on the main DCCH (and optionally on the SACCH) until it receives a PHYSICAL INFORMATION message from the SS. 2) To test that the MS correctly handles the Timing Advance IE in the PHYSICAL INFORMATION message. 3) To test that the MS activates the new channels correctly and transmits the HANDOVER COMPLETE message without undue delay.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.1.3 Method of test	Initial Conditions System Simulator: - 2 cells, A and B with same LAI, default parameters except: - Early classmark sending enabled in SI3 rest octets GSM 450: Cell A has: - BCCH ARFCN = 263 Cell B has: - BCCH ARFCN = 274 - Cell Allocation = (260, 262, 264, 266, 268, 270, 272, 274, 276, 279, 281, 283, 285, 287, 289, 291) - The Cell Allocation of Cell B shall be coded using range 256 format. - The frame numbers of cells A and B shall be different by 100. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. GSM 480: Cell A has: - BCCH ARFCN = 310 Cell B has: - BCCH ARFCN = 321 - Cell Allocation = (307, 309, 311, 313, 315, 317, 319, 321, 323, 326, 328, 330, 332, 334, 336, 338) - The Cell Allocation of Cell B shall be coded using range 256 format. - The frame numbers of cells A and B shall be different by 100. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. GSM 900: Cell A has: - BCCH ARFCN = 20 Cell B has: - BCCH ARFCN = 40 - Cell Allocation = (14, 18, 22, 24, 30, 31, 38, 40, 60, 66, 73, 74, 75, 76, 108, 114) - The Cell Allocation of Cell B shall be coded using range 256 format. - The frame numbers of cells A and B shall be different by 100. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. DCS 1 800: Cell A has: - BCCH ARFCN = 747 Cell B has: - BCCH ARFCN = 764 - Cell Allocation = (739, 743, 746, 749, 756, 758, 761, 764, 771, 779, 782, 791, 798, 829, 832, 844) - The Cell Allocation of Cell B shall be coded using range 256 format. - The frame numbers of cells A and B shall be different by 100. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. GSM 700: Cell A has: - BCCH ARFCN = 457 Cell B has: - BCCH ARFCN = 477 - Cell Allocation = (451, 455, 459, 461, 467, 468, 475, 477, 497, 498, 500, 501, 502, 503, 506, 508) - The Cell Allocation of Cell B shall be coded using range 256 format. - The frame numbers of cells A and B shall be different by 100. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. GSM 850: Cell A has: - BCCH ARFCN = 147 Cell B has: - BCCH ARFCN = 167 - Cell Allocation = (141, 145, 149, 151, 157, 158, 165, 167, 187, 193, 200, 201, 202, 203, 235, 241) - The Cell Allocation of Cell B shall be coded using range 256 format. - The frame numbers of cells A and B shall be different by 100. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. Mobile Station: - The MS is in the active state (U10) of a service using a multislot connection on cell A. Specific PICS statements: - Multislot class (TSPC_Type_Multislot_ClassX) PIXIT statements: - Foreseen Final State of the MS The active state (U10) of a multislot connection on cell B. Test Procedure The MS is in the active state (U10) of a multislot connection. The SS sends a HANDOVER COMMAND on the main DCCH. The MS shall begin to send access bursts on the new DCCH (and optionally on the SACCH) of the target cell. The SS observes the access bursts and after receiving 10-20 access bursts, the SS sends one PHYSICAL INFORMATION message with a Timing Advance arbitrarily selected. The MS shall activate the new channels that belongs to same multislot configuration. The MS shall establish a signalling link. The MS shall be ready to transmit a HANDOVER COMPLETE message, before 500 ms after the end of the PHYSICAL INFORMATION message, but not before a UA frame has been sent by the SS. The term "ready to transmit" is defined in 3GPP TS 04.13. Maximum Duration of Test 5 minutes, including 1 minute for any necessary operator actions. Expected Sequence Step Direction Message Comments 0 MS, SS The MS and SS are using a maximum multislot configuration according to the MS multislot class (highest class that MS supports) in non-hopping mode on cell A. 1 SS -> MS HANDOVER COMMAND See Specific message contents. 2 MS -> SS HANDOVER ACCESS Repeated on every burst of the uplink main DCCH (and optionally on the SACCH) until reception of PHYSICAL INFORMATION. Handover Reference as included in the HANDOVER COMMAND. 3 SS -> MS PHYSICAL INFORMATION Sent after reception of n HANDOVER ACCESS messages. See specific message contents. 4 MS -> SS SABM Sent without information field. 5 SS -> MS UA 6 MS -> SS HANDOVER COMPLETE The message shall be ready to be transmitted before 500 ms after the completion of step 3. 7 MS, SS The MS and SS are using a maximum multislot configuration according to the MS multislot class (highest class that MS supports) in hopping mode on cell B and state U10 is reached. Specific Message Contents GSM 450 HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 274 Channel Description 2 - Channel Type 00000 - Timeslot number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies encoded in the Frequency List IE. - HSN Chosen arbitrarily from the set (1,2,..63). Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment As many timeslots assigned as before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND Frequency List after time - Frequency List Use Range 128 to encode the following 15 frequencies (260, 262, 264, 266, 268, 270, 272, 276, 279, 281, 283, 285, 287, 289, 291). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. GSM 480 HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 321 Channel Description 2 - Channel Type 00000 - Timeslot number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies encoded in the Frequency List IE. - HSN Chosen arbitrarily from the set (1,2,..63). Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment As many timeslots assigned as before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND Frequency List after time - Frequency List Use Range 128 to encode the following 15 frequencies (307, 309, 311, 313, 315, 317, 319, 323, 326, 328, 330, 332, 334, 336, 338). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. P-GSM 900 HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 40 Channel Description 2 - Channel Type 00000 - Timeslot number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies encoded in the Frequency Channel Sequence IE. - HSN Chosen arbitrarily from the set (1,2,..63). Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment As many timeslots assigned as before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND Frequency Channel Sequence after time - Frequency Channel Sequence Allocates the following 15 frequencies (14, 18, 22, 24, 30, 31, 38, 53, 66, 73, 74, 75, 76, 108, 114). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. DCS 1 800 HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 764 Channel Description 2 - Channel Type 00000 - Timeslot number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily. - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies encoded in the Frequency Short List IE. - HSN Chosen arbitrarily from the set (1,2,..63). Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment As many timeslots assigned as before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<X<=8) Same as before HANDOVER COMMAND Frequency List after time - Frequency List Use Range 256 to encode the following 15 frequencies: (739, 743, 746, 749, 756, 758, 761, 771, 779, 782, 791, 798, 829, 832, 844). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. GSM 700 HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 477 Channel Description 2 - Channel Type 00000 - Timeslot number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies encoded in the Frequency Channel Sequence IE. - HSN Chosen arbitrarily from the set (1,2,..63). Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment As many timeslots assigned as before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND Frequency Channel Sequence after time - Frequency Channel Sequence Allocates the following 15 frequencies (451, 455, 459, 461, 467, 468, 475, 490, 498, 500, 501, 502, 503, 506, 508). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. P-GSM 850 HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 167 Channel Description 2 - Channel Type 00000 - Timeslot number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily - Hopping RF hopping channel. - MAIO Chosen arbitrarily from the set (0, 1 to N‑1), where N is the number of frequencies encoded in the Frequency Channel Sequence IE. - HSN Chosen arbitrarily from the set (1,2,..63). Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment As many timeslots assigned as before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND Frequency Channel Sequence after time - Frequency Channel Sequence Allocates the following 15 frequencies (141, 145, 149, 151, 157, 158, 165, 180, 193, 200, 201, 202, 203, 235, 241). PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.2 Multislot signalling / RR / Handover / successful / call under establishment / non synchronized / resource upgrading
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.2.1 Conformance requirements	1) The MS shall correctly apply the handover procedure from non-hopping multislot configuration to non-hopping multislot configuration in the non-synchronized case during call establishment. 2) The MS shall activate the new channels that belongs to same multislot configuration correctly, taking into account upgraded resources. 3) If during call establishment a Layer 3 MM or CC message just sent by the MS is not Layer 2 acknowledged before the channel change caused by the HANDOVER COMMAND message, the MS shall send the Layer 3 message to the new cell, using the same value in the N(SD) field, after the handover procedure. References Conformance requirements: 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.4 and 9.1.15. 3GPP TS 04.13 subclause 5.2.6.2
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.2.2 Test purpose	1) To test that when the MS is ordered to make a non-synchronized handover from non-hopping multislot configuration to a non-hopping multislot configuration, it continuously sends access bursts on the main DCCH (and optionally on the SACCH) until it receives a PHYSICAL INFORMATION message from the SS. 2) To test that the MS correctly takes the values of the Timing Advance information element in the PHYSICAL INFORMATION message into account. 3) To test that the MS activates the new channels that belongs to same multislot configuration correctly, taking into account upgraded resources and transmits the HANDOVER COMPLETE message without undue delay. 4) To test that MS correctly retransmits Layer 3 MM or CC messages, that were not acknowledged by Layer 2 before the Handover, after completion of the Handover.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.2.3 Method of test	Initial Conditions System Simulator: - 2 cells, A and B with same LAI, default parameters except: - Early classmark sending enabled in SI3 rest octets GSM 450: Cell A has: - BCCH ARFCN = 263 - PLMN colour code, NCC = as defaults. - BS colour code, BCC = as defaults. - PLMN_PERM = 00001010. Cell B has: - BCCH ARFCN = 274 - PLMN colour code, NCC = 3. - BS colour code, BCC = 0. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. GSM 480: Cell A has: - BCCH ARFCN = 310 - PLMN colour code, NCC = as defaults. - BS colour code, BCC = as defaults. - PLMN_PERM = 00001010. Cell B has: - BCCH ARFCN = 321 - PLMN colour code, NCC = 3. - BS colour code, BCC = 0. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. GSM 900: Cell A has: - BCCH ARFCN = 20 - PLMN colour code, NCC = as defaults. - BS colour code, BCC = as defaults. - PLMN_PERM = 00001010. Cell B has: - BCCH ARFCN = 40 - PLMN colour code, NCC = 3. - BS colour code, BCC = 0. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. DCS 1 800: Cell A has: - BCCH ARFCN = 747 - PLMN colour code, NCC = as defaults. - BS colour code, BCC = as defaults. - PLMN_PERM = 00001010. Cell B has: - BCCH ARFCN = 764 - PLMN colour code, NCC = 3. - BS colour code, BCC = 0. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. GSM 700: Cell A has: - BCCH ARFCN = 457 - PLMN colour code, NCC = as defaults. - BS colour code, BCC = as defaults. - PLMN_PERM = 00001010. Cell B has: - BCCH ARFCN = 477 - PLMN colour code, NCC = 3. - BS colour code, BCC = 0. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. GSM 850: Cell A has: - BCCH ARFCN = 147 - PLMN colour code, NCC = as defaults. - BS colour code, BCC = as defaults. - PLMN_PERM = 00001010. Cell B has: - BCCH ARFCN = 167 - PLMN colour code, NCC = 3. - BS colour code, BCC = 0. - The timebase of cells A and B shall be such that the edges of their timeslots are not coincident at the antenna connector. Mobile Station: - The MS is in the "idle, updated" state, with a TMSI allocated and camped on cell A.. Specific PICS statements: - Multislot class (TSPC_Type_Multislot_ClassX) PIXIT statements: - Foreseen Final State of the MS "idle, updated" with a TMSI allocated and camped on cell B. Test Procedure A Mobile Originating Call is initiated on Cell A. After the MS has sent the SETUP message (and before the last L2 frame carrying the SETUP message is acknowledged by the SS) the SS sends ASSIGNMENT COMMAND message to MS defining used multislot configuration. Mulstislot configuration with one TCH/F is allocated. MS responds with ASSIGNMENT COMPLETE message. Then the SS sends a HANDOVER COMMAND message, ordering the MS to switch to cell B. The MS shall then begin to send access bursts on the new DCCH (and optionally on the SACCH) to cell B. The SS observes the access bursts and after receiving 10-20 access bursts, the SS sends one PHYSICAL INFORMATION message with a Timing Advance as specified in table 26.13.1.3‑1 of subclause 26.13.1.3.6. The MS shall activate the channels that belongs to same multislot configuration correctly, taking into account upgraded resources. The MS shall establish a signalling link. The MS shall be ready to transmit a HANDOVER COMPLETE message before 650 ms after the end of the PHYSICAL INFORMATION message, but not before a UA frame has been sent by the SS. The MS shall then again send the SETUP message to the SS, using the same value in the N(SD) field. Finally the SS sends a CHANNEL RELEASE to end the test. The term "ready to transmit" is defined in 3GPP TS 04.13. Maximum Duration of Test 5 minutes, including 1 minute for any necessary operator actions. Expected Sequence Step Direction Message Comments 1 -------- -------- An MO call is initiated on cell A. 2 MS -> SS CHANNEL REQUEST Establ. Cause = "Originating call, NECI not set to 1 3 SS -> MS IMMEDIATE ASSIGNMENT 4 MS -> SS CM SERVICE REQUEST CM Service Type = Mobile Originating Call Establishment. 5 MS -> SS CLASSMARK CHANGE Multislot class 6 SS -> MS AUTHENTICATION REQUEST 7 MS -> SS AUTHENTICATION RESPONSE 8 SS -> MS CIPHERING MODE COMMAND 9 MS -> SS CIPHERING MODE COMPLETE 10 MS -> SS SETUP Last L2 frame not acknowledged by the SS. 11 SS -> MS ASSIGNMENT COMMAND Multislot configuration is sent to MS. Multislot configuration with one TCH/F is allocated. See specific message contents below. 12 MS -> SS ASSIGNMENT COMPLETE 13 SS -> MS HANDOVER COMMAND See specific message contents. Resource upgrading. 14 MS -> SS HANDOVER ACCESS Repeated on every burst of the uplink main DCCH (and optionally on the SACCH) until reception of PHYSICAL INFORMATION. Handover Reference as included in the HANDOVER COMMAND 15 SS -> MS PHYSICAL INFORMATION Sent after reception of n HANDOVER ACCESS message. Timing Advance as specified in table 26.13.1.3‑1 of subclause 26.13.1.3.6. 16 MS -> SS SABM Sent without information field. 17 SS -> MS UA 18 MS -> SS HANDOVER COMPLETE This message shall be ready to be transmitted before 650 ms after the completion of step 15. 19 MS -> SS SETUP Same N(SD) as in step 10. 20 SS -> MS CHANNEL RELEASE The main signalling link is released. Specific Message Contents GSM 450 ASSIGNMENT COMMAND Information element Value/remark Channel description 2 describes non-hopping Bm+ACCHs or Lm+ACCHs as appropriate for the test Power Command As in subclause 26.1.1 Frequency list Omitted Cell channel description Omitted Description of the multislot configuration - Downlink assignment Only one timeslot is allocated in downlink direction. - Uplink assignment Only one timeslot is allocated in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test. Mode of the channel set X (1=<X<=8) Appropriate for on bearer capability chosen for the test. Description of the second channel Omitted Mode of the second channel Omitted Mobile allocation Omitted Starting time Omitted Cipher mode setting Omitted HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 3 - Base Station Colour Code 0 - BCCH Carrier Number 274 Channel Description 2 - Channel Type 00000 - Timeslot number Chosen arbitrarily, but not Zero. - Training Sequence Code Chosen arbitrarily - Hopping 0 (= no hopping) - ARFCN The ARFCN of the BCCH carrier Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment More timeslots are assigned than before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. GSM 480 ASSIGNMENT COMMAND Information element Value/remark Channel description 2 describes non-hopping Bm+ACCHs or Lm+ACCHs as appropriate for the test Power Command As in subclause 26.1.1 Frequency list Omitted Cell channel description Omitted Description of the multislot configuration - Downlink assignment Only one timeslot is allocated in downlink direction. - Uplink assignment Only one timeslot is allocated in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test. Mode of the channel set X (1=<X<=8) Appropriate for on bearer capability chosen for the test. Description of the second channel Omitted Mode of the second channel Omitted Mobile allocation Omitted Starting time Omitted Cipher mode setting Omitted HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 3 - Base Station Colour Code 0 - BCCH Carrier Number 321 Channel Description 2 - Channel Type 00000 - Timeslot number Chosen arbitrarily, but not Zero. - Training Sequence Code Chosen arbitrarily - Hopping 0 (= no hopping) - ARFCN The ARFCN of the BCCH carrier Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment More timeslots are assigned than before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. P-GSM 900 ASSIGNMENT COMMAND Information element Value/remark Channel description 2 describes non-hopping Bm+ACCHs or Lm+ACCHs as appropriate for the test Power Command As in subclause 26.1.1 Frequency list Omitted Cell channel description Omitted Description of the multislot configuration - Downlink assignment Only one timeslot is allocated in downlink direction. - Uplink assignment Only one timeslot is allocated in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test. Mode of the channel set X (1=<X<=8) Appropriate for on bearer capability chosen for the test. Description of the second channel Omitted Mode of the second channel Omitted Mobile allocation Omitted Starting time Omitted Cipher mode setting Omitted HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 3 - Base Station Colour Code 0 - BCCH Carrier Number 40 Channel Description 2 - Channel Type 00000 - Timeslot number Chosen arbitrarily, but not Zero. - Training Sequence Code Chosen arbitrarily - Hopping 0 (= no hopping) - ARFCN The ARFCN of the BCCH carrier Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment More timeslots are assigned than before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. DCS 1 800 ASSIGNMENT COMMAND Information element Value/remark Channel description 2 describes non-hopping Bm+ACCHs or Lm+ACCHs as appropriate for the test Power Command As in subclause 26.1.1 Frequency list Omitted Cell channel description Omitted Description of the multislot configuration Appropriate for the teleservice selected for the test - Downlink assignment Only one timeslot is allocated in downlink direction. - Uplink assignment Only one timeslot is allocated in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test. Mode of the channel set X (1=<X<=8) Appropriate for on bearer capability chosen for the test Description of the second channel Omitted Mode of the second channel Omitted Mobile allocation Omitted Starting time Omitted Cipher mode setting Omitted HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 3 - Base Station Colour Code 0 - BCCH Carrier Number 764 Channel Description 2 - Channel Type 00000 - Timeslot number Chosen arbitrarily, but not Zero. - Training Sequence Code Chosen arbitrarily - Hopping 0 (= no hopping) - ARFCN the ARFCN of the BCCH carrier Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment More timeslot are assigned than before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. GSM 700 ASSIGNMENT COMMAND Information element Value/remark Channel description 2 describes non-hopping Bm+ACCHs or Lm+ACCHs as appropriate for the test Power Command As in subclause 26.1.1 Frequency list Omitted Cell channel description Omitted Description of the multislot configuration - Downlink assignment Only one timeslot is allocated in downlink direction. - Uplink assignment Only one timeslot is allocated in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test. Mode of the channel set X (1=<X<=8) Appropriate for on bearer capability chosen for the test. Description of the second channel Omitted Mode of the second channel Omitted Mobile allocation Omitted Starting time Omitted Cipher mode setting Omitted HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 3 - Base Station Colour Code 0 - BCCH Carrier Number 477 Channel Description 2 - Channel Type 00000 - Timeslot number Chosen arbitrarily, but not Zero. - Training Sequence Code Chosen arbitrarily - Hopping 0 (= no hopping) - ARFCN The ARFCN of the BCCH carrier Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment More timeslots are assigned than before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value. GSM 850 ASSIGNMENT COMMAND Information element Value/remark Channel description 2 describes non-hopping Bm+ACCHs or Lm+ACCHs as appropriate for the test Power Command As in subclause 26.1.1 Frequency list Omitted Cell channel description Omitted Description of the multislot configuration - Downlink assignment Only one timeslot is allocated in downlink direction. - Uplink assignment Only one timeslot is allocated in uplink direction. - Channel set X (1=<X<=8) Appropriate for the test. Mode of the channel set X (1=<X<=8) Appropriate for on bearer capability chosen for the test. Description of the second channel Omitted Mode of the second channel Omitted Mobile allocation Omitted Starting time Omitted Cipher mode setting Omitted HANDOVER COMMAND Information Element value/remarks As default message contents, except: Cell Description - Network Colour Code 3 - Base Station Colour Code 0 - BCCH Carrier Number 167 Channel Description 2 - Channel Type 00000 - Timeslot number Chosen arbitrarily, but not Zero. - Training Sequence Code Chosen arbitrarily - Hopping 0 (= no hopping) - ARFCN The ARFCN of the BCCH carrier Synchronization Indication IE is not included. Channel Mode IE is not included. Description of a multislot configuration: - Downlink assignment More timeslots are assigned than before HANDOVER COMMAND - Uplink assignment As many timeslots assigned as before HANDOVER COMMAND - Channel set X (1=<x<=8) Same as before HANDOVER COMMAND PHYSICAL INFORMATION Information Element value/remarks As default message contents, except: Timing advance Arbitrarily selected but different to default value.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.3 Multislot signalling / RR / Handover / successful / active call / finely synchronized / resource downgrading
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.3.1 Conformance requirements	1) The MS shall correctly apply the handover procedure from multislot configuration with frequency hopping to multislot configuration without frequency hopping in the finely synchronized case when a call is in progress. Resources are downgraded in handover procedure. References Conformance requirement 1: 3GPP TS 04.08 / 3GPP TS 44.018 subclauses 3.4.4, 9.1.14, 9.1.15 and 9.1.16.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.3.2 Test purpose	1) To test that when the MS is ordered to make a finely synchronized handover to a synchronized cell from a hopping multislot configuration to a non-hopping multislot configuration, it sends 4 access bursts on the main DCCH (before completion, additional access bursts may also be sent on the SACCH) and then activates the channels correctly, taking into account power command, downgraded resources and correctly calculating the timing advance to use. 2) To test the MS activates the new channels that belongs to same multislot configuration correctly, taking into account downgraded resources and transmits the HANDOVER COMPLETE message without undue delay.
683b5b8a98f7b1390ddd5516ea9247a2	51.010-1	26.13.1.3.3.3 Method of test	Initial Conditions System Simulator: - 2 cells, A and B, with same LAI, default parameters, except: - Early classmark sending enabled in SI3 rest octets- The BCCH of cell A is sent k bit periods before the BCCH of cell B. The timing advance in cell A sent to the MS is y bit periods. k and y are selected such that 0 < (2k+y) mod 256 < 60. GSM 450: - Cell B has BCCH ARFCN = 274. GSM 480: - Cell B has BCCH ARFCN = 321. P-GSM 900: - Cell B has BCCH ARFCN = 40. DCS 1 800: - Cell B has BCCH ARFCN = 764. GSM 700: - Cell B has BCCH ARFCN = 477. GSM 850: - Cell B has BCCH ARFCN = 167. Mobile Station: - The MS is in the active state (U10) of a service using a multislot connection (on cell A). The MS is using a power level P. Where P is a power level within the supported range of that type of MS. Specific PICS statements: - Multislot class (TSPC_Type_Multislot_ClassX) PIXIT statements: - Foreseen Final State of the MS The active state (U10) of a multislot connection (on cell B). Test Procedure The MS is in the active state (U10) of a multislot connection on cell A. Maximum number of channels supported by the MS in a HSCSD configuration, is allocated. The SS sends a HANDOVER COMMAND on the main DCCH In the case that the MS supports only 1 timeslot in uplink direction the HANDOVER COMMAND'S Uplink assignment shall be one timeslot. The MS shall send 4 access bursts, in 4 successive slots on the new DCCH to cell B. Before completion, additional access bursts may also be sent on the SACCH. Then the MS shall establish a signalling link indicating the correct Timing Advance and power level and send a HANDOVER COMPLETE message. The MS shall be "ready to transmit" a HANDOVER COMPLETE message before 650 ms after the end of the HANDOVER COMMAND message, but not before a UA frame has been sent by the SS. The term "ready to transmit" is defined in 3GPP TS 04.13. Maximum Duration of Test 5 minutes, including 1 minute for any necessary operator actions. Expected Sequence Step Direction Message Comments 0 MS, SS The MS and SS are using a multislot configuration in hopping mode on cell A. Maximum number of channels supported by the MS in a HSCSD configuration, is allocated 1 SS -> MS HANDOVER COMMAND See Specific Message Contents. 2 MS -> SS HANDOVER ACCESS See specific message contents. Four messages. 3 MS -> SS HANDOVER ACCESS are transmitted to Cell B in 4 successive slots. 4 MS -> SS HANDOVER ACCESS on the new DCCH. 5 MS -> SS HANDOVER ACCESS Before completion of the 4 access bursts on the new DCCH, additional access bursts may also be sent on the SACCH 6 MS -> SS SABM Sent without information field. 7 SS -> MS UA 8 MS -> SS HANDOVER COMPLETE This message shall be ready to be transmitted before 650 ms after the completion of step 1. 9 SS The header of the next uplink SACCH/M is examined and the Timing Advance and Power Level indications are examined. The correct timing advance shall be indicated. The power level indication shall indicate the power level used in the handover command. 10 MS, SS The MS and SS are using a multislot configuration in non-hopping mode on cell B Specific Message Contents GSM 450 HANDOVER COMMAND Information Element value/remark As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 274 Channel Description 2 - Channel type 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily. - Hopping Single RF Channel. - ARFCN 274 Handover Reference - Value Chosen arbitrarily from the range (0, 1..255). Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Synchronized". - Normal Cell Indication Ignore out of range timing advance. Description of the multislot connection - Uplink assignment If possible fewer timeslots are allocated than before HANDOVER COMMAND - Downlink assignment Less timeslots are allocated than before HANDOVER COMMAND - Channel set X (1=<X<=8) Appropriate for the test HANDOVER ACCESS Information Element value/remark As default message contents except: Handover Reference - Value Same as HANDOVER COMMAND GSM 480 HANDOVER COMMAND Information Element value/remark As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 321 Channel Description 2 - Channel type 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily. - Hopping Single RF Channel. - ARFCN 321 Handover Reference - Value Chosen arbitrarily from the range (0, 1..255). Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Synchronized". - Normal Cell Indication Ignore out of range timing advance. Description of the multislot connection - Uplink assignment If possible fewer timeslots are allocated than before HANDOVER COMMAND - Downlink assignment Less timeslots are allocated than before HANDOVER COMMAND - Channel set X (1=<X<=8) Appropriate for the test HANDOVER ACCESS Information Element value/remark As default message contents except: Handover Reference - Value Same as HANDOVER COMMAND GSM 900 HANDOVER COMMAND Information Element value/remark As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 40 Channel Description 2 - Channel type 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily. - Hopping Single RF Channel. - ARFCN 40 Handover Reference - Value Chosen arbitrarily from the range (0, 1..255). Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Synchronized". - Normal Cell Indication Ignore out of range timing advance. Description of the multislot connection - Uplink assignment If possible fewer timeslots are allocated than before HANDOVER COMMAND - Downlink assignment Less timeslots are allocated than before HANDOVER COMMAND - Channel set X (1=<X<=8) Appropriate for the test HANDOVER ACCESS Information Element value/remark As default message contents except: Handover Reference - Value Same as HANDOVER COMMAND DCS 1 800 HANDOVER COMMAND Information Element value/remark As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 764 Channel Description 2 - Channel type 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily. - Hopping Single RF Channel. - ARFCN 764 Handover Reference - Value Chosen arbitrarily from the range (0, 1..255). Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Synchronized". - Normal Cell Indication Ignore out of range timing advance. Description of the multislot connection - Uplink assignment Same as before HANDOVER COMMAND or less timeslots are allocated than before HANDOVER COMMAND - Downlink assignment Less timeslots are allocated than before HANDOVER COMMAND - Channel set X (1=<X<=8) Appropriate for the test HANDOVER ACCESS Information Element value/remark As default message contents except: Handover Reference - Value Same as HANDOVER COMMAND GSM 700 HANDOVER COMMAND Information Element value/remark As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 477 Channel Description 2 - Channel type 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily. - Hopping Single RF Channel. - ARFCN 477 Handover Reference - Value Chosen arbitrarily from the range (0, 1..255). Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Synchronized". - Normal Cell Indication Ignore out of range timing advance. Description of the multislot connection - Uplink assignment If possible fewer timeslots are allocated than before HANDOVER COMMAND - Downlink assignment Less timeslots are allocated than before HANDOVER COMMAND - Channel set X (1=<X<=8) Appropriate for the test HANDOVER ACCESS Information Element value/remark As default message contents except: Handover Reference - Value Same as HANDOVER COMMAND GSM 850 HANDOVER COMMAND Information Element value/remark As default message contents, except: Cell Description - Network Colour Code 1 - Base Station Colour Code 5 - BCCH Carrier Number 167 Channel Description 2 - Channel type 00000 - Timeslot Number A suitable value for multislot configuration, chosen arbitrarily. - Training Sequence Code Chosen arbitrarily. - Hopping Single RF Channel. - ARFCN 167 Handover Reference - Value Chosen arbitrarily from the range (0, 1..255). Power command - Power Level Arbitrarily chosen, but different to the one already in use and within the range supported by that type of MS. Synchronization Indication - Report Observed Time Difference Shall not be included. - Synchronization Indication "Synchronized". - Normal Cell Indication Ignore out of range timing advance. Description of the multislot connection - Uplink assignment If possible fewer timeslots are allocated than before HANDOVER COMMAND - Downlink assignment Less timeslots are allocated than before HANDOVER COMMAND - Channel set X (1=<X<=8) Appropriate for the test HANDOVER ACCESS Information Element value/remark As default message contents except: Handover Reference - Value Same as HANDOVER COMMAND

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