Pervasive Computing and Networking
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Persons
Professor Mohammad Obaidat, Monmouth University, USA
Mohammad Obaidat received his Ph.D. and M. S. degrees in Computer Engineering with a minor in Computer Science from The Ohio State University, Columbus, Ohio, USA. Dr. Obaidat is currently a full Professor of Computer Science at Monmouth University, NJ, USA. Among his previous positions are Chair of the Department of Computer Science and Director of the Graduate Program at Monmouth University and a faculty member at the City University of New York.
Professor Mieso Denko, University of Guelph, Canada
Mieso Denko received his MSc form the University of Wales, UK, and his PhD from the University of Natal, South Africa, both in Computer Science. Since November 2002, Dr. Denko has been with the Department of Computing and Information Science, Guelph, Ontario, Canada, where he is now an Associate Professor.
Dr. Isaac Woungang, Ryerson University, Canada
Isaac Woungang received his M.Sc and Ph.D degrees all in Mathematics from Université de la Méditerranée-Aix Marseille II, Luminy, France, and Université du Sud, Toulon-Var, France, in 1990 and 1994 respectively. In 1999, he received an M.A.Sc from the INRS-Énergie, Matériaux et Télécommunications, University of Quebec, Montreal, Canada. From 1999 to 2002, he worked as a Software engineer at Nortel Networks. Since 2002, he has been with the Department of Computer Science at Ryerson University.
Content
About the Editors
PART ONE PERVASIVE COMPUTING AND SYSTEMS
1 Introduction Mohammad S. Obaidat and Isaac Woungang
1.1 Pervasive Computing and Its Significance
1.2 Research Trends in Pervasive Computing and Networking
1.3 Scanning the Book
1.4 Target Audience
1.5 Supplementary Resources
1.6 Acknowledgments
References
2 Tools and Techniques for Dynamic Reconfiguration and Interoperability of Pervasive Systems Evens Jean, Sahra Sedigh, Ali R. Hurson, and Behrooz A. Shirazi
2.1 Introduction.
2.2 Mobile Agent Technology
2.3 Sensor Networks
2.4 Collaboration and Interoperability Among Sensor Networks
2.5 Applications
2.6 Conclusion
References
3 Models for Service and Resource Discovery in Pervasive Computing Mehdi Khouja, Carlos Juiz, Ramon Puigjaner, and Farouk Kamoun
3.1 Introduction
3.2 Service Oriented Architecture
3.3 Industry and Consortia Supported Models for Service Discovery
3.4 Research Initiatives in Service Discovery for Pervasive Systems
3.5 Conclusions
References
4 Pervasive Learning Tools and Technologies Neil Y. Yen, Qun Jin, Hiroaki Ogata, Timothy K. Shih, and Y. Yano
4.1 Introduction
4.2 Pervasive Learning: A Promising Innovative Paradigm
4.3 Emerging Technologies and Systems for Pervasive Learning
4.4 Integration of Real-World Practice and Experience with Pervasive Learning
4.5 Nature of Pervasive Learning and Provision of Well-Being in Education
4.6 Conclusion
References
5 Service Management in Pervasive Computing Environments Jiannong Cao, Joanna Siebert, and Vaskar Raychoudhury
5.1 Introduction
5.2 Service Management in Pervasive Computing Environments
5.3 Techniques for Service Management in PvCE
5.4 Service Composition
5.5 Conclusions
References
6 Wireless Sensor Cooperation for a Sustainable Quality of Information Abdelmajid Khelil, Christian Reinl, Brahim Ayari, Faisal Karim Shaikh, Piotr Szczytowski, Azad Ali, and Neeraj Suri
6.1 Introduction
6.2 Sensing the Real World
6.3 Inter-Sensor Cooperation
6.4 Mobile Sensor Cooperation
6.5 Cooperation Across Mobile Entities
6.6 Inter-WSN Cooperation
6.7 Conclusions and Future Research Directions
References
7 An Opportunistic Pervasive Networking Paradigm: Multi-Hop Cognitive Radio Networks Didem Gozupek and Fatih Alagoz
7.1 Introduction
7.2 Overview of Multi-Hop Cognitive Radio Networks MAC Layer
7.3 Proposed Mac Layer Protocols
7.4 Open Issues
7.5 Conclusions
References
8 Wearable Computing and Sensor Systems for Healthcare Franca Delmastro and Marco Conti
8.1 Introduction
8.2 The Health Body Area Network
8.3 Medical and Technological Requirements of Health Sensors
8.4 Wearable Sensors for Vital Signals Monitoring
8.5 Wearable Sensors for Activity Recognition
8.6 Sensors and Signals for Emotion Recognition
8.7 Intra-BAN Communications in Pervasive Healthcare Systems: Standards and Protocols
8.8 Conclusions
References
9 Standards and Implementation of Pervasive Computing Applications Daniel Cascado, Jose Luis Sevillano, Luis Fernandez-Luque, Karl Johan Grøttum, L. Kristian Vognild, and T. M. Burkow
9.1 Introduction
9.2 Wireless Technologies and Standards
9.3 Middleware
9.4 Case Studies
References
PART TWO PERVASIVE NETWORKING SECURITY.
10 Security and Privacy in Pervasive Networks Tarik Guelzim and Mohammad S. Obaidat
10.1 Introduction
10.2 Security Classics
10.3 Hardening Pervasive Networks
10.4 Privacy in Pervasive Networks
10.5 Conclusion
References
11 UnderstandingWormhole Attacks in Pervasive Networks Isaac Woungang, Sanjay Kumar Dhurandher, and Abhishek Gupta
11.1 Introduction
11.2 A Wormhole Attack
11.3 Severity of a Wormhole Attack
11.4 Background
11.5 Classification of Wormholes
11.6 Wormhole Attack Modes
11.7 Mitigating Wormhole Attacks
11.8 Discussion of Some Mitigating Solutions to Avoid Wormhole Attacks
11.9 Conclusion and Future Work
References
12 An Experimental Comparison of Collaborative Defense Strategies for Network Security Hao Chen and Yu Chen
12.1 Introduction
12.2 Background
12.3 Small-World Network Based Modeling Platform
12.4 Internet Worm Attack and Defense
12.5 Experiments and Performance Evaluation
12.6 Conclusions
References
13 Smart Devices, Systems and Intelligent Environments Joaquin Entrialgo and Mohammad S. Obaidat
13.1 Introduction
13.2 Smart Devices and Systems
13.3 Intelligent Environments
13.4 Trends
13.5 Limitations and Challenges
13.6 Applications and Case Studies
13.7 Conclusion
References
PART THREE PERVASIVE NETWORKING AND COMMUNICATIONS.
14 Autonomic and Pervasive Networking Thabo K. R. Nkwe, Mieso K. Denko, and Jason B. Ernst
14.1 Introduction
14.2 Ubiquitous/Pervasive Networks
14.3 Applying Autonomic Techniques to Ubiquitous/Pervasive Networks
14.4 Self-* (star) In Autonomic and Pervasive Networks
14.5 Autonomic and Pervasive Networking Challenges
14.6 Conclusions and Future Directions
References
15 An Adaptive Architecture of Service Component for Pervasive Computing Fei Li, Y. He, Athanasios V. Vasilakos, and Naixue Xiong
15.1 Introduction
15.2 Motivation
15.3 An Overview of the Delaying Adaptation Tool
15.4 Case Study
15.5 Related Work
15.6 Conclusions
References
16 On Probabilistic k-Coverage in Pervasive Wireless Sensor Networks Habib M. Ammari
16.1 Introduction
16.2 The Coverage Problem
16.3 Coverage Configuration Problem
16.4 Stochastic k-Coverage Protocol
16.5 Conclusion
References
17 On the Usage of Overlays to Provide QoS Over IEEE 802.11b/g/e Pervasive and Mobile Networks Luca Caviglione, Franco Davoli, and Piergiulio Maryni
17.1 Introduction
17.2 A Glance at P2P Overlay Networks and QoS Mechanisms
17.3 Design of Overlays to Support QoS
17.4 Performance Evaluation
17.5 Conclusions and Future Developments
Appendic I. The Distributed Algortihm for Bandwidth Management
References
18 Performance Evaluation of Pervasive Networks Based on WiMAX Networks Elmabruk Laias and Irfan Awan
18.1 Introduction
18.2 IEEE 802.16 Architecture and QoS Requirements
18.3 Related Work
18.4 Proposed QoS Framework
18.5 Simulation Experiments and Numerical Results
18.6 Summary
References
19 Implementation Frameworks for Mobile and Pervasive Networks Bilhanan Silverajan and Jarmo Harju
19.1 Introduction
19.2 Correlating Design to Implementations
19.3 Challenges for Implementation Frameworks
19.4 State of the Art in Implementation Frameworks
19.5 Current Frameworks Research for Network Protocols and Applications
19.6 Evaluating Frameworks and Implementations
19.7 Conclusion
References
Index
