WiMAX evolution: emerging technologies and applications
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Format: | Buch |
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Sprache: | English |
Veröffentlicht: |
Chichester
Wiley
2009
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Ausgabe: | 1. publ. |
Schlagworte: | |
Online-Zugang: | Inhaltsverzeichnis |
Beschreibung: | XXXIV, 468 S. Ill., graph. Darst., Kt. |
ISBN: | 9780470696804 |
Internformat
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Datensatz im Suchindex
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adam_text | WIMAX EVOLUTION EMERGING TECHNOLOGIES AND APPLICATIONS MARCOS D. KATZ
VTT, FINLAND FRANK H.P. FITZEK AALBORG UNIVERSITY, DENMARK WILEY A JOHN
WILEY AND SONS, LTD, PUBLICATION CONTENTS LIST OF CONTRIBUTORS XV
FOREWORD XXI PREFACE XXIII ACKNOWLEDGEMENTS XXVII LIST OF ACRONYMS XXIX
I INTRODUCTION 1 1 INTRODUCTION TO WIMAX TECHNOLOGY 3 WONIL ROH AND
VLADIMIR YANOVER 1.1 OVERVIEW OF STATE-OF-THE-ART WIMAX TECHNOLOGY 4
1.1.1 STRUCTURE OF THE SYSTEM PROFILE 4 1.1.2 KEY PHY FEATURES 5 1.1.3
KEY MAC FEATURES 7 1.1.4 ADVANCED NETWORKING FEATURES 9 1.2 WIMAX
EVOLUTION PATH 9 1.2.1 RELEASE 1.5 10 1.2.2 RELEASE 2.0 12 REFERENCES 12
II WIMAX VALIDATION: VALIDATING CURRENT FIXED AND MOBILE WIMAX THROUGH
ADVANCED TESTBEDS 15 2 WIMAX PERFORMANCE IN PRACTICE 17 KOSTAS
PENTIKOUSIS, ESA PIRI, JARNO PINOLA AND LLKKA HARJULA 2.1 EMPIRICAL
EVALUATIONS OF WIMAX 18 2.2 FIXED WIMAX TESTBED EVALUATION 20 2.2.1
AUDIO AND VIDEO TRAFFIC OVER WIMAX 21 2.2.2 TRAFFIC GENERATION 22 VI
2.2.3 HOST CLOCK SYNCHRONIZATION 22 2.2.4 BASELINE CAPACITY MEASUREMENTS
25 2.3 VOIP OVER FIXED WIMAX 26 2.3.1 VOIP OVERHEAD 26 2.3.2 SYNTHETIC
G.723.1 VOIP OVER WIMAX 27 2.3.3 SYNTHETIC G.729.1 VOIP OVER WIMAX 27
2.3.4 SYNTHETIC SPEEX VOIP OVER WIMAX 28 2.3.5 VOIP AGGREGATION 29 2.4
IPTV OVER FIXED WIMAX 34 2.5 MOBILE WIMAX TESTBED EVALUATION 36 2.5.1
THE VTT CNL MOBILE WIMAX TESTBED 37 2.5.2 BASELINE CAPACITY MEASUREMENTS
38 2.6 SUMMARY 39 2.7 FURTHER READING 40 REFERENCES 41 III NOVEL
SCENARIOS 45 3 NOVEL WIMAX SCENARIOS FOR FUTURE BROADBAND WIRELESS
ACCESS NETWORKS 47 PEDRO NEVES, KOSTAS PENTIKOUSIS, SUSANA SARGENTO,
MARILIA CURADO, PAULO SIMOEES AND FRANCISCO FONTES 3.1 INTRODUCTION 47
3.2 WMAN NETWORK PROVIDER 48 3.2.1 BROADBAND WIRELESS ACCESS 48 3.2.2
ADVANCED MOBILE WIMAX 54 3.3 TELEMEDICINE APPLICATIONS 57 3.3.1 REMOTE
PATIENT MONITORING 58 3.3.2 ON-SITE MEDICAL ASSISTANCE 59 3.4
ENVIRONMENTAL MONITORING 60 3.4.1 SEISMIC ACTIVITY 60 3.4.2 FIRE
PREVENTION 61 3.4.3 OTHER APPLICATIONS 65 3.5 CONCLUSIONS 66 REFERENCES
66 4 PRICING IN WIMAX NETWORKS 69 IOANNIS PAPAPANAGIOTOU, JIE HUI AND
MICHAEL DEVETSIKIOTIS 4.1 INTRODUCTION 69 4.2 ECONOMICS IN NETWORK
ENGINEERING 70 4.2.1 BUILDING A BUSINESS MODEL 70 4.2.2 CONTROL AND
PRICING 71 4.3 BUILDING THE PRICING SCHEMES 73 4.3.1 UTILITY, DEMAND
FUNCTIONS AND OPTIMIZATION OBJECTIVES 73 4.3.2 FLAT-RATE PRICING 74
4.3.3 USER-BASED PRICING 75 CONTENTS VII 4.4 PRICING IN DIFFERENT WIMAX
TOPOLOGIES 76 4.4.1 POINT-TO-POINT UNLIMITED CAPACITY 76 4.4.2 MESH MODE
OPERATION 77 4.4.3 POINT-TO-POINT LIMITED CAPACITY 78 4.4.4 WIMAX/WIFI
ARCHITECTURE 81 4.5 CONCLUSION 83 REFERENCES 83 IV ADVANCED WIMAX
ARCHITECTURES 85 5 WIMAX FEMTOCELLS 87 CHRIS SMART, CLARE SOMERVILLE AND
DOUG PULLEY 5.1 INTRODUCTION 87 5.1.1 A BRIEF HISTORY OF CELL SIZES 87
5.1.2 DEFINITION OF A FEMTOCELL 87 5.2 ARCHITECTURE OF A WIMAX FEMTOCELL
88 5.2.1 WIMAX NETWORK ARCHITECTURES FOR A FEMTOCELL 88 5.2.2 FEMTOCELL
DEPLOYMENT CONFIGURATIONS 89 5.3 FEMTOCELL FUNDAMENTALS 90 5.3.1
SYNCHRONIZATION 91 5.3.2 SELF-CONFIGURATION 92 5.3.3 REMOTE
CONFIGURATION 94 5.3.4 USER CONFIGURATION 95 5.3.5 BACKHAUL SECURITY 95
5.3.6 HANDOVERS 95 5.4 FEMTOCELL-MACROCELL INTERFERENCE 97 5.4.1
INTERFERENCE SCENARIOS 97 5.4.2 DOWNLINK COVERAGE DEFINITIONS 98 5.4.3
DOWNLINK COVERAGE ANALYSIS 99 5.4.4 SETTING THE MAXIMUM FEMTOCELL
TRANSMIT POWER 101 REFERENCES 103 6 COOPERATIVE PRINCIPLES IN WIMAX 105
QI ZHANG, FRANK H.P. FITZEK AND MARCOS D. KATZ 6.1 INTRODUCTION 105 6.2
COOPERATIVE DIVERSITY SCHEMES IN MOBILE MULTIHOP RELAY BASED WIMAX
(802.16J) 112 6.3 COOPERATIVE SCHEMES FOR MULTICAST BROADCAST SERVICES
IN WIMAX 115 6.3.1 COOPERATIVE TRANSMISSION FOR MULTIMEDIA MULTICAST
SERVICES 116 6.3.2 COOPERATIVE RETRANSMISSION SCHEME FOR RELIABLE
MULTICAST SERVICES USING NETWORK CODING 118 6.4 NETWORK CODING
IMPLEMENTATION IN THE COMMERCIAL WIMAX MOBILE DEVICE 123 6.5 CONCLUSION
125 REFERENCES 126 VIII CONTENTS 7 THE ROLE OF WIMAX TECHNOLOGY IN
DISTRIBUTED WIDE AREA MONITORING APPLICATIONS 129 FRANCESCO CHITI,
ROMANO FANTACCI, LEONARDO MACCARI, DANIA MARABISSI AND DANIELE TARCHI
7.1 MONITORING WITH THE WSN PARADIGM 129 7.2 OVERALL SYSTEM ARCHITECTURE
131 7.3 EFFICIENT ACCESS MANAGEMENT SCHEMES 133 7.3.1 SYSTEM MODEL AND
PROBLEM FORMULATION 135 7.4 SECURE COMMUNICATIONS APPROACHES 136
REFERENCES 142 8 WIMAX MESH ARCHITECTURES AND NETWORK CODING 145 PARAG
S. MOGRE, MATTHIAS HOLLICK, CHRISTIAN SCHWINGENSCHLOEGL, ANDREAS ZILLER
AND RALF STEINMETZ 8.1 INTRODUCTION 145 8.2 BACKGROUND ON THE IEEE
802.16 MESH MODE 147 8.3 DESIGN PRINCIPLES FOR NETWORK CODING IN THE
IEEE 802.16 MESH MODE ... 149 8.4 ENABLING WNC FOR THE IEEE 802.16 MESH
MODE 153 8.4.1 MODELING THE CODING GAIN 154 8.4.2 NETWORK CODING
FRAMEWORK 155 8.4.3 RESERVATION STRATEGIES 156 8.4.4 IMPLEMENTATION
ISSUES 158 8.5 RELATED WORK 160 8.6 CONCLUSIONS AND OUTLOOK 161
REFERENCES 162 9 ASN-GW HIGH AVAILABILITY THROUGH COOPERATIVE NETWORKING
IN MOBILE WIMAX DEPLOYMENTS 163 ALEXANDER BACHMUTSKY 9.1 INTRODUCTION
163 9.2 CLASSIC HA IMPLEMENTATION 165 9.3 NETWORK-BASED RESILIENCY
SOLUTIONS FOR ROUTING 167 9.4 WIMAX NETWORK ELEMENTS R4/R6 HEALTH
MANAGEMENT 168 9.5 R6 LOAD BALANCING 172 9.6 ASN-GW FAILURE AND RECOVERY
172 9.7 N:N REDUNDANCY 177 9.8 MULTI-INSTANCE ASN-GW 180 9.9 THE
PROPOSAL SUMMARY 181 9.10 CONCLUSIONS 182 V WIMAX EXTENSIONS 183 10
ROBUST HEADER COMPRESSION FOR WIMAX FEMTO CELLS 185 FRANK H.P. FITZEK,
GERRIT SCHULTE, ESA PIRI, JARNO PINOLA, MARCOS D. KATZ, JYRKI HUUSKO,
KOSTAS PENTIKOUSIS AND PATRICK SEELING CONTENTS IX 10.1 INTRODUCTION 185
10.2 ROHC IN A NUTSHELL 186 10.3 SCENARIO UNDER INVESTIGATION 188 10.4
WIMAX AND ROHC MEASUREMENT SETUP 190 10.5 WIMAX AND ROHC MEASUREMENTS
RESULTS 192 10.5.1 ROHC ON WIMAX DOWNLINK 192 10.5.2 ROHC ON WIMAX
UPLINK 194 10.5.3 ROHC CAPACITY GAIN 195 10.6 CONCLUSION 196 REFERENCES
197 11 A WIMAX CROSS-LAYER FRAMEWORK FOR NEXT GENERATION NETWORKS 199
PEDRO NEVES, SUSANA SARGENTO, RICARDO MATOS, GIADA LANDI, KOSTAS
PENTIKOUSIS, MARILIA CURADO AND FRANCISCO FONTES 11.1 INTRODUCTION 199
11.2 IEEE 802.16 REFERENCE MODEL 200 11.3 CROSS-LAYER DESIGN FOR WIMAX
NETWORKS 203 11.3.1 CROSS-LAYER MECHANISMS FOR QOS SUPPORT 203 11.3.2
CROSS-LAYER MECHANISMS FOR SEAMLESS MOBILITY OPTIMIZATION . . . .206
11.4 WEIRD: A PRACTICAL CASE OF WIMAX CROSS-LAYER DESIGN 210 11.4.1
WEIRD ARCHITECTURE 212 11.5 WEIRD FRAMEWORK PERFORMANCE EVALUATION 215
11.5.1 CROSS-LAYER SIGNALING MEASUREMENTS 215 11.5.2 QOS EVALUATION 219
11.6 SUMMARY 222 REFERENCES 224 12 SPEECH QUALITY AWARE RESOURCE CONTROL
FOR FIXED AND MOBILE WIMAX 227 THOMAS MICHAEL BOHNERT, DIRK STAEHLE AND
EDMUNDE MONTEIRO 12.1 INTRODUCTION 227 12.2 QUALITY OF EXPERIENCE VERSUS
QUALITY OF SERVICE ASSESSMENT 228 12.3 METHODS FOR SPEECH QUALITY
ASSESSMENT 230 12.3.1 AUDITORY QUALITY ASSESSMENT 230 12.3.2
INSTRUMENTAL QUALITY ASSESSMENT 230 12.4 CONTINUOUS SPEECH QUALITY
ASSESSMENT FOR VOIP 231 12.4.1 VOIP COMPONENTS AND THEIR IMPACT ON
SPEECH QUALITY 231 12.4.2 CONTINUOUS ASSESSMENT OF TIME-VARYING QOE 233
12.4.3 INSTATIONARY QUALITY DISTORTION AND HUMAN PERCEPTION 235 12.5
SPEECH QUALITY AWARE ADMISSION CONTROL FOR FIXED IEEE 802.16 WIRELESS
MAN 237 12.5.1 IEEE 802.16D BACKGROUND AND THE DEPLOYMENT SCENARIO 237
12.5.2 THE PRINCIPLE OF ADMISSION CONTROL AND ITS APPLICATION TO VOIP .
. .238 12.5.3 EXPERIMENTAL SETUP AND PARAMETERIZATION 239 12.5.4
PERFORMANCE RESULTS 240 12.6 THE IDEA OF AN 7?-SCORE-BASED SCHEDULER 243
12.6.1 SCENARIO 243 X CONTENTS 12.6.2 THE MOST SIMPLE TF-SCORE SCHEDULER
244 12.6.3 PERFORMANCE EVALUATION 245 12.7 CONCLUSION 248 REFERENCES 249
13 VOIP OVER WIMAX 251 RATH VANNITHAMBY AND ROSHNI SRINIVASAN 13.1
INTRODUCTION 251 13.2 FEATURES TO SUPPORT VOIP OVER WIMAX 252 13.2.1
SILENCE SUPPRESSION USING ERTPS 252 13.2.2 HARQ 253 13.2.3 CHANNEL AWARE
SCHEDULING 254 13.2.4 PROTOCOL HEADER COMPRESSION 255 13.3 ENHANCED
FEATURES FOR IMPROVED VOIP CAPACITY 255 13.3.1 VOIP TRAFFIC
CHARACTERISTICS 255 13.3.2 DYNAMIC RESOURCE ALLOCATION FOR VOIP 255
13.3.3 INDIVIDUAL PERSISTENT SCHEDULING 257 13.3.4 GROUP SCHEDULING 260
13.4 SIMULATION RESULTS 260 13.5 CONCLUSION 262 REFERENCES 263 14 WIMAX
USER DATA LOAD BALANCING 265 ALEXANDER BACHMUTSKY 14.1 INTRODUCTION 265
14.2 LOCAL BREAKOUT USE FOR LOAD BALANCING 265 14.2.1 LOCAL BREAKOUT AT
THE BASE STATION LEVEL 266 14.2.2 LOCAL BREAKOUT AT THE ASN-GW LEVEL 267
14.3 NETWORK-LEVEL LOAD BALANCING OVER TUNNELED INTERFACES 267 14.3.1 IS
WIMAX SPECIAL FOR THE CASE OF TRAFFIC LOAD BALANCING? 269 14.3.2
ANALYSIS OF POSSIBLE SOLUTIONS 269 14.4 CONCLUSIONS 276 15 ENABLING
PER-FLOW AND SYSTEM-WIDE QOS AND QOE IN MOBILE WIMAX 277 THOMAS CASEY,
XIONGWEN ZHAO, NENAD VESELINOVIC, JARI NURMI AND RIKU JAENTTI 15.1
INTRODUCTION 277 15.2 OVERVIEW 279 15.2.1 INCOMING TRAFFIC 279 15.2.2
SYSTEM AND RESOURCES 280 15.2.3 QOS AND QOE 281 15.3 PER-FLOW-BASED QOS
AND QOE 282 15.3.1 MAC SCHEDULER CONSIDERATIONS 283 15.3.2 SCHEDULER
OPTIMIZATION BASED ON THE QOS AND QOE MEASURES . . . .284 15.4
SYSTEM-WIDE TOOLS FOR ENABLING QOS AND QOE 287 15.4.1 LOAD BALANCING 287
CONTENTS XI 15.4.2 HO PRIORITIZATION 299 15.5 CONCLUSIONS 303 REFERENCES
303 VI WIMAX EVOLUTION AND FUTURE DEVELOPMENTS 305 16 MIMO TECHNOLOGIES
FOR WIMAX SYSTEMS: PRESENT AND FUTURE 307 CHAN-BYOUNG CHAE, KAIBIN HUANG
AND TAKAO INOUE 16.1 INTRODUCTION 307 16.2 IEEE802.16E: SINGLE-USER MIMO
TECHNOLOGIES 308 16.2.1 OPEN-LOOP SOLUTIONS 309 16.2.2 CLOSED-LOOP
SOLUTIONS 311 16.2.3 LIMITATIONS 311 16.3 IEEE802.16M: EVOLUTION TOWARDS
MULTIUSER MIMO TECHNOLOGIES - PART I. NONLINEAR PROCESSING 312 16.3.1
SYSTEM MODEL 312 16.3.2 VECTOR PERTURBATION 314 16.3.3 PERFORMANCE OF A
VECTOR PERTURBATION SYSTEM 316 16.4 IEEE802.16M: EVOLUTION TOWARDS
MULTIUSER MIMO TECHNOLOGIES - PART II. LINEAR PROCESSING 316 16.4.1
LINEAR MULTIUSER MIMO: PERFECT CHANNEL STATE INFORMATION 317 16.4.2
LINEAR MULTIUSER MIMO: LIMITED FEEDBACK 322 16.4.3 LINEAR MULTIUSER
MIMO: MULTIUSER DIVERSITY 325 16.5 CONCLUSION 331 REFERENCES 331 17
HYBRID STRATEGIES FOR LINK ADAPTATION EXPLOITING SEVERAL DEGREES OF
FREEDOM IN WIMAX SYSTEMS 335 SUVRA SEKHAR DAS, MUHAMMAD IMADUR RAHMAN
AND YUANYE WANG 17.1 INTRODUCTION 335 17.2 LINK ADAPTATION PRELIMINARIES
336 17.2.1 TRADE-OFFS AND OPTIMIZATION TARGET 337 17.3 LINK ADAPTATION
ALGORITHMS 339 17.3.1 SAMPDA ALGORITHM 340 17.4 LINK ADAPTATION SCENARIO
341 17.4.1 LINK ADAPTATION PROCESS 341 17.4.2 SYSTEM PARAMETERS 342
17.4.3 FRAME STRUCTURE 343 17.5 ROLE OF POWER ADAPTATION IN
COLLABORATION WITH BIT ADAPTATION 344 17.5.1 AMC AND POWER ADAPTATION AT
THE SAME RATE 345 17.5.2 AMC AND POWER ADAPTATION AT DIFFERENT RATES 348
17.5.3 OVERHEAD ANALYSIS 354 17.6 LINK ADAPTATION CONSIDERING SEVERAL
SYSTEM ISSUES 356 17.6.1 SUBCHANNELIZATION 357 17.6.2 FIXED CODING RATE
357 XLL CONTENTS *.63 AMC RATE 361 17.7 SUMMARY 363 17.7.1 GUIDELINES
FOR HYBRID LINK ADAPTATION 363 17.7.2 CONCLUSION FROM BIT AND POWER
ALLOCATION ANALYSIS 364 17.7.3 FUTURE WORK 365 REFERENCES 365 18
APPLYING WIMAX IN NEW SCENARIOS: LIMITATIONS OF THE PHYSICAL LAYER AND
POSSIBLE SOLUTIONS 367 ILKKA HARJULA, PAOLA CARDAMONE, MATTI
WEISSENFELT, MIKA LASANEN, SANDRINE BOUMARD, AARON BYMAN AND MARCOS D.
KATZ 18.1 WIMAX IN NEW SCENARIOS 367 18.2 CHANNEL MODEL FOR MOUNTAINOUS
ENVIRONMENTS 369 18.2.1 COST 259/273 369 18.2.2 3GPP/3GPP2 STATISTICAL
CHANNEL MODEL 369 18.2.3 SUI MODELS AND IEEE 802.16A CHANNEL MODELS 370
18.2.4 WINNER PHASE I AND II CHANNEL MODELS 370 18.3 MOUNTAINOUS
SCENARIO AND CHANNEL MODELING 371 18.3.1 ANALYTICAL MODELING OF THE
CHANNEL IN THE PRESENCE OF MOUNTAINS . .371 18.3.2 EXTENSION OF THE
WINNER PHASE I CHANNEL MODEL FOR THE MOUNTAINOUS SCENARIO 371 18.4
BEAMFORMING ALGORITHMS AND SIMULATION 372 18.4.1 PRE-FFT RECEIVE EVD
BEAMFORMING 373 18.4.2 POST-FFT RECEIVE EVD BEAMFORMING 374 18.4.3
SIMULATION RESULTS 374 18.5 A TIMING SYNCHRONIZATION STUDY IN A MOUNTAIN
ENVIRONMENT 377 18.6 ANALYSIS AND CONCLUSIONS 382 REFERENCES 383 19
APPLICATION OF RADIO-OVER-FIBER IN WIMAX: RESULTS AND PROSPECTS 385 JUAN
LUIS CORRAL, ROBERTO LLORENTE, VALENTIN POLO, BORJA VIDAL, JAVIER MARTI,
JONAS PORCAR, DAVID ZORRILLA AND ANTONIO JOSE RAMIREZ 19.1 INTRODUCTION
385 19.1.1 RADIO-OVER-FIBER SYSTEMS 385 19.1.2 ANALOG TRANSMISSION ON
FIBER STATE-OF-THE-ART 387 19.1.3 MARKET OVERVIEW AND TECHNOLOGY
FORECAST 387 19.2 OPTICAL TRANSMISSION OF WIMAX SIGNALS 388 19.2.1
OPTICAL LINK KEY ELEMENTS 388 19.2.2 TRANSMISSION PERFORMANCE 390 19.3
WIMAX-ON-FIBER APPLICATIONS 394 19.3.1 TARGET APPLICATIONS 394 19.3.2
TRANSMISSION IMPAIRMENTS 395 19.3.3 FIELD TRIALS 396 19.4 CONCLUSIONS
398 REFERENCES 398 CONTENTS XIII 20 NETWORK PLANNING AND ITS PART IN
FUTURE WIMAX SYSTEMS 401 AVRAHAM FREEDMAN AND MOSHE LEVIN 20.1
INTRODUCTION 401 20.2 THE NETWORK PLANNING PROCESS 403 20.2.1 DATA
COLLECTION 403 20.2.2 NETWORK PLANNING 404 20.2.3 PLANNING VERIFICATION
AND UPDATE 410 20.3 THE IMPACT OF WIMAX ON NETWORK PLANNING 411 20.3.1
FLEXIBILITY OF WIMAX DEPLOYMENT 411 20.3.2 WIMAX NETWORK PLANNING 412
20.4 PLANNING OF FUTURE WIMAX NETWORKS 414 20.4.1 ADVANCED SPATIAL
TECHNIQUES 414 20.4.2 RELAYS, FEMTOCELLS AND MESH NETWORKS 415 20.4.3
COGNITIVE RADIOS, SELF-CONFIGURING AND COOPERATIVE NETWORKS . . . .416
20.5 MODELING: THE KEY TO INTEGRATION OF PLANNING INFORMATION 417 20.5.1
THE PROBLEM 418 20.5.2 SUGGESTED SOLUTIONS 419 20.6 CONCLUSIONS 420
REFERENCES 422 21 WIMAX NETWORK AUTOMATION: NEIGHBOR DISCOVERY,
CAPABILITIES NEGOTIATION, AUTO-CONFIGURATION AND NETWORK TOPOLOGY
LEARNING 425 ALEXANDER BACHMUTSKY 21.1 INTRODUCTION 425 21.2 WIMAX
NETWORK ELEMENTS AUTO-DISCOVERY 426 21.3 AUTOMATIC LEARNING OF THE WIMAX
NETWORK TOPOLOGY 430 21.4 CAPABILITIES EXCHANGE 433 21.5 AUTOMATIC WIMAX
VERSION MANAGEMENT 434 21.6 AUTOMATED ROAMING 437 21.7 CONCLUSION:
NETWORK AUTOMATION AS A WIMAX DIFFERENTIATOR 438 REFERENCES 439 22 AN
OVERVIEW OF NEXT GENERATION MOBILE WIMAX: TECHNOLOGY AND PROSPECTS 441
SASSAN AHMADI 22.1 INTRODUCTION 441 22.2 SUMMARY OF IEEE 802.16M SYSTEM
REQUIREMENTS 442 22.3 AREAS OF IMPROVEMENT AND EXTENSION IN MOBILE WIMAX
445 22.4 IEEE 802.16M ARCHITECTURE AND PROTOCOL STRUCTURE 447 22.5 IEEE
802.16M MOBILE STATION STATE DIAGRAM 452 22.6 IEEE 802.16M PHYSICAL
LAYER 456 22.7 IEEE 802.16M MAC LAYER 460 22.8 CONCLUSIONS 462
REFERENCES 462 INDEX 463
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id | DE-604.BV035561614 |
illustrated | Illustrated |
indexdate | 2024-07-09T21:40:28Z |
institution | BVB |
isbn | 9780470696804 |
language | English |
lccn | 2008038550 |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-017617345 |
oclc_num | 245598573 |
open_access_boolean | |
owner | DE-634 DE-20 |
owner_facet | DE-634 DE-20 |
physical | XXXIV, 468 S. Ill., graph. Darst., Kt. |
publishDate | 2009 |
publishDateSearch | 2009 |
publishDateSort | 2009 |
publisher | Wiley |
record_format | marc |
spelling | WiMAX evolution emerging technologies and applications [eds.:] Marcos D. Katz ... 1. publ. Chichester Wiley 2009 XXXIV, 468 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier IEEE 802 16 (DE-588)7565895-1 gnd rswk-swf Wireless communication systems Broadband communication systems Mobile communication systems Wireless LANs IEEE 802.16 (Standard) Funknetz (DE-588)4216130-7 gnd rswk-swf Drahtloses lokales Netz (DE-588)4633975-9 gnd rswk-swf Drahtloses lokales Netz (DE-588)4633975-9 s IEEE 802 16 (DE-588)7565895-1 u Funknetz (DE-588)4216130-7 s DE-604 Katz, Marcos D. Sonstige oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017617345&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | WiMAX evolution emerging technologies and applications IEEE 802 16 (DE-588)7565895-1 gnd Wireless communication systems Broadband communication systems Mobile communication systems Wireless LANs IEEE 802.16 (Standard) Funknetz (DE-588)4216130-7 gnd Drahtloses lokales Netz (DE-588)4633975-9 gnd |
subject_GND | (DE-588)7565895-1 (DE-588)4216130-7 (DE-588)4633975-9 |
title | WiMAX evolution emerging technologies and applications |
title_auth | WiMAX evolution emerging technologies and applications |
title_exact_search | WiMAX evolution emerging technologies and applications |
title_full | WiMAX evolution emerging technologies and applications [eds.:] Marcos D. Katz ... |
title_fullStr | WiMAX evolution emerging technologies and applications [eds.:] Marcos D. Katz ... |
title_full_unstemmed | WiMAX evolution emerging technologies and applications [eds.:] Marcos D. Katz ... |
title_short | WiMAX evolution |
title_sort | wimax evolution emerging technologies and applications |
title_sub | emerging technologies and applications |
topic | IEEE 802 16 (DE-588)7565895-1 gnd Wireless communication systems Broadband communication systems Mobile communication systems Wireless LANs IEEE 802.16 (Standard) Funknetz (DE-588)4216130-7 gnd Drahtloses lokales Netz (DE-588)4633975-9 gnd |
topic_facet | IEEE 802 16 Wireless communication systems Broadband communication systems Mobile communication systems Wireless LANs IEEE 802.16 (Standard) Funknetz Drahtloses lokales Netz |
url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017617345&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT katzmarcosd wimaxevolutionemergingtechnologiesandapplications |