Network Routing - Fundamentals, Applications, and Emerging Technologies

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Informationen zum Autor Dr Sudip Misra is an Associate Professor in the Department of Computer Science and Engineering at the Indian Institute of Technology, Kharagpur, India. Prior to this he was associated with Cornell University (USA), Yale University (USA), Nortel Networks (Canada), and the Government of Ontario (Canada). He received his PhD degree in Computer Science from Carleton University, Ottawa, Canada, and Master's and Bachelor's degrees, respectively, from the University of New Brunswick, Fredericton, Canada, and the Indian Institute of Technology, Kharagpur, India. Dr Misra has several years of experience working in academia, government, and the private sector in research, teaching, consulting, project management, software design, and product engineering roles. Dr Sumit Goswami is a scientist with the Defence Research and Development Organization (DRDO), Ministry of Defence, Government of India. He has worked in the field of information security, wide area networks, website hosting, network management, and information extraction. He gained his PhD degree and Master's degree in Computer Science and Engineering from the Indian Institute of Technology, Kharagpur, India. He also holds a Postgraduate Diploma in Journalism and Mass Communication, a Bachelor's Degree in Library and Information Science, and a BTech Degree in Computer Science and Engineering. Klappentext Network Routing: Fundamentals, Applications and Emerging Technologies serves as single point of reference for both advanced undergraduate and graduate students studying network routing, covering both the fundamental and more moderately advanced concepts of routing in traditional data networks such as the Internet, and emerging routing concepts currently being researched and developed, such as cellular networks, wireless ad hoc networks, sensor networks, and low power networks. Furthermore, QoS routing, and security and reliability are also discussed. Additionally, the book assesses the need for the different technologies, techniques and solutions for given problems in network routing, and provides model solutions.Apart for conventional network routing topics, certain sections in various chapters cover contemporary topics like challenges in mobile computing, interoperability and applications of low power wireless personal area network, network management, mobile agents, attack surface, tactical networks, and cognitive security.* Focuses on key concepts in different network technologies (e.g. the Internet, wireless ad hoc networks etc.)* Provides a single point of reference on network routing* Discusses techniques for given problems in network routing, and provides model solutions* Explores advanced concepts in network routing such as security and reliability and fault-tolerance* Includes an accompanying website containing PowerPoint slides and solutions to questions www.wiley.com/go/misra2204This book is unique. It deals with routing in multiple generations of communication -from NSFNet to IoT, passing through ATM, MPLS, ad hoc, cellular, and wireless sensor networks in-between. This will clearly have a differentiating value for the readers. The technology is changing at an unprecedented pace, and the modern-day networks are significantly different from how they looked just a decade ago. This has resulted in numerous design challenges, security concerns, mobile agents, network-centric operations, cognitive capabilities, and much more. This book is distinct as it touches significantly upon all communication technologies on the anvil for the near future, apart from its coverage of routing in past networks.Raj Jain, Fellow of IEEE, ACM, and AAAS,Barbara H and Jerome R Cox, Jr, Professor of Computer Science and Engineering, Washington University, St Louis, MO, USA Zusammenfassung Discusses the status of QoE research; reporting advances from various standardisation bodies (ITU, ETSI, IEEE, IE...

List of contents

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