OrganizedProgrammers/3GPPSpecContent · Datasets at Hugging Face

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539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1 Data related to subscription, identification and numbering
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.1 IMSI	The International Mobile Subscriber Identity (IMSI) is defined in 3GPP TS 23.003 [5]. The IMSI serves as the root of the subscriber data pseudo-tree.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.2 Mobile Subscriber ISDN Number (MSISDN)	Mobile Subscriber ISDN Number (MSISDN) is defined in 3GPP TS 23.003 [5]. One MSISDN is used for WLAN-IW subscription. If the multinumbering option applies, the MSISDN used is the Basic MSISDN (see clause 2.1.3 for more information on MSISDNs for multinumbering option).
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.3 W-APN	The WLAN Access Point Name (W-APN) is defined in 3GPP TS 23.003 [5]. This parameter identifies a data network and a point of interconnection to that network (Packet Data Gateway).
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.4 List of authorized visited network identifiers	The list of authorized visited network identifiers field indicates which 3GPP visited network identifiers are allowed for roaming. This list can be a linear list of visited network identifiers or a compound list of network identifier types e.g. home PLMN or home country; however the exact structure of the list is an implementation option.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.5 3GPP AAA Proxy Name	The 3GPP AAA Proxy Name, specified in 3GPP TS 29.234 [63], defines the Diameter or RADIUS Identity of the 3GPP AAA Proxy node.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.6 3GPP AAA Server Name	The 3GPP AAA Server Name, specified in 3GPP TS 29.234 [63], defines the Diameter or RADIUS Identity of the 3GPP AAA Server node.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.7 Serving PDG List	The Serving PDG List field contains the addresses of the PDGs to which the WLAN UE is connected.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.8 Serving WAG	The Serving WAG field contains the WAG address information obtained through the successful user authentication procedure.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.9 WLAN UE Local IP Address	The WLAN UE Local IP Address field, specified in 3GPP TS 23.234 [62], represents the IPv4/IPv6 address of the WLAN UE in the WLAN AN. It is an address used to deliver the packet to a WLAN UE in a WLAN AN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.1.10 WLAN UE Remote IP Address	The WLAN UE Remote IP Address field, specified in 3GPP TS 23.234 [62], represents the IPv4/IPv6 address of the WLAN UE in the network which the WLAN UE is accessing. It is an address used in the data packet encapsulated by the WLAN UE-initiated tunnel and is the source address used by applications in the WLAN UE. The WLAN UE Remote IP address is per W-APN, see clause 3.11.5.1.4.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.2 Data related to registration
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.2.1 User Status	The User Status field identifies the registration status of the I-WLAN User. The User Status shall be either REGISTERED, in which case there is an associated Serving 3GPP AAA Server Name stored at the HSS, or NOT_REGISTERED, in which case there may or may not be a 3GPP AAA Server Name stored.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.2.2 Emergency Access Flag	The Emergency Access flag is specified in 3GPP TS 29.234 [63]. It enables operators to control the access to I-WLAN for emergency purposes. The parameter takes either of the following values: - Access is for emergency purposes. - Access is not for emergency purposes. The flag is set in the 3GPP AAA Server if the WLAN Direct IP access is indicated to be for emergency purposes.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.2.3 Diameter Server Identity of HSS	The Diameter Server Identity of HSS identifies the identity of HSS storing the I-WLAN specific subscription data for a subscriber. It is used in requests send by the 3GPP AAA Server to the HSS. The format of the Diameter Server Identity is the Diameter Identity defined in IETF RFC 3588 [51]. The Diameter Server Identity of the HSS is temporary data and is stored in 3GPP AAA Server.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.3 Data related to authentication and ciphering
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.3.1 Random Number (RAND), Signed Response (SRES) and Ciphering Key (Kc)	Random Number (RAND), Signed Response (SRES) and Ciphering Key (Kc) fields form a triplet vector used for authentication and encryption as defined in 3GPP TS 43.020 [31]. In I-WLAN for SIM based users, triplet vectors are calculated in the 2G AuC and provided to the 2G HLR/HSS (see GSM 12.03 [36]). For USIM based users, triplet vectors are derived from quintuplet vectors in the 3G HLR/HSS if needed (see 3GPP TS 33.102 [52]). A set of up to 5 triplet values are sent from the 2G HLR/HSS to the 3GPP AAA Server upon request. These data are temporary subscriber data stored in the 3GPP AAA Server.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.3.2 Random Challenge (RAND), Expected Response (XRES), Cipher Key (CK), Integrity Key (IK) and Authentication Token (AUTN)	Random Challenge (RAND), Expected Response (XRES), Cipher Key (CK), Integrity Key (IK) and Authentication Token (AUTN) fields form a quintuplet vector used for user authentication, data confidentiality and data integrity as defined in 3GPP TS 33.102 [52]. In I‑WLAN, a set of quintuplet vectors are calculated in the AuC, and up to 5 quintuplets are sent from the HLR/HSS to the 3GPP AAA Server upon request (see 3GPP TS 29.002 [27]). These data are temporary subscriber data stored in the HSS and 3GPP AAA Server.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.3.3 Master Key (MK)	The Master Key (MK) field is defined in 3GPP TS 33.234 [92]. It enables keys to be derived.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.3.4 Transient EAP Keys (TEKs)	The Transient EAP Keys (TEKs) field is defined in 3GPP TS 33.234 [92] and are used to protect the EAP packets.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.3.5 Master Session Key (MSK)	The Master Session Key (MSK) field is defined in 3GPP TS 33.234 [92] and is used to obtain the key material required for the link layer confidentiality mechanism and IPsec confidentiality mechanism.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.4 Data related to session
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.4.1 Session Identifier	The Session Identifier field, specified in 3GPP TS 29.234 [63], indicates a unique Diameter signalling session specific to the user.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.4.2 Session-Timeout	The Session-Timeout field, specified in 3GPP TS 29.234 [63], indicates the maximum period for a session measured in seconds. It is used for re-authentication purposes. If this field does not appear, the WLAN AN shall apply default time intervals.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5 Operator Determined Barring general data
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.1 W-APN Authorised List	The W-APN Authorised field is specified in 3GPP TS 29.234 [63]. It contains authorization information for each W-APN. This parameter indicates the list of allowed W-APNs, the environment where the access is allowed and optionally the charging data specific for that W-APN and the Static IP address.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.1.1 W-APN Identifier List	See clause 3.11.1.3.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.1.2 W-APN Barring Type List	The W‑APN Barring Type field is specified in 3GPP TS 29.234 [63]. It indicates the subscriber access type to the home and visited network's services. The parameter takes either of the following values: - Allow access to this W‑APN regardless of whether the subscriber is located in a VPLMN or in the HPLMN; - Prohibit access to this W-APN within the HPLMN when the subscriber is located in a VPLMN; - Prohibit access to this W-APN within the VPLMN when the subscriber is located in a VPLMN; - Prohibit access to this W-APN within the HPLMN when the subscriber is located in the HPLMN; - Prohibit access to public Internet through any W-APN regardless of whether the subscriber is located in a VPLMN or in the HPLMN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.1.3 W-APN Charging Data List	The W‑APN Charging Data field is specified in 3GPP TS 29.234 [63]. When this parameter is present, it supersedes the general charging information to be applied for the subscriber. See clause 3.11.7.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.1.4 Static WLAN UE Remote IP Address List	WLAN UE IP Address field identifies the IPv4/IPv6 address that the operator has statically assigned to the WLAN UE. See clause 3.11.1.10.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.1.5 Maximum Number of Accesses List	The Maximum Number of Accesses is specified in 3GPP TS 29.234[63]. It enables operators to specify the maximum number of concurrent accesses per W-APN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.1.6 Access Number List	Access Number is an integer counter kept at the 3GPP AAA Server per W-APN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.2 Access Dependence Flag	The Access Dependence Flag is specified in 3GPP TS 29.234 [63]. It enables operators to authenticate a subscriber accessing the I-WLAN by WLAN 3GPP IP Access independently of a previous WLAN Direct IP Access. The parameter takes either of the following values: - Allow access to WLAN 3GPP IP Access independently of a previous WLAN Direct IP Access. - Prohibit access to WLAN 3GPP IP Access independently of a previous WLAN Direct IP Access.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.3 I-WLAN Access Type	The I-WLAN Access Type field is specified in 3GPP TS 29.234 [63]. It indicates the types of access the subscriber has used to access to the IWLAN. The parameter takes either of the following values: - WLAN 3GPP IP Access; - WLAN Direct IP Access.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.5.4 WLAN Direct IP Access	WLAN Direct IP Access (see 3GPP TS 29.234 [63]) is permanent data conditionally stored in HSS. It indicates whether the user is allowed to have WLAN direct IP access to external IP networks from the WLAN Access Network. The WLAN Direct IP Access is stored as temporary data also in the 3GPP AAA Server.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.6 QoS general data
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.6.1 Max Subscribed Bandwidth	The Max Subscribed Bandwidth field, specified in 3GPP TS 29.234 [63], indicates the Max subscribed bandwidth.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.6.2 Routing Policy	The Routing Policy field, specified in 3GPP TS 29.234 [63], defines a packet filter for an IP flow.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.6.3 Subscribed 3GPP WLAN QoS Profile	The Subscribed 3GPP WLAN QoS Profile field, specified in 3GPP TS 29.234 [63], defines a subscribed 3GPP WLAN QoS profile per W-APN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.6.4 Authorized 3GPP WLAN QoS Profile	The Authorized 3GPP WLAN QoS Profile field, specified in 3GPP TS 29.234 [63], defines the authorized 3GPP WLAN QoS profile per W-APN for a user.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.7 Data related to Charging
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.7.1 Charging Data	The Charging Data field identifies the Charging Characteristics plus the Charging Nodes to be applied per user for all W‑APNs or per user for individual W‑APNs.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.7.1.1 Charging Characteristics	Charging Characteristics field is defined in 3GPP TS 32.252 [66]. It indicates the charging type to be applied to the user tunnel.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.7.2 Primary OCS Charging Function Name	The Primary OCS Charging Function Name field identifies the Primary OCS Function node that performs on-line based charging. The format is specified in 3GPP TS 29.234 [63].
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.7.3 Secondary OCS Charging Function Name	The Secondary OCS Charging Function Name field identifies the Secondary OCS Charging Function node that performs on-line based charging. The format is specified in 3GPP TS 29.234 [63].
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.7.4 Primary Charging Collection Function Name	The Primary Charging Collection Function Name field identifies the primary Charging Collection Function node that provides off-line charging support for the IMS subscribers. The format is specified in 3GPP TS 29.234 [63].
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.7.5 Secondary Charging Collection Function Name	The Secondary Charging Collection Function Name field identifies the secondary Charging Collection Function node that provides off-line charging support for the IMS subscribers. The format is specified in 3GPP TS 29.234 [63].
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.7.6 WLAN Session Identifier	The WLAN Session Identifier is the identifier generated by 3GPP AAA Server and sent to PDG. Togther with PDG Charging Identifier, it is used for correlating WLAN AN and PDG charging data. The format is specified in 3GPP TS 32.299 [67].
539f847bb6cd6c0ba766caacc29710d4	23.008	3.11.7.7 PDG Charging Identifier	The PDG Charging Identifier is the identifier generated by PDG and sent to 3GPP AAA Server. Togther with WLAN Session Identifier, it is used for correlating WLAN AN and PDG charging data. The format is specified in 3GPP TS 32.299 [67].
539f847bb6cd6c0ba766caacc29710d4	23.008	3.12 Data related to Access Network Discovery and Selection Function (ANDSF)
539f847bb6cd6c0ba766caacc29710d4	23.008	3.12.1 General	Following clauses describe the Data that is defined on per user basis and is related to Access Network Discovery and Selection Function (ANDSF).
539f847bb6cd6c0ba766caacc29710d4	23.008	3.12.2 Policy Information	This set and contains a list of inter-system mobility policies. Each policy contains the following information while the corresponding coding is defined in 3GPP TS 24.312 [86]: - Rule Priority: indicates the priority of the correspondent intersystem mobility policy; - Prioritized Access: a set of information providing lists of possible technologies the UE can access. The technologies are prioritized based on operator preferences. It is also possible to indicate an access technology as forbidden or as restricted; - Validity Area and Time of the Day: these two sets of information indicate where and when the policy can be applied by the UE. Different ways to describe the area of validity of the policy are provided and described in 3GPP TS 24.312 [86]. There can be multiple policies valid (e.g. overlapping validity areas): in this case, the value of Rule Priority is used as discriminator; - Roaming: it indicates if the policy is also valid if the UE is roaming. This set is permanent data conditionally stored in the ANDSF.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.12.3 Discovery Information	This set contains the information regarding the access networks the UE can discover. It contains the following information while the corresponding coding is defined in 3GPP TS 24.312 [86]: - Access Network Type: indicates the type of the network for which discovery assistance information is provided; - Access Network Area: describes the location where the access network indicated in the correspondent Access Network Type is expected to be available. Different ways to describe the area of validity of the policy are provided in 3GPP TS 24.312 [86]; - Access Network Information Reference: is a pointer to a set containing the relevant information for the networks the UE can discover (e.g. SSIDs and correspondent channels in case of WLAN access). This set is permanent data conditionally stored in the ANDSF.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.12.4 UE Location	This set provides information about the UE location, i.e. it is a way to indicate the position of the UE. This information can be used by ANDSF to limit the number of information sent to the UE. Different ways to describe the UE location are provided in 3GPP TS 24.312 [86]. This set is temporary data conditionally stored in the ANDSF.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13 Proximity Services (ProSe)
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.1 General	Following clauses describe the data that are defined on per user basis and are related to Proximity Services (ProSe).
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.2 ProSe Subscription data
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.2.1 ProSe-Permission	The ProSe-permision is part of the ProSe Subscription data information and is specified in 3GPP TS 29.344 [99]. ProSe-permission is permanent data conditionaly stored in HSS, MME and ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.2.2 PLMN-Allowed-ProSe	The PLMN-Allowed-ProSe is part of the ProSe Subscription data and is specified in 3GPP TS 29.344 [99]. PLMN-Allowed-ProSe is permanent data conditionally stored in HSS, MME and ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.3 Application layer user ID	The Application layer user ID is specified in 3GPP TS 23.303 [98]. Application layer user ID is permanent data conditionally stored in ProSe Function and ProSe Application Server.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.4 EPC ProSe User ID	The EPC ProSe User user ID is specified in 3GPP TS 23.003 [5]. EPC ProSe User ID is temporary data conditionally stored in ProSe Function, ProSe Application Server
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.5 ProSe Application ID	The ProSe Application ID is specified in 3GPP TS 23.003 [5]. ProSe Application ID is permanent data conditionally stored in ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.6 ProSe Application Code	The ProSe Application Code is specified in 3GPP TS 23.003 [5]. ProSe Application Code is temporary data conditionally stored in ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.7 Discovery Filter
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.7.1 Filter ID	The Filter ID part of the Discovery Filter is specified in 3GPP TS 24.334 [100]. Filter ID is permanent data conditionally stored in ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.7.2 ProSe Application Code	The ProSe Application Code as part of the Discovery Filter is specified in 3GPP TS 23.003 [5]. ProSe Application Code is permanent data conditionally stored in ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.7.3 ProSe Application Mask	The ProSe Application Mask as part of the Discovery Filter is specified in 3GPP TS 24.334 [100]. ProSe Application Mask as part of the discovery filter is permanent data conditionally stored in ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.7.4 TTLTimer T4002	The TTLTimer T4002 as part of the Discovery Filter is specified in 3GPP TS 24.334 [100]. The TTLTimer T4002 as part of the discovery filter is permanent data conditionally stored in ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.8 ProSe Function Identity	ProSe Function Identity is specified in 3GPP TS 29.344 [99]. The ProSe Function Identity is temporary subscriber data and is conditionaly stored in the HSS and in the ProSe Application Server.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.9 ProSe Metadata Index Mask	The ProSe Metadata Index Mask indicates which part of the ProSe Application Code contains the metadata index. It is specified in 3GPP TS 24.334 [100]. ProSe Metadata Index Mask is permanent data conditionally stored in ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.13.10 PC5-tech	The PC5-tech indicates the PC5 radio technology in order to enable co-ordination between the announcing and monitoring side. It is specified in 3GPP TS 24.334 [100]. PC5-tech is temporary data conditionally stored in ProSe Function.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14 Architecture Enhancements for Service Exposure (AESE)
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.1 General	Following clauses describe the data that are defined on a per user basis and are related to Architecture Enhancements for Service Exposure (AESE).
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.2 SCEF-Reference-ID	SCEF-Reference-ID is defined in 3GPP TS 29.336 [103]. SCEF-Reference-ID is used to uniquely identify an event created by an SCEF. SCEF-Reference-ID is temporary data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.3 SCEF-ID	SCEF-ID is defined in 3GPP TS 29.336 [103]. SCEF-ID is used to uniquely identify an SCEF. SCEF-ID is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.4 Monitoring-Type	Monitoring-Type is defined in 3GPP TS 29.336 [103]. Monitoring-Type is used to identify type the event to be monitored. Monitoring-Type is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.5 Maximum-Number-of-Reports	Maximum-Number-of-Reports is defined in 3GPP TS 29.336 [103]. Maximum-Number-of-Reports is used to indicate the number of reports to be delivered to the SCEF. Maximum-Number-of-Reports is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.6 UE-Reachability-Configuration	UE-Reachability-Configuration number is defined in 3GPP TS 29.336 [103]. UE-Reachability-Configuration contain details for configuration for UE reachability. UE-Reachability-Configuration is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.7 Monitoring-Duration	Monitoring-Duration is defined in 3GPP TS 29.336 [103]. Monitoring-Duration indicates the time for which the SCEF request to perform the monitoring. Monitoring-Duration is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.8 Maximum-Detection-Time	Maximum-Detection-Time is defined in 3GPP TS 29.336 [103]. Maximum-Detection-Time contains the maximum number of time without any communication with the UE after which the SCEF is to be informed that the UE is considered to be unreachable. Maximum-Detection-Time is permanent data conditionaly stored in the SCEF and HSS.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.9 Reachability-Type	Reachability-Type is defined in 3GPP TS 29.336 [103]. Reachability-Type indicates for which kind of reachability of the subscriber needs to be reported i.e. reachable for SMS or data. Reachability-Type is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.10 Maximum-Latency	Maximum Latency is defined in 3GPP TS 29.336 [103]. Maximum Latency contains the maximum acceptable delay time for downlink data transfer. Maximum Latency is permanent data conditionaly stored in the SCEFand HSS.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.11 Maximum-Response-Time	Maximum Response Time is defined in 3GPP TS 29.336 [103]. Maximum Response Time contains the maximum time for which the UE stays reachable. Maximum Response Time is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.12 MONTE-Location-Type	MONTE-Location-Type is defined in 3GPP TS 29.336 [103]. MONTE-Location-Type indicates how actual the location information should be. Location-Type is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.13 Accuracy	Accuracy is defined in 3GPP TS 29.336 [103]. Accuracy is used to indicate in which form geographic location information has to be provided in the report. Accuracy is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.14 Association-Type	Association-Type is defined in 3GPP TS 29.336 [103]. Association-Type indicates which kind (IMEI or SV) of change of the IMEI has to be reported. Association-Type is permanent data conditionaly stored in the SCEF and HSS.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.15 Charged-Party	Charged-Party is defined in 3GPP TS 32.299 [67]. Charged-Party holds the address (Public User ID: SIP URI, Tel URI, etc.) of the party to be charged. Charged-Party is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.16 Remaining-number-of-reports	Remaining number of reports is defined in 3GPP TS 29.336 [103]. Remaining number of reports holds the number of reports which are outstanding to be sent to the SCEF. Remaining number of reports is temporary data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.17 Communication Pattern set
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.17.1 Periodic-Communication-Indicator	Periodic-Communication-Indicator is defined in 3GPP TS 29.336 [103]. Periodic-Communication-Indicator provides information if the CP occurs periodically or on demand. Periodic-Communication-Indicator is permanent data conditionaly stored in the SCEF, HSS and MME.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.17.2 Communication-Duration-Time	Communication-duration-time is defined in 3GPP TS 29.336 [103]. Communication-duration-time contains the time in seconds of the duration of the periodic communication. Communication-duration-time is permanent data conditionaly stored in the SCEF, HSS and MME.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.17.3 Periodic-Time	Periodic-Time is defined in 3GPP TS 29.336 [103]. Periodic-Time contains the time in seconds of the interval for periodic communication. Periodic-Time is permanent data conditionaly stored in the SCEF, HSS and MME.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.17.4 Scheduled-Communication-Time	Scheduled-Communication-Time is defined in 3GPP TS 29.336 [103]. Scheduled-Communication-Time contains start and end times and repetion during a week for periodic communication. Scheduled-Communication-Time is permanent data conditionaly stored in the SCEF, HSS and MME.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.17.5 Stationary-Indication	Stationary-Indication is defined in 3GPP TS 29.336 [103]. Stationary-Indication contains the information if the subscriber is stationary or mobile. Stationary-Indication is permanent data conditionaly stored in the SCEF, HSS and MME.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.17.6 Validity-Time	Validity-Time is defined in 3GPP TS 29.336 [103]. Validity-Time provides the expiration time at which the CP sets shall be deleteted. Validity-Time is permanent data conditionaly stored in the SCEF, HSS and MME.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.18 AESE-Subscription-Data	AESE-Subscription-Data contains details on subscription information of the allowed services such as: -allowed service (e.g. monitoring, CP set); -allowed service types (e.g. allowed Monitoring events). AESE-Subscription-Data is permanent data conditionally stored in the HSS.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.19 SCEF-Realm	SCEF-Realm is defined in 3GPP TS 29.272 [81]. SCEF-Realm is used to identify the realm of the SCEF. SCEF-Realm is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.20 External Identifier for Monitoring Event Configuration	The External Identifier for Monitoring Event Configuration contains an External Identifier as defined in 3GPP TS 23.003 [5] and identifies the External Identifier in the subscription that is associated to each Monitoring Event Configuration (MONTE) data instance. The External Identifier for each Monitoring Event Configuration is permanent subscriber data and is stored in the HSS and conditionally in the SCEF, MME and SGSN.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.14.21 External Group Identifier	The External Group Identifier contains an External Group Identifier as defined in 3GPP TS 23.003 [5]. The External Group Identifier for Monitoring Event Configuration is permanent subscriber data and is stored in the HSS and conditionally in the SCEF.
539f847bb6cd6c0ba766caacc29710d4	23.008	3.15 Data related to WebRTC

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1 Data related to subscription, identification and numbering

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.1 IMSI

The International Mobile Subscriber Identity (IMSI) is defined in 3GPP TS 23.003 [5]. The IMSI serves as the root of the subscriber data pseudo-tree.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.2 Mobile Subscriber ISDN Number (MSISDN)

Mobile Subscriber ISDN Number (MSISDN) is defined in 3GPP TS 23.003 [5]. One MSISDN is used for WLAN-IW subscription. If the multinumbering option applies, the MSISDN used is the Basic MSISDN (see clause 2.1.3 for more information on MSISDNs for multinumbering option).

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.3 W-APN

The WLAN Access Point Name (W-APN) is defined in 3GPP TS 23.003 [5]. This parameter identifies a data network and a point of interconnection to that network (Packet Data Gateway).

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.4 List of authorized visited network identifiers

The list of authorized visited network identifiers field indicates which 3GPP visited network identifiers are allowed for roaming. This list can be a linear list of visited network identifiers or a compound list of network identifier types e.g. home PLMN or home country; however the exact structure of the list is an implementation option.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.5 3GPP AAA Proxy Name

The 3GPP AAA Proxy Name, specified in 3GPP TS 29.234 [63], defines the Diameter or RADIUS Identity of the 3GPP AAA Proxy node.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.6 3GPP AAA Server Name

The 3GPP AAA Server Name, specified in 3GPP TS 29.234 [63], defines the Diameter or RADIUS Identity of the 3GPP AAA Server node.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.7 Serving PDG List

The Serving PDG List field contains the addresses of the PDGs to which the WLAN UE is connected.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.8 Serving WAG

The Serving WAG field contains the WAG address information obtained through the successful user authentication procedure.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.9 WLAN UE Local IP Address

The WLAN UE Local IP Address field, specified in 3GPP TS 23.234 [62], represents the IPv4/IPv6 address of the WLAN UE in the WLAN AN. It is an address used to deliver the packet to a WLAN UE in a WLAN AN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.1.10 WLAN UE Remote IP Address

The WLAN UE Remote IP Address field, specified in 3GPP TS 23.234 [62], represents the IPv4/IPv6 address of the WLAN UE in the network which the WLAN UE is accessing. It is an address used in the data packet encapsulated by the WLAN UE-initiated tunnel and is the source address used by applications in the WLAN UE. The WLAN UE Remote IP address is per W-APN, see clause 3.11.5.1.4.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.2 Data related to registration

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.2.1 User Status

The User Status field identifies the registration status of the I-WLAN User. The User Status shall be either REGISTERED, in which case there is an associated Serving 3GPP AAA Server Name stored at the HSS, or NOT_REGISTERED, in which case there may or may not be a 3GPP AAA Server Name stored.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.2.2 Emergency Access Flag

The Emergency Access flag is specified in 3GPP TS 29.234 [63]. It enables operators to control the access to I-WLAN for emergency purposes. The parameter takes either of the following values: - Access is for emergency purposes. - Access is not for emergency purposes. The flag is set in the 3GPP AAA Server if the WLAN Direct IP access is indicated to be for emergency purposes.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.2.3 Diameter Server Identity of HSS

The Diameter Server Identity of HSS identifies the identity of HSS storing the I-WLAN specific subscription data for a subscriber. It is used in requests send by the 3GPP AAA Server to the HSS. The format of the Diameter Server Identity is the Diameter Identity defined in IETF RFC 3588 [51]. The Diameter Server Identity of the HSS is temporary data and is stored in 3GPP AAA Server.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.3 Data related to authentication and ciphering

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.3.1 Random Number (RAND), Signed Response (SRES) and Ciphering Key (Kc)

Random Number (RAND), Signed Response (SRES) and Ciphering Key (Kc) fields form a triplet vector used for authentication and encryption as defined in 3GPP TS 43.020 [31]. In I-WLAN for SIM based users, triplet vectors are calculated in the 2G AuC and provided to the 2G HLR/HSS (see GSM 12.03 [36]). For USIM based users, triplet vectors are derived from quintuplet vectors in the 3G HLR/HSS if needed (see 3GPP TS 33.102 [52]). A set of up to 5 triplet values are sent from the 2G HLR/HSS to the 3GPP AAA Server upon request. These data are temporary subscriber data stored in the 3GPP AAA Server.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.3.2 Random Challenge (RAND), Expected Response (XRES), Cipher Key (CK), Integrity Key (IK) and Authentication Token (AUTN)

Random Challenge (RAND), Expected Response (XRES), Cipher Key (CK), Integrity Key (IK) and Authentication Token (AUTN) fields form a quintuplet vector used for user authentication, data confidentiality and data integrity as defined in 3GPP TS 33.102 [52]. In I‑WLAN, a set of quintuplet vectors are calculated in the AuC, and up to 5 quintuplets are sent from the HLR/HSS to the 3GPP AAA Server upon request (see 3GPP TS 29.002 [27]). These data are temporary subscriber data stored in the HSS and 3GPP AAA Server.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.3.3 Master Key (MK)

The Master Key (MK) field is defined in 3GPP TS 33.234 [92]. It enables keys to be derived.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.3.4 Transient EAP Keys (TEKs)

The Transient EAP Keys (TEKs) field is defined in 3GPP TS 33.234 [92] and are used to protect the EAP packets.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.3.5 Master Session Key (MSK)

The Master Session Key (MSK) field is defined in 3GPP TS 33.234 [92] and is used to obtain the key material required for the link layer confidentiality mechanism and IPsec confidentiality mechanism.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.4 Data related to session

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.4.1 Session Identifier

The Session Identifier field, specified in 3GPP TS 29.234 [63], indicates a unique Diameter signalling session specific to the user.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.4.2 Session-Timeout

The Session-Timeout field, specified in 3GPP TS 29.234 [63], indicates the maximum period for a session measured in seconds. It is used for re-authentication purposes. If this field does not appear, the WLAN AN shall apply default time intervals.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5 Operator Determined Barring general data

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.1 W-APN Authorised List

The W-APN Authorised field is specified in 3GPP TS 29.234 [63]. It contains authorization information for each W-APN. This parameter indicates the list of allowed W-APNs, the environment where the access is allowed and optionally the charging data specific for that W-APN and the Static IP address.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.1.1 W-APN Identifier List

See clause 3.11.1.3.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.1.2 W-APN Barring Type List

The W‑APN Barring Type field is specified in 3GPP TS 29.234 [63]. It indicates the subscriber access type to the home and visited network's services. The parameter takes either of the following values: - Allow access to this W‑APN regardless of whether the subscriber is located in a VPLMN or in the HPLMN; - Prohibit access to this W-APN within the HPLMN when the subscriber is located in a VPLMN; - Prohibit access to this W-APN within the VPLMN when the subscriber is located in a VPLMN; - Prohibit access to this W-APN within the HPLMN when the subscriber is located in the HPLMN; - Prohibit access to public Internet through any W-APN regardless of whether the subscriber is located in a VPLMN or in the HPLMN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.1.3 W-APN Charging Data List

The W‑APN Charging Data field is specified in 3GPP TS 29.234 [63]. When this parameter is present, it supersedes the general charging information to be applied for the subscriber. See clause 3.11.7.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.1.4 Static WLAN UE Remote IP Address List

WLAN UE IP Address field identifies the IPv4/IPv6 address that the operator has statically assigned to the WLAN UE. See clause 3.11.1.10.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.1.5 Maximum Number of Accesses List

The Maximum Number of Accesses is specified in 3GPP TS 29.234[63]. It enables operators to specify the maximum number of concurrent accesses per W-APN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.1.6 Access Number List

Access Number is an integer counter kept at the 3GPP AAA Server per W-APN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.2 Access Dependence Flag

The Access Dependence Flag is specified in 3GPP TS 29.234 [63]. It enables operators to authenticate a subscriber accessing the I-WLAN by WLAN 3GPP IP Access independently of a previous WLAN Direct IP Access. The parameter takes either of the following values: - Allow access to WLAN 3GPP IP Access independently of a previous WLAN Direct IP Access. - Prohibit access to WLAN 3GPP IP Access independently of a previous WLAN Direct IP Access.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.3 I-WLAN Access Type

The I-WLAN Access Type field is specified in 3GPP TS 29.234 [63]. It indicates the types of access the subscriber has used to access to the IWLAN. The parameter takes either of the following values: - WLAN 3GPP IP Access; - WLAN Direct IP Access.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.5.4 WLAN Direct IP Access

WLAN Direct IP Access (see 3GPP TS 29.234 [63]) is permanent data conditionally stored in HSS. It indicates whether the user is allowed to have WLAN direct IP access to external IP networks from the WLAN Access Network. The WLAN Direct IP Access is stored as temporary data also in the 3GPP AAA Server.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.6 QoS general data

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.6.1 Max Subscribed Bandwidth

The Max Subscribed Bandwidth field, specified in 3GPP TS 29.234 [63], indicates the Max subscribed bandwidth.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.6.2 Routing Policy

The Routing Policy field, specified in 3GPP TS 29.234 [63], defines a packet filter for an IP flow.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.6.3 Subscribed 3GPP WLAN QoS Profile

The Subscribed 3GPP WLAN QoS Profile field, specified in 3GPP TS 29.234 [63], defines a subscribed 3GPP WLAN QoS profile per W-APN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.6.4 Authorized 3GPP WLAN QoS Profile

The Authorized 3GPP WLAN QoS Profile field, specified in 3GPP TS 29.234 [63], defines the authorized 3GPP WLAN QoS profile per W-APN for a user.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.7 Data related to Charging

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.7.1 Charging Data

The Charging Data field identifies the Charging Characteristics plus the Charging Nodes to be applied per user for all W‑APNs or per user for individual W‑APNs.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.7.1.1 Charging Characteristics

Charging Characteristics field is defined in 3GPP TS 32.252 [66]. It indicates the charging type to be applied to the user tunnel.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.7.2 Primary OCS Charging Function Name

The Primary OCS Charging Function Name field identifies the Primary OCS Function node that performs on-line based charging. The format is specified in 3GPP TS 29.234 [63].

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.7.3 Secondary OCS Charging Function Name

The Secondary OCS Charging Function Name field identifies the Secondary OCS Charging Function node that performs on-line based charging. The format is specified in 3GPP TS 29.234 [63].

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.7.4 Primary Charging Collection Function Name

The Primary Charging Collection Function Name field identifies the primary Charging Collection Function node that provides off-line charging support for the IMS subscribers. The format is specified in 3GPP TS 29.234 [63].

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.7.5 Secondary Charging Collection Function Name

The Secondary Charging Collection Function Name field identifies the secondary Charging Collection Function node that provides off-line charging support for the IMS subscribers. The format is specified in 3GPP TS 29.234 [63].

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.7.6 WLAN Session Identifier

The WLAN Session Identifier is the identifier generated by 3GPP AAA Server and sent to PDG. Togther with PDG Charging Identifier, it is used for correlating WLAN AN and PDG charging data. The format is specified in 3GPP TS 32.299 [67].

539f847bb6cd6c0ba766caacc29710d4

23.008

3.11.7.7 PDG Charging Identifier

The PDG Charging Identifier is the identifier generated by PDG and sent to 3GPP AAA Server. Togther with WLAN Session Identifier, it is used for correlating WLAN AN and PDG charging data. The format is specified in 3GPP TS 32.299 [67].

539f847bb6cd6c0ba766caacc29710d4

23.008

3.12 Data related to Access Network Discovery and Selection Function (ANDSF)

539f847bb6cd6c0ba766caacc29710d4

23.008

3.12.1 General

Following clauses describe the Data that is defined on per user basis and is related to Access Network Discovery and Selection Function (ANDSF).

539f847bb6cd6c0ba766caacc29710d4

23.008

3.12.2 Policy Information

This set and contains a list of inter-system mobility policies. Each policy contains the following information while the corresponding coding is defined in 3GPP TS 24.312 [86]: - Rule Priority: indicates the priority of the correspondent intersystem mobility policy; - Prioritized Access: a set of information providing lists of possible technologies the UE can access. The technologies are prioritized based on operator preferences. It is also possible to indicate an access technology as forbidden or as restricted; - Validity Area and Time of the Day: these two sets of information indicate where and when the policy can be applied by the UE. Different ways to describe the area of validity of the policy are provided and described in 3GPP TS 24.312 [86]. There can be multiple policies valid (e.g. overlapping validity areas): in this case, the value of Rule Priority is used as discriminator; - Roaming: it indicates if the policy is also valid if the UE is roaming. This set is permanent data conditionally stored in the ANDSF.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.12.3 Discovery Information

This set contains the information regarding the access networks the UE can discover. It contains the following information while the corresponding coding is defined in 3GPP TS 24.312 [86]: - Access Network Type: indicates the type of the network for which discovery assistance information is provided; - Access Network Area: describes the location where the access network indicated in the correspondent Access Network Type is expected to be available. Different ways to describe the area of validity of the policy are provided in 3GPP TS 24.312 [86]; - Access Network Information Reference: is a pointer to a set containing the relevant information for the networks the UE can discover (e.g. SSIDs and correspondent channels in case of WLAN access). This set is permanent data conditionally stored in the ANDSF.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.12.4 UE Location

This set provides information about the UE location, i.e. it is a way to indicate the position of the UE. This information can be used by ANDSF to limit the number of information sent to the UE. Different ways to describe the UE location are provided in 3GPP TS 24.312 [86]. This set is temporary data conditionally stored in the ANDSF.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13 Proximity Services (ProSe)

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.1 General

Following clauses describe the data that are defined on per user basis and are related to Proximity Services (ProSe).

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.2 ProSe Subscription data

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.2.1 ProSe-Permission

The ProSe-permision is part of the ProSe Subscription data information and is specified in 3GPP TS 29.344 [99]. ProSe-permission is permanent data conditionaly stored in HSS, MME and ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.2.2 PLMN-Allowed-ProSe

The PLMN-Allowed-ProSe is part of the ProSe Subscription data and is specified in 3GPP TS 29.344 [99]. PLMN-Allowed-ProSe is permanent data conditionally stored in HSS, MME and ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.3 Application layer user ID

The Application layer user ID is specified in 3GPP TS 23.303 [98]. Application layer user ID is permanent data conditionally stored in ProSe Function and ProSe Application Server.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.4 EPC ProSe User ID

The EPC ProSe User user ID is specified in 3GPP TS 23.003 [5]. EPC ProSe User ID is temporary data conditionally stored in ProSe Function, ProSe Application Server

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.5 ProSe Application ID

The ProSe Application ID is specified in 3GPP TS 23.003 [5]. ProSe Application ID is permanent data conditionally stored in ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.6 ProSe Application Code

The ProSe Application Code is specified in 3GPP TS 23.003 [5]. ProSe Application Code is temporary data conditionally stored in ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.7 Discovery Filter

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.7.1 Filter ID

The Filter ID part of the Discovery Filter is specified in 3GPP TS 24.334 [100]. Filter ID is permanent data conditionally stored in ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.7.2 ProSe Application Code

The ProSe Application Code as part of the Discovery Filter is specified in 3GPP TS 23.003 [5]. ProSe Application Code is permanent data conditionally stored in ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.7.3 ProSe Application Mask

The ProSe Application Mask as part of the Discovery Filter is specified in 3GPP TS 24.334 [100]. ProSe Application Mask as part of the discovery filter is permanent data conditionally stored in ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.7.4 TTLTimer T4002

The TTLTimer T4002 as part of the Discovery Filter is specified in 3GPP TS 24.334 [100]. The TTLTimer T4002 as part of the discovery filter is permanent data conditionally stored in ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.8 ProSe Function Identity

ProSe Function Identity is specified in 3GPP TS 29.344 [99]. The ProSe Function Identity is temporary subscriber data and is conditionaly stored in the HSS and in the ProSe Application Server.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.9 ProSe Metadata Index Mask

The ProSe Metadata Index Mask indicates which part of the ProSe Application Code contains the metadata index. It is specified in 3GPP TS 24.334 [100]. ProSe Metadata Index Mask is permanent data conditionally stored in ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.13.10 PC5-tech

The PC5-tech indicates the PC5 radio technology in order to enable co-ordination between the announcing and monitoring side. It is specified in 3GPP TS 24.334 [100]. PC5-tech is temporary data conditionally stored in ProSe Function.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14 Architecture Enhancements for Service Exposure (AESE)

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.1 General

Following clauses describe the data that are defined on a per user basis and are related to Architecture Enhancements for Service Exposure (AESE).

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.2 SCEF-Reference-ID

SCEF-Reference-ID is defined in 3GPP TS 29.336 [103]. SCEF-Reference-ID is used to uniquely identify an event created by an SCEF. SCEF-Reference-ID is temporary data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.3 SCEF-ID

SCEF-ID is defined in 3GPP TS 29.336 [103]. SCEF-ID is used to uniquely identify an SCEF. SCEF-ID is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.4 Monitoring-Type

Monitoring-Type is defined in 3GPP TS 29.336 [103]. Monitoring-Type is used to identify type the event to be monitored. Monitoring-Type is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.5 Maximum-Number-of-Reports

Maximum-Number-of-Reports is defined in 3GPP TS 29.336 [103]. Maximum-Number-of-Reports is used to indicate the number of reports to be delivered to the SCEF. Maximum-Number-of-Reports is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.6 UE-Reachability-Configuration

UE-Reachability-Configuration number is defined in 3GPP TS 29.336 [103]. UE-Reachability-Configuration contain details for configuration for UE reachability. UE-Reachability-Configuration is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.7 Monitoring-Duration

Monitoring-Duration is defined in 3GPP TS 29.336 [103]. Monitoring-Duration indicates the time for which the SCEF request to perform the monitoring. Monitoring-Duration is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.8 Maximum-Detection-Time

Maximum-Detection-Time is defined in 3GPP TS 29.336 [103]. Maximum-Detection-Time contains the maximum number of time without any communication with the UE after which the SCEF is to be informed that the UE is considered to be unreachable. Maximum-Detection-Time is permanent data conditionaly stored in the SCEF and HSS.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.9 Reachability-Type

Reachability-Type is defined in 3GPP TS 29.336 [103]. Reachability-Type indicates for which kind of reachability of the subscriber needs to be reported i.e. reachable for SMS or data. Reachability-Type is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.10 Maximum-Latency

Maximum Latency is defined in 3GPP TS 29.336 [103]. Maximum Latency contains the maximum acceptable delay time for downlink data transfer. Maximum Latency is permanent data conditionaly stored in the SCEFand HSS.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.11 Maximum-Response-Time

Maximum Response Time is defined in 3GPP TS 29.336 [103]. Maximum Response Time contains the maximum time for which the UE stays reachable. Maximum Response Time is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.12 MONTE-Location-Type

MONTE-Location-Type is defined in 3GPP TS 29.336 [103]. MONTE-Location-Type indicates how actual the location information should be. Location-Type is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.13 Accuracy

Accuracy is defined in 3GPP TS 29.336 [103]. Accuracy is used to indicate in which form geographic location information has to be provided in the report. Accuracy is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.14 Association-Type

Association-Type is defined in 3GPP TS 29.336 [103]. Association-Type indicates which kind (IMEI or SV) of change of the IMEI has to be reported. Association-Type is permanent data conditionaly stored in the SCEF and HSS.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.15 Charged-Party

Charged-Party is defined in 3GPP TS 32.299 [67]. Charged-Party holds the address (Public User ID: SIP URI, Tel URI, etc.) of the party to be charged. Charged-Party is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.16 Remaining-number-of-reports

Remaining number of reports is defined in 3GPP TS 29.336 [103]. Remaining number of reports holds the number of reports which are outstanding to be sent to the SCEF. Remaining number of reports is temporary data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.17 Communication Pattern set

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.17.1 Periodic-Communication-Indicator

Periodic-Communication-Indicator is defined in 3GPP TS 29.336 [103]. Periodic-Communication-Indicator provides information if the CP occurs periodically or on demand. Periodic-Communication-Indicator is permanent data conditionaly stored in the SCEF, HSS and MME.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.17.2 Communication-Duration-Time

Communication-duration-time is defined in 3GPP TS 29.336 [103]. Communication-duration-time contains the time in seconds of the duration of the periodic communication. Communication-duration-time is permanent data conditionaly stored in the SCEF, HSS and MME.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.17.3 Periodic-Time

Periodic-Time is defined in 3GPP TS 29.336 [103]. Periodic-Time contains the time in seconds of the interval for periodic communication. Periodic-Time is permanent data conditionaly stored in the SCEF, HSS and MME.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.17.4 Scheduled-Communication-Time

Scheduled-Communication-Time is defined in 3GPP TS 29.336 [103]. Scheduled-Communication-Time contains start and end times and repetion during a week for periodic communication. Scheduled-Communication-Time is permanent data conditionaly stored in the SCEF, HSS and MME.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.17.5 Stationary-Indication

Stationary-Indication is defined in 3GPP TS 29.336 [103]. Stationary-Indication contains the information if the subscriber is stationary or mobile. Stationary-Indication is permanent data conditionaly stored in the SCEF, HSS and MME.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.17.6 Validity-Time

Validity-Time is defined in 3GPP TS 29.336 [103]. Validity-Time provides the expiration time at which the CP sets shall be deleteted. Validity-Time is permanent data conditionaly stored in the SCEF, HSS and MME.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.18 AESE-Subscription-Data

AESE-Subscription-Data contains details on subscription information of the allowed services such as: -allowed service (e.g. monitoring, CP set); -allowed service types (e.g. allowed Monitoring events). AESE-Subscription-Data is permanent data conditionally stored in the HSS.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.19 SCEF-Realm

SCEF-Realm is defined in 3GPP TS 29.272 [81]. SCEF-Realm is used to identify the realm of the SCEF. SCEF-Realm is permanent data conditionaly stored in the SCEF, HSS, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.20 External Identifier for Monitoring Event Configuration

The External Identifier for Monitoring Event Configuration contains an External Identifier as defined in 3GPP TS 23.003 [5] and identifies the External Identifier in the subscription that is associated to each Monitoring Event Configuration (MONTE) data instance. The External Identifier for each Monitoring Event Configuration is permanent subscriber data and is stored in the HSS and conditionally in the SCEF, MME and SGSN.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.14.21 External Group Identifier

The External Group Identifier contains an External Group Identifier as defined in 3GPP TS 23.003 [5]. The External Group Identifier for Monitoring Event Configuration is permanent subscriber data and is stored in the HSS and conditionally in the SCEF.

539f847bb6cd6c0ba766caacc29710d4

23.008

3.15 Data related to WebRTC