Introduction to wireless and mobile systems = 无线移动通信系统 (第四版) (英文版)2025|PDF|Epub|mobi|kindle电子书版本百度云盘下载

Introduction to wireless and mobile systems = 无线移动通信系统 (第四版) (英文版)PDF格式电子书版下载

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CHAPTER 1 Introduction1

1.1 History of Cellular Systems1

1.2 Characteristics of Cellular Systems12

1.3 Fundamentals of Cellular Systems15

1.4 Cellular System Infrastructure21

1.5 Network Protocols24

1.6 IEEE 802.11 Technologies24

1.7 Ad Hoc Networks25

1.8 Sensor Networks26

1.9 Wireless MANs，LANs，BANs，and PANs27

1.10 Security and Privacy in Wireless Networks28

1.11 Satellite Systems28

1.12 Recent Advances29

1.13 Outline of the Book29

1.14 References30

1.15 Problems31

CHAPTER 2 Mobile Radio Propagation33

2.1 Introduction33

2.2 Types of Radio Waves33

2.3 Propagation Mechanisms34

2.4 Free Space Propagation35

2.5 Land Propagation37

2.6 Path Loss39

2.7 Slow Fading41

2.8 Fast Fading43

2.8.1 Statistical Characteristics of the Envelope43

2.8.2 Characteristics of Instantaneous Amplitude46

2.9 Doppler Effect48

2.10 Delay Spread50

2.11 IntersymbolInterference51

2.12 Coherence Bandwidth52

2.13 Cochannel Interference52

2.14 Summary53

2.15 References53

2.16 Experiments54

2.17 Open-Ended Projects55

2.18 Problems55

CHAPTER 3 Cellular Concept58

3.1 Introduction58

3.2 Cell Area58

3.3 Signal Strength and Cell Parameters60

3.4 Capacity of a Cell64

3.5 Frequency Reuse66

3.6 How to Form a Cluster67

3.7 Cochannel Interference70

3.8 Cell Splitting72

3.9 Cell Sectoring72

3.10 Summary75

3.11 References75

3.12 Experiments75

3.13 Open-Ended Projects77

3.14 Problems77

CHAPTER 4 Multiple Radio Access81

4.1 Introduction81

4.2 Multiple Radio Access Protocols82

4.3 Contention-Based Protocols83

4.3.1 Pure ALOHA84

4.3.2 Slotted ALOHA85

4.3.3 CSMA86

4.3.4 CSMA/CD90

4.3.5 CSMA/CA91

4.4 Comparison of CSMA/CD and CSMA/CA95

4.5 Summary95

4.6 References95

4.7 Experiments97

4.8 Open-Ended Projects98

4.9 Problems98

CHAPTER 5 Multiple Division Techniques100

5.1 Introduction100

5.2 Concepts and Models for Multiple Divisions100

5.2.1 FDMA101

5.2.2 TDMA103

5.2.3 CDMA105

5.2.4 OFDM110

5.2.5 SDMA112

5.2.6 Comparison of Multiple Division Techniques113

5.3 Modulation Techniques114

5.3.1 Amplitude Modulation （AM）114

5.3.2 Frequency Modulation （FM）114

5.3.3 FSK116

5.3.4 Phase Shift Keying （PSK）116

5.3.5 Quadrature Phase Shift Keying （QPSK）117

5.3.6 rr/4QPSK117

5.3.7 Quadrature Amplitude Modulation （QAM）119

5.3.8 16QAM119

5.4 Summary120

5.5 References121

5.6 Experiments121

5.7 Open-Ended Projects122

5.8 Problems122

CHAPTER 6 Channel Allocation125

6.1 Introduction125

6.2 Static Allocation versus Dynamic Allocation126

6.3 Fixed Channel Allocation （FCA）126

6.3.1 Simple Borrowing Schemes127

6.3.2 Complex Borrowing Schemes127

6.4 Dynamic Channel Allocation （DCA）130

6.4.1 Centralized Dynamic Channel Allocation Schemes130

6.4.2 Distributed Dynamic Channel Allocation Schemes131

6.5 Hybrid Channel Allocation （HCA）132

6.5.1 Hybrid Channel Allocation （HCA） Schemes132

6.5.2 Flexible Channel Allocation Schemes133

6.6 Allocation in Specialized System Structure133

6.6.1 Channel Allocation in One-Dimensional Systems133

6.6.2 Reuse Partitioning-Based Channel Allocation134

6.6.3 Overlapped Cells-Based Channel Allocation135

6.7 System Modeling137

6.7.1 Basic Modeling137

6.7.2 Modeling for Channel Reservation139

6.8 Summary140

6.9 References141

6.10 Experiments141

6.11 Open-Ended Projects143

6.12 Problems143

CHAPTER 7 Mobile Communication Systems147

7.1 Introduction147

7.2 Cellular System Infrastructure147

7.3 Registration151

7.4 Handoff Parameters and Underlying Support153

7.4.1 Parameters Influencing Handoff153

7.4.2 Handoff Underlying Support154

7.5 Roaming Support156

7.5.1 Home Agents，Foreign Agents，and Mobile IP157

7.5.2 Rerouting in Backbone Routers159

7.6 Multicasting161

7.7 Ultra-Wideband Technology164

7.7.1 UWB System Characteristics164

7.7.2 UWB Signal Propagation165

7.7.3 Current Status and Applications of UWB Technology165

7.7.4 Difference between UWB and Spread Spectrum Techniques166

7.7.5 UWB Technology Advantages166

7.7.6 UWB Technology Drawbacks167

7.7.7 Challenges for UWB Technology167

7.7.8 Future Directions168

7.8 Femto Cell Network168

7.8.1 Technical Features168

7.8.2 Challenges171

7.9 Summary173

7.10 References173

7.11 Experiments175

7.12 Open-Ended Problem176

7.13 Problems176

CHAPTER 8 Network Protocols179

8.1 Introduction179

8.1.1 Layer 1：Physical Layer180

8.1.2 Layer 2：Data Link Layer181

8.1.3 Layer 3：Network Layer181

8.1.4 Layer 4：Transport Layer181

8.1.5 Layer 5：Session Layer181

8.1.6 Layer 6：Presentation Layer182

8.1.7 Layer 7：Application Layer182

8.2 TCP/IP Protocol182

8.2.1 Physical and Data Link Layers182

8.2.2 Network Layer183

8.2.3 TCP185

8.2.4 Application Layer185

8.2.5 Routing Using Bellman-Ford Algorithm185

8.3 TCP over Wireless186

8.3.1 Need for TCP over Wireless186

8.3.2 Limitations of Wired Version ofTCP187

8.3.3 Solutions for Wireless Environment187

8.3.4 Link Layer Protocols189

8.4 Internet Protocol Version 6 （IPv6）190

8.4.1 Transition from IPv4 to IPv6190

8.4.2 IPv6 Header Format192

8.4.3 Features of IPv6192

8.4.4 Differences between IPv6 and IPv4193

8.5 Summary193

8.6 References193

8.7 Experiment195

8.8 Open-Ended Project195

8.9 Problems196

CHAPTER 9 Existing Wireless Systems198

9.1 Introduction198

9.2 AMPS198

9.2.1 Characteristics of AMPS199

9.2.2 Operation of AMPS199

9.2.3 General Working of AMPS Phone System202

9.3 IS-41203

9.3.1 Introduction203

9.3.2 Support Operations205

9.4 GSM205

9.4.1 Frequency Bands and Channels206

9.4.2 Frames in GSM208

9.4.3 Identity Numbers Used by a GSM System209

9.4.4 Interfaces，Planes，and Layers of GSM211

9.4.5 Handoff213

9.4.6 Short Message Service （SMS）214

9.5 IS-95214

9.5.1 Power Control217

9.6 IMT-2000219

9.6.1 International Spectrum Allocation220

9.6.2 Services Provided byThird-Generation Cellular Systems （3G）220

9.6.3 Harmonized Third-Generation Systems221

9.6.4 Multimedia Messaging Service （MMS）222

9.6.5 Universal Mobile Telecommunications System （UMTS）223

9.7 Summary227

9.8 References228

9.9 Problems228

CHAPTER 10 IEEE 802.11 Technologies and Access Points230

10.1 Introduction230

10.2 Downlink Transfer of Information231

10.3 Uplink Transfer of Information235

10.3.1 UplinkTransfer of Information with RTS/CTS235

10.4 Variants of 802.11 Series Protocols238

10.4.1 IEEE 802.11 b239

10.4.2 IEEE802.11g240

10.4.3 IEEE 802.1 1 n240

10.4.4 IEEE 802.1 1 ac241

10.5 WiFi Access in Airplanes243

10.6 Summary244

10.7 References244

10.8 Experiment245

10.9 Open-Ended Project245

10.10 Problems245

CHAPTER 11 Ad Hoc Networks247

11.1 Introduction247

11.2 Characteristics of MANETs249

11.3 Applications250

11.4 Routing251

11.4.1 Need for Routing251

11.4.2 Routing Classification252

11.5 Table-Driven Routing Protocols253

11.5.1 Destination-Sequenced Distance-Vector Routing253

11.5.2 Cluster Formation in a MANET254

11.5.3 Cluster Head Selection254

11.5.4 Cluster Head Gateway Switch Routing254

11.5.5 Wireless Routing Protocol256

11.6 Source-Initiated On-Demand Routing257

11.6.1 Ad Hoc On-Demand Distance Vector Routing257

11.6.2 Dynamic Source Routing258

11.6.3 Temporarily Ordered Routing Algorithm （TORA）260

11.6.4 Associativity-Based Routing262

11.6.5 Signal Stability-Based Routing263

11.7 Hybrid Protocols264

11.7.1 Zone Routing264

11.7.2 Fisheye State Routing265

11.7.3 Landmark Routing （LANMAR） for MANET with Group Mobility265

11.7.4 Location-Aided Routing266

11.7.5 Distance Routing Effect Algorithm for Mobility267

11.7.6 Relative Distance Microdiscovery Ad Hoc Routing （RDMAR）268

11.7.7 Power Aware Routing268

11.8 Multipath Routing Protocols269

11.8.1 On-Demand Multipath Routing for Mobile Ad Hoc Networks270

11.8.2 Ad Hoc On-Demand Distance Vector-Backup Routing （AODV-BR）271

11.8.3 Split Multipath Routing273

11.8.4 Caching and Multipath Routing Protocol273

11.8.5 Neighbor-Table-Based Multipath Routing in Ad Hoc Networks （NTBMR）276

11.9 Vehicular Area Network （VANET）277

11.10 Network Simulators280

11.10.1 ns-2 and ns-3280

11.10.2 Other Network Simulators282

11.11 Summary283

11.12 References283

11.13 Experiments287

11.14 Open-Ended Project289

11.15 Problems289

CHAPTER 12 Sensor Networks293

12.1 Introduction293

12.2 Network Characteristics297

12.2.1 Classification of Sensor Networks297

12.2.2 Fundamentals of MAC Protocol for WSNs298

12.2.3 Flat Routing in Sensor Networks299

12.2.4 Directed Diffusion299

12.2.5 Sensor Protocols for Information via Negotiation （SPIN）300

12.2.6 COUGAR300

12.3 Hierarchical Routing in Sensor Networks301

12.3.1 Cluster-Based Routing Protocol （CBRP）303

12.3.2 Low-Energy Adaptive Clustering Hierarchy （LEACH）303

12.3.3 Threshold-Sensitive Energy-Efficient Network （TEEN）304

12.3.4 Adaptive Periodic Threshold-Sensitive Energy-Efficient Sensor Network（APTEEN）Protocol305

CHAPTER 13 Wireless LANs，PANs，BANs，and MANs308

13.1 Introduction308

13.2 ETSI High-Performance LAN （HiperLAN）308

13.3 HomeRF310

13.4 Ricochet312

13.5 Wireless Personal Area Networks （WPANs）313

13.6 IEEE 802.15.1 （Bluetooth）314

13.6.1 Architecture of the Bluetooth System317

13.6.2 IEEE 802.15.3320

13.6.3 IEEE 802.15.4322

13.7 ZigBee328

13.8 Wireless Body Area Networks （WBANs）329

13.9 WMANs Using Worldwide Interoperability for Microwave Access （WiMAX）330

13.9.1 MAC Layer330

13.9.2 MAC Layer Details331

13.9.3 Service-Specific Convergence Sublayers331

13.9.4 Common Part Sublayer331

13.9.5 Physical Layer335

13.9.6 Physical Layer Details336

13.10 WMAN Using a Mesh Network337

13.11 WMANs Using 3GPP and Long Term Evolution （LTE）340

13.12 WMAN Using Long Term Evolution （LTE） and LTE-A343

13.13 Summary346

13.14 References347

13.15 Experiments349

13.16 Open-Ended Project350

13.17 Problems351

CHAPTER 14 Security and Privacy in Wireless Networks354

14.1 Introduction354

14.2 Encryption and Decryption Techniques354

14.2.1 Encryption Techniques355

14.3 Wireless System Security358

14.3.1 Security in Cell Phones360

14.3.2 Security in LTE Networks360

14.3.3 Authentication in WiFi-Based AP Networks361

14.3.4 Diffie-Hellman Protocol364

14.3.5 Elliptic Curve Cryptography （ECC）365

14.4 Firewalls and System Security366

14.5 Security Issues in Mobile Ad Hoc Networks （MANETs）367

14.5.1 Security Approaches369

14.5.2 Intrusion Detection369

14.5.3 Requirements for an IDS for MANETs370

14.5.4 Mobile Agents for Intrusion Detection and Response in a MANET372

14.5.5 Intrusion Detection Architecture （IDA） Based on a Static Stationary Database （SSD）373

14.5.6 Cluster-Based Intrusion Detection System in MANETs374

14.5.7 Logging Module376

14.5.8 Selfishness in a MANET377

14.6 Secured Communication in Wireless Sensor Networks （WSNs）377

14.6.1 Shared Symmetric Key between Two Sensors in a Randomly Deployed WSN379

14.6.2 Use of Bivariate Polynomial in Establishing a Shared Secret Key between Two Sensors382

14.6.3 Intrusion Detection Schemes382

14.7 Distributed DoS （DDoS） Attack Detection386

14.7.1 Covariance Analysis Method388

14.8 Summary391

14.9 References392

14.10 Experiments396

14.11 Open-Ended Project397

14.12 Problems397

CHAPTER 15 Satellite Systems401

15.1 Introduction401

15.2 Types of Satellite Systems401

15.3 Characteristics of Satellite Systems406

15.4 Satellite System Infrastructure408

Acronyms411