عنوان
پدید آورنده
موضوع
رده
TK 5103.485 .L735 2015
TK
5103
.
485
.
L735
2015
کتابخانه
محل استقرار
شناسگر استاندارد دیگر
شماره استاندارد
electronic
عنوان و نام پديدآور
نام نخستين پديدآور
Liebhart, Rainer.
عنوان اصلي
LTE for public safety
وضعیت نشر و پخش و غیره
محل نشرو پخش و غیره
Chichester, England
نام ناشر، پخش کننده و غيره
Wiley
تاریخ نشرو بخش و غیره
2015
مشخصات ظاهری
نام خاص و کميت اثر
xxvii, 231 pages ; 26 cm
يادداشت کلی
متن يادداشت
Includes bibliographical references and index
یادداشتهای مربوط به عنوان و پدیدآور
متن يادداشت
Rainer Liebhart, Devaki Chandramouli, Curt Wong and Jurgen Merkel
یادداشتهای مربوط به مندرجات
متن يادداشت
Machine generated contents note: Foreword xi About the Authors xiii Preface xv Acknowledgments xvii Introduction xix Terminology xxi 1 Introduction to LTE/SAE 1 1.1 Role of 3GPP 1 1.2 History of LTE 3 1.3 Drivers for LTE 5 1.4 EPS compared to GPRS and UMTS 6 1.5 Spectrum Considerations 7 1.6 Network Architecture 9 1.6.1 Radio Access Network and Core Network 9 1.6.2 Architecture Principles 9 1.6.3 Non-roaming Architecture 01 1.6.4 Roaming Architectures 11 1.6.5 Description of Functional Entities 21 1.6.6 Session Management 71 1.6.7 Policy and Charging Control 91 1.6.8 Interfaces and Protocols in EPS 12 1.6.9 Mobility Management 62 1.6.01 Intra E-UTRAN Handover 03 1.6.11 Security 13 1.6.21 Charging 43 1.7 IP Multimedia Subsystem 83 1.7.1 Summary of Reference Points and Protocols 04 1.8 Voice and SMS in LTE 14 1.8.1 Voice 14 1.8.2 Short Message Service 24 1.9 Interworking with 2G/3G Networks 34 1.9.1 Overview 34 1.9.2 Interworking with Legacy Networks 34 1.9.3 Functional Description 34 1.01 Interworking with Non-3GPP Access Networks 44 1.01.1 Summary of Reference Points and Protocols 74 1.11 Network Sharing 84 1.11.1 UE-Based Network Selection 94 1.11.2 RAN-Based Network Selection 94 1.21 Multimedia Broadcast Multicast Service 05 1.21.1 Principles 05 1.21.2 Description of Functional Entities 15 1.21.3 MBMS Enhancements 25 1.21.4 MBSFN and MBMS Radio Channels 35 1.31 Terms and Definitions 45 1.31.1 Roaming 45 1.31.2 Circuit-Switched and Packet-Switched Networks 55 1.31.3 Access Stratum and Non-Access Stratum 55 References 65 2 Regulatory Features 95 2.1 Emergency Calls 95 2.1.1 Overview 95 2.1.2 Requirements 95 2.1.3 Emergency Call Architecture 06 2.1.4 PSAP Callback 86 2.1.5 Emergency Numbers 86 2.1.6 Non Voice Emergency Services 96 2.1.7 Automated Emergency Calls 96 2.2 Public Warning System 17 2.3 Lawful Interception 27 2.3.1 Principles 27 2.3.2 Lawful Interception for EPS 47 2.4 Enhanced Multimedia Priority Services 47 References 67 3 LTE for Public Safety Networks 77 3.1 Why LTE for Public Safety Networks? 77 3.2 What are Public Safety Networks? 87 3.3 LTE meets Demands of Public Safety Networks 97 3.4 Wide Range of LTE Devices for Public Safety 08 3.5 Standalone versus Shared Deployments 18 3.6 Interworking 38 3.6.1 Device Aspects 38 3.6.2 Network Aspects 38 References 38 4 Proximity Services 58 4.1 Introduction to Proximity Services 58 4.1.1 Proximity Services Overview 58 4.1.2 ProSe Communication 68 4.1.3 ProSe Discovery 88 4.1.4 ProSe for Public Safety 88 4.2 Proximity Services Architectures 09 4.2.1 Non-roaming Architecture 09 4.2.2 Inter-PLMN Architecture 19 4.2.3 Roaming Architecture 19 4.2.4 Description of Functional Entities 39 4.2.5 Interfaces and Protocols 79 4.3 Synchronization 401 4.3.1 LTE Primary and Secondary Synchronization Signals 601 4.3.2 LTE D2D Synchronization 701 4.4 Service Authorization 801 4.5 ProSe Direct Discovery 901 4.5.1 ProSe Direct Discovery Models 011 4.5.2 ProSe Direct Discovery Modes 011 4.5.3 Direct Discovery Procedure for Model A 111 4.5.4 Radio Aspects and Physical Layer Design 211 4.5.5 Radio Resource Allocation for Direct Discovery 211 4.5.6 Inter-frequency ProSe Discovery 311 4.5.7 Announce Procedure )non-roaming( 411 4.5.8 Announce Procedure )roaming( 511 4.5.9 Monitor Procedure )non-roaming( 711 4.5.01 Monitor Procedure )roaming( 811 4.5.11 Match Procedure )non-roaming( 021 4.5.21 Match Procedure )roaming( 121 4.5.31 Direct Discovery Procedure for Model B 321 4.6 ProSe Direct Communication 321 4.6.1 Radio Aspects and Physical Layer Design 421 4.6.2 Radio Resource Allocation for Direct Communication 521 4.6.3 Inter-frequency ProSe Communication 721 4.6.4 IP Address Allocation 821 4.6.5 One-to-Many Communication )Transmission( 821 4.6.6 One-to-Many Communication )Reception( 031 4.6.7 Direct Communication via ProSe Relay 031 4.7 EPC-Level ProSe Discovery 131 4.7.1 EPC-Level ProSe Discovery Procedure 231 4.7.2 User Equipment Registration 331 4.7.3 Application Registration 431 4.8 Other Essential Functions for Proximity Services 531 4.8.1 Provisioning 531 4.8.2 Subscription Data 631 4.8.3 Security 631 4.8.4 Charging 831 4.8.5 ProSe-Related Identifiers 041 4.8.6 Illustration for Match Event 441 4.9 Deployment Scenarios 641 4.9.1 ProSe Direct Discovery 641 4.9.2 ProSe Direct Communication 741 4.01 Public Safety Use Cases 741 4.01.1 Use Cases for ProSe Communication 841 4.01.2 Use Cases for Network to UE Relay 941 4.01.3 Performance Characteristics 941 4.11 Outlook to Enhanced Proximity Services 051 4.21 Terms and Definitions 151 4.21.1 Home PLMN 151 4.21.2 Equivalent Home PLMN 151 4.21.3 Visited PLMN 151 4.21.4 Registered )Serving( PLMN 251 4.21.5 Local PLMN 251 4.21.6 Hybrid Adaptive Repeat and Request 251 4.21.7 Radio Link Control 251 4.21.8 Logical Channel Prioritization 351 4.21.9 System Information 351 4.21.01 OFDM Symbol 451 4.21.11 Dual-Rx UE 451 References 451 5 Group Communication Over LTE 751 5.1 Introduction to Group Communication Services 751 5.2 Group Communication System Enablers for LTE 851 5.3 Principles of Group Communication over LTE 951 5.4 Functional Entities 261 5.4.1 User Equipment 261 5.4.2 GCS AS 261 5.4.3 BM-SC 361 5.4.4 eNB, MME, S-GW, P-GW, PCRF 361 5.5 Interfaces and Protocols 361 5.5.1 MB2 Interface 361 5.5.2 Rx and SGi Interfaces 761 5.6 GCSE Functions 961 5.6.1 Unicast Delivery 961 5.6.2 MBMS Delivery 171 5.6.3 Service Continuity 271 5.6.4 Priority and Preemption 371 5.6.5 MBMS Delivery Status Notification 571 5.7 Establishment of MBMS Delivery 571 5.7.1 Pre-establishment 571 5.7.2 Dynamic Establishment 671 5.8 MBMS Delivery Procedures 971 5.8.1 MBMS Delivery Modification 971 5.8.2 MBMS Delivery Deactivation 181 5.8.3 TMGI Management 281 5.9 Access Control 381 5.01 Mission Critical Push To Talk 581 5.01.1 MCPTT Service Description 681 5.01.2 MCPTT Call Types 781 5.01.3 MCPTT Priorities 781 5.01.4 Shareable MCPTT Devices 881 5.01.5 On and Off Network Mode of Operation 881 5.01.6 Interworking with legacy PTT Systems 981 References 981 6 Summary and Outlook 191 6.1 Role of LTE 191 6.2 Public Safety Features 291 6.3 LTE for Public Safety 391 6.4 Outlook 691 References 691 Appendix A 791 A.1 Call Flows 791 A.1.1 Attach 791 A.1.2 Detach 002 A.1.3 Tracking Area Update 102 A.1.4 Paging 202 A.1.5 Service Request 302 A.1.6 X2-Based Handover 502 A.1.7 S1-Based Handover 602 A.1.8 MBMS Session Start 012 A.1.9 MBMS Session Stop 212 A.1.01 MBMS Session Update 312 A.1.11 UE-requested PDN Connectivity 412 A.1.21 Dedicated Bearer Context Activation 612 A.2 3GPP Reference Points 712 References 122 Index 322
موضوع (اسم عام یاعبارت اسمی عام)
عنصر شناسه ای
، Long-Term Evolution )Telecommunications(
عنصر شناسه ای
، Emergency communication systems
عنصر شناسه ای
، TECHNOLOGY & ENGINEERING / Mobile & Wireless Communications
رده بندی کنگره
شماره رده
TK
5103
.
485
.
L735
2015
نام شخص به منزله سر شناسه - (مسئولیت معنوی درجه اول )
کد نقش
AU
نام / عنوان به منزله شناسه افزوده
عنصر شناسه اي
TI
