E-Book, Englisch, 298 Seiten
Reihe: Woodhead Publishing Series in Electronic and Optical Materials
Rodrigues Advances in Delay-tolerant Networks (DTNs)
1. Auflage 2014
ISBN: 978-0-85709-846-7
Verlag: Elsevier Science & Techn.
Format: EPUB
Kopierschutz: 6 - ePub Watermark
Architecture and Enhanced Performance
E-Book, Englisch, 298 Seiten
Reihe: Woodhead Publishing Series in Electronic and Optical Materials
ISBN: 978-0-85709-846-7
Verlag: Elsevier Science & Techn.
Format: EPUB
Kopierschutz: 6 - ePub Watermark
Autoren/Hrsg.
Weitere Infos & Material
1;Cover;1
2;Advances in Delay tolerant Networks (DTNs): Architecture and Enhanced Performance;4
3;Copyright;5
4;Contents;6
5;List of contributors;10
6;Woodhead Publishing Series in Electronic and Optical Materials;12
7;Preface;16
8;1 An introduction to delay and disruption tolerant networks (DTNs);20
8.1;1.1 Introduction;20
8.2;1.2 Delay-tolerant network architecture ;21
8.3;1.3 DTN application scenarios;24
8.4;1.4 DTN routing protocols;26
8.5;1.5 Conclusion;34
8.6;Acknowledgements;35
8.7;References;35
9;Part One Types of delay-tolerant networks (DTNs) ;42
9.1;2 Delay-tolerant networks (DTNs) for satellite communications;44
9.1.1;2.1 Introduction;44
9.1.2;2.2 DTN architecture;45
9.1.3;2.3 Geosynchronous (GEO) constellations;49
9.1.4;2.4 Low earth orbit (LEO) constellations;57
9.1.5;2.5 Conclusion;63
9.1.6;Acknowledgements;64
9.1.7;References;64
9.2;3 Delay-tolerant networks (DTNs) for deep-space communications;68
9.2.1;3.1 Introduction;68
9.2.2;3.2 Data communications in deep space ;68
9.2.3;3.3 Networking requirements for deep-space data;69
9.2.4;3.4 Implementing a deep-space DTN solution ;71
9.2.5;3.5 Summary;78
9.2.6;References;78
9.3;4 Vehicular delay-tolerant networks (VDTNs) ;80
9.3.1;4.1 Introduction;80
9.3.2;4.2 Vehicular network applications;81
9.3.3;4.3 Vehicular communications ;82
9.3.4;4.4 Vehicular delay-tolerant networks ;86
9.3.5;4.5 Conclusion;92
9.3.6;Acknowledgments;93
9.3.7;References;93
9.4;5 Delay-tolerant networks (DTNs) for underwater communications ;100
9.4.1;5.1 Introduction;100
9.4.2;5.2 Related work;102
9.4.3;5.3 A contemporary view of underwater delay-tolerant networks;114
9.4.4;5.4 Future trends;118
9.4.5;5.5 Conclusion;120
9.4.6;References;120
9.5;6 Delay-tolerant networks (DTNs) for emergency communications ;124
9.5.1;6.1 Introduction;124
9.5.2;6.2 Overview of proposed DTN solutions;126
9.5.3;6.3 Mobility models for emergency DTNs;128
9.5.4;6.4 DistressNet;130
9.5.5;6.5 Routing protocols for emergency DTNs;141
9.5.6;6.6 Minimizing energy consumption in emergency DTNs;146
9.5.7;6.7 Conclusions and future trends;151
9.5.8;References;153
10;Part Two Improving the performance of delay-tolerant networks (DTNs) ;156
10.1;7 Assessing the Bundle Protocol (BP) and alternative approaches to data bundling in delay-tolerant networks (DTNs) ;158
10.1.1;7.1 Introduction;158
10.1.2;7.2 DTN architecture and Bundle Protocol implementation profiles;160
10.1.3;7.3 Alternative approaches;165
10.1.4;7.4 Future trends;173
10.1.5;7.5 Sources of further information and advice;173
10.1.6;References;174
10.2;8 Opportunistic routing in mobile ad hoc delay-tolerant networks (DTNs);178
10.2.1;8.1 Introduction;178
10.2.2;8.2 Challenges;179
10.2.3;8.3 Overview of multiple existing opportunistic routing protocols in mobile ad hoc networks;180
10.2.4;8.4 Combining on-demand opportunistic routing protocols;188
10.2.5;8.5 Open research topics and future trends;188
10.2.6;8.6 Sources of further information and advice ;189
10.2.7;References;190
10.3;9 Reliable data streaming over delay-tolerant networks (DTNs) ;192
10.3.1;9.1 Introduction;192
10.3.2;9.2 Challenges for streaming support in DTNs;194
10.3.3;9.3 Using on-the-fly coding to enable robust DTN streaming;195
10.3.4;9.4 Evaluation of existing streaming proposals over a DTN network;197
10.3.5;9.5 Implementation discussion;201
10.3.6;9.6 Conclusion;202
10.3.7;References;203
10.4;10 Rapid selection and dissemination of urgent messages over delay-tolerant networks (DTNs);206
10.4.1;10.1 Introduction;206
10.4.2;10.2 One-to-many communication in resource-constrained environments;207
10.4.3;10.3 Random Walk Gossip (RWG);211
10.4.4;10.4 RWG and message differentiation;213
10.4.5;10.5 Evaluation with vehicular mobility models;214
10.4.6;10.6 Discussion;220
10.4.7;References;221
10.5;11 Using social network analysis (SNA) to design socially aware network solutions in delay-tolerant networks (DTNs);224
10.5.1;11.1 Introduction;224
10.5.2;11.2 Social characteristics of DTNs;225
10.5.3;11.3 Socialbased human mobility models;228
10.5.4;11.4 Socially aware data forwarding in DTNs;231
10.5.5;11.5 Conclusion;238
10.5.6;References;240
10.6;12 Performance issues and design choices in delay-tolerant network (DTN) algorithms and protocols ;244
10.6.1;12.1 Introduction;244
10.6.2;12.2 Performance metrics;245
10.6.3;12.3 Processing overhead;247
10.6.4;12.4 The curse of copying – I/O performance matters;250
10.6.5;12.5 Throughput;255
10.6.6;12.6 Latency and queuing;259
10.6.7;12.7 Discovery latency and energy issues;263
10.6.8;12.8 Conclusions;267
10.6.9;References;267
10.7;13 The quest for a killer app for delay-tolerant networks (DTNs);270
10.7.1;13.1 Introduction;270
10.7.2;13.2 The quest for a problem;270
10.7.3;13.3 DTN as an enabling technology;276
10.7.4;13.4 Conclusions and future trends;280
10.7.5;13.5 Sources of further information and advice ;280
10.7.6;References;281
11;Index;288
Woodhead Publishing Series in Electronic and Optical Materials
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J. E. Whitehouse 2 Signal processing in electronic communications: For engineers and mathematicians
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D. Luo 4 Digital filters and signal processing in electronic engineering: Theory, applications, architecture, code
S. M. Bozic and R. J. Chance 5 Cable engineering for local area networks
B. J. Elliott 6 Designing a structured cabling system to ISO 11801: Cross-referenced to European CENELEC and American Standards
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J. M. Blackledge 10 Nanolithography and patterning techniques in microelectronics
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Edited by G. Koster and G. Rijnders 23 Silicon-germanium (SiGe) nanostructures: Production, properties and applications in electronics
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Properties and applications
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