[eBook Code] Tactical Wireless Communications and Networks (eBook Code, 1st)

· 제목 : [eBook Code] Tactical Wireless Communications and Networks (eBook Code, 1st) (Design Concepts and Challenges)
· 분류 : 외국도서 > 기술공학 > 기술공학 > 모바일/무선통신
· ISBN : 9781118446010
· 쪽수 : 336쪽

About the Author xi

Foreword xiii

Preface xv

List of Acronyms xvii

Part I THEORETICAL BASIS

1 Introduction 3

1.1 The OSI Model 4

1.2 From Network Layer to IP Layer 6

1.3 Pitfall of the OSI Model 7

1.4 Tactical Networks Layers 9

1.5 Historical Perspective 10

Bibliography 11

2 The Physical Layer 13

2.1 Modulation 13

2.1.1 Signal-in-Space (SiS) 16

2.2 Signal Detection 22

2.2.1 Signal Detection in Two-Dimensional Space 24

2.2.2 Multidimensional Constellations for AWGN 28

2.3 Non-Coherent Demodulation 29

2.4 Signal Fading 29

2.5 Power Spectrum 31

2.6 Spread Spectrum Modulation 34

2.6.1 Direct Sequence Spread Spectrum 35

2.6.2 Frequency Hopping Spread Spectrum 38

2.7 Concluding Remarks 40

2.7.1 What Happens Before Modulation and After Demodulation? 40

2.7.2 Historical Perspective 40

Bibliography 41

3 The DLL and Information Theory in Tactical Networks 43

3.1 Information Theory and Channel Capacity 43

3.1.1 Uncertainty and Information 45

3.1.2 Entropy 46

3.1.3 Coding for a Discrete Memoryless Source 48

3.1.4 Mutual Information and Discrete Channels 50

3.1.5 The Binary Symmetric Channel (BSC) Model 53

3.1.6 Capacity of a Discrete Channel 54

3.2 Channel Coding, Error Detection, and Error Correction 57

3.2.1 Hamming Distance and Probability of Bit Error in Channel Coding 58

3.2.2 Overview of Linear Block Codes 60

3.2.3 Convolutional Codes 62

3.2.4 Concatenated Coding and Interleaving 64

3.2.5 Network Coding versus Transport Layer Packet Erasure Coding 65

3.3 Concluding Remarks 67

3.3.1 The Role of Information Theory and Coding in Tactical Wireless Communications and Networking 67

3.3.2 Historical Perspective 68

Appendix 3.A: Using RS Code in Tactical Networks Transport Layer 69

3.A.1 The Utilized RS Code 69

3.A.2 Packet Erasure Analysis 70

3.A.3 Imposed Tactical Requirements 77

Bibliography 80

4 MAC and Network Layers in Tactical Networks 83

4.1 MAC Layer and Multiple Access Techniques 83

4.2 Queuing Theory 87

4.2.1 Statistical Multiplexing of Packets 87

4.2.2 Queuing Models 92

4.3 Concluding Remarks 106

4.3.1 How Congestion Happens in Tactical Wireless Networks 106

4.3.2 Historical Perspective 107

4.3.3 Remarks Regarding the First Part of the Book 108

Bibliography 110

Part II THE EVOLUTION OF TACTICAL RADIOS

5 Non-IP Tactical Radios and the Move toward IP 113

5.1 Multistep Evolution to the Global Information Grid 113

5.2 Link-16 Waveform 114

5.2.1 Link-16 Messages 119

5.2.2 Link Layer Operations of Link-16 120

5.2.3 JTIDS/LINK-16 Modulation and Coding 120

5.2.4 Enhancements to Link-16 126

5.2.5 Concluding Remarks on Link-16 Waveform 129

5.3 EPLRS Waveform 130

5.4 SINCGARS Waveform 131

5.5 Tactical Internet (TI) 131

5.6 IP Gateways 136

5.6.1 Throughput Efficiency 136

5.6.2 End-to-End Packet Loss 137

5.7 Concluding Remarks 137

5.7.1 What Comes after the GIG? 137

5.7.2 Historical Perspective 137

Bibliography 138

6 IP-Based Tactical Waveforms and the GIG 141

6.1 Tactical GIG Notional Architecture 141

6.2 Tactical GIG Waveforms 144

6.2.1 Wide-Area Network Waveform (WNW) 144

6.2.2 Soldier Radio Waveform (SRW) 163

6.2.3 High-Band Networking Waveform (HNW) 164

6.2.4 Network Centric Waveform (NCW) 165

6.3 The Role of Commercial Satellite in the Tactical GIG 166

6.4 Satellite Delay Analysis 166

6.5 Networking at the Tactical GIG 169

6.6 Historical Perspective 170

Bibliography 173

7 Cognitive Radios 177

7.1 Cognitive Radios and Spectrum Regulations 177

7.2 Conceptualizing Cognitive Radios 180

7.2.1 Cognitive Radio Setting (CRS) Parameters 180

7.2.2 The Cognitive Engine 181

7.3 Cognitive Radios in Tactical Environments 183

7.4 Software Communications Architecture (SCA) 184

7.4.1 The SCA Core Framework 185

7.4.2 SCA Definitions 185

7.4.3 SCA Components 186

7.4.4 SCA and Security Architecture 188

7.5 Spectrum Sensing 190

7.5.1 Multidimensional Spectrum Awareness 190

7.5.2 Complexity of Spectrum Sensing 193

7.5.3 Implementation of Spectrum Sensing 195

7.5.4 Cooperative Spectrum Sensing 199

7.5.5 Spectrum Sensing in Current Wireless Standards 200

7.6 Security in Cognitive Radios 201

7.7 Concluding Remarks 201

7.7.1 Development of Cognitive Radios 201

7.7.2 Modeling and Simulation of Cognitive Radios 202

7.7.3 Historical Perspective 202

Bibliography 202

Part III THE OPEN ARCHITECTURE MODEL

8 Open Architecture in Tactical Networks 207

8.1 Commercial Cellular Wireless Open Architecture Model 208

8.2 Tactical Wireless Open Architecture Model 210

8.3 Open Architecture Tactical Protocol Stack Model 211

8.3.1 Tactical Wireless Open Architecture Model Entities 213

8.3.2 Open Architecture Tactical Wireless Model ICDs 216

8.4 The Tactical Edge 219

8.4.1 Tactical Edge Definition 219

8.4.2 Tactical Edge Analysis 220

8.5 Historical Perspective 222

Bibliography 224

9 Open Architecture Details 225

9.1 The Plain Text IP Layer and the Tactical Edge 225

9.2 Measurement Based Resource Management 227

9.2.1 Advantages and Challenges of MBRM 228

9.2.2 Congestion Severity Level 229

9.2.3 Markov Chain Representation of MBAC 231

9.2.4 Regulating the Flow of Traffic between Two Nodes 233

9.2.5 Regulating the Flow of Traffic for Multiple Nodes 233

9.2.6 Packet Loss from the Physical Layer 234

9.3 ICD I: Plain Text IP Layer to HAIPE 238

9.4 ICD V: Plain Text IP Layer Peer-to-Peer 239

9.4.1 TCP Proxy over HAIPE 239

9.4.2 VoIP Proxy over HAIPE 241

9.4.3 Video Proxy over HAIPE 247

9.4.4 RSVP Proxy over HAIPE 248

9.4.5 Multicast Proxy over HAIPE 252

9.5 ICD X Cross Layer Signaling across the HAIPE 255

9.6 Concluding Remarks 258

9.7 Historical Perspective 258

Bibliography 259

10 Bringing Commercial Cellular Capabilities to Tactical Networks 261

10.1 Tactical User Expectations 262

10.2 3G/4G/LTE Technologies within the War Theater 264

10.3 The Tactical Cellular Gateway 265

10.4 Deployment Use Cases 267

10.4.1 Use Case I: Smartphone Tethered to a Soldier Radio Waveform (SRW) Radio 268

10.4.2 Use Case II: 3G/4G/LTE Services on a Dismounted Unit 269

10.4.3 Use Case III: 3G/4G/LTE Access at an Enclave 271

10.5 Concluding Remarks 272

Bibliography 273

11 Network Management Challenges in Tactical Networks 275

11.1 Use of Policy Based Network Management and Gaming Theory in Tactical Networks 275

11.2 Challenges Facing Joint Forces Interoperability 277

11.3 Joint Network Management Architectural Approach 277

11.3.1 Assumptions and Concepts for Operations (ConOps) 279

11.3.2 The Role of Gateway Nodes 281

11.3.3 Abstracting Information 282

11.3.4 Creating Path Information 283

11.3.5 Sequence Diagram 285

11.4 Conflict Resolution for Shared Resources 286

11.4.1 Tactical Network Hierarchy 287

11.4.2 Dynamic Activation of NCW in WNW/NCW-Capable Nodes 287

11.4.3 Interfacing between the WIN-NM and the JWNM for NCW Resources 288

11.4.4 NCW Resource Attributes 289

11.5 Concluding Remarks 290

Bibliography 291

Index 293