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Network routing : fundamentals, applications and emerging technologies / / Sudip Misra, Sumit Goswami
| Network routing : fundamentals, applications and emerging technologies / / Sudip Misra, Sumit Goswami |
| Autore | Misra Sudip |
| Pubbl/distr/stampa | Chichester, West Sussex, England : , : Wiley, , 2017 |
| Descrizione fisica | 1 online resource (451 pages) |
| Disciplina | 004.6 |
| Collana | New York Academy of Sciences |
| Soggetto topico | Routing (Computer network management) |
| ISBN |
1-119-02939-2
1-119-02938-4 1-119-11486-1 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- About the Authors xiii -- Foreword xv -- Preface xvii -- About the Companion Website xxi -- Part I Fundamental Concepts 1 -- 1 Introduction to Network Routing 3 -- 1.1 Introduction to Networks 3 -- 1.2 Network Architecture and Standards 6 -- 1.3 Glimpse at the Network Layer 13 -- 1.4 Addressing in TCP/IP Networks 16 -- 1.5 Overview of Routing 20 -- 1.6 Delivery, Forwarding, Routing, and Switching 21 -- 1.7 Routing Taxonomy 23 -- 1.8 Host Mobility and Routing 26 -- References 27 -- Abbreviations/Terminologies 28 -- Questions 30 -- Exercises 32 -- 2 Basic Routing Algorithms 35 -- 2.1 Introduction to Routing Algorithms 35 -- 2.2 Routing Strategies 40 -- 2.2.1 Non?]Adaptive Algorithms 43 -- 2.2.2 Adaptive Algorithms 44 -- 2.2.3 Flooding 44 -- 2.3 Static Shortest Path Routing Algorithms 47 -- 2.4 Dynamic Shortest Path Routing Algorithms 50 -- 2.5 Stochastic Routing Algorithms 53 -- References 55 -- Abbreviations/Terminologies 55 -- Questions 56 -- Exercises 57 -- 3 Fundamental Routing Protocols 59 -- 3.1 Routing Protocols 59 -- 3.2 Distance Vector Routing 61 -- 3.2.1 Working of the Protocol 61 -- 3.2.2 Convergence of Distance Vector Table 62 -- 3.2.3 Issues in Distance Vector Routing 63 -- 3.2.4 Improvements in Distance Vector Routing 67 -- 3.2.5 Advantages and Disadvantages 68 -- 3.3 Link State Routing 68 -- 3.3.1 Working of the Protocol 68 -- 3.3.2 Routing Tables 70 -- 3.4 Path Vector Routing 71 -- 3.4.1 Working of the Protocol 72 -- 3.4.2 Advantages and Disadvantages 74 -- 3.5 Unicast, Multicast, and Broadcast Routing 77 -- References 82 -- Abbreviations/Terminologies 83 -- Questions 83 -- Exercises 84 -- Part II Routing with Quality?]of?]Service and Traffic Engineering 89 -- 4 Quality?]of?]Service Routing 91 -- 4.1 Introduction 91 -- 4.2 QoS Measures 95 -- 4.3 Differentiated and Integrated Services 97 -- 4.4 QoS Routing Algorithms 103 -- 4.5 QoS Unicast Routing Protocols 106 -- 4.6 QoS Multicast Routing Protocols 108 -- 4.7 QoS Best?]Effort Routing 112 -- References 113.
Abbreviations/Terminologies 116 -- Questions 117 -- 5 Routing and MPLS Traffic Engineering 119 -- 5.1 MPLS Fundamentals 119 -- 5.2 Traffic Engineering Routing Algorithms 120 -- 5.3 Minimum Interference Routing Algorithm 121 -- 5.3.1 The Algorithm 122 -- 5.3.2 Limitations of MIRA 123 -- 5.4 Profile?]Based Routing Algorithm 124 -- 5.5 Dynamic Online Routing Algorithm 125 -- 5.6 Wang et al.'s Algorithm 126 -- 5.7 Random Races Algorithm 126 -- References 127 -- Abbreviations/Terminologies 128 -- Questions 128 -- Exercises 129 -- Part III Routing on the Internet 131 -- 6 Interior Gateway Protocols 133 -- 6.1 Introduction 133 -- 6.2 Distance Vector Protocols 135 -- 6.2.1 Routing Information Protocol 137 -- 6.2.2 Interior Gateway Routing Protocol 141 -- 6.3 Link State Protocols 143 -- 6.3.1 Open Shortest Path First Protocol 144 -- 6.3.2 Intermediate System to Intermediate System Protocol 148 -- References 152 -- Abbreviations/Terminologies 152 -- Questions 153 -- Exercises 155 -- 7 Exterior Gateway Protocol 159 -- 7.1 Introduction 159 -- 7.1.1 Hosts vs Gateways 161 -- 7.1.2 Gateway?]to?]Gateway Protocol 162 -- 7.1.3 Autonomous System 163 -- 7.1.4 Characteristics of EGP 165 -- 7.2 Exterior Gateway Protocol 166 -- 7.2.1 Evolution of EGP Standards 166 -- 7.2.2 EGP Terminology and Topology 166 -- 7.2.3 EGP Operation Model 167 -- 7.3 Border Gateway Protocol 169 -- 7.3.1 Router Connectivity and Terminology 169 -- 7.3.2 Routing Information Base 181 -- 7.3.3 BGP Operation 182 -- 7.3.4 Decision Process 184 -- 7.3.5 Route Selection Process 185 -- References 188 -- Abbreviations/Terminologies 189 -- Questions 190 -- Exercises 191 -- Part IV Other Routing Contexts 195 -- 8 Routing in ATM Networks 197 -- 8.1 Introduction 197 -- 8.1.1 ATM Frames 199 -- 8.1.2 ATM Connection 199 -- 8.1.3 ATM Architecture 203 -- 8.1.4 Service Categories 204 -- 8.2 PNNI Routing 206 -- 8.2.1 PNNI Interface 207 -- 8.2.2 PNNI Hierarchy 207 -- 8.2.3 Building the Network Topology 209 -- 8.2.4 Peer Group Leader 210. 8.2.5 Advertizing Topology 211 -- 8.2.6 Setting up Connection 212 -- References 213 -- Abbreviations/Terminologies 213 -- Questions 214 -- Exercises 216 -- 9 Routing in Cellular Wireless Networks 219 -- 9.1 Introduction 219 -- 9.2 Basics of Cellular Wireless Networks 220 -- 9.3 Resource Allocation 229 -- 9.4 Routing in GSM Networks 231 -- 9.4.1 Architecture 232 -- 9.4.2 Call Routing 234 -- 9.5 Challenges in Mobile Computing 235 -- References 238 -- Abbreviations/Terminologies 240 -- Questions 241 -- Exercises 242 -- 10 Routing in Wireless Ad Hoc Networks 245 -- 10.1 Introduction 245 -- 10.1.1 Basics of Wireless Ad Hoc Networks 248 -- 10.1.2 Issues with Existing Protocols 256 -- 10.2 Table?]Driven (Proactive) Routing Protocols 258 -- 10.3 On?]Demand (Reactive) Routing Protocols 260 -- 10.4 Hybrid Routing Protocols 266 -- 10.5 Hierarchical Routing Protocols 267 -- 10.6 Geographic Routing Protocols 268 -- 10.7 Power?]Aware Routing Protocols 274 -- References 276 -- Abbreviations/Terminologies 278 -- Questions 280 -- Exercises 281 -- 11 Routing in Wireless Sensor Networks 285 -- 11.1 Basics of Wireless Sensor Networks 285 -- 11.1.1 Hardware Architecture of Sensor Node 287 -- 11.1.2 Network Topology 289 -- 11.1.3 Design Factors 290 -- 11.1.4 Classification of Routing Protocol 292 -- 11.2 Routing Challenges in Wireless Sensor Networks 293 -- 11.2.1 Self?]Healing Networks 295 -- 11.2.2 Security Threats 296 -- 11.3 Flat Routing Protocols 297 -- 11.4 Hierarchical Routing Protocols 303 -- 11.5 Location?]Based Routing Protocols 308 -- 11.6 Multipath Routing Protocols 310 -- 11.7 Query?]Based Routing Protocols 312 -- 11.8 Negotiation?]Based Routing Protocols 314 -- 11.9 QoS Routing Protocols 315 -- 11.9.1 Challenges 316 -- 11.9.2 Approach to QoS Routing 316 -- 11.9.3 Protocols 317 -- References 317 -- Abbreviations/Terminologies 321 -- Questions 322 -- Exercises 324 -- 12 Routing in 6LoWPAN 327 -- 12.1 Introduction 327 -- 12.1.1 IP for Smart Objects 328 -- 12.1.2 6LoWPAN 329. 12.1.3 ZigBee 330 -- 12.1.4 ZigBee vs 6LoWPAN 330 -- 12.2 6LoWPAN Fundamentals 331 -- 12.2.1 Architecture 332 -- 12.2.2 Header Format and Compression 332 -- 12.2.3 Network Topology 335 -- 12.2.4 Neighbor Discovery 335 -- 12.2.5 Routing 336 -- 12.3 Interoperability of 6LoWPAN 337 -- 12.4 Applications 338 -- 12.5 Security Considerations and Research Areas 341 -- References 342 -- Abbreviations/Terminologies 345 -- Questions 346 -- Exercises 348 -- Part V Advanced Concepts 349 -- 13 Security in Routing 351 -- 13.1 Introduction 351 -- 13.1.1 Network Sniffer 353 -- 13.1.2 Denial of Service Attack 357 -- 13.1.3 Social Engineering 358 -- 13.1.4 Packet Filtering 359 -- 13.2 Attack Surface 360 -- 13.2.1 Types of Attack Surface 361 -- 13.2.2 Attack Surface and System Resources 361 -- 13.2.3 Attack Surface Metric 362 -- 13.2.4 Reduction in Attack Surface 362 -- 13.3 Networked Battlefield 363 -- 13.4 Mobile Agents 365 -- 13.4.1 Architecture and Framework 368 -- 13.4.2 Life Cycle 369 -- 13.4.3 Challenges 370 -- 13.5 Cognitive Security 370 -- 13.5.1 Solution Concept 371 -- 13.5.2 Cognitive Capabilities 372 -- 13.5.3 General Capabilities 373 -- References 373 -- Abbreviations/Terminologies 374 -- Questions 375 -- Exercises 376 -- 14 Reliability and Fault?]Tolerant and Delay?]Tolerant Routing 377 -- 14.1 Fundamentals of Network Reliability 377 -- 14.1.1 Importance of Reliability Calculation 378 -- 14.1.2 Methods to Calculate the Reliability of a Network 379 -- 14.2 Fault Tolerance 390 -- 14.2.1 Fault?]Tolerant Network 394 -- 14.2.2 Autonomic Network 394 -- 14.3 Network Management for Fault Detection 398 -- 14.3.1 Traditional Network Management 399 -- 14.3.2 Mobile Agent 400 -- 14.3.3 Policy?]Based Network Management 401 -- 14.4 Wireless Tactical Networks 402 -- 14.5 Routing in Delay?]Tolerant Networks 403 -- 14.5.1 Applications 404 -- 14.5.2 Routing Protocols 404 -- References 405 -- Abbreviations/Terminologies 407 -- Questions 408 -- Exercises 409 -- Index 411. |
| Record Nr. | UNINA-9910794774103321 |
Misra Sudip
|
||
| Chichester, West Sussex, England : , : Wiley, , 2017 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Network routing : fundamentals, applications and emerging technologies / / Sudip Misra, Sumit Goswami
| Network routing : fundamentals, applications and emerging technologies / / Sudip Misra, Sumit Goswami |
| Autore | Misra Sudip |
| Pubbl/distr/stampa | Chichester, West Sussex, England : , : Wiley, , 2017 |
| Descrizione fisica | 1 online resource (451 pages) |
| Disciplina | 004.6 |
| Collana | New York Academy of Sciences |
| Soggetto topico | Routing (Computer network management) |
| ISBN |
1-119-02939-2
1-119-02938-4 1-119-11486-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- About the Authors xiii -- Foreword xv -- Preface xvii -- About the Companion Website xxi -- Part I Fundamental Concepts 1 -- 1 Introduction to Network Routing 3 -- 1.1 Introduction to Networks 3 -- 1.2 Network Architecture and Standards 6 -- 1.3 Glimpse at the Network Layer 13 -- 1.4 Addressing in TCP/IP Networks 16 -- 1.5 Overview of Routing 20 -- 1.6 Delivery, Forwarding, Routing, and Switching 21 -- 1.7 Routing Taxonomy 23 -- 1.8 Host Mobility and Routing 26 -- References 27 -- Abbreviations/Terminologies 28 -- Questions 30 -- Exercises 32 -- 2 Basic Routing Algorithms 35 -- 2.1 Introduction to Routing Algorithms 35 -- 2.2 Routing Strategies 40 -- 2.2.1 Non?]Adaptive Algorithms 43 -- 2.2.2 Adaptive Algorithms 44 -- 2.2.3 Flooding 44 -- 2.3 Static Shortest Path Routing Algorithms 47 -- 2.4 Dynamic Shortest Path Routing Algorithms 50 -- 2.5 Stochastic Routing Algorithms 53 -- References 55 -- Abbreviations/Terminologies 55 -- Questions 56 -- Exercises 57 -- 3 Fundamental Routing Protocols 59 -- 3.1 Routing Protocols 59 -- 3.2 Distance Vector Routing 61 -- 3.2.1 Working of the Protocol 61 -- 3.2.2 Convergence of Distance Vector Table 62 -- 3.2.3 Issues in Distance Vector Routing 63 -- 3.2.4 Improvements in Distance Vector Routing 67 -- 3.2.5 Advantages and Disadvantages 68 -- 3.3 Link State Routing 68 -- 3.3.1 Working of the Protocol 68 -- 3.3.2 Routing Tables 70 -- 3.4 Path Vector Routing 71 -- 3.4.1 Working of the Protocol 72 -- 3.4.2 Advantages and Disadvantages 74 -- 3.5 Unicast, Multicast, and Broadcast Routing 77 -- References 82 -- Abbreviations/Terminologies 83 -- Questions 83 -- Exercises 84 -- Part II Routing with Quality?]of?]Service and Traffic Engineering 89 -- 4 Quality?]of?]Service Routing 91 -- 4.1 Introduction 91 -- 4.2 QoS Measures 95 -- 4.3 Differentiated and Integrated Services 97 -- 4.4 QoS Routing Algorithms 103 -- 4.5 QoS Unicast Routing Protocols 106 -- 4.6 QoS Multicast Routing Protocols 108 -- 4.7 QoS Best?]Effort Routing 112 -- References 113.
Abbreviations/Terminologies 116 -- Questions 117 -- 5 Routing and MPLS Traffic Engineering 119 -- 5.1 MPLS Fundamentals 119 -- 5.2 Traffic Engineering Routing Algorithms 120 -- 5.3 Minimum Interference Routing Algorithm 121 -- 5.3.1 The Algorithm 122 -- 5.3.2 Limitations of MIRA 123 -- 5.4 Profile?]Based Routing Algorithm 124 -- 5.5 Dynamic Online Routing Algorithm 125 -- 5.6 Wang et al.'s Algorithm 126 -- 5.7 Random Races Algorithm 126 -- References 127 -- Abbreviations/Terminologies 128 -- Questions 128 -- Exercises 129 -- Part III Routing on the Internet 131 -- 6 Interior Gateway Protocols 133 -- 6.1 Introduction 133 -- 6.2 Distance Vector Protocols 135 -- 6.2.1 Routing Information Protocol 137 -- 6.2.2 Interior Gateway Routing Protocol 141 -- 6.3 Link State Protocols 143 -- 6.3.1 Open Shortest Path First Protocol 144 -- 6.3.2 Intermediate System to Intermediate System Protocol 148 -- References 152 -- Abbreviations/Terminologies 152 -- Questions 153 -- Exercises 155 -- 7 Exterior Gateway Protocol 159 -- 7.1 Introduction 159 -- 7.1.1 Hosts vs Gateways 161 -- 7.1.2 Gateway?]to?]Gateway Protocol 162 -- 7.1.3 Autonomous System 163 -- 7.1.4 Characteristics of EGP 165 -- 7.2 Exterior Gateway Protocol 166 -- 7.2.1 Evolution of EGP Standards 166 -- 7.2.2 EGP Terminology and Topology 166 -- 7.2.3 EGP Operation Model 167 -- 7.3 Border Gateway Protocol 169 -- 7.3.1 Router Connectivity and Terminology 169 -- 7.3.2 Routing Information Base 181 -- 7.3.3 BGP Operation 182 -- 7.3.4 Decision Process 184 -- 7.3.5 Route Selection Process 185 -- References 188 -- Abbreviations/Terminologies 189 -- Questions 190 -- Exercises 191 -- Part IV Other Routing Contexts 195 -- 8 Routing in ATM Networks 197 -- 8.1 Introduction 197 -- 8.1.1 ATM Frames 199 -- 8.1.2 ATM Connection 199 -- 8.1.3 ATM Architecture 203 -- 8.1.4 Service Categories 204 -- 8.2 PNNI Routing 206 -- 8.2.1 PNNI Interface 207 -- 8.2.2 PNNI Hierarchy 207 -- 8.2.3 Building the Network Topology 209 -- 8.2.4 Peer Group Leader 210. 8.2.5 Advertizing Topology 211 -- 8.2.6 Setting up Connection 212 -- References 213 -- Abbreviations/Terminologies 213 -- Questions 214 -- Exercises 216 -- 9 Routing in Cellular Wireless Networks 219 -- 9.1 Introduction 219 -- 9.2 Basics of Cellular Wireless Networks 220 -- 9.3 Resource Allocation 229 -- 9.4 Routing in GSM Networks 231 -- 9.4.1 Architecture 232 -- 9.4.2 Call Routing 234 -- 9.5 Challenges in Mobile Computing 235 -- References 238 -- Abbreviations/Terminologies 240 -- Questions 241 -- Exercises 242 -- 10 Routing in Wireless Ad Hoc Networks 245 -- 10.1 Introduction 245 -- 10.1.1 Basics of Wireless Ad Hoc Networks 248 -- 10.1.2 Issues with Existing Protocols 256 -- 10.2 Table?]Driven (Proactive) Routing Protocols 258 -- 10.3 On?]Demand (Reactive) Routing Protocols 260 -- 10.4 Hybrid Routing Protocols 266 -- 10.5 Hierarchical Routing Protocols 267 -- 10.6 Geographic Routing Protocols 268 -- 10.7 Power?]Aware Routing Protocols 274 -- References 276 -- Abbreviations/Terminologies 278 -- Questions 280 -- Exercises 281 -- 11 Routing in Wireless Sensor Networks 285 -- 11.1 Basics of Wireless Sensor Networks 285 -- 11.1.1 Hardware Architecture of Sensor Node 287 -- 11.1.2 Network Topology 289 -- 11.1.3 Design Factors 290 -- 11.1.4 Classification of Routing Protocol 292 -- 11.2 Routing Challenges in Wireless Sensor Networks 293 -- 11.2.1 Self?]Healing Networks 295 -- 11.2.2 Security Threats 296 -- 11.3 Flat Routing Protocols 297 -- 11.4 Hierarchical Routing Protocols 303 -- 11.5 Location?]Based Routing Protocols 308 -- 11.6 Multipath Routing Protocols 310 -- 11.7 Query?]Based Routing Protocols 312 -- 11.8 Negotiation?]Based Routing Protocols 314 -- 11.9 QoS Routing Protocols 315 -- 11.9.1 Challenges 316 -- 11.9.2 Approach to QoS Routing 316 -- 11.9.3 Protocols 317 -- References 317 -- Abbreviations/Terminologies 321 -- Questions 322 -- Exercises 324 -- 12 Routing in 6LoWPAN 327 -- 12.1 Introduction 327 -- 12.1.1 IP for Smart Objects 328 -- 12.1.2 6LoWPAN 329. 12.1.3 ZigBee 330 -- 12.1.4 ZigBee vs 6LoWPAN 330 -- 12.2 6LoWPAN Fundamentals 331 -- 12.2.1 Architecture 332 -- 12.2.2 Header Format and Compression 332 -- 12.2.3 Network Topology 335 -- 12.2.4 Neighbor Discovery 335 -- 12.2.5 Routing 336 -- 12.3 Interoperability of 6LoWPAN 337 -- 12.4 Applications 338 -- 12.5 Security Considerations and Research Areas 341 -- References 342 -- Abbreviations/Terminologies 345 -- Questions 346 -- Exercises 348 -- Part V Advanced Concepts 349 -- 13 Security in Routing 351 -- 13.1 Introduction 351 -- 13.1.1 Network Sniffer 353 -- 13.1.2 Denial of Service Attack 357 -- 13.1.3 Social Engineering 358 -- 13.1.4 Packet Filtering 359 -- 13.2 Attack Surface 360 -- 13.2.1 Types of Attack Surface 361 -- 13.2.2 Attack Surface and System Resources 361 -- 13.2.3 Attack Surface Metric 362 -- 13.2.4 Reduction in Attack Surface 362 -- 13.3 Networked Battlefield 363 -- 13.4 Mobile Agents 365 -- 13.4.1 Architecture and Framework 368 -- 13.4.2 Life Cycle 369 -- 13.4.3 Challenges 370 -- 13.5 Cognitive Security 370 -- 13.5.1 Solution Concept 371 -- 13.5.2 Cognitive Capabilities 372 -- 13.5.3 General Capabilities 373 -- References 373 -- Abbreviations/Terminologies 374 -- Questions 375 -- Exercises 376 -- 14 Reliability and Fault?]Tolerant and Delay?]Tolerant Routing 377 -- 14.1 Fundamentals of Network Reliability 377 -- 14.1.1 Importance of Reliability Calculation 378 -- 14.1.2 Methods to Calculate the Reliability of a Network 379 -- 14.2 Fault Tolerance 390 -- 14.2.1 Fault?]Tolerant Network 394 -- 14.2.2 Autonomic Network 394 -- 14.3 Network Management for Fault Detection 398 -- 14.3.1 Traditional Network Management 399 -- 14.3.2 Mobile Agent 400 -- 14.3.3 Policy?]Based Network Management 401 -- 14.4 Wireless Tactical Networks 402 -- 14.5 Routing in Delay?]Tolerant Networks 403 -- 14.5.1 Applications 404 -- 14.5.2 Routing Protocols 404 -- References 405 -- Abbreviations/Terminologies 407 -- Questions 408 -- Exercises 409 -- Index 411. |
| Record Nr. | UNINA-9910820909503321 |
|
Misra Sudip
|
||
| Chichester, West Sussex, England : , : Wiley, , 2017 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||