Emad Hassan
Security and Data Reliability in Cooperative Wireless Networks
Emad Hassan
Security and Data Reliability in Cooperative Wireless Networks
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There is a resurgence of interest in the security of data transmission in wireless systems from physical layer point of view. To enhance the security and data reliability in cooperative wireless networks, this book provides new solutions for these problems.
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There is a resurgence of interest in the security of data transmission in wireless systems from physical layer point of view. To enhance the security and data reliability in cooperative wireless networks, this book provides new solutions for these problems.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 503
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 229mm x 155mm x 30mm
- Gewicht: 726g
- ISBN-13: 9780367571849
- ISBN-10: 0367571846
- Artikelnr.: 66597057
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 503
- Erscheinungstermin: 30. Juni 2020
- Englisch
- Abmessung: 229mm x 155mm x 30mm
- Gewicht: 726g
- ISBN-13: 9780367571849
- ISBN-10: 0367571846
- Artikelnr.: 66597057
Dr. Emad S. Hassan received his B.Sc. (Honors), M.Sc., and Ph.D. from Electronics and Electrical Communications Engineering Department, Faculty of Electronic Engineering, Menoufia University, Egypt, in 2003, 2006, and 2010, respectively. In 2008, he joined the Communications Research Group at Liverpool University, Liverpool, UK, as a Visitor Researcher to finish his Ph.D research. Now, he is a Lecturer at Electronics and Electrical Communications Engineering Department, Faculty of Electronic Engineering, Menoufia University, Egypt. Dr Hassan has been a full-time Demonstrator (2003-2006), Assistant Lecturer (2007-2010) at Faculty of Electronic Engineering, Menoufia University. He was a Visitor Researcher at Liverpool University, Liverpool, UK, (2008-2009), a Teaching Assistant at the University of Liverpool, UK (2008-2009), Lecturer (2010-date) at Faculty of Electronic Engineering, Menoufia University, and a part-time Lecturer at many respectable private engineering universities in Egypt (2010-2011). He co-supervises 6 M.Sc. and 1 PhD students, Faculty of Electronic Engineering, Menoufia University (2010-date). Dr Hassan is a reviewer for many international journals and conferences. He was a Technical Program Committee (TPC) member for many international conferences. He has published more than 60 scientific papers in national and international conference proceedings and journals and two books in CRC Press, Taylor & Francis. His current research areas of interest include image processing, digital communications, cooperative communication, cognitive radio networks, OFDM, SC-FDE, MIMO and CPM based systems.
Part 1: Security in Cooperative Wireless Networks. 1. Introduction. 2.
Overview of Cooperative Communications in Wireless Systems. 3. Physical
Layer Security in Wireless Networks. 4. A New Relay and Jammer Selection
Schemes for Secure One-Way Cooperative Networks. 5. Relay and Jammer
Selection Schemes for Improving Physical Layer Security in Two-Way
Cooperative Networks. Part 2: Security and Data Reliability in Wireless
Sensor Networks. 6. Overview of Sensor Networks. 7. Cooperative Hybrid
Self-Healing Randomized Distributed Scheme for Underwater Wireless Sensor
Network Security. 8. Self-Healilng Cluster Controlled Mobility of
Self-Healing Enhancement. 9. Self-Healing Single Flow Controlled Mobility
within a Cluster for Energy Aware Self-Healing. 10. Conclusion and Future
Work. Appendixes: MATLAB® Simulation Codes.
Overview of Cooperative Communications in Wireless Systems. 3. Physical
Layer Security in Wireless Networks. 4. A New Relay and Jammer Selection
Schemes for Secure One-Way Cooperative Networks. 5. Relay and Jammer
Selection Schemes for Improving Physical Layer Security in Two-Way
Cooperative Networks. Part 2: Security and Data Reliability in Wireless
Sensor Networks. 6. Overview of Sensor Networks. 7. Cooperative Hybrid
Self-Healing Randomized Distributed Scheme for Underwater Wireless Sensor
Network Security. 8. Self-Healilng Cluster Controlled Mobility of
Self-Healing Enhancement. 9. Self-Healing Single Flow Controlled Mobility
within a Cluster for Energy Aware Self-Healing. 10. Conclusion and Future
Work. Appendixes: MATLAB® Simulation Codes.
Part 1: Security in Cooperative Wireless Networks. 1. Introduction. 2.
Overview of Cooperative Communications in Wireless Systems. 3. Physical
Layer Security in Wireless Networks. 4. A New Relay and Jammer Selection
Schemes for Secure One-Way Cooperative Networks. 5. Relay and Jammer
Selection Schemes for Improving Physical Layer Security in Two-Way
Cooperative Networks. Part 2: Security and Data Reliability in Wireless
Sensor Networks. 6. Overview of Sensor Networks. 7. Cooperative Hybrid
Self-Healing Randomized Distributed Scheme for Underwater Wireless Sensor
Network Security. 8. Self-Healilng Cluster Controlled Mobility of
Self-Healing Enhancement. 9. Self-Healing Single Flow Controlled Mobility
within a Cluster for Energy Aware Self-Healing. 10. Conclusion and Future
Work. Appendixes: MATLAB® Simulation Codes.
Overview of Cooperative Communications in Wireless Systems. 3. Physical
Layer Security in Wireless Networks. 4. A New Relay and Jammer Selection
Schemes for Secure One-Way Cooperative Networks. 5. Relay and Jammer
Selection Schemes for Improving Physical Layer Security in Two-Way
Cooperative Networks. Part 2: Security and Data Reliability in Wireless
Sensor Networks. 6. Overview of Sensor Networks. 7. Cooperative Hybrid
Self-Healing Randomized Distributed Scheme for Underwater Wireless Sensor
Network Security. 8. Self-Healilng Cluster Controlled Mobility of
Self-Healing Enhancement. 9. Self-Healing Single Flow Controlled Mobility
within a Cluster for Energy Aware Self-Healing. 10. Conclusion and Future
Work. Appendixes: MATLAB® Simulation Codes.