000 09411nam a2200913 i 4500
001 5681029
003 IEEE
005 20220712205750.0
006 m o d
007 cr |n|||||||||
008 151222s2010 njua ob 001 eng d
010 _z 2008029107 (print)
020 _a9780470823583
_qelectronic
020 _z9780470823569
_qcloth
024 7 _a10.1002/9780470823583
_2doi
035 _a(CaBNVSL)mat05681029
035 _a(IDAMS)0b0000648145dfeb
040 _aCaBNVSL
_beng
_erda
_cCaBNVSL
_dCaBNVSL
050 4 _aTK5103.4873
_b.L44 2009eb
082 0 0 _a621.384
_222
100 1 _aLee, Byeong Gi,
_eauthor.
_927565
245 1 0 _aWireless communications resource management /
_cByeong Gi Lee, Daeyoung Park, Hanbyul Seo.
264 1 _aSingapore ;
_bIEEE Press,
_cc2009.
264 2 _a[Piscataqay, New Jersey] :
_bIEEE Xplore,
_c[2010]
300 _a1 PDF (xx, 346 pages) :
_billustrations.
336 _atext
_2rdacontent
337 _aelectronic
_2isbdmedia
338 _aonline resource
_2rdacarrier
504 _aIncludes bibliographical references and index.
505 0 _aPreface xi -- About the Authors xv -- Abbreviations xvii -- PART I-CONCEPTS AND BACKGROUND -- 1 Introduction 3 -- 1.1 Evolution of Wireless Communications 3 -- 1.2 Wireless Resource Management 5 -- 1.2.1 Bandwidth Management 5 -- 1.2.2 Transmission Power Management 6 -- 1.2.3 Antenna Management 6 -- 1.2.4 Inter-cell Resource Management 6 -- 1.3 Organization of the Book 7 -- 2 Characteristics of Wireless Channels 9 -- 2.1 Channel Gain 9 -- 2.2 Large-scale Fading 11 -- 2.2.1 Path Loss 12 -- 2.2.2 Shadowing 16 -- 2.3 Small-scale Fading 17 -- 2.3.1 Fading in the Time Domain 20 -- 2.3.2 Fading in the Frequency Domain 24 -- 2.4 Technologies against Channel Fading 28 -- 2.4.1 Diversity 29 -- 2.4.2 Hybrid ARQ 32 -- 2.4.3 Adaptive Modulation and Coding 36 -- 3 Basic Concepts for Resource Management 41 -- 3.1 Definition of Resource Management 42 -- 3.1.1 Wireless Resources 42 -- 3.1.2 Problem Formulation 47 -- 3.2 Multiple-access Methods 51 -- 3.2.1 Frequency-division Multiple Access 52 -- 3.2.2 Time-division Multiple Access 53 -- 3.2.3 Code-division Multiple Access 55 -- 3.2.4 Orthogonal Frequency-division Multiple Access 59 -- 3.3 Quality of Services 63 -- 3.3.1 QoS Classification 65 -- 3.3.2 Prioritization and Fairness 66 -- 3.4 Resource Management in Protocol Layers 67 -- 3.4.1 Classical Protocol Layering 68 -- 3.4.2 Cross-layer Design in Wireless Resource Management 69 -- 4 Mathematical Tools for Resource Management 73 -- 4.1 Convex Optimization 74 -- 4.1.1 Basic Concepts 74 -- 4.1.2 Constrained Optimization 76 -- 4.1.3 Lagrange Dual Function 77 -- 4.1.4 Karush-Kuhn-Tucker Optimality Condition 82 -- 4.1.5 Application of Convex Optimization 83 -- 4.2 Dynamic Programming 86 -- 4.2.1 Sequential Optimization 86 -- 4.2.2 Markov Decision Process 93 -- 4.3 Analogy of Economics and Wireless Resource Management 98 -- 4.3.1 Economics Model 98 -- 4.3.2 Example of Wireless Resource Allocation 102 -- PART II-WIRELESS RESOURCE MANAGEMENTTECHNOLOGIES -- 5 Bandwidth Management 109.
505 8 _a5.1 Differences between Wired and Wireless Communications110 -- 5.1.1 Statistical Multiplexing in a Wired Network 110 -- 5.1.2 Multiuser Diversity in a Wireless Network 110 -- 5.2 Schedulers based on Generalized Processor Sharing 113 -- 5.2.1 Generalized Processor Sharing 113 -- 5.2.2 Modifications of GPS for Wireless Channels 118 -- 5.3 Schedulers for Throughput Maximization 122 -- 5.3.1 Maximal-rate Scheduling 123 -- 5.3.2 Proportional Fairness Scheduling 124 -- 5.3.3 Temporal Fairness Scheduling 127 -- 5.3.4 Utilitarian Fairness Scheduling 129 -- 5.3.5 Scheduling based on Cumulative Distribution Function132 -- 5.3.6 Comparison of Scheduling Algorithms 135 -- 5.4 Delay Performance of Wireless Schedulers 140 -- 5.4.1 Throughput Optimality 140 -- 5.4.2 Modified Largest-Weight-Delay-First (LWDF) Scheduling143 -- 5.4.3 Exponential Rule Scheduling 148 -- 5.5 QoS in Wireless Scheduling and Admission Control 149 -- 5.5.1 Effective Bandwidth and Effective Capacity 151 -- 5.5.2 QoS Provision 154 -- 6 Transmission Power Management 161 -- 6.1 Transmission Power Management for Interference Regulation162 -- 6.1.1 Power Control with Strict SINR Requirement 165 -- 6.1.2 Utility-based Power Control 173 -- 6.1.3 Power Control along with Rate Control 184 -- 6.1.4 Power Control for Hybrid ARQ 195 -- 6.2 Transmission Power Management for Multiple ParallelSubchannels 198 -- 6.2.1 Single-user Case 199 -- 6.2.2 Multiuser Case I: Throughput Maximization 202 -- 6.2.3 Multiuser Case II: Utility Maximization 207 -- 6.2.4 Multiuser Case III: With Time Diversity 211 -- 6.3 Transmission Power Adaptation to Time-varying Environments215 -- 6.3.1 Capacity of Time-varying Channels 216 -- 6.3.2 Transmission Time and Energy Efficiency 224 -- 6.3.3 Power Adaptation Based on Buffer and Channel States237 -- 7 Antenna Management 245 -- 7.1 Capacity of MIMO Channels 245 -- 7.1.1 Capacity of a Deterministic Channel 246 -- 7.1.2 Ergodic Capacity 248 -- 7.1.3 Outage Capacity 249 -- 7.2 MIMO Transmission 251.
505 8 _a7.2.1 Diversity Transmission 251 -- 7.2.2 Spatial Multiplexing 257 -- 7.2.3 Diversity/Multiplexing Tradeoff 262 -- 7.3 Multiuser MIMO 266 -- 7.3.1 Uplink Channel 267 -- 7.3.2 Dirty-paper Coding 274 -- 7.3.3 Downlink Channel 276 -- 7.3.4 Downlink-Uplink Duality 281 -- 7.3.5 Downlink Precoding Schemes 284 -- 8 Inter-cell Resource Management 289 -- 8.1 Inter-cell Interference Management 290 -- 8.1.1 Fixed Channel Allocation 290 -- 8.1.2 Dynamic Channel Allocation (DCA) 296 -- 8.1.3 Channel Allocation based on SINR Measurement 302 -- 8.1.4 Channel Allocation with Inter-cell Power Control 306 -- 8.2 Handoff Management 313 -- 8.2.1 Handoff Procedure and Performance 314 -- 8.2.2 Resource Reservation via Guard Channel Policy 319 -- 8.2.3 Handoff Request Queuing and Soft Handoff 328 -- 8.2.4 Advanced Handoff Management Schemes 334 -- Index 343.
506 1 _aRestricted to subscribers or individual electronic text purchasers.
520 _aWireless technologies continue to evolve to address the insatiabledemand for faster response times, larger bandwidth, and reliabletransmission. Yet as the industry moves toward the development ofpost 3G systems, engineers have consumed all the affordablephysical layer technologies discovered to date. This hasnecessitated more intelligent and optimized utilization ofavailable wireless resources. Wireless Communications Resource Managem ent, Lee, Park,and Seo cover all aspects of this critical topic, from thepreliminary concepts and mathematical tools to detaileddescriptions of all the resource management techniques. Readerswill be able to more effectively leverage limited spectrum andmaximize device battery power, as well as address channel loss,shadowing, and multipath fading phenomena.. Presents the latest resource allocation techniques for new andnext generation air interface technologies. Arms readers with the necessary fundamentals and mathematicaltools. Illustrates theoretical concepts in a concrete manner. Gives detailed coverage on scheduling, power management, andMIMO techniques. Written by an author team working in both academia andindustryWireless Communications Resource Managementis geared forengineers in the wireless industry and graduate studentsspecializing in wireless communications. Professionals in wirelessservice and device manufacturing industries will find the book tobe a clear, up-to-date overview of the topic. Readers will benefitfrom a basic, undergraduate-level understanding of networks andcommunications.Course instructors can access lecture materials at the companionwebsite:(www.wiley.com/go/bglee).
530 _aAlso available in print.
538 _aMode of access: World Wide Web
588 _aDescription based on PDF viewed 12/22/2015.
650 0 _aWireless communication systems.
_93474
650 0 _aRadio resource management (Wireless communications)
_94491
655 0 _aElectronic books.
_93294
695 _aApproximation methods
695 _aBandwidth
695 _aChannel allocation
695 _aConvex functions
695 _aCovariance matrix
695 _aFading
695 _aFrequency modulation
695 _aGain
695 _aIndexes
695 _aInterference
695 _aLicenses
695 _aLinearity
695 _aMIMO
695 _aMarkov processes
695 _aMathematical model
695 _aMultiaccess communication
695 _aOptimization
695 _aPower control
695 _aProbability
695 _aPropagation losses
695 _aQuality of service
695 _aRadio transmitters
695 _aReceivers
695 _aReceiving antennas
695 _aResource management
695 _aScheduling algorithm
695 _aShadow mapping
695 _aSignal to noise ratio
695 _aTransmitting antennas
695 _aWireless communication
695 _aWireless sensor networks
700 1 _aSeo, Hanbyul.
_927566
700 1 _aPark, Daeyoung.
_927567
710 2 _aIEEE Xplore (Online Service),
_edistributor.
_927568
710 2 _aWiley,
_epublisher.
_927569
776 0 8 _iPrint version:
_z9780470823569
856 4 2 _3Abstract with links to resource
_uhttps://ieeexplore.ieee.org/xpl/bkabstractplus.jsp?bkn=5681029
942 _cEBK
999 _c74104
_d74104