Today, the internet and computer networking areessential parts of business, learning, and personal communications and entertainment. Virtually all messages or transactionssent over the internet are carried using internet infrastructure- based on advanced internet protocols. Advanced internet protocols ensure that both public and private networks operate with maximum performance, security,and flexibility. This book is intended to provide a comprehensive technical overview and survey of advanced internet protocols, first providing a solid introduction and going on todiscuss internetworking technologies, architectures and protocols. The book also showsapplication of the concepts in next generation networks anddiscusses protection and restoration, as well as various tunnelling protocols and applications.The bookends with a thoroughdiscussion of emerging topics.
Sprache
Verlagsort
Zielgruppe
Maße
Höhe: 250 mm
Breite: 150 mm
Dicke: 15 mm
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ISBN-13
978-1-118-18082-2 (9781118180822)
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Schweitzer Klassifikation
Eiji Oki , PhD, is an Associate Professor at the University of Electro-Communications in Tokyo and was the recipient of the IEEE's 2001 Asia-Pacific Outstanding Young Researcher Award. Roberto Rojas-Cessa , PhD, is an Associate Professor in the Department of Electrical and Computer Engineering at New Jersey Institute of Technology. Mallikarjun Tatipamula , PhD, is Head of Packet Technologies Research at Ericsson Silicon Valley. He has over twenty years of experience in the telecommunications/networking industry, with more than 100 published papers and patents. Christian Vogt is a Senior Marketing Manager at Ericsson Silicon Valley.
Preface xi Acknowledgments xv About the Authors xvii 1 Transmission Control Protocol/Internet Protocol Overview 1 1.1 Fundamental Architecture / 1 1.2 Internet Protocol Basics / 4 1.3 Routing / 13 2 Transport-Layer Protocols 19 2.1 Transmission Control Protocol / 19 2.2 User Datagram Protocol / 25 2.3 Stream Control Transmission Protocol / 26 2.4 Real-Time Transport Protocol / 29 3 Internet Architecture 31 3.1 Internet Exchange Point / 31 3.2 History of Internet Exchange Points / 33 3.3 Internet Service Provider Interconnection Relationships / 34 3.4 Peering and Transit / 35 4 IP Routing Protocols 39 4.1 Overview of Routing Protocols / 40 4.2 Routing Information Protocol / 43 4.3 Open Shortest Path First / 48 4.4 Border Gateway Protocol / 53 5 Multiprotocol Label Switching 59 5.1 Overview / 59 5.2 Functions and Mechanisms / 63 5.3 Applicabilities / 67 6 IP Quality Of Service 75 6.1 Introduction / 75 6.2 Quality of Service in IP Version 4 / 75 6.3 Integrated Services / 77 6.4 Differentiated Services / 81 6.5 Quality Of Service with Nested Differentiated Services Levels / 82 7 IP Multicast and Anycast 93 7.1 Addressing / 93 7.2 Multicast Routing / 96 7.3 Routing Protocols / 97 7.4 Anycasting / 102 7.5 IPv6 Anycast Routing Protocol: Protocol-Independent Anycast-Sparse Mode / 105 8 Layer-2 Transport over Packet 109 8.1 Draft-Martini Signaling and Encapsulation / 109 8.2 Layer-2 Tunneling Protocol / 114 9 Virtual Private Wired Service 123 9.1 Types of Private Wire Services / 123 9.2 Generic Routing Encapsulation / 130 9.3 Layer-2 Tunneling Protocol / 131 9.4 Layer-3 Virtual Private Network 2547bis, Virtual Router / 131 10 IP and Optical Networking 137 10.1 IP/Optical Network Evolution / 138 10.2 Challenges in Legacy Traditional IP/Optical Networks / 140 10.3 Automated Provisioning in IP/Optical Networks / 142 10.4 Control Plane Models for IP/Optical Networking / 144 10.5 Next-Generation MultiLayer Network Design Requirements / 147 10.6 Benefits and Challenges in IP/Optical Networking / 148 11 IP Version 6 151 11.1 Addresses in IP Version 6 / 152 11.2 IP Packet Headers / 154 11.3 IP Address Resolution / 155 11.4 IP Version 6 Deployment: Drivers and Impediments / 156 12 IP Traffic Engineering 163 12.1 Models of Traffic Demands / 163 12.2 Optimal Routing with Multiprotocol Label Switching / 165 12.3 Link-Weight Optimization with Open Shortest Path First / 169 12.4 Extended Shortest-Path-Based Routing Schemes / 173 13 IP Network Security 181 13.1 Introduction / 181 13.2 Detection of Denial-of-Service Attack / 182 13.3 IP Traceback / 187 13.4 Edge Sampling Scheme / 189 13.5 Advanced Marking Scheme / 193 14 Mobility Support for IP 197 14.1 Mobility Management Approaches / 199 14.2 Security Threats Related to IP Mobility / 205 14.3 Mobility Support in IPv6 / 213 14.4 Reactive Versus Proactive Mobility Support / 218 14.5 Relation to Multihoming / 219 14.6 Protocols Supplementing Mobility / 220 References / 231 Index 235
