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0 | 0 | sample size | (n) the number of subjects used in an experiment or study | important when conducting an experiment on groups of subjects |
1 | 0 | sample size | the number of things or people to be studied in a test | (n) the number of subjects used in an experiment or study |
2 | 1 | sample size | number of observations or data points collected e.g. 55 people were given questionnaires; sample size = 55. | number of people asked a statistical question |
0 | 0 | sample size | how large the population being sampled is | the minimum number of subjects to accurately portray a population |
3 | 1 | sample size | the number of members of the population selected to be part of the sample | when selecting a random sample , the number of members of the population selected to be in the sample is called sample size |
0 | 0 | sample size | a quantity of randomly selected observations of process outputs | the number of subjects used in an experiment or study (generally, the larger the better) |
1 | 0 | sample size | larger sample size gives greater power | calculation should be performed in order to inform researchers of how many subjects are necessary to adequately answer the research question |
1 | 0 | sample size | the number of individuals in a sample, represented by &"n&" | the number of sampling units - the number of samples being tested for each treatment |
1 | 0 | sample size | the sample size is an important feature of any empirical study in which the goal is to make inferences about a population from a sample. | total number of observations on determinations of statistical significance |
3 | 1 | sample size | number of subjects in experiment (larger number increases reliability) | the number of subjects used in an experiment or study (generally, the larger the better) |
0 | 0 | speech recognition | single user or limited vocabulary systems open use, limited vocabulary systems can work satisfactorily | computer system that can process spoken language and understand its meaning. |
1 | 0 | speech recognition | software that recognize the words being said by the person dictating and converts speech to text | - primarily identifying words - improving all the time |
1 | 0 | speech recognition | spoken words are recognised and shown on a screen, input into a word processor or used in other application. | performs commands or types text based on words spoken into a microphone. |
1 | 0 | speech recognition | uses microphones converts speech pattern into digital form digital image is broken up into phonemes which are compared to words stored in the built in dictionary. | the process by which computers recognize voice patterns and words, and then convert them to digital data |
2 | 1 | speech recognition | the ability of a computer to convert spoken words from a user into usable data. | spoken words are recognised and shown on a screen, input into a word processor or used in other application. |
0 | 0 | speech recognition | this is the ability of a machine or a program to identify words and phrases in spoken language and convert them to a machine-readable format. | - primarily identifying words - improving all the time |
1 | 0 | speech recognition | this is the ability of a machine or a program to identify words and phrases in spoken language and convert them to a machine-readable format. | software that recognize the words being said by the person dictating and converts speech to text |
1 | 0 | speech recognition | technology that converts speech into text | convert sound into input, based on context (example of a physiological interface) |
0 | 0 | speech recognition | - primarily identifying words - improving all the time | technology that translates speech to text.the text must be edited as software may misunderstand words |
2 | 1 | speech recognition | this is the ability of a machine or a program to identify words and phrases in spoken language and convert them to a machine-readable format. | technology that translates speech to text.the text must be edited as software may misunderstand words |
3 | 1 | speech recognition | technology that enables you to control a device without a keyboard by using voice commands. | performs commands or types text based on words spoken into a microphone. |
2 | 1 | cell phones | fastest growing comm medium of all time, combining multiple forms of e-media into one device and changing cultural norms to shared interest interaction instead of physical proximity interaction | mobile phone whose hardware components and software are managed by a mobile operating system. access to internet, equipped with touchscreens that enable users to interact with what is displayed. |
1 | 0 | cell phones | fastest growing comm medium of all time, combining multiple forms of e-media into one device and changing cultural norms to shared interest interaction instead of physical proximity interaction | this a telephone with access to a cellular radio system so it can be used over a wide area, without a physical connection to a network. |
1 | 0 | cell phones | this a telephone with access to a cellular radio system so it can be used over a wide area, without a physical connection to a network. | mobile phone whose hardware components and software are managed by a mobile operating system. access to internet, equipped with touchscreens that enable users to interact with what is displayed. |
0 | 0 | sensitivity analysis | percentage chance in npv resulting from a given percentage change in an input variable, there things held constant | -measures the effect of changes in a variable on projects npv -all variables must be fixed at expected value, besides variable in question |
1 | 0 | sensitivity analysis | study of the impact on other variables when one variable is changing repeatedly - special case of what-if analysis | -special case of what if analysis -what happens to one variable when another is changed repeatedly |
2 | 1 | sensitivity analysis | (postoptimality analysis) the study of how sensitive solutions are to parameter changes | techniques that examines how the optimal solution to a linear programming problem changes as the problem data are modified. |
2 | 1 | sensitivity analysis | analysis that shows the range of possible outcomes as underlying assumptions are altered | measures impact of changing just one assumption |
2 | 1 | sensitivity analysis | (postoptimality analysis) the study of how sensitive solutions are to parameter changes | the study of how changes in the coefficients of a linear programming problem affect the optimal solution |
1 | 0 | sensitivity analysis | analysis that shows the range of possible outcomes as underlying assumptions are altered | develops a range of possible outcomes as &"specific inputs&" are changed one at a time. also known as &"what-if&" analysis. |
2 | 1 | sensitivity analysis | used to determine the robustness of any given alternative; slight changes in the parameters should ideally lead to slight or no changes in the alternative chosen. | attempts to assess the impact of a change in the input data or parameters on the proposed solution (i.e. the result variable). |
3 | 1 | sensitivity analysis | how changes in 1 or more input impact value of 1 or more outcome | seeing how changes in one or more input variables impact the value of one or more outcome variables |
1 | 0 | sensitivity analysis | techniques that examines how the optimal solution to a linear programming problem changes as the problem data are modified. | the study of how changes in the coefficients of a linear programming problem affect the optimal solution |
3 | 1 | sensitivity analysis | shows the range of possible outcomes as specific assumptions are changed | analysis that shows the range of possible outcomes as underlying assumptions are altered |
0 | 0 | sensitivity analysis | what happens to npv when we change one varaible at a time | -measures the effect of changes in a variable on projects npv -all variables must be fixed at expected value, besides variable in question |
3 | 1 | sensitivity analysis | shows how changes in an input variable affect npv, when all the other factors are held constant. (it answers what if questions) | -measures the effect of changes in a variable on projects npv -all variables must be fixed at expected value, besides variable in question |
3 | 1 | sensitivity analysis | determines the effect of changes in parameter values of the objective function and constraint equations on the optimal solution | determines the effect on the optimal solution of changes in parameter values of the objective function and constraint equations |
0 | 0 | sensitivity analysis | the analysis of the effect of parameter changes on the optimal solution | he study of how sensitive an optimal solution is to model assumptions and to data changes. it is often referred to as post optimality analysis. |
3 | 1 | sensitivity analysis | a determination of how solutions change based upon changes in mathematical model or input data. | determines how much the results will change if the model or input data changes |
3 | 1 | sensitivity analysis | determines how much the results will change if the model or input data changes | determines how much the solution will change if there were changes in the model of the input data. (postoptimality analysis) |
1 | 0 | sensitivity analysis | optimal solutions to lp problems thus far have been found under deterministic assumptions real world solutions are dynamic (nothing is for sure) involves a series of what-ifs | a procedure that allows us to answer questions such as those posted above, using the current optimal solution itself, without having to resolve the lp model each time |
3 | 1 | sensitivity analysis | what happens to npv when we change one varaible at a time | shows how changes in an input variable affect npv, when all the other factors are held constant. (it answers what if questions) |
2 | 1 | sensitivity analysis | develops a range of possible outcomes as &"specific inputs&" are changed one at a time. also known as &"what-if&" analysis. | measures impact of changing just one assumption |
3 | 1 | sensitivity analysis | a determination of how solutions change based upon changes in mathematical model or input data. | determines how much the solution will change if there were changes in the model of the input data. (postoptimality analysis) |
2 | 1 | sensitivity analysis | percentage chance in npv resulting from a given percentage change in an input variable, there things held constant | what happens to npv when we change one varaible at a time |
2 | 1 | sensitivity analysis | shows how changes in an input variable affect npv, when all the other factors are held constant. (it answers what if questions) | percentage change in npv resulting from given change in an input variable |
0 | 0 | sensitivity analysis | shows the range of possible outcomes as specific assumptions are changed | measures impact of changing just one assumption |
2 | 1 | sensitivity analysis | shows range of possible outcomes as specific assumptions are changed; this could influence financing needs or investment in fixed assets | used to evaluate the risk associated with a given investment and assesses the impact of different variables on an investment's returns. (changing the variables) |
3 | 1 | main memory | cpu reads data from memory and then stores the results as computations in the main memory; sometimes called ram from random access memory | cpu reads data and instructions from memory and then stores results of computations in main memory. |
1 | 0 | main memory | the computers work area commonly known as ram volatile type of memory | the cpu works in conjuction with this; also called ram (random access memory) |
0 | 0 | main memory | where data is stored when it's being used any form of memory directly accessible by the cpu (except cache and registers) ram | the computers work area commonly known as ram volatile type of memory |
3 | 1 | main memory | -list of locations, each containing one byte of data -each location has an associated &"number&" (e.g., its address) -is byte addressable -also called random access memory (ram | list of locations each containing one byte each location has an associated &"number&" (address) is byte addressable also called ram |
1 | 0 | main memory | storage for running programs and current data | computer's work area stores the program running as well as data aka ram data quickly accessed volatile type of memory used for temp storage erased when computer is off |
2 | 1 | main memory | takes in info when the cpu reads data and instructions from memory and then stores the results of computations | cpu reads data and instructions from memory and then stores results of computations in main memory. |
1 | 0 | main memory | where computer stores a program while program is running, and data used by the program - known as ram (random access memory) - volatile memory (temporary) | solid state temporary store of data and programs which are currently in use, includes ram, rom and cache |
2 | 1 | main memory | where data is stored when it's being used any form of memory directly accessible by the cpu (except cache and registers) ram | commonly referred to as random-access memory or ram. it is called this because the cpu is able to quickly access data stored at any random location in ram. |
3 | 1 | main memory | data, programs, store in main memory analogous to a blackboard, can be erased | stores data and commands that are currently being used. this memory is volatile |
1 | 0 | main memory | memory that temporarily stores information while it is being sent to the cpu, also called random access memory (ram) | the cpu works in conjuction with this; also called ram (random access memory) |
3 | 1 | main memory | where data is stored when it's being used any form of memory directly accessible by the cpu (except cache and registers) ram | the cpu works in conjuction with this; also called ram (random access memory) |
2 | 1 | main memory | memory locations containing the running program ( ram) | solid state temporary store of data and programs which are currently in use, includes ram, rom and cache |
1 | 0 | main memory | -128k bytes -directly address using 16 address bits | list of locations each containing one byte each location has an associated &"number&" (address) is byte addressable also called ram |
2 | 1 | main memory | primary storage area for programs and data that are in active use synonymous with ram | location where data currently being worked on is stored |
2 | 1 | main memory | the computer hardware integrated circuits that store information for immediate use in a computer; it is synonymous with the term &"primary storage&" | primary storage area for programs and data that are in active use synonymous with ram |
1 | 0 | main memory | where the computer stores the data and commands that are currently being used. | data, programs, store in main memory analogous to a blackboard, can be erased |
2 | 1 | main memory | commonly referred to as random-access memory or ram. it is called this because the cpu is able to quickly access data stored at any random location in ram. | memory that temporarily stores information while it is being sent to the cpu, also called random access memory (ram) |
2 | 1 | main memory | (ram) computer's work area, stores a program while the program is running volatile | list of memory locations containing the running program can change during program execution |
2 | 1 | main memory | where data is stored when it's being used any form of memory directly accessible by the cpu (except cache and registers) ram | is the computers work area. when we go to program, a load into the main memory, also known as random access memory (ram) |
2 | 1 | main memory | memory that temporarily stores information while it is being sent to the cpu, also called random access memory (ram) | the computers work area commonly known as ram volatile type of memory |
0 | 0 | main memory | the cpu works in conjuction with this; also called ram (random access memory) | is the computers work area. when we go to program, a load into the main memory, also known as random access memory (ram) |
0 | 0 | main memory | solid state temporary store of data and programs which are currently in use, includes ram, rom and cache | list of memory locations containing the running program can change during program execution |
0 | 0 | main memory | commonly referred to as random-access memory or ram. it is called this because the cpu is able to quickly access data stored at any random location in ram. | the computers work area commonly known as ram volatile type of memory |
2 | 1 | main memory | primary storage area for programs and data that are in active use synonymous with ram | only large storage media that the cpu can access directly random access typically volatile |
1 | 0 | main memory | unit that works directly with cpu, and within which the data and instructions must reside in order for processing to occur. (aka ram) | - stores data and information and is usually volatile - access can take many cycles, causing a stall - program must be brought from disk into memory |
0 | 0 | main memory | -list of locations, each containing one byte of data -each location has an associated &"number&" (e.g., its address) -is byte addressable -also called random access memory (ram | -128k bytes -directly address using 16 address bits |
0 | 0 | main memory | relatively large, fast memory used for program and data storage during execution technology: dram (dynamic random access memory) | illusion: each has own space. contiguous memory locations. reality: memory divided into pages in physical memory or disk. swaps them out. multiple processes share physical memory. |
2 | 1 | main memory | memory locations containing the running program ( ram) | (ram) computer's work area, stores a program while the program is running volatile |
1 | 0 | main memory | stores data & programs, volatile, cpu reads instructions, data & stores result in | cpu reads data and instructions from memory and then stores results of computations in main memory. |
2 | 1 | main memory | memory that works in conjunction with the cpu. stores data and instructions read by the cpu and stores the results of the cpu's computations. | takes in info when the cpu reads data and instructions from memory and then stores the results of computations |
1 | 0 | main memory | commonly referred to as random-access memory or ram. it is called this because the cpu is able to quickly access data stored at any random location in ram. | is the computers work area. when we go to program, a load into the main memory, also known as random access memory (ram) |
2 | 1 | main memory | takes in info when the cpu reads data and instructions from memory and then stores the results of computations | stores data & programs, volatile, cpu reads instructions, data & stores result in |
2 | 1 | main memory | the computer hardware integrated circuits that store information for immediate use in a computer; it is synonymous with the term &"primary storage&" | location where data currently being worked on is stored |
1 | 0 | main memory | where computer stores a program while program is running, and data used by the program - known as ram (random access memory) - volatile memory (temporary) | list of memory locations containing the running program can change during program execution |
2 | 1 | main memory | where data is stored when it's being used any form of memory directly accessible by the cpu (except cache and registers) ram | memory that temporarily stores information while it is being sent to the cpu, also called random access memory (ram) |
2 | 1 | main memory | unit that works directly with cpu, and within which the data and instructions must reside in order for processing to occur. (aka ram) | stores data and information and is usually volatile; its contents are lost when electrical power is turned off. it plays a major role in a computer's performance. |
2 | 1 | source program | the text files containing the written code of the program | a program written in a high-level programming language |
2 | 1 | source program | the text files containing the written code of the program | a file consisting of a program's statements in c++ or another programming language. |
0 | 0 | source program | program written in assembly language | the original program as written by the programmer |
0 | 0 | source program | the text files containing the written code of the program | program written in a lang form which statements are translated into machine lang; comp programming has developed in &"gens&" |
1 | 0 | source program | a computer program in the form that it was written by a programmer, prior to its translation into ones and zeroes for execution by a computer. (compare object program) | the original program as written by the programmer |
2 | 1 | source program | program written in a lang form which statements are translated into machine lang; comp programming has developed in &"gens&" | a file consisting of a program's statements in c++ or another programming language. |
1 | 0 | source program | a program written in a high-level programming language | program written in a lang form which statements are translated into machine lang; comp programming has developed in &"gens&" |
1 | 0 | program analysis | primary spaces plus supporting spaces, determining space needs, functional spaces and square footage, people accommodating spaces and activity performed. | - determining space needs - task and activity analysis - code analysis - accessibility - rules, regulations, and standards for leased buildings - building systems review |
0 | 0 | program analysis | 1.) assertion 2.) efficiency | - program correctness - assertions - precondition -efficiency |
2 | 1 | social media | electronic media that allows people with similar interests to participate in a social network | highly accessible web-based media that allow the sharing of information between individuals and groups have emerged as the most significant form of consumer control over information creation and communication. |
1 | 0 | social media | refers to the forms of communication through virtual networks and communities, in which users share and exchange information and ideas. | content that is created, shared, and commented on by a broader community of users. |
3 | 1 | social media | has brought about significant changes in the way people keep in touch and manage their social lives. | has revolutionized way people communicate and social on the web. |
3 | 1 | social media | a collection of tools that enable users to create user-generated content, network, and share. | websites that enable you to create user-generated content, connect, network, and share. |
1 | 0 | social media | websites that enable people to communicate with each other | websites that enable you to create user-generated content, connect, network, and share. |
1 | 0 | social media | subset of new media that has dominates the mass media landscape in recent years internet based applications that allows creation and exchange if user generated context | highly accessible web-based media that allow the sharing of information between individuals and groups have emerged as the most significant form of consumer control over information creation and communication. |
0 | 0 | social media | helps people to create, share, and/or exchange information and ideas in online communities | forms of electronic communication through which users create online communities |
Subsets and Splits