E-Book, Englisch, 784 Seiten
Ahmadi Mobile WiMAX
1. Auflage 2010
ISBN: 978-0-08-096097-5
Verlag: Elsevier Science & Techn.
Format: EPUB
Kopierschutz: 6 - ePub Watermark
A Systems Approach to Understanding IEEE 802.16m Radio Access Technology
E-Book, Englisch, 784 Seiten
ISBN: 978-0-08-096097-5
Verlag: Elsevier Science & Techn.
Format: EPUB
Kopierschutz: 6 - ePub Watermark
Dr. Sassan Ahmadi is the Director of 5G Wireless Systems and Standards with Xilinx Inc., and a Lecturer at Stanford University with over 30 years of experience in signal processing and communication system design as well as cellular systems standards development. Previously, he held senior positions at Apple, Intel and Nokia. He has authored two books on wireless communications, 'LTE-Advanced, A Practical Systems Approach to Understanding 3GPP LTE Releases 10 and 11 Radio Access Technologies', Academic Press, 2013 and 'Mobile WiMAX, A Systems Approach to Understanding IEEE 802.16m Radio Access Technology', Academic Press, 2010 and over 90 patents/patent applications on various aspects of 4G and 5G radio access networks. He is the co-author of six other books as well as and the author of more than 20 refereed journal and conference papers. For over two decades, he has been a technical contributor and leader in the development of the cellular standards including 5G NR, IMT-Advanced, and IEEE 802.16m standards in 3GPP, ITU-R, and IEEE. He has taught graduate courses at Stanford University since 2014 and University of California, San Diego between 2000 and 2003.
Autoren/Hrsg.
Weitere Infos & Material
1;Front Cover;1
2;Dedication;3
3;Mobile WiMAX;4
4;Copyright;5
5;Contents;6
6;Preface;12
7;Introduction;16
8;Acknowledgements;28
9;Chapter 1 Introduction to Mobile Broadband Wireless Access;30
9.1;Introduction;30
9.2;1.1 Mobile Broadband Wireless Access Technologies;30
9.3;1.2 Introduction to the IEEE 802.16 Standards;43
9.4;1.3 Introduction to WiMAX Forum Mobile System Profiles;52
9.5;1.4 Introduction to 3GPP Standards;53
9.6;References;59
10;Chapter 2 WiMAX Network Architecture;62
10.1;Introduction;62
10.2;2.1 Design Principles of WiMAX Network Architecture;62
10.3;2.2 Network Reference Model;66
10.4;2.3 Authentication, Authorization, and Accounting (AAA);71
10.5;2.4 Mobile IP;73
10.6;2.5 Radio Resource Management (RRM);75
10.7;2.6 Mobility Management;76
10.8;2.7 Paging and Idle State Operation;80
10.9;2.8 Overview of 3GPP Evolved Packet Core Network Architecture;81
10.10;References;88
11;Chapter 3 IEEE 802.16m Reference Model and Protocol Structure;90
11.1;Introduction;90
11.2;3.1 The IEEE 802.16m Reference Model;92
11.3;3.2 The IEEE 802.16m Protocol Structure;105
11.4;3.3 3GPP LTE/LTE-Advanced Protocol Structure;118
11.5;References;124
12;CHAPTER 4 IEEE 802.16m System Operation and State Diagrams;126
12.1;Introduction;126
12.2;4.1 IEEE 802.16m Mobile Station State Diagrams;127
12.3;4.2 Network Entry;147
12.4;4.3 State Transitions and Mobility;151
12.5;4.4 State Transitions in Relay Stations;153
12.6;4.5 Operational States of Femto Base Stations;160
12.7;4.6 3GPP LTE User Equipment States and State Transitions;167
12.8;References;175
13;Chapter 5 The IEEE 802.16m Convergence Sub-Layer;178
13.1;Introduction;178
13.2;5.1 Header Compression;179
13.3;5.2 Service Flow Classification and Identification;184
13.4;5.3 Packet Convergence Sub-layer;187
13.5;5.4 Generic Packet Convergence Sub-layer;190
13.6;5.5 The 3GPP LTE Packet Data Convergence Protocol;191
13.7;References;196
14;Chapter 6 The IEEE 802.16m Medium Access Control Common Part Sub-layer (Part I);198
14.1;Introduction;198
14.2;6.1 Addressing;200
14.3;6.2 MAC PDU Headers;202
14.4;6.3 MAC Signaling Headers;210
14.5;6.4 Mobility Management and Handover;213
14.6;6.5 Quality of Service;238
14.7;6.6 IEEE 802.16m QoS Classes;244
14.8;6.7 MAC Management/Control Messages;246
14.9;6.8 Connection and Session Management;272
14.10;6.9 Mobility and Power Management;275
14.11;6.10 Scheduling Services;281
14.12;6.11 Bandwidth Request and Allocation;287
14.13;6.12 Multi-radio Coexistence;290
14.14;6.13 3GPP LTE Radio Resource Control Functions;293
14.15;Appendix A: Proportional Fair Scheduling Algorithm;306
14.16;References;307
15;Chapter 7 The IEEE 802.16m Medium Access Control Common Part Sub-layer (Part II);310
15.1;Introduction;310
15.2;7.1 AUTOMATIC REPEAT REQUEST;312
15.3;7.2 HYBRID AUTOMATIC REPEAT REQUEST FUNCTIONS;318
15.4;7.3 MAC PDU FORMATION;328
15.5;7.4 3GPP LTE RADIO LINK CONTROL AND MEDIUM ACCESS CONTROL SUB-LAYERS;333
15.6;References;348
16;Chapter 8 The IEEE 802.16m Security Sub-Layer;350
16.1;Introduction;350
16.2;8.1 Security Architecture;350
16.3;8.2 Authentication;352
16.4;8.3 Key Management Protocol (PKMv3);352
16.5;8.4 Security Association Management;354
16.6;8.5 Cryptographic Methods;355
16.7;8.6 Control-plane Signaling Protection;355
16.8;8.7 User Privacy;357
16.9;8.8 3GPP LTE Security Aspects;357
16.10;References;361
17;Chapter 9 The IEEE 802.16m Physical Layer (Part I);364
17.1;Introduction;364
17.2;9.1 Overview of IEEE 802.16m Physical Layer Processing;365
17.3;9.2 Characteristics of Wireless Channels;367
17.4;9.3 SC-FDMA and OFDMA Principles;371
17.5;9.4 Downlink and Uplink Multiple Access Schemes;384
17.6;9.5 IEEE 802.16M Duplex Modes;387
17.7;9.6 Frame Structure;387
17.8;9.7 The Concept of Time Zones and Frequency Regions;392
17.9;9.8 Subchannelization and Permutation;393
17.10;9.9 Pilot Structure and Channel Estimation;411
17.11;9.10 MIMO Midamble;423
17.12;9.11 Pilot-based Channel Estimation;424
17.13;9.12 Channel Coding and Modulation;427
17.14;9.13 Synchronization Channel;447
17.15;9.14 Superframe Headers (Broadcast Channel);455
17.16;9.15 3GPP LTE Physical Layer Protocols;477
17.17;References;511
18;Chapter 10 The IEEE 802.16m Physical Layer (Part II);518
18.1;Introduction;518
18.2;10.1 Control Channels;518
18.3;10.2 Downlink Control Channels;519
18.4;10.3 Uplink Control Channels;557
18.5;10.4 Multi-antenna Transmission Schemes;577
18.6;10.5 IEEE 802.16M Downlink MIMO Schemes;607
18.7;10.6 The IEEE 802.16M Uplink MIMO Schemes;626
18.8;10.7 Multi-BS MIMO;630
18.9;10.8 Interference Mitigation;636
18.10;10.9 Multi-antenna Techniques in 3GPP LTE;639
18.11;10.10 Multi-antenna Techniques in 3GPP LTE-Advanced;646
18.12;References;648
19;Chapter 11 Multi-Carrier Operation;654
19.1;Introduction;654
19.2;11.1 Principles of Multi-Carrier Operation;655
19.3;11.2 Sub-carrier Alignment and Use of Guard Sub-Carriers;658
19.4;11.3 Carrier Aggregation and Spectral Mask Considerations;665
19.5;11.4 MAC Aspects of Multi-Carrier Operation;667
19.6;11.5 3GPP LTE-Advanced Multi-Carrier Operation;678
19.7;References;684
20;CHAPTER 12 Performance of IEEE 802.16m and 3GPP LTE-Advanced;686
20.1;Introduction;686
20.2;12.1 Definition of the Performance Metrics;687
20.3;12.2 Calculation Of Static and Dynamic Overhead;691
20.4;12.3 Traffic Models;693
20.5;12.4 Link-to-system Mapping (PHY Abstraction);696
20.6;12.5 IMT-Advanced Test Environments;698
20.7;12.6 Network Layout For System-Level Simulations;699
20.8;12.7 IMT-Advanced Evaluation Methodology and Baseline Configurations;701
20.9;12.8 Link-level And System-Level Channel Models;701
20.10;12.9 IEEE 802.16M Link-Level And System-Level Performance;705
20.11;12.10 3GPP LTE-Advanced Link-Level And System-Level Performance;729
20.12;References;749
21;Index;752
