無線通信基礎（英文影印版）

原書名： Fundamentals of Wireless Communication

原出版社： Cambridge University Press

作者： (美)David Tse Pramod Viswanath

叢書名： 圖靈原版電子與電氣工程系列

出版社：人民郵電出版社

ISBN：9787115200709

上架時間：2009-8-5

出版日期：2009 年8月

開本：16開

頁碼：564

版次：1-1

所屬分類： 通信 > 無線通信 > 綜合

本書介紹無線通信的基本原理，著重強調概念及其在系統中的實現之間的相互影響，涉及的主要問題有mimo通信、空時編碼、機會通信、ofdm和cdma等，這些概念均利用無線系統的大量實例予以說明。書中還配有大量的習題和圖表，可以幫助讀者進一步理解材料內容。.

本書適合作為通信工程和電子信息類相關專業高年級本科生和研究生的教材，也可供工程技術人員參考。...

作者: (美)David Tse

David Tse博士是無線通信領域新一代權威，現任加州大學伯克利分校電氣工程與計算機科學系教授，畢業於麻省理工學院。.. << 查看詳細

無線通信基礎

無線通信基礎(英文影印版)

作者: (美)Pramod Viswanath

ramod Viswanath博士現任伊利諾伊大學厄巴納一尚佩恩分校電氣與計算機工程系副教授，畢業子加州大學伯克利分校。.. << 查看詳細

無線通信基礎

無線通信基礎(英文影印版)

1　introduction .　1

1.1　book objective　1

1.2　wireless systems　2

1.3　book outline　5

2　the wireless channel　10

2.1　physical modeling for wireless channels　10

2.1.1　free space, fixed transmit and receive antennas　12

2.1.2　free space, moving antenna　13

2.1.3　reflecting wall, fixed antenna　14

2.1.4　reflecting wall, moving antenna　16

2.1.5　reflection from a ground plane　17

2.1.6　power decay with distance and shadowing　18

2.1.7　moving antenna, multiple reflectors　19

2.2　input/output model of the wireless channel　20

2.2.1　the wireless channel as a linear time-varying system　20

2.2.2　baseband equivalent model　22

2.2.3　a discrete-time baseband model　25

discussion 2.1 degrees of freedom　28

2.2.4　additive white noise　29

2.3　time and frequency coherence　30

.2.3.1　doppler spread and coherence time　30

2.3.2　delay spread and coherence bandwidth　31

2.4　statistical channel models　34

2.4.1　modeling philosophy　34

2.4.2　rayleigh and rician fading　36

2.4.3　tap gain auto-correlation function　37

example 2.1 clarke’s model　38

chapter 2 the main plot　40

2.5　bibliographical notes　42

2.6　exercises　42

3　point-to-point communication: detection, diversity, and channel ncertainty　49

3.1　detection in a rayleigh fading channel　50

3.1.1　non-coherent detection　50

3.1.2　coherent detection　52

3.1.3　from bpsk to qpsk: exploiting the degrees of freedom　56

3.1.4　diversity　59

3.2　time diversity　60

3.2.1　repetition coding　60

3.2.2　beyond repetition coding　64

summary 3.1 time diversity code design criterion　68

example 3.1 time diversity in gsm　69

3.3　antenna diversity　71

3.3.1　receive diversity　71

3.3.2　transmit diversity: space-time codes　73

3.3.3　mimo: a 2×2 example　77

summary 3.2 2×2 mimo schemes　82

3.4　frequency diversity　83

3.4.1　basic concept　83

3.4.2　single-carrier with isi equalization　84

3.4.3　direct-sequence spread-spectrum　91

3.4.4　orthogonal frequency division multiplexing　95

summary 3.3 communication over frequency-selective channels　101

3.5　impact of channel uncertainty　102

3.5.1　non-coherent detection for ds spread-spectrum　103

3.5.2　channel estimation　105

3.5.3　other diversity scenarios　107

chapter 3 the main plot　109

3.6　bibliographical notes　110

4　cellular systems: multiple access and interference management　120

4.1　introduction　120

4.2　narrowband cellular systems　123

4.2.1　narrowband allocations: gsm system　124

4.2.2　impact on network and system design　126

4.2.3　impact on frequency reuse　127

summary 4.1 narrowband systems　128

4.3　wideband systems: cdma　128

4.3.1　cdma uplink　131

4.3.2　cdma downlink　145

4.3.3　system issues　147

summary 4.2 cdma　147

4.4　wideband systems: ofdm　148

4.4.1　allocation design principles　148

4.4.2　hopping pattern　150

4.4.3　signal characteristics and receiver design　152

4.4.4　sectorization　153

example 4.1 flash-ofdm　153

chapter 4 the main plot　154

4.5　bibliographical notes　155

4.6　exercises　155

5　capacity of wireless channels　166

5.1　awgn channel capacity　167

5.1.1　repetition coding　167

5.1.2　packing spheres　168

discussion 5.1 capacity-achieving awgn channel codes　170

summary 5.1 reliable rate of communication and capacity　171

5.2　resources of the awgn channel　172

5.2.1　continuous-time awgn channel　172

5.2.2　power and bandwidth　173

example 5.2 bandwidth reuse in cellular systems　175

5.3　linear time-invariant gaussian channels　179

5.3.1　single input multiple output (simo) channel　179

5.3.2　multiple input single output (miso) channel　179

5.3.3　frequency-selective channel　181

5.4　capacity of fading channels　186

5.4.1　slow fading channel　187

5.4.2　receive diversity　189

5.4.3　transmit diversity　191

summary 5.2 transmit and receive diversity　195

5.4.4　time and frequency diversity　195

summary 5.3 outage for parallel channels　199

5.4.5　fast fading channel　199

5.4.6　transmitter side information　203

example 5.3 rate adaptation in is-856　209

5.4.7　frequency-selective fading channels ..　213

5.4.8　summary: a shift in point of view　213

chapter 5 the main plot　214

5.5　bibliographical notes　217

5.6　exercises　217

6　multiuser capacity and opportunistic communication　228

6.1　uplink awgn channel　229

6.1.1　capacity via successive interference cancellation　229

6.1.2　comparison with conventional cdma　232

6.1.3　comparison with orthogonal multiple access　232

6.1.4　general k -user uplink capacity　234

6.2　downlink awgn channel　235

6.2.1　symmetric case: two capacity-achieving schemes　236

6.2.2　general case: superposition coding achieves capacity　238

summary 6.1 uplink and downlink awgn capacity　240

discussion 6.1 sic: implementation issues　241

6.3　uplink fading channel　243

6.3.1　slow fading channel　243

6.3.2　fast fading channel　245

6.3.3　full channel side information　247

summary 6.2 uplink fading channel　250

6.4　downlink fading channel　250

6.4.1　channel side information at receiver only　250

6.4.2　full channel side information　251

6.5　frequency-selective fading channels　252

6.6　multiuser diversity　253

6.6.1　multiuser diversity gain　253

6.6.2　multiuser versus classical diversity　256

6.7　multiuser diversity: system aspects　256

6.7.1　fair scheduling and multiuser diversity　258

6.7.2　channel prediction and feedback　262

6.7.3　opportunistic beamforming using dumb antennas　263

6.7.4　multiuser diversity in multicell systems　270

6.7.5　a system view　272

chapter 6 the main plot　275

6.8　bibliographical notes　277

6.9　exercises　278

7　mimo i: spatial multiplexing and channel modeling　290

7.1　multiplexing capability of deterministic mimo channels　291

7.1.1　capacity via singular value decomposition　291

7.1.2　rank and condition number　294

7.2　physical modeling of mimo channels　295

7.2.1　line-of-sight simo channel　296

7.2.2　line-of-sight miso channel　298

7.2.3　antenna arrays with only a line-of-sight path　299

7.2.4　geographically separated antennas　300

7.2.5　line-of-sight plus one reflected path　306

summary 7.1 multiplexing capability of mimo channels　309

7.3　modeling of mimo fading channels　309

7.3.1　basic approach　309

7.3.2　mimo multipath channel　311

7.3.3　angular domain representation of signals　311

7.3.4　angular domain representation of mimo channels　315

7.3.5　statistical modeling in the angular domain　317

7.3.6　degrees of freedom and diversity　318

example 7.1 degrees of freedom in clustered response models　319

7.3.7　dependency on antenna spacing　323

7.3.8　i.i.d.rayleigh fading model　327

chapter 7 the main plot　328

7.4　bibliographical notes　329

7.5　exercises　330

8　mimo ii: capacity and multiplexing architectures　332

8.1　the v-blast architecture　333

8.2　fast fading mimo channel　335

8.2.1　capacity with csi at receiver　336

8.2.2　performance gains　338

8.2.3　full csi　346

summary 8.1 performance gains in a mimo channel　348

8.3　receiver architectures　348

8.3.1　linear decorrelator　349

8.3.2　successive cancellation　355

8.3.3　linear mmse receiver　356

8.3.4　information theoretic optimality　362

discussion 8.1 connections with cdma multiuser detection and isi equalization　364

8.4　slow fading mimo channel　366

8.5　d-blast: an outage-optimal architecture　368

8.5.1　suboptimality of v-blast　368

8.5.2　coding across transmit antennas: d-blast　371

8.5.3　discussion　372

chapter 8 the main plot　373

8.6　bibliographical notes　374

8.7　exercises　374

9　mimo iii: diversity–multiplexing tradeoff and universal space-time codes　383

9.1　diversity–multiplexing tradeoff　384

9.1.1　formulation　384

9.1.2　scalar rayleigh channel　386

9.1.3　parallel rayleigh channel　390

9.1.4　miso rayleigh channel　391

9.1.5　2×2 mimo rayleigh channel　392

9.1.6　nt×nr mimo i.i.d.rayleigh channel　395

9.2　universal code design for optimal diversity-multiplexing tradeoff　398

9.2.1　qam is approximately universal for scalar channels　398

summary 9.1 approximate universality　400

9.2.2　universal code design for parallel channels　400

summary 9.2 universal codes for the parallel channel　406

9.2.3　universal code design for miso channels　407

summary 9.3 universal codes for the miso channel　410

9.2.4　universal code design for mimo channels　411

discussion 9.1 universal codes in the downlink　415

chapter 9 the main plot　415

9.3　bibliographical notes　416

9.4　exercises　417

10　mimo iv: multiuser communication　425

10.1　uplink with multiple receive antennas　426

10.1.1　space-division multiple access　426

10.1.2　sdma capacity region　428

10.1.3　system implications　431

summary 10.1 sdma and orthogonal multiple access　432

10.1.4　slow fading　433

10.1.5　fast fading　436

10.1.6　multiuser diversity revisited　439

summary 10.2 opportunistic communication and multiple receive antennas　442

10.2　mimo uplink　442

10.2.1　sdma with multiple transmit antennas　442

10.2.2　system implications　444

10.2.3　fast fading　446

10.3　downlink with multiple transmit antennas　448

10.3.1　degrees of freedom in the downlink　448

10.3.2　uplink–downlink duality and transmit beamforming　449

10.3.3　precoding for interference known at transmitter　454

10.3.4　precoding for the downlink　465

10.3.5　fast fading　468

10.4　mimo downlink　471

10.5　multiple antennas in cellular networks: a system view　473

summary 10.3 system implications of multiple antennas on multiple access　473

10.5.1　inter-cell interference management　474

10.5.2　uplink with multiple receive antennas　476

10.5.3　mimo uplink　478

10.5.4　downlink with multiple receive antennas　479

10.5.5　downlink with multiple transmit antennas　479

example 10.1 sdma in arraycomm systems　479

chapter 10 the main plot　481

10.6　bibliographical notes　482

10.7　exercises　483

appendix a　detection and estimation in additive gaussian noise　496

appendix b　information theory from first principles　516

references　546

index ...　554

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“Tse和Viswanath將通信技術的理論發展和實際套用完美結合在本書中。本書必將成為業界經典教材和權威參考。”.

——Robert G．Galhger教授，麻省理工學院

“David Tse和Pramod Viswanath為現代無線通信撰寫了一部經典著作!本書覆蓋無線系統設計基礎以及無線通信領域最新進展，不僅是高校通信專業理想教材，而且是無線工程領域工程技術人員的理想指南!。”..

——Roberto Padovani博士，高通公司CTO ...