Fundamentals of WiMAX: understanding broadband wireless networking
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Format: | Buch |
Sprache: | English |
Veröffentlicht: |
Upper Saddle River, NJ
Prentice Hall
c2007
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Schriftenreihe: | Prentice Hall communications engineering and emerging technologies series
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Schlagworte: | |
Online-Zugang: | Table of contents only Inhaltsverzeichnis |
Beschreibung: | Includes bibliographical references and index |
Beschreibung: | xxvii, 449 p. ill. 25 cm |
ISBN: | 0132225522 |
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245 | 1 | 0 | |a Fundamentals of WiMAX |b understanding broadband wireless networking |c Jeffrey G. Andrews, Arunabha Ghosh, Rias Muhamed |
264 | 1 | |a Upper Saddle River, NJ |b Prentice Hall |c c2007 | |
300 | |a xxvii, 449 p. |b ill. |c 25 cm | ||
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490 | 0 | |a Prentice Hall communications engineering and emerging technologies series | |
500 | |a Includes bibliographical references and index | ||
650 | 4 | |a Wireless communication systems | |
650 | 4 | |a Broadband communication systems | |
650 | 4 | |a IEEE 802.16 (Standard) | |
700 | 1 | |a Ghosh, Arunabha |e Verfasser |4 aut | |
700 | 1 | |a Muhamed, Rias |e Verfasser |4 aut | |
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Datensatz im Suchindex
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adam_text | FUNDAMENTALS OF WIMAX UNDERSTANDING BROADBAND WIRELESS NETWORKING
JEFFREY G. ANDREWS, PH.D. DEPARTMENT OF ELECTRICAL AND COMPUTER
ENGINEERING THE UNIVERSITY OF TEXAS AT AUSTIN ARUNABHA GHOSH, PH.D. AT&T
LABS INC. RIAS MUHAMED AT&T LABS INC. PRENTICE HALL UPPER SADDLE RIVER,
NJ * BOSTON * INDIANAPOLIS * SAN FRANCISCO NEW YORK * TORONTO * MONTREAL
* LONDON * MUNICH * PARIS * MADRID CAPETOWN * SYDNEY * TOKYO * SINGAPORE
* MEXICO CITY CONTENTS FOREWORD XIX PREFACE XXI ACKNOWLEDGMENTS XXIII
ABOUT THE AUTHORS XXVII PART I OVERVIEW OF WIMAX 1 CHAPTER 1
INTRODUCTION TO BROADBAND WIRELESS 3 1.1 EVOLUTION OF BROADBAND WIRELESS
5 1.1.1 NARROWBAND WIRELESS LOCAL-LOOP SYSTEMS 5 1.1.2 FIRST-GENERATION
BROADBAND SYSTEMS 6 1.1.3 SECOND-GENERATION BROADBAND SYSTEMS 8 1.1.4
EMERGENCE OF STANDARDS-B ASED TECHNOLOGY 8 1.2 FIXED BROADBAND WIRELESS:
MARKET DRIVERS AND APPLICATIONS 10 1.3 MOBILE BROADBAND WIRELESS: MARKET
DRIVERS AND APPLICATIONS 12 1.4 WIMAX AND OTHER BROADBAND WIRELESS
TECHNOLOGIES 13 1.4.1 3G CELLULAR SYSTEMS 14 1.4.2 WI-FI SYSTEMS 15
1.4.3 WIMAX VERSUS 3G AND WI-FI 16 1.4.4 OTHER COMPARABLE SYSTEMS 17 1.5
SPECTRUM OPTIONS FOR BROADBAND WIRELESS 17 1.6 BUSINESS CHALLENGES FOR
BROADBAND WIRELESS AND WIMAX 21 1.7 TECHNICAL CHALLENGES FOR BROADBAND
WIRELESS 23 1.7.1 WIRELESS RADIO CHANNEL 24 1.7.2 SPECTRUM SCARCITY 25
1.7.3 QUALITY OF SERVICE 26 1.7.4 MOBILITY 28 1.7.5 PORTABILITY 29 1.7.6
SECURITY 29 1.7.7 SUPPORTING IP IN WIRELESS 30 1.7.8 SUMMARY OF
TECHNICAL CHALLENGES 31 1.8 SUMMARY AND CONCLUSIONS 32 1.9 BIBLIOGRAPHY
32 XII CONTENTS CHAPTER 2 OVERVIEW OF WIMAX 2.1 BACKGROUND ON IEEE
802.16 AND WIMAX 2.2 SALIENT FEATURES OF WIMAX 2.3 WIMAX PHYSICAL LAYER
2.3.1 OFDM BASICS 2.3.2 OFDM PROS AND CONS 2.3.3 OFDM PARAMETERS IN
WIMAX 2.3.4 SUBCHANNELIZATION: OFDMA 2.3.5 SLOT AND FRAME STRUCTURE
2.3.6 ADAPTIVE MODULATION AND CODING IN WIMAX 2.3.7 PHY-LAYER DATA RATES
2.4 MAC-LAYER OVERVIEW 2.4.1 CHANNEL-ACCESS MECHANISMS 2.4.2 QUALITY OF
SERVICE 2.4.3 POWER-SAVING FEATURES 2.4.4 MOBILITY SUPPORT 2.4.5
SECURITY FUNCTIONS 2.4.6 MULTICAST AND BROADCAST SERVICES 2.5 ADVANCED
FEATURES FOR PERFORMANCE ENHANCEMENTS 2.5.1 ADVANCED ANTENNA SYSTEMS
2.5.2 HYBRID-ARQ 2.5.3 IMPROVED FREQUENCY REUSE 2.6 REFERENCE NETWORK
ARCHITECTURE 2.7 PERFORMANCE CHARACTERIZATION 2.7.1 THROUGHPUT AND
SPECTRAL EFFICIENCY 2.7.2 SAMPLE LINK BUDGETS AND COVERAGE RANGE 2.8
SUMMARY AND CONCLUSIONS 2.9 BIBLIOGRAPHY 33 33 37 39 39 40 41 43 44 46
46 47 48 49 51 52 53 54 55 55 56 56 57 59 60 60 61 63 PART II TECHNICAL
FOUNDATIONS OF WIMAX 65 CHAPTER 3 THE CHALLENGE OF BROADBAND WIRELESS
CHANNELS 67 3.1 COMMUNICATION SYSTEM BUILDING BLOCKS 68 3.2 THE
BROADBAND WIRELESS CHANNEL: PATHLOSS AND SHADOWING 69 3.2.1 PATHLOSS 70
3.^2 SHADOWING 74 3.3 CELLULAR SYSTEMS 77 3.3.1 THE CELLULAR CONCEPT 78
CONTENTS XLLI 3.3.2 ANALYSIS OF CELLULAR SYSTEMS 79 3.3.3 SECTORING 82
3.4 THE BROADBAND WIRELESS CHANNEL: FADING 84 3.4.1 DELAY SPREAD AND
COHERENCE BANDWIDTH 86 3.4.2 DOPPLER SPREAD AND COHERENCE TIME 87 3.4.3
ANGULAR SPREAD AND COHERENCE DISTANCE 90 3.5 MODELING BROADBAND FADING
CHANNELS 91 3.5.1 STATISTICAL CHANNEL MODELS 91 3.5.2 STATISTICAL
CORRELATION OF THE RECEIVED SIGNAL 95 3.5.3 EMPIRICAL CHANNEL MODELS 99
3.6 MITIGATION OF FADING 104 3.6.1 NARROWBAND (FLAT) FADING 105 3.6.2
BROADBAND FADING 107 3.6.3 SPREAD SPECTRUM AND RAKE RECEIVERS 108 3.6.4
EQUALIZATION 109 3.6.5 THE MULTICARRIER CONCEPT 110 3.7 SUMMARY AND
CONCLUSIONS 110 3.8 BIBLIOGRAPHY 110 CHAPTER 4 ORTHOGONAL FREQUENCY
DIVISION MULTIPLEXING 113 4.1 MULTICARRIER MODULATION 114 4.2 OFDM
BASICS 117 4.2.1 BLOCK TRANSMISSION WITH GUARD INTERVALS 117 4.2.2
CIRCULAR CONVOLUTION AND THE DFT 117 4.2.3 THE CYCLIC PREFIX 119 4.2.4
FREQUENCY EQUALIZATION 122 4.2.5 AN OFDM BLOCK DIAGRAM 122 4.3 AN
EXAMPLE: OFDM IN WIMAX 123 4.4 TIMING AND FREQUENCY SYNCHRONIZATION 124
4.4.1 TIMING SYNCHRONIZATION 126 4.4.2 FREQUENCY SYNCHRONIZATION 127
4.4.3 OBTAINING SYNCHRONIZATION IN WIMAX 130 4.5 THE PEAK-TO-AVERAGE
RATIO 131 4.5.1 THE PAR PROBLEM 131 4.5.2 QUANTIFYING THE PAR 132 4.5.3
CLIPPING: LIVING WITH A HIGH PAR 135 4.5.4 PAR-REDUCTION STRATEGIES 140
4.6 OFDM S COMPUTATIONAL COMPLEXITY ADVANTAGE 142 4.7 SIMULATING OFDM
SYSTEMS 144 XIV CONTENTS 4.8 SUMMARY AND CONCLUSIONS 145 4.9
BIBLIOGRAPHY 145 CHAPTER 5 MULTIPLE-ANTENNA TECHNIQUES 149 5.1 THE
BENEFITS OF SPATIAL DIVERSITY 150 5.1.1 ARRAY GAIN 150 5.1.2 DIVERSITY
GAIN AND DECREASED ERROR RATE 152 5.1.3 INCREASED DATA RATE 153 5.1.4
INCREASED COVERAGE OR REDUCED TRANSMIT POWER 154 5.2 RECEIVE DIVERSITY
154 5.2.1 SELECTION COMBINING 155 5.2.2 MAXIMAL RATIO COMBINING 156 5.3
TRANSMIT DIVERSITY 157 5.3.1 OPEN-LOOP TRANSMIT DIVERSITY 158 5.3.2 N T
X N R TRANSMIT DIVERSITY 160 5.3.3 CLOSED LOOP-TRANSMIT DIVERSITY 164
5.4 BEAMFORMING 169 5.4.1 DOA-BASED BEAMFORMING 170 5.4.2
EIGENBEAMFORMING 171 5.5 SPATIAL MULTIPLEXING 174 5.5.1 INTRODUCTION TO
SPATIAL MULTIPLEXING 174 5.5.2 OPEN-LOOP MIMO: SPATIAL MULTIPLEXING
WITHOUT CHANNEL FEEDBACK 175 5.5.3 CLOSED-LOOP MIMO: THE ADVANTAGE OF
CHANNEL KNOWLEDGE 179 5.6 SHORTCOMINGS OF CLASSICAL MIMO THEORY 181
5.6.1 MULTIPATH 182 5.6.2 UNCORRELATED ANTENNAS 182 5.6.3
INTERFERENCE-LIMITED MIMO SYSTEMS 183 5.7 CHANNEL ESTIMATION FOR
MIMO-OFDM 184 5.7.1 PREAMBLE AND PILOT , 185 5.7.2 TIME VERSUS
FREQUENCY-DOMAIN CHANNEL ESTIMATION 186 5.8 CHANNEL FEEDBACK 189 5.9
ADVANCED TECHNIQUES FOR MIMO 190 5.9.1 SWITCHING BETWEEN DIVERSITY AND
MULTIPLEXING 190 5.9.2 MULTIUSER MIMO SYSTEMS 190 CHAPTER 6 ORTHOGONAL
FREQUENCY DIVISION MULTIPLE ACCESS 199 6.1 MULTIPLE-ACCESS STRATEGIES
FOR OFDM 200 CONTENTS 6.1.1 RANDOM ACCESS VERSUS MULTIPLE ACCESS 6.1.2
FREQUENCY DIVISION MULTIPLE ACCESS 6.1.3 TIME DIVISION MULTIPLE
ACCESS* ROUND ROBIN 6.1.4 CODE DIVISION MULTIPLE ACCESS 6.1.5
ADVANTAGES OF OFDMA 6.2 MULTIUSER DIVERSITY AND ADAPTIVE MODULATION
6.2.1 MULTIUSER DIVERSITY 6.2.2 ADAPTIVE MODULATION AND CODING 6.3
RESOURCE-ALLOCATION TECHNIQUES FOR OFDMA 6.3.1 MAXIMUM SUM RATE
ALGORITHM 6.3.2 MAXIMUM FAIRNESS ALGORITHM 6.3.3 PROPORTIONAL RATE
CONSTRAINTS ALGORITHM 6.3.4 PROPORTIONAL FAIRNESS SCHEDULING 6.3.5
PERFORMANCE COMPARISON 6.4 OFDMA IN WIMAX: PROTOCOLS AND CHALLENGES
6.4.1 OFDMA PROTOCOLS 6.4.2 CELLULAR OFDMA 6.4.3 LIMITED DIVERSITY GAINS
6.5 SUMMARY AND CONCLUSIONS 6.6 BIBLIOGRAPHY XV 201 202 202 202 203 204
205 206 209 210 211 212 213 214 216 216 218 219 219 220 CHAPTER 7
NETWORKING AND SERVICES ASPECTS OF BROADBAND WIRELESS 223 7.1 QUALITY OF
SERVICE 7.1.1 QOS MECHANISMS IN PACKET NETWORKS 7.1.2 IP QOS
TECHNOLOGIES 7.2 MULTIMEDIA SESSION MANAGEMENT 7.2.1 SESSION INITIATION
PROTOCOL 7.2.2 REAL-TIME TRANSPORT PROTOCOL 7.3 SECURITY 7.3.1
ENCRYPTION AND AES 7.3.2 PUBLIC KEY INFRASTRUCTURE 7.3.3 AUTHENTICATION
AND ACCESS CONTROL 7.4 MOBILITY MANAGEMENT 7.4.1 LOCATION MANAGEMENT
7.4.2 HANDOFF MANAGEMENT 7.4.3 MOBILE IP Y 7.5 IP FOR WIRELESS: ISSUES
AND POTENTIAL SOLUTIONS 7.5.1 TCP IN WIRELESS 7.5.2 HEADER COMPRESSION
224 225 227 233 234 240 241 242 245 247 249 250 251 254 260 260 263 XVI
CONTENTS 7.6 SUMMARY AND CONCLUSIONS 265 7.7 BIBLIOGRAPHY 266 PART III
UNDERSTANDING WIMAX AND ITS PERFORMANCE 269 CHAPTER 8 CHAPTER 9 PHY
LAYER OF WIMAX 8.1 CHANNEL CODING 8.1.1 CONVOLUTIONAL CODING 8.1.2 TURBO
CODES 8.1.3 BLOCK TURBO CODES AND LDPC CODES 8.2 HYBRID-ARQ 8.3
INTERLEAVING 8.4 SYMBOL MAPPING 8.5 OFDM SYMBOL STRUCTURE 8.6 SUBCHANNEL
AND SUBCARRIER PERMUTATIONS 8.6.1 DOWNLINK FULL USAGE OF SUBCARRIERS
8.6.2 DOWNLINK PARTIAL USAGE OF SUBCARRIERS 8.6.3 UPLINK PARTIAL USAGE
OF SUBCARRIERS 8.6.4 TILE USAGE OF SUBCARRIERS 8.6.5 BAND ADAPTIVE
MODULATION AND CODING 8.7 SLOT AND FRAME STRUCTURE 8.8 TRANSMIT
DIVERSITY AND MIMO 8.8.1 TRANSMIT DIVERSITY AND SPACE/TIME CODING 8.8.2
FREQUENCY-HOPPING DIVERSITY CODE 8.9 CLOSED-LOOP MIMO 8.9.1 ANTENNA
SELECTION 8.9.2 ANTENNA GROUPING 8.9.3 CODEBOOK BASED FEEDBACK 8.9.4
QUANTIZED CHANNEL FEEDBACK 8.9.5 CHANNEL SOUNDING 8.10 RANGING 8.11
POWER CONTROL 8.12 CHANNEL-QUALITY MEASUREMENTS 8.13 SUMMARY AND
CONCLUSIONS 8.14 BIBLIOGRAPHY MAC LAYER OF WIMAX 9.1 CONVERGENCE
SUBLAVER 271 272 273 275 278 278 279 280 280 282 283 286 287 287 289 290
292 292 295 296 297 298 299 299 299 300 302 303 304 304 307 309 CONTENTS
XVII CHAPTER 10 9.1.1 PACKET HEADER SUPPRESSION 309 9.2 MAC PDU
CONSTRUCTION AND TRANSMISSION 312 9.3 BANDWIDTH REQUEST AND ALLOCATION
316 9.4 QUALITY OF SERVICE 317 9.4.1 SCHEDULING SERVICES 317 9.4.2
SERVICE FLOW AND QOS OPERATIONS 318 9.5 NETWORK ENTRY AND INITIALIZATION
319 9.5.1 SCAN AND SYNCHRONIZE DOWNLINK CHANNEL 319 9.5.2 OBTAIN UPLINK
PARAMETERS 320 9.5.3 PERFORM RANGING 320 9.5.4 NEGOTIATE BASIC
CAPABILITIES 322 9.5.5 REGISTER AND ESTABLISH IP CONNECTIVITY 322 9.5.6
ESTABLISH SERVICE FLOW 323 9.6 POWER-SAVING OPERATIONS 324 9.6.1 SLEEP
MODE 325 9.6.2 IDLE MODE 327 9.7 MOBILITY MANAGEMENT 327 9.7.1 HANDOFF
PROCESS AND CELL RESELECTION 329 9.7.2 MACRO DIVERSITY HANDOVER AND FAST
BS SWITCHING 330 9.8 SUMMARY AND CONCLUSIONS 332 9.9 BIBLIOGRAPHY 333
WIMAX NETWORK ARCHITECTURE 335 10.1 GENERAL DESIGN PRINCIPLES OF THE
ARCHITECTURE 336 10.2 NETWORK REFERENCE MODEL 337 10.2.1 ASN FUNCTIONS,
DECOMPOSITIONS, AND PROFILES 338 10.2.2 CSN FUNCTIONS 340 10.2.3
REFERENCE POINTS 341 10.3 PROTOCOL LAYERING ACROSS A WIMAX NETWORK 341
10.4 NETWORK DISCOVERY AND SELECTION 344 10.5 IP ADDRESS ASSIGNMENT 344
10.6 AUTHENTICATION AND SECURITY ARCHITECTURE 345 10.6.1 AAA
ARCHITECTURE FRAMEWORK 346 10.6.2 AUTHENTICATION PROTOCOLS AND PROCEDURE
346 10.6.3 ASN SECURITY ARCHITECTURE 349 10.7 QUALITY-OF-SERVICE
ARCHITECTURE 349 10.8 MOBILITY MANAGEMENT 352 10.8.1 ASN-ANCHORED
MOBILITY 354 XVLII CONTENTS 10.8.2 CSN-ANCHORED MOBILITY FOR IPV4 356
10.8.3 CSN ANCHORED MOBILITY FOR IPV6 358 10.9 RADIO RESOURCE MANAGEMENT
359 10.10 PAGING AND IDLE-MODE OPERATION 360 10.11 SUMMARY AND
CONCLUSIONS 362 10.12 BIBLIOGRAPHY 362 CHAPTER 11 LINK-LEVEL PERFORMANCE
OF WIMAX 365 11.1 METHODOLOGY FOR LINK-LEVEL SIMULATION 366 11.2 AWGN
CHANNEL PERFORMANCE OF WIMAX 370 11.3 FADING CHANNEL PERFORMANCE OF
WIMAX 373 11.3.1 CHANNEL ESTIMATION AND CHANNEL TRACKING 381 11.3.2 TYPE
I AND TYPE II HYBRID-ARQ 385 11.4 BENEFITS OF MULTIPLE-ANTENNA
TECHNIQUES IN WIMAX 387 11.4.1 TRANSMIT AND RECEIVE DIVERSITY 387 11.4.2
OPEN-LOOP AND CLOSED-LOOP MIMO 389 11.5 ADVANCED RECEIVER STRUCTURES AND
THEIR BENEFITS FOR WIMAX 396 11.6 SUMMARY AND CONCLUSIONS 398 11.7
BIBLIOGRAPHY 399 CHAPTER 12 SYSTEM-LEVEL PERFORMANCE OF WIMAX 401 12.1
WIRELESS CHANNEL MODELING 402 12.2 METHODOLOGY FOR SYSTEM-LEVEL
SIMULATION 404 12.2.1 SIMULATOR FOR WIMAX NETWORKS 405 12.2.2 SYSTEM
CONFIGURATIONS 410 12.3 SYSTEM-LEVEL SIMULATION RESULTS 412 12.3.1
SYSTEM-LEVEL RESULTS OF BASIC CONFIGURATION 412 12.3.2 SYSTEM-LEVEL
RESULTS OF ENHANCED CONFIGURATIONS 416 12.4 SUMMARY AND CONCLUSIONS ,
421 12.5 APPENDIX: PROPAGATION MODELS 422 12.5.1 HATA MODEL 422 12.5.2
COST-231 HATA MODEL 424 12.5.3 ERCEG MODEL 424 12.5.4 WALFISH-IKEGAMI
MODEL 426 12.6 BIBLIOGRAPHY 427 ACRONYMS 429 INDEX 439
|
adam_txt |
FUNDAMENTALS OF WIMAX UNDERSTANDING BROADBAND WIRELESS NETWORKING
JEFFREY G. ANDREWS, PH.D. DEPARTMENT OF ELECTRICAL AND COMPUTER
ENGINEERING THE UNIVERSITY OF TEXAS AT AUSTIN ARUNABHA GHOSH, PH.D. AT&T
LABS INC. RIAS MUHAMED AT&T LABS INC. PRENTICE HALL UPPER SADDLE RIVER,
NJ * BOSTON * INDIANAPOLIS * SAN FRANCISCO NEW YORK * TORONTO * MONTREAL
* LONDON * MUNICH * PARIS * MADRID CAPETOWN * SYDNEY * TOKYO * SINGAPORE
* MEXICO CITY CONTENTS FOREWORD XIX PREFACE XXI ACKNOWLEDGMENTS XXIII
ABOUT THE AUTHORS XXVII PART I OVERVIEW OF WIMAX 1 CHAPTER 1
INTRODUCTION TO BROADBAND WIRELESS 3 1.1 EVOLUTION OF BROADBAND WIRELESS
5 1.1.1 NARROWBAND WIRELESS LOCAL-LOOP SYSTEMS 5 1.1.2 FIRST-GENERATION
BROADBAND SYSTEMS 6 1.1.3 SECOND-GENERATION BROADBAND SYSTEMS 8 1.1.4
EMERGENCE OF STANDARDS-B ASED TECHNOLOGY 8 1.2 FIXED BROADBAND WIRELESS:
MARKET DRIVERS AND APPLICATIONS 10 1.3 MOBILE BROADBAND WIRELESS: MARKET
DRIVERS AND APPLICATIONS 12 1.4 WIMAX AND OTHER BROADBAND WIRELESS
TECHNOLOGIES 13 1.4.1 3G CELLULAR SYSTEMS 14 1.4.2 WI-FI SYSTEMS 15
1.4.3 WIMAX VERSUS 3G AND WI-FI 16 1.4.4 OTHER COMPARABLE SYSTEMS 17 1.5
SPECTRUM OPTIONS FOR BROADBAND WIRELESS 17 1.6 BUSINESS CHALLENGES FOR
BROADBAND WIRELESS AND WIMAX 21 1.7 TECHNICAL CHALLENGES FOR BROADBAND
WIRELESS 23 1.7.1 WIRELESS RADIO CHANNEL 24 1.7.2 SPECTRUM SCARCITY 25
1.7.3 QUALITY OF SERVICE 26 1.7.4 MOBILITY 28 1.7.5 PORTABILITY 29 1.7.6
SECURITY 29 1.7.7 SUPPORTING IP IN WIRELESS 30 1.7.8 SUMMARY OF
TECHNICAL CHALLENGES 31 1.8 SUMMARY AND CONCLUSIONS 32 1.9 BIBLIOGRAPHY
32 XII CONTENTS CHAPTER 2 OVERVIEW OF WIMAX 2.1 BACKGROUND ON IEEE
802.16 AND WIMAX 2.2 SALIENT FEATURES OF WIMAX 2.3 WIMAX PHYSICAL LAYER
2.3.1 OFDM BASICS 2.3.2 OFDM PROS AND CONS 2.3.3 OFDM PARAMETERS IN
WIMAX 2.3.4 SUBCHANNELIZATION: OFDMA 2.3.5 SLOT AND FRAME STRUCTURE
2.3.6 ADAPTIVE MODULATION AND CODING IN WIMAX 2.3.7 PHY-LAYER DATA RATES
2.4 MAC-LAYER OVERVIEW 2.4.1 CHANNEL-ACCESS MECHANISMS 2.4.2 QUALITY OF
SERVICE 2.4.3 POWER-SAVING FEATURES 2.4.4 MOBILITY SUPPORT 2.4.5
SECURITY FUNCTIONS 2.4.6 MULTICAST AND BROADCAST SERVICES 2.5 ADVANCED
FEATURES FOR PERFORMANCE ENHANCEMENTS 2.5.1 ADVANCED ANTENNA SYSTEMS
2.5.2 HYBRID-ARQ 2.5.3 IMPROVED FREQUENCY REUSE 2.6 REFERENCE NETWORK
ARCHITECTURE 2.7 PERFORMANCE CHARACTERIZATION 2.7.1 THROUGHPUT AND
SPECTRAL EFFICIENCY 2.7.2 SAMPLE LINK BUDGETS AND COVERAGE RANGE 2.8
SUMMARY AND CONCLUSIONS 2.9 BIBLIOGRAPHY 33 33 37 39 39 40 41 43 44 46
46 47 48 49 51 52 53 54 55 55 56 56 57 59 60 60 61 63 PART II TECHNICAL
FOUNDATIONS OF WIMAX 65 CHAPTER 3 THE CHALLENGE OF BROADBAND WIRELESS
CHANNELS 67 3.1 COMMUNICATION SYSTEM BUILDING BLOCKS 68 3.2 THE
BROADBAND WIRELESS CHANNEL: PATHLOSS AND SHADOWING 69 3.2.1 PATHLOSS 70
3.^2 SHADOWING 74 3.3 CELLULAR SYSTEMS 77 3.3.1 THE CELLULAR CONCEPT 78
CONTENTS XLLI 3.3.2 ANALYSIS OF CELLULAR SYSTEMS 79 3.3.3 SECTORING 82
3.4 THE BROADBAND WIRELESS CHANNEL: FADING 84 3.4.1 DELAY SPREAD AND
COHERENCE BANDWIDTH 86 3.4.2 DOPPLER SPREAD AND COHERENCE TIME 87 3.4.3
ANGULAR SPREAD AND COHERENCE DISTANCE 90 3.5 MODELING BROADBAND FADING
CHANNELS 91 3.5.1 STATISTICAL CHANNEL MODELS 91 3.5.2 STATISTICAL
CORRELATION OF THE RECEIVED SIGNAL 95 3.5.3 EMPIRICAL CHANNEL MODELS 99
3.6 MITIGATION OF FADING 104 3.6.1 NARROWBAND (FLAT) FADING 105 3.6.2
BROADBAND FADING 107 3.6.3 SPREAD SPECTRUM AND RAKE RECEIVERS 108 3.6.4
EQUALIZATION 109 3.6.5 THE MULTICARRIER CONCEPT 110 3.7 SUMMARY AND
CONCLUSIONS 110 3.8 BIBLIOGRAPHY 110 CHAPTER 4 ORTHOGONAL FREQUENCY
DIVISION MULTIPLEXING 113 4.1 MULTICARRIER MODULATION 114 4.2 OFDM
BASICS 117 4.2.1 BLOCK TRANSMISSION WITH GUARD INTERVALS 117 4.2.2
CIRCULAR CONVOLUTION AND THE DFT 117 4.2.3 THE CYCLIC PREFIX 119 4.2.4
FREQUENCY EQUALIZATION 122 4.2.5 AN OFDM BLOCK DIAGRAM 122 4.3 AN
EXAMPLE: OFDM IN WIMAX 123 4.4 TIMING AND FREQUENCY SYNCHRONIZATION 124
4.4.1 TIMING SYNCHRONIZATION 126 4.4.2 FREQUENCY SYNCHRONIZATION 127
4.4.3 OBTAINING SYNCHRONIZATION IN WIMAX 130 4.5 THE PEAK-TO-AVERAGE
RATIO 131 4.5.1 THE PAR PROBLEM 131 4.5.2 QUANTIFYING THE PAR 132 4.5.3
CLIPPING: LIVING WITH A HIGH PAR 135 4.5.4 PAR-REDUCTION STRATEGIES 140
4.6 OFDM'S COMPUTATIONAL COMPLEXITY ADVANTAGE 142 4.7 SIMULATING OFDM
SYSTEMS 144 XIV CONTENTS 4.8 SUMMARY AND CONCLUSIONS 145 4.9
BIBLIOGRAPHY 145 CHAPTER 5 MULTIPLE-ANTENNA TECHNIQUES 149 5.1 THE
BENEFITS OF SPATIAL DIVERSITY 150 5.1.1 ARRAY GAIN 150 5.1.2 DIVERSITY
GAIN AND DECREASED ERROR RATE 152 5.1.3 INCREASED DATA RATE 153 5.1.4
INCREASED COVERAGE OR REDUCED TRANSMIT POWER 154 5.2 RECEIVE DIVERSITY
154 5.2.1 SELECTION COMBINING 155 5.2.2 MAXIMAL RATIO COMBINING 156 5.3
TRANSMIT DIVERSITY 157 5.3.1 OPEN-LOOP TRANSMIT DIVERSITY 158 5.3.2 N T
X N R TRANSMIT DIVERSITY 160 5.3.3 CLOSED LOOP-TRANSMIT DIVERSITY 164
5.4 BEAMFORMING 169 5.4.1 DOA-BASED BEAMFORMING 170 5.4.2
EIGENBEAMFORMING 171 5.5 SPATIAL MULTIPLEXING 174 5.5.1 INTRODUCTION TO
SPATIAL MULTIPLEXING 174 5.5.2 OPEN-LOOP MIMO: SPATIAL MULTIPLEXING
WITHOUT CHANNEL FEEDBACK 175 5.5.3 CLOSED-LOOP MIMO: THE ADVANTAGE OF
CHANNEL KNOWLEDGE 179 5.6 SHORTCOMINGS OF CLASSICAL MIMO THEORY 181
5.6.1 MULTIPATH 182 5.6.2 UNCORRELATED ANTENNAS 182 5.6.3
INTERFERENCE-LIMITED MIMO SYSTEMS 183 5.7 CHANNEL ESTIMATION FOR
MIMO-OFDM 184 5.7.1 PREAMBLE AND PILOT , 185 5.7.2 TIME VERSUS
FREQUENCY-DOMAIN CHANNEL ESTIMATION 186 5.8 CHANNEL FEEDBACK 189 5.9
ADVANCED TECHNIQUES FOR MIMO 190 5.9.1 SWITCHING BETWEEN DIVERSITY AND
MULTIPLEXING 190 5.9.2 MULTIUSER MIMO SYSTEMS 190 CHAPTER 6 ORTHOGONAL
FREQUENCY DIVISION MULTIPLE ACCESS 199 6.1 MULTIPLE-ACCESS STRATEGIES
FOR OFDM 200 CONTENTS 6.1.1 RANDOM ACCESS VERSUS MULTIPLE ACCESS 6.1.2
FREQUENCY DIVISION MULTIPLE ACCESS 6.1.3 TIME DIVISION MULTIPLE
ACCESS*"ROUND ROBIN" 6.1.4 CODE DIVISION MULTIPLE ACCESS 6.1.5
ADVANTAGES OF OFDMA 6.2 MULTIUSER DIVERSITY AND ADAPTIVE MODULATION
6.2.1 MULTIUSER DIVERSITY 6.2.2 ADAPTIVE MODULATION AND CODING 6.3
RESOURCE-ALLOCATION TECHNIQUES FOR OFDMA 6.3.1 MAXIMUM SUM RATE
ALGORITHM 6.3.2 MAXIMUM FAIRNESS ALGORITHM 6.3.3 PROPORTIONAL RATE
CONSTRAINTS ALGORITHM 6.3.4 PROPORTIONAL FAIRNESS SCHEDULING 6.3.5
PERFORMANCE COMPARISON 6.4 OFDMA IN WIMAX: PROTOCOLS AND CHALLENGES
6.4.1 OFDMA PROTOCOLS 6.4.2 CELLULAR OFDMA 6.4.3 LIMITED DIVERSITY GAINS
6.5 SUMMARY AND CONCLUSIONS 6.6 BIBLIOGRAPHY XV 201 202 202 202 203 204
205 206 209 210 211 212 213 214 216 216 218 219 219 220 CHAPTER 7
NETWORKING AND SERVICES ASPECTS OF BROADBAND WIRELESS 223 7.1 QUALITY OF
SERVICE 7.1.1 QOS MECHANISMS IN PACKET NETWORKS 7.1.2 IP QOS
TECHNOLOGIES 7.2 MULTIMEDIA SESSION MANAGEMENT 7.2.1 SESSION INITIATION
PROTOCOL 7.2.2 REAL-TIME TRANSPORT PROTOCOL 7.3 SECURITY 7.3.1
ENCRYPTION AND AES 7.3.2 PUBLIC KEY INFRASTRUCTURE 7.3.3 AUTHENTICATION
AND ACCESS CONTROL 7.4 MOBILITY MANAGEMENT 7.4.1 LOCATION MANAGEMENT
7.4.2 HANDOFF MANAGEMENT 7.4.3 MOBILE IP Y 7.5 IP FOR WIRELESS: ISSUES
AND POTENTIAL SOLUTIONS 7.5.1 TCP IN WIRELESS 7.5.2 HEADER COMPRESSION
224 225 227 233 234 240 241 242 245 247 249 250 251 254 260 260 263 XVI
CONTENTS 7.6 SUMMARY AND CONCLUSIONS 265 7.7 BIBLIOGRAPHY 266 PART III
UNDERSTANDING WIMAX AND ITS PERFORMANCE 269 CHAPTER 8 CHAPTER 9 PHY
LAYER OF WIMAX 8.1 CHANNEL CODING 8.1.1 CONVOLUTIONAL CODING 8.1.2 TURBO
CODES 8.1.3 BLOCK TURBO CODES AND LDPC CODES 8.2 HYBRID-ARQ 8.3
INTERLEAVING 8.4 SYMBOL MAPPING 8.5 OFDM SYMBOL STRUCTURE 8.6 SUBCHANNEL
AND SUBCARRIER PERMUTATIONS 8.6.1 DOWNLINK FULL USAGE OF SUBCARRIERS
8.6.2 DOWNLINK PARTIAL USAGE OF SUBCARRIERS 8.6.3 UPLINK PARTIAL USAGE
OF SUBCARRIERS 8.6.4 TILE USAGE OF SUBCARRIERS 8.6.5 BAND ADAPTIVE
MODULATION AND CODING 8.7 SLOT AND FRAME STRUCTURE 8.8 TRANSMIT
DIVERSITY AND MIMO 8.8.1 TRANSMIT DIVERSITY AND SPACE/TIME CODING 8.8.2
FREQUENCY-HOPPING DIVERSITY CODE 8.9 CLOSED-LOOP MIMO 8.9.1 ANTENNA
SELECTION 8.9.2 ANTENNA GROUPING 8.9.3 CODEBOOK BASED FEEDBACK 8.9.4
QUANTIZED CHANNEL FEEDBACK 8.9.5 CHANNEL SOUNDING 8.10 RANGING 8.11
POWER CONTROL 8.12 CHANNEL-QUALITY MEASUREMENTS 8.13 SUMMARY AND
CONCLUSIONS 8.14 BIBLIOGRAPHY MAC LAYER OF WIMAX 9.1 CONVERGENCE
SUBLAVER 271 272 273 275 278 278 279 280 280 282 283 286 287 287 289 290
292 292 295 296 297 298 299 299 299 300 302 303 304 304 307 309 CONTENTS
XVII CHAPTER 10 9.1.1 PACKET HEADER SUPPRESSION 309 9.2 MAC PDU
CONSTRUCTION AND TRANSMISSION 312 9.3 BANDWIDTH REQUEST AND ALLOCATION
316 9.4 QUALITY OF SERVICE 317 9.4.1 SCHEDULING SERVICES 317 9.4.2
SERVICE FLOW AND QOS OPERATIONS 318 9.5 NETWORK ENTRY AND INITIALIZATION
319 9.5.1 SCAN AND SYNCHRONIZE DOWNLINK CHANNEL 319 9.5.2 OBTAIN UPLINK
PARAMETERS 320 9.5.3 PERFORM RANGING 320 9.5.4 NEGOTIATE BASIC
CAPABILITIES 322 9.5.5 REGISTER AND ESTABLISH IP CONNECTIVITY 322 9.5.6
ESTABLISH SERVICE FLOW 323 9.6 POWER-SAVING OPERATIONS 324 9.6.1 SLEEP
MODE 325 9.6.2 IDLE MODE 327 9.7 MOBILITY MANAGEMENT 327 9.7.1 HANDOFF
PROCESS AND CELL RESELECTION 329 9.7.2 MACRO DIVERSITY HANDOVER AND FAST
BS SWITCHING 330 9.8 SUMMARY AND CONCLUSIONS 332 9.9 BIBLIOGRAPHY 333
WIMAX NETWORK ARCHITECTURE 335 10.1 GENERAL DESIGN PRINCIPLES OF THE
ARCHITECTURE 336 10.2 NETWORK REFERENCE MODEL 337 10.2.1 ASN FUNCTIONS,
DECOMPOSITIONS, AND PROFILES 338 10.2.2 CSN FUNCTIONS 340 10.2.3
REFERENCE POINTS 341 10.3 PROTOCOL LAYERING ACROSS A WIMAX NETWORK 341
10.4 NETWORK DISCOVERY AND SELECTION 344 10.5 IP ADDRESS ASSIGNMENT 344
10.6 AUTHENTICATION AND SECURITY ARCHITECTURE 345 10.6.1 AAA
ARCHITECTURE FRAMEWORK 346 10.6.2 AUTHENTICATION PROTOCOLS AND PROCEDURE
346 10.6.3 ASN SECURITY ARCHITECTURE 349 10.7 QUALITY-OF-SERVICE
ARCHITECTURE 349 10.8 MOBILITY MANAGEMENT 352 10.8.1 ASN-ANCHORED
MOBILITY 354 XVLII CONTENTS 10.8.2 CSN-ANCHORED MOBILITY FOR IPV4 356
10.8.3 CSN ANCHORED MOBILITY FOR IPV6 358 10.9 RADIO RESOURCE MANAGEMENT
359 10.10 PAGING AND IDLE-MODE OPERATION 360 10.11 SUMMARY AND
CONCLUSIONS 362 10.12 BIBLIOGRAPHY 362 CHAPTER 11 LINK-LEVEL PERFORMANCE
OF WIMAX 365 11.1 METHODOLOGY FOR LINK-LEVEL SIMULATION 366 11.2 AWGN
CHANNEL PERFORMANCE OF WIMAX 370 11.3 FADING CHANNEL PERFORMANCE OF
WIMAX 373 11.3.1 CHANNEL ESTIMATION AND CHANNEL TRACKING 381 11.3.2 TYPE
I AND TYPE II HYBRID-ARQ 385 11.4 BENEFITS OF MULTIPLE-ANTENNA
TECHNIQUES IN WIMAX 387 11.4.1 TRANSMIT AND RECEIVE DIVERSITY 387 11.4.2
OPEN-LOOP AND CLOSED-LOOP MIMO 389 11.5 ADVANCED RECEIVER STRUCTURES AND
THEIR BENEFITS FOR WIMAX 396 11.6 SUMMARY AND CONCLUSIONS 398 11.7
BIBLIOGRAPHY 399 CHAPTER 12 SYSTEM-LEVEL PERFORMANCE OF WIMAX 401 12.1
WIRELESS CHANNEL MODELING 402 12.2 METHODOLOGY FOR SYSTEM-LEVEL
SIMULATION 404 12.2.1 SIMULATOR FOR WIMAX NETWORKS 405 12.2.2 SYSTEM
CONFIGURATIONS 410 12.3 SYSTEM-LEVEL SIMULATION RESULTS 412 12.3.1
SYSTEM-LEVEL RESULTS OF BASIC CONFIGURATION 412 12.3.2 SYSTEM-LEVEL
RESULTS OF ENHANCED CONFIGURATIONS 416 12.4 SUMMARY AND CONCLUSIONS ,
421 12.5 APPENDIX: PROPAGATION MODELS 422 12.5.1 HATA MODEL 422 12.5.2
COST-231 HATA MODEL 424 12.5.3 ERCEG MODEL 424 12.5.4 WALFISH-IKEGAMI
MODEL 426 12.6 BIBLIOGRAPHY 427 ACRONYMS 429 INDEX 439 |
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author | Andrews, Jeffrey G. Ghosh, Arunabha Muhamed, Rias |
author_facet | Andrews, Jeffrey G. Ghosh, Arunabha Muhamed, Rias |
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discipline_str_mv | Elektrotechnik / Elektronik / Nachrichtentechnik |
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illustrated | Illustrated |
index_date | 2024-07-02T21:34:47Z |
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institution | BVB |
isbn | 0132225522 |
language | English |
lccn | 2006038505 |
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physical | xxvii, 449 p. ill. 25 cm |
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spelling | Andrews, Jeffrey G. Verfasser aut Fundamentals of WiMAX understanding broadband wireless networking Jeffrey G. Andrews, Arunabha Ghosh, Rias Muhamed Upper Saddle River, NJ Prentice Hall c2007 xxvii, 449 p. ill. 25 cm txt rdacontent n rdamedia nc rdacarrier Prentice Hall communications engineering and emerging technologies series Includes bibliographical references and index Wireless communication systems Broadband communication systems IEEE 802.16 (Standard) Ghosh, Arunabha Verfasser aut Muhamed, Rias Verfasser aut http://www.loc.gov/catdir/toc/ecip075/2006038505.html Table of contents only HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016654390&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Andrews, Jeffrey G. Ghosh, Arunabha Muhamed, Rias Fundamentals of WiMAX understanding broadband wireless networking Wireless communication systems Broadband communication systems IEEE 802.16 (Standard) |
title | Fundamentals of WiMAX understanding broadband wireless networking |
title_auth | Fundamentals of WiMAX understanding broadband wireless networking |
title_exact_search | Fundamentals of WiMAX understanding broadband wireless networking |
title_exact_search_txtP | Fundamentals of WiMAX understanding broadband wireless networking |
title_full | Fundamentals of WiMAX understanding broadband wireless networking Jeffrey G. Andrews, Arunabha Ghosh, Rias Muhamed |
title_fullStr | Fundamentals of WiMAX understanding broadband wireless networking Jeffrey G. Andrews, Arunabha Ghosh, Rias Muhamed |
title_full_unstemmed | Fundamentals of WiMAX understanding broadband wireless networking Jeffrey G. Andrews, Arunabha Ghosh, Rias Muhamed |
title_short | Fundamentals of WiMAX |
title_sort | fundamentals of wimax understanding broadband wireless networking |
title_sub | understanding broadband wireless networking |
topic | Wireless communication systems Broadband communication systems IEEE 802.16 (Standard) |
topic_facet | Wireless communication systems Broadband communication systems IEEE 802.16 (Standard) |
url | http://www.loc.gov/catdir/toc/ecip075/2006038505.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016654390&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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