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Wimax Security And Quality Of Service - An End-To-End Perspective
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ISBN13:9780470721971
出版社:John Wiley & Sons Inc
作者:Tang
出版日:2010/07/09
裝訂/頁數:精裝/418頁
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:NT$ 5622 元優惠價
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作者簡介
目次
商品簡介
WiMAX is the first standard technology to deliver true broadband mobility at speeds that enable powerful multimedia applications such as Voice over Internet Protocol (VoIP), online gaming, mobile TV, and personalized infotainment. WiMAX Security and Quality of Service, focuses on the interdisciplinary subject of advanced Security and Quality of Service (QoS) in WiMAX wireless telecommunication systems including its models, standards, implementations, and applications. Split into 4 parts, Part A of the book is an end-to-end overview of the WiMAX architecture, protocol, and system requirements. Security is an essential element in the wireless world and Part B is fully dedicated to this topic. Part C provides an in depth analysis of QoS, including mobility management in WiMAX. Finally, Part D introduces the reader to advanced and future topics.
One of the first texts to cover security, QoS and deployments of WiMAX in the same book.
Introduces the primary concepts of the interdisciplinary nature of WiMAX security and QoS, and also includes discussion of hot topics in the field.
Written for engineers and researchers, answering practical questions from industry and the experimental field in academia.
Explains how WiMAX applications' security and QoS are interconnected and interworked among the cross layers.
One of the first texts to cover security, QoS and deployments of WiMAX in the same book.
Introduces the primary concepts of the interdisciplinary nature of WiMAX security and QoS, and also includes discussion of hot topics in the field.
Written for engineers and researchers, answering practical questions from industry and the experimental field in academia.
Explains how WiMAX applications' security and QoS are interconnected and interworked among the cross layers.
作者簡介
SEOK YEE TANG has specialized in wireless communications systems throughout her 23 year career, gaining research, practical, management and leadership experience for military, industry and academic applications. In recent years she has worked with a varied range of companies over three continents. Her wireless communications career started with servicing UHF and VHF and HF radio communications sets used for the communications link between the Air Communications Operations Officers and the Air Force Pilots. She also upheld several leadership positions in her military career. Besides her career in Singapore Air Force, she has also worked for Microwave Communication Inc (MCI) in United States. Other universities and companies she has worked for include Mobile Research Group in University of Surrey in United Kingdom, University of Puerto Rico, Institute of Infocomm Singapore, and NEC in United Kingdom. She has also been an active member of the Technical Program Committees for several international Wireless Communications conferences since 2005. Conferences that she has contributed to organizing include Globecom, VTC and Chinacom. In 2008 she left the corporate world and is presently a financial market trader and also an entrepreneur.
PETER MULLER joined the IBM Zurich Research Laboratory as a Research Staff Member in 1988, and was appointed the secretary of the IEEE Technical Committee on Communications and Information Systems Security in 2007. His research expertise covers a broad range of areas from information systems architecture and simulation techniques to device physics and nano-science. He holds a number of patents, has published more than 50 scientific articles, books, special journal issues and proceedings, as well as serving as a government counsel and chairing many international conferences and workshops.
DR. HAMID R. SHARIF is the Henson Distinguished Professor of the Computer and Electronics Engineering Department and the Director of Advanced Telecommunications Engineering Laboratory (TEL) at the University of Nebraska-Lincoln. His current research interests include protocols, security, OoS and performance evaluations in wireless communications and networks. He has authored and co-authored over 160 technical papers in major international journals and refereed conferences. He serves as Steering Committee member, Symposium Chair and General Co-Chair of many international conferences, and also contributes as the Editor, Associate Editor, or Editorial Board member for several journals. He is the Co-Editor-in-Chief of Wiley's Security and Communication Networks and a senior member of many professional organizations including IEEE. As the current Chapters Coordinator for IEEE Region 4, he is also the past Chair of the IEEE Nebraska Section and past President of the IEEE Nebraska Computer and Communications Societies.
PETER MULLER joined the IBM Zurich Research Laboratory as a Research Staff Member in 1988, and was appointed the secretary of the IEEE Technical Committee on Communications and Information Systems Security in 2007. His research expertise covers a broad range of areas from information systems architecture and simulation techniques to device physics and nano-science. He holds a number of patents, has published more than 50 scientific articles, books, special journal issues and proceedings, as well as serving as a government counsel and chairing many international conferences and workshops.
DR. HAMID R. SHARIF is the Henson Distinguished Professor of the Computer and Electronics Engineering Department and the Director of Advanced Telecommunications Engineering Laboratory (TEL) at the University of Nebraska-Lincoln. His current research interests include protocols, security, OoS and performance evaluations in wireless communications and networks. He has authored and co-authored over 160 technical papers in major international journals and refereed conferences. He serves as Steering Committee member, Symposium Chair and General Co-Chair of many international conferences, and also contributes as the Editor, Associate Editor, or Editorial Board member for several journals. He is the Co-Editor-in-Chief of Wiley's Security and Communication Networks and a senior member of many professional organizations including IEEE. As the current Chapters Coordinator for IEEE Region 4, he is also the past Chair of the IEEE Nebraska Section and past President of the IEEE Nebraska Computer and Communications Societies.
目次
Preface.
Acknowledgement.
List of Contributors.
List of Acronyms.
List of Figures.
List of Tables.
Part A Introduction.
1 Overview of End-to-End WiMAX Network Architecture (Dr Mohuya Chakraborty and Dr Debika Bhattacharyya).
1.1 Introduction.
1.2 Wireless Primer.
1.3 Introduction to WiMAX Technology.
1.4 Mobile WiMAX.
1.5 Overview of End-to-End WiMAX Network Architecture.
1.6 Radio Interface Specifications for WiMAX.
1.7 Interoperability Issues in WiMAX.
1.8 Summary.
Part B Security.
2 WiMAX Security Defined in 802.16 Standards (Slim Rekhis and Noureddine Boudriga).
2.1 Introduction.
2.2 Overview of 802.16 WMAN Networks.
2.3 Security Requirements for Broadband Access in WMAN Networks.
2.4 Security Mechanisms in Initial 802.16 Networks.
2.5 Analysis of Security Weaknesses in Initial Versions of 802.16.
2.6 Security Amendments in Recent Versions if IEEE 802.16.
2.7 Analysis of Security Weaknesses in 802.16e.
2.8 Further Reading.
2.9 Summary.
3 Key Management in 802.16e (Georgios Kambourakis and Stefanos Gritzalis).
3.1 Introduction.
3.2 Privacy Key Management Protocol.
3.3 PKM Version 1.
3.4 PKM Version 2.
3.5 Vulnerabilities and Countermeasures.
3.6 Comparisons with 802.11/UMTS.
3.7 Summary.
4 WiMAX Network Security (Luca Adamo, Romano Fantacci and Leonardo Maccari).
4.1 Introduction.
4.2 WiMAX Network Reference Model.
4.3 The RADIUS Server.
4.4 WiMAX Networking Procedures and Security.
4.5 Further Reading.
4.6 Summary.
Part C Quality of Service.
5 Cross-Layer End-to-End QoS Architecture: The Milestone of WiMAX (Floriano De Rango, Andrea Malfitano and Salvatore Marano).
5.1 Introduction.
5.2 QoS Definitions.
5.3 QoS Mechanisms Offered by IEEE 802.16.
5.4 What is Missing in the WiMAX Features?
5.5 Future Challenges.
5.6 Summary.
6 QoS in Mobile WiMAX (Neila Krichene and Noureddine Boudriga).
6.1 Introduction.
6.2 Architectural QoS Requirements.
6.3 Mobile WiMAX Service Flows.
6.4 Admission Control.
6.5 Scheduling Service.
6.6 Maintaining QoS During Handover.
6.7 Enhancing WiMAX QoS Issues: Research Work.
6.8 Further Reading.
6.9 Summary.
7 Mobility Management in WiMAX Networks (Ikbal Chammakhi Msadaa, Daniel Cˆamara and Fethi Filali).
7.1 Mobile WiMAX Architecture.
7.2 Horizontal Handover in 802.16e.
7.3 Optimized 802.16e Handover Schemes.
7.4 Vertical Handover.
7.5 Roaming.
7.6 Mobility Management in WiMESH Networks.
7.7 Conclusion.
7.8 Summary.
Part D Advanced Topics.
8 QoS Challenges in the Handover Process (Marina Aguado, Eduardo Jacob, Marion Berbineau and Ivan Lledo Samper).
8.1 Introduction.
8.2 Handover in WiMAX.
8.3 The IEEE802.16 Handover Process.
8.4 The Media Independent Handover Initiative – IEEE 802.21.
8.5 Enhancing the Handover Process.
8.6 Handover Scheduling.
8.7 Handover Performance Analysis.
8.8 Summary.
9 Resource Allocation in Mobile WiMAX Networks (Tara Ali Yahiya).
9.1 Introduction.
9.2 Background on IEEE 802.16e.
9.3 System Model.
9.4 OFDMA Key Principles–Analysis and Performance Characterizations.
9.5 Cross-Layer Resource Allocation in Mobile WiMAX.
9.6 Channel Aware Class Based Queue (CACBQ) – The Proposed Solution.
9.7 Summary and Conclusion.
10 QoS Issues and Challenges in WiMAX and WiMAX MMR Networks (Kiran Kumari, Srinath Narasimha and Krishna M. Sivalingam).
10.1 Introduction.
10.2 Multimedia Traffic.
10.3 Multimedia: WiFi versus WiMAX.
10.4 QoS Scheduling in WiMAX Networks.
10.5 Voice Traffic Scheduling in WiMAX.
10.6 Video Traffic Scheduling in WiMAX.
10.7 Introduction to WiMAX MMR Networks.
10.8 Scheduling in WiMAX MMR Networks.
10.9 Basic Wireless Scheduling Algorithms.
10.10 Scheduling Algorithms for WiMAX MMR Networks.
10.11 Further Reading.
10.12 Summary.
11 On the Integration of WiFi and WiMAX Networks (Tara Ali Yahiya and Hakima Chaouchi).
11.1 Introduction.
11.2 General Design Principles of the Interworking Architecture.
11.3 WiFi/Mobile WiMAX Interworking Architecture.
11.4 Network Discovery and Selection.
11.5 Authentication and Security Architecture.
11.6 Security in WiFi and WiMAX Networks.
11.7 Mobility Management.
11.8 Quality of Service Architecture.
11.9 Summary.
12 QoS Simulation and An Enhanced Solution of Cell Selection for WiMAX Network (Xinbing Wang, Shen Gu, Yuan Wu and Jiajing Wang).
12.1 Introduction.
12.2 WiMAX Simulation Tools – Overview.
12.3 QoS Simulation of WiMAX Network.
12.4 Analysis of QoS Simulation Results.
12.5 Enhancement – A New Solution of Cell Selection.
12.6 Summary.
References 363
Appendix List of Standards.
Index.
Acknowledgement.
List of Contributors.
List of Acronyms.
List of Figures.
List of Tables.
Part A Introduction.
1 Overview of End-to-End WiMAX Network Architecture (Dr Mohuya Chakraborty and Dr Debika Bhattacharyya).
1.1 Introduction.
1.2 Wireless Primer.
1.3 Introduction to WiMAX Technology.
1.4 Mobile WiMAX.
1.5 Overview of End-to-End WiMAX Network Architecture.
1.6 Radio Interface Specifications for WiMAX.
1.7 Interoperability Issues in WiMAX.
1.8 Summary.
Part B Security.
2 WiMAX Security Defined in 802.16 Standards (Slim Rekhis and Noureddine Boudriga).
2.1 Introduction.
2.2 Overview of 802.16 WMAN Networks.
2.3 Security Requirements for Broadband Access in WMAN Networks.
2.4 Security Mechanisms in Initial 802.16 Networks.
2.5 Analysis of Security Weaknesses in Initial Versions of 802.16.
2.6 Security Amendments in Recent Versions if IEEE 802.16.
2.7 Analysis of Security Weaknesses in 802.16e.
2.8 Further Reading.
2.9 Summary.
3 Key Management in 802.16e (Georgios Kambourakis and Stefanos Gritzalis).
3.1 Introduction.
3.2 Privacy Key Management Protocol.
3.3 PKM Version 1.
3.4 PKM Version 2.
3.5 Vulnerabilities and Countermeasures.
3.6 Comparisons with 802.11/UMTS.
3.7 Summary.
4 WiMAX Network Security (Luca Adamo, Romano Fantacci and Leonardo Maccari).
4.1 Introduction.
4.2 WiMAX Network Reference Model.
4.3 The RADIUS Server.
4.4 WiMAX Networking Procedures and Security.
4.5 Further Reading.
4.6 Summary.
Part C Quality of Service.
5 Cross-Layer End-to-End QoS Architecture: The Milestone of WiMAX (Floriano De Rango, Andrea Malfitano and Salvatore Marano).
5.1 Introduction.
5.2 QoS Definitions.
5.3 QoS Mechanisms Offered by IEEE 802.16.
5.4 What is Missing in the WiMAX Features?
5.5 Future Challenges.
5.6 Summary.
6 QoS in Mobile WiMAX (Neila Krichene and Noureddine Boudriga).
6.1 Introduction.
6.2 Architectural QoS Requirements.
6.3 Mobile WiMAX Service Flows.
6.4 Admission Control.
6.5 Scheduling Service.
6.6 Maintaining QoS During Handover.
6.7 Enhancing WiMAX QoS Issues: Research Work.
6.8 Further Reading.
6.9 Summary.
7 Mobility Management in WiMAX Networks (Ikbal Chammakhi Msadaa, Daniel Cˆamara and Fethi Filali).
7.1 Mobile WiMAX Architecture.
7.2 Horizontal Handover in 802.16e.
7.3 Optimized 802.16e Handover Schemes.
7.4 Vertical Handover.
7.5 Roaming.
7.6 Mobility Management in WiMESH Networks.
7.7 Conclusion.
7.8 Summary.
Part D Advanced Topics.
8 QoS Challenges in the Handover Process (Marina Aguado, Eduardo Jacob, Marion Berbineau and Ivan Lledo Samper).
8.1 Introduction.
8.2 Handover in WiMAX.
8.3 The IEEE802.16 Handover Process.
8.4 The Media Independent Handover Initiative – IEEE 802.21.
8.5 Enhancing the Handover Process.
8.6 Handover Scheduling.
8.7 Handover Performance Analysis.
8.8 Summary.
9 Resource Allocation in Mobile WiMAX Networks (Tara Ali Yahiya).
9.1 Introduction.
9.2 Background on IEEE 802.16e.
9.3 System Model.
9.4 OFDMA Key Principles–Analysis and Performance Characterizations.
9.5 Cross-Layer Resource Allocation in Mobile WiMAX.
9.6 Channel Aware Class Based Queue (CACBQ) – The Proposed Solution.
9.7 Summary and Conclusion.
10 QoS Issues and Challenges in WiMAX and WiMAX MMR Networks (Kiran Kumari, Srinath Narasimha and Krishna M. Sivalingam).
10.1 Introduction.
10.2 Multimedia Traffic.
10.3 Multimedia: WiFi versus WiMAX.
10.4 QoS Scheduling in WiMAX Networks.
10.5 Voice Traffic Scheduling in WiMAX.
10.6 Video Traffic Scheduling in WiMAX.
10.7 Introduction to WiMAX MMR Networks.
10.8 Scheduling in WiMAX MMR Networks.
10.9 Basic Wireless Scheduling Algorithms.
10.10 Scheduling Algorithms for WiMAX MMR Networks.
10.11 Further Reading.
10.12 Summary.
11 On the Integration of WiFi and WiMAX Networks (Tara Ali Yahiya and Hakima Chaouchi).
11.1 Introduction.
11.2 General Design Principles of the Interworking Architecture.
11.3 WiFi/Mobile WiMAX Interworking Architecture.
11.4 Network Discovery and Selection.
11.5 Authentication and Security Architecture.
11.6 Security in WiFi and WiMAX Networks.
11.7 Mobility Management.
11.8 Quality of Service Architecture.
11.9 Summary.
12 QoS Simulation and An Enhanced Solution of Cell Selection for WiMAX Network (Xinbing Wang, Shen Gu, Yuan Wu and Jiajing Wang).
12.1 Introduction.
12.2 WiMAX Simulation Tools – Overview.
12.3 QoS Simulation of WiMAX Network.
12.4 Analysis of QoS Simulation Results.
12.5 Enhancement – A New Solution of Cell Selection.
12.6 Summary.
References 363
Appendix List of Standards.
Index.
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