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Networking is one of the most important aspects of Wireless Sensor Networks (WSNs). There are a variety of networking issues that must be addressed in order to realize the vision of WSNs, such as network architecture, medium access control, routing and data dissemination, topology control, node clustering, time synchronization, node localization, and fault tolerance. This book introduces to researchers, students, and practitioners the fundamental concepts, major issues, and state of the art solutions in the networking wireless sensors.
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Networking is one of the most important aspects of Wireless Sensor Networks (WSNs). There are a variety of networking issues that must be addressed in order to realize the vision of WSNs, such as network architecture, medium access control, routing and data dissemination, topology control, node clustering, time synchronization, node localization, and fault tolerance. This book introduces to researchers, students, and practitioners the fundamental concepts, major issues, and state of the art solutions in the networking wireless sensors.
Produktdetails
- Produktdetails
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 528
- Erscheinungstermin: 1. September 2009
- Englisch
- Abmessung: 235mm x 157mm x 32mm
- Gewicht: 807g
- ISBN-13: 9780470167632
- ISBN-10: 0470167637
- Artikelnr.: 26010030
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 528
- Erscheinungstermin: 1. September 2009
- Englisch
- Abmessung: 235mm x 157mm x 32mm
- Gewicht: 807g
- ISBN-13: 9780470167632
- ISBN-10: 0470167637
- Artikelnr.: 26010030
Jun Zheng, PhD, is a Professor with the School of Information Science and Engineering of the Southeast University, China. He has been involved in extensive research and development in the field of telecommunications engineering for many years. He is a technical editor of IEEE Communications Magazine and the online magazine IEEE Communications Surveys & Tutorials. He has coauthored one book and has published a number of technical papers in refereed journals, magazines, and conference proceedings. An award-winning scientist in the communications technology field, Dr. Zheng is a senior member of the IEEE. Abbas Jamalipour, PhD, is a Professor of Wireless Networking at the University of Sydney, Australia, where he is responsible for teaching and research in wireless data communication networks, wireless IP networks, network security, and cellular communications. He is the Editor in Chief of the IEEE Wireless Communications and technical editor of IEEE Communications Magazine and the International Journal of Communication Science. Dr. Jamalipour has authored or coauthored a dozen books and has published more than 190 papers in major journals and international conferences. He is a Fellow of the IEEE and Engineers Australia, as well as an IEEE Distinguished Lecturer.
Preface. Acknowledgments. About the Editors. Contributors. 1. INTRODUCTION
TO WIRELESS SENSOR NETWORKS (Jun Zheng and Abbas Jamalipour). 1.1 Overview
of Wireless Sensor Networks. 1.2 Technological Background. 1.3 Features of
This Book. 1.4 Organization of This Book. References. 2. NETWORK
ARCHITECTURES AND PROTOCOL STACK (Jun Zheng). 2.1 Introduction. 2.2 Network
Architectures for Wireless Sensor Networks. 2.3 Classifications of Wireless
Sensor Networks. 2.4 Protocol Stack for Wireless Sensor Networks. 2.5
Summary. References. 3. MEDIUM ACCESS CONTROL (Jun Zheng). 3.1
Introduction. 3.2 Fundamental MAC Protocols. 3.3 MAC Design for Wireless
Sensor Networks. 3.4 MAC Protocols for Wireless Sensor Networks. 3.5
Summary and Future Directions. References. 4. ROUTING AND DATA
DISSEMINATION (Sajal K. Das and Habib M. Ammari). 4.1 Introduction. 4.2
Fundamentals and Challenges. 4.3 Taxonomy of Routing and Data Dissemination
Protocols. 4.4 Overview of Routing and Data Dissemination Protocols. 4.5
Summary and Future Directions. 5. BROADCASTING, MULTICASTING, AND
GEOCASTING (Baoxian Zhang and Guoliang Xue). 5.1 Introduction. 5.3
Broadcasting Mechanisms. 5.4 Multicasting Mechanisms. 5.5 Geocasting
Mechanisms. 5.6 Summary and Future Directions. References. 6. NODE
CLUSTERING (Chao Zhang, Edwin Hou, and Nirwan Ansari). 6.1 Introduction.
6.2 Node Clustering Algorithms. 6.3 Node Clustering Algorithms for Wireless
Sensor Networks. 6.4 Summary and Future Directions. References. 7. QUERY
PROCESSING AND DATA AGGREGATION (Torsha Banerjee and Dharma P. Agrawal).
7.1 Introduction. 7.2 Query Processing in Wireless Sensor Networks. 7.3
Data Aggregation in Wireless Sensor Networks. 7.4 Summary and Future
Directions. References. 8. NODE LOCALIZATION (Nayef A. Alsindi and Kaveh
Pahlavan). 8.1 Introduction. 8.2 Concepts and Challenges of Node
Localization Technologies. 8.3 Ranging Techniques for Wireless Sensor
Networks. 8.4 Wireless Localization Algorithms. 8.5 Wireless Sensor Node
Localization. 8.6 Summary and Future Directions. References. 9. TIME
SYNCHRONIZATION (Fikret Sivrikaya and Bülent Yener). 9.1 Introduction. 9.2
Need for Synchronization in Wireless Sensor Networks. 9.3 Requirements of
Synchronization in Wireless Sensor Networks. 9.4 Synchronization Protocols
for Wireless Sensor Networks. 9.5 Summary and Future Directions.
References. 10. ENERGY EFFICIENCY AND POWER CONTROL (Nikolaos A. Pantazis
and Dimitrios D. Vergados). 10.1 Introduction. 10.2 Need for Energy
Efficiency and Power Control in Wireless Sensor Networks. 10.3 Passive
Power Conservation Mechanisms. 10.4 Active Power Conservation Mechanisms.
10.5 Summary. References. 11. TRANSPORT PROTOCOLS AND QUALITY OF SERVICE
(Chonggang Wang, Bo Li, and Kazem Sohraby). 11.1 Introduction. 11.2
Traditional Transport Protocols. 11.3 Transport Protocol Design for
Wireless Sensor Networks. 11.4 Transport Protocols for Wireless Sensor
Networks. 11.5 Summary and Future Directions. References. 12. NETWORK
SECURITY AND ATTACK DEFENSE (Yun Zhou and Yuguang Fang). 12.1 Introduction.
12.2 Confidentiality. 12.3 Integrity. 12.4 Authenticity. 12.5
Nonrepudiation. 12.6 Freshness. 12.7 Availability. 12.8 Intrusion
Detection. 12.9 Key Management. 12.10 Summary. Acknowledgements.
References. 13. SENSOR NETWORK STANDARDS (Stefano Chessa). 13.1
Introduction. 13.2 IEEE 802.15.4 Standard. 13.3 ZigBee Standard. 13.4
Summary. References. 14. FUTURE TRENDS IN WIRELESS SENSOR NETWORKS (Mehmet
Can Vuran, Dario Pompili, and Tommaso Melodia). 14.1 Introduction. 14.2
Wireless Multimedia Sensor Networks. 14.3 Wireless Sensor and Actor
Networks. 14.4 Sensor Network Applications in Challenging Environments.
14.5 Cross-Layer Design for Wireless Sensor Networks. 14.6 Summary.
Acknowledgements. References. Index.
TO WIRELESS SENSOR NETWORKS (Jun Zheng and Abbas Jamalipour). 1.1 Overview
of Wireless Sensor Networks. 1.2 Technological Background. 1.3 Features of
This Book. 1.4 Organization of This Book. References. 2. NETWORK
ARCHITECTURES AND PROTOCOL STACK (Jun Zheng). 2.1 Introduction. 2.2 Network
Architectures for Wireless Sensor Networks. 2.3 Classifications of Wireless
Sensor Networks. 2.4 Protocol Stack for Wireless Sensor Networks. 2.5
Summary. References. 3. MEDIUM ACCESS CONTROL (Jun Zheng). 3.1
Introduction. 3.2 Fundamental MAC Protocols. 3.3 MAC Design for Wireless
Sensor Networks. 3.4 MAC Protocols for Wireless Sensor Networks. 3.5
Summary and Future Directions. References. 4. ROUTING AND DATA
DISSEMINATION (Sajal K. Das and Habib M. Ammari). 4.1 Introduction. 4.2
Fundamentals and Challenges. 4.3 Taxonomy of Routing and Data Dissemination
Protocols. 4.4 Overview of Routing and Data Dissemination Protocols. 4.5
Summary and Future Directions. 5. BROADCASTING, MULTICASTING, AND
GEOCASTING (Baoxian Zhang and Guoliang Xue). 5.1 Introduction. 5.3
Broadcasting Mechanisms. 5.4 Multicasting Mechanisms. 5.5 Geocasting
Mechanisms. 5.6 Summary and Future Directions. References. 6. NODE
CLUSTERING (Chao Zhang, Edwin Hou, and Nirwan Ansari). 6.1 Introduction.
6.2 Node Clustering Algorithms. 6.3 Node Clustering Algorithms for Wireless
Sensor Networks. 6.4 Summary and Future Directions. References. 7. QUERY
PROCESSING AND DATA AGGREGATION (Torsha Banerjee and Dharma P. Agrawal).
7.1 Introduction. 7.2 Query Processing in Wireless Sensor Networks. 7.3
Data Aggregation in Wireless Sensor Networks. 7.4 Summary and Future
Directions. References. 8. NODE LOCALIZATION (Nayef A. Alsindi and Kaveh
Pahlavan). 8.1 Introduction. 8.2 Concepts and Challenges of Node
Localization Technologies. 8.3 Ranging Techniques for Wireless Sensor
Networks. 8.4 Wireless Localization Algorithms. 8.5 Wireless Sensor Node
Localization. 8.6 Summary and Future Directions. References. 9. TIME
SYNCHRONIZATION (Fikret Sivrikaya and Bülent Yener). 9.1 Introduction. 9.2
Need for Synchronization in Wireless Sensor Networks. 9.3 Requirements of
Synchronization in Wireless Sensor Networks. 9.4 Synchronization Protocols
for Wireless Sensor Networks. 9.5 Summary and Future Directions.
References. 10. ENERGY EFFICIENCY AND POWER CONTROL (Nikolaos A. Pantazis
and Dimitrios D. Vergados). 10.1 Introduction. 10.2 Need for Energy
Efficiency and Power Control in Wireless Sensor Networks. 10.3 Passive
Power Conservation Mechanisms. 10.4 Active Power Conservation Mechanisms.
10.5 Summary. References. 11. TRANSPORT PROTOCOLS AND QUALITY OF SERVICE
(Chonggang Wang, Bo Li, and Kazem Sohraby). 11.1 Introduction. 11.2
Traditional Transport Protocols. 11.3 Transport Protocol Design for
Wireless Sensor Networks. 11.4 Transport Protocols for Wireless Sensor
Networks. 11.5 Summary and Future Directions. References. 12. NETWORK
SECURITY AND ATTACK DEFENSE (Yun Zhou and Yuguang Fang). 12.1 Introduction.
12.2 Confidentiality. 12.3 Integrity. 12.4 Authenticity. 12.5
Nonrepudiation. 12.6 Freshness. 12.7 Availability. 12.8 Intrusion
Detection. 12.9 Key Management. 12.10 Summary. Acknowledgements.
References. 13. SENSOR NETWORK STANDARDS (Stefano Chessa). 13.1
Introduction. 13.2 IEEE 802.15.4 Standard. 13.3 ZigBee Standard. 13.4
Summary. References. 14. FUTURE TRENDS IN WIRELESS SENSOR NETWORKS (Mehmet
Can Vuran, Dario Pompili, and Tommaso Melodia). 14.1 Introduction. 14.2
Wireless Multimedia Sensor Networks. 14.3 Wireless Sensor and Actor
Networks. 14.4 Sensor Network Applications in Challenging Environments.
14.5 Cross-Layer Design for Wireless Sensor Networks. 14.6 Summary.
Acknowledgements. References. Index.
Preface. Acknowledgments. About the Editors. Contributors. 1. INTRODUCTION
TO WIRELESS SENSOR NETWORKS (Jun Zheng and Abbas Jamalipour). 1.1 Overview
of Wireless Sensor Networks. 1.2 Technological Background. 1.3 Features of
This Book. 1.4 Organization of This Book. References. 2. NETWORK
ARCHITECTURES AND PROTOCOL STACK (Jun Zheng). 2.1 Introduction. 2.2 Network
Architectures for Wireless Sensor Networks. 2.3 Classifications of Wireless
Sensor Networks. 2.4 Protocol Stack for Wireless Sensor Networks. 2.5
Summary. References. 3. MEDIUM ACCESS CONTROL (Jun Zheng). 3.1
Introduction. 3.2 Fundamental MAC Protocols. 3.3 MAC Design for Wireless
Sensor Networks. 3.4 MAC Protocols for Wireless Sensor Networks. 3.5
Summary and Future Directions. References. 4. ROUTING AND DATA
DISSEMINATION (Sajal K. Das and Habib M. Ammari). 4.1 Introduction. 4.2
Fundamentals and Challenges. 4.3 Taxonomy of Routing and Data Dissemination
Protocols. 4.4 Overview of Routing and Data Dissemination Protocols. 4.5
Summary and Future Directions. 5. BROADCASTING, MULTICASTING, AND
GEOCASTING (Baoxian Zhang and Guoliang Xue). 5.1 Introduction. 5.3
Broadcasting Mechanisms. 5.4 Multicasting Mechanisms. 5.5 Geocasting
Mechanisms. 5.6 Summary and Future Directions. References. 6. NODE
CLUSTERING (Chao Zhang, Edwin Hou, and Nirwan Ansari). 6.1 Introduction.
6.2 Node Clustering Algorithms. 6.3 Node Clustering Algorithms for Wireless
Sensor Networks. 6.4 Summary and Future Directions. References. 7. QUERY
PROCESSING AND DATA AGGREGATION (Torsha Banerjee and Dharma P. Agrawal).
7.1 Introduction. 7.2 Query Processing in Wireless Sensor Networks. 7.3
Data Aggregation in Wireless Sensor Networks. 7.4 Summary and Future
Directions. References. 8. NODE LOCALIZATION (Nayef A. Alsindi and Kaveh
Pahlavan). 8.1 Introduction. 8.2 Concepts and Challenges of Node
Localization Technologies. 8.3 Ranging Techniques for Wireless Sensor
Networks. 8.4 Wireless Localization Algorithms. 8.5 Wireless Sensor Node
Localization. 8.6 Summary and Future Directions. References. 9. TIME
SYNCHRONIZATION (Fikret Sivrikaya and Bülent Yener). 9.1 Introduction. 9.2
Need for Synchronization in Wireless Sensor Networks. 9.3 Requirements of
Synchronization in Wireless Sensor Networks. 9.4 Synchronization Protocols
for Wireless Sensor Networks. 9.5 Summary and Future Directions.
References. 10. ENERGY EFFICIENCY AND POWER CONTROL (Nikolaos A. Pantazis
and Dimitrios D. Vergados). 10.1 Introduction. 10.2 Need for Energy
Efficiency and Power Control in Wireless Sensor Networks. 10.3 Passive
Power Conservation Mechanisms. 10.4 Active Power Conservation Mechanisms.
10.5 Summary. References. 11. TRANSPORT PROTOCOLS AND QUALITY OF SERVICE
(Chonggang Wang, Bo Li, and Kazem Sohraby). 11.1 Introduction. 11.2
Traditional Transport Protocols. 11.3 Transport Protocol Design for
Wireless Sensor Networks. 11.4 Transport Protocols for Wireless Sensor
Networks. 11.5 Summary and Future Directions. References. 12. NETWORK
SECURITY AND ATTACK DEFENSE (Yun Zhou and Yuguang Fang). 12.1 Introduction.
12.2 Confidentiality. 12.3 Integrity. 12.4 Authenticity. 12.5
Nonrepudiation. 12.6 Freshness. 12.7 Availability. 12.8 Intrusion
Detection. 12.9 Key Management. 12.10 Summary. Acknowledgements.
References. 13. SENSOR NETWORK STANDARDS (Stefano Chessa). 13.1
Introduction. 13.2 IEEE 802.15.4 Standard. 13.3 ZigBee Standard. 13.4
Summary. References. 14. FUTURE TRENDS IN WIRELESS SENSOR NETWORKS (Mehmet
Can Vuran, Dario Pompili, and Tommaso Melodia). 14.1 Introduction. 14.2
Wireless Multimedia Sensor Networks. 14.3 Wireless Sensor and Actor
Networks. 14.4 Sensor Network Applications in Challenging Environments.
14.5 Cross-Layer Design for Wireless Sensor Networks. 14.6 Summary.
Acknowledgements. References. Index.
TO WIRELESS SENSOR NETWORKS (Jun Zheng and Abbas Jamalipour). 1.1 Overview
of Wireless Sensor Networks. 1.2 Technological Background. 1.3 Features of
This Book. 1.4 Organization of This Book. References. 2. NETWORK
ARCHITECTURES AND PROTOCOL STACK (Jun Zheng). 2.1 Introduction. 2.2 Network
Architectures for Wireless Sensor Networks. 2.3 Classifications of Wireless
Sensor Networks. 2.4 Protocol Stack for Wireless Sensor Networks. 2.5
Summary. References. 3. MEDIUM ACCESS CONTROL (Jun Zheng). 3.1
Introduction. 3.2 Fundamental MAC Protocols. 3.3 MAC Design for Wireless
Sensor Networks. 3.4 MAC Protocols for Wireless Sensor Networks. 3.5
Summary and Future Directions. References. 4. ROUTING AND DATA
DISSEMINATION (Sajal K. Das and Habib M. Ammari). 4.1 Introduction. 4.2
Fundamentals and Challenges. 4.3 Taxonomy of Routing and Data Dissemination
Protocols. 4.4 Overview of Routing and Data Dissemination Protocols. 4.5
Summary and Future Directions. 5. BROADCASTING, MULTICASTING, AND
GEOCASTING (Baoxian Zhang and Guoliang Xue). 5.1 Introduction. 5.3
Broadcasting Mechanisms. 5.4 Multicasting Mechanisms. 5.5 Geocasting
Mechanisms. 5.6 Summary and Future Directions. References. 6. NODE
CLUSTERING (Chao Zhang, Edwin Hou, and Nirwan Ansari). 6.1 Introduction.
6.2 Node Clustering Algorithms. 6.3 Node Clustering Algorithms for Wireless
Sensor Networks. 6.4 Summary and Future Directions. References. 7. QUERY
PROCESSING AND DATA AGGREGATION (Torsha Banerjee and Dharma P. Agrawal).
7.1 Introduction. 7.2 Query Processing in Wireless Sensor Networks. 7.3
Data Aggregation in Wireless Sensor Networks. 7.4 Summary and Future
Directions. References. 8. NODE LOCALIZATION (Nayef A. Alsindi and Kaveh
Pahlavan). 8.1 Introduction. 8.2 Concepts and Challenges of Node
Localization Technologies. 8.3 Ranging Techniques for Wireless Sensor
Networks. 8.4 Wireless Localization Algorithms. 8.5 Wireless Sensor Node
Localization. 8.6 Summary and Future Directions. References. 9. TIME
SYNCHRONIZATION (Fikret Sivrikaya and Bülent Yener). 9.1 Introduction. 9.2
Need for Synchronization in Wireless Sensor Networks. 9.3 Requirements of
Synchronization in Wireless Sensor Networks. 9.4 Synchronization Protocols
for Wireless Sensor Networks. 9.5 Summary and Future Directions.
References. 10. ENERGY EFFICIENCY AND POWER CONTROL (Nikolaos A. Pantazis
and Dimitrios D. Vergados). 10.1 Introduction. 10.2 Need for Energy
Efficiency and Power Control in Wireless Sensor Networks. 10.3 Passive
Power Conservation Mechanisms. 10.4 Active Power Conservation Mechanisms.
10.5 Summary. References. 11. TRANSPORT PROTOCOLS AND QUALITY OF SERVICE
(Chonggang Wang, Bo Li, and Kazem Sohraby). 11.1 Introduction. 11.2
Traditional Transport Protocols. 11.3 Transport Protocol Design for
Wireless Sensor Networks. 11.4 Transport Protocols for Wireless Sensor
Networks. 11.5 Summary and Future Directions. References. 12. NETWORK
SECURITY AND ATTACK DEFENSE (Yun Zhou and Yuguang Fang). 12.1 Introduction.
12.2 Confidentiality. 12.3 Integrity. 12.4 Authenticity. 12.5
Nonrepudiation. 12.6 Freshness. 12.7 Availability. 12.8 Intrusion
Detection. 12.9 Key Management. 12.10 Summary. Acknowledgements.
References. 13. SENSOR NETWORK STANDARDS (Stefano Chessa). 13.1
Introduction. 13.2 IEEE 802.15.4 Standard. 13.3 ZigBee Standard. 13.4
Summary. References. 14. FUTURE TRENDS IN WIRELESS SENSOR NETWORKS (Mehmet
Can Vuran, Dario Pompili, and Tommaso Melodia). 14.1 Introduction. 14.2
Wireless Multimedia Sensor Networks. 14.3 Wireless Sensor and Actor
Networks. 14.4 Sensor Network Applications in Challenging Environments.
14.5 Cross-Layer Design for Wireless Sensor Networks. 14.6 Summary.
Acknowledgements. References. Index.