Cooperation in Wireless Networks: Principles and Applications: Real Egoistic Behavior Is to Cooperate!

內容描述

Description 

Cooperation is known as an effective strategy in nature to
achieve individual or common goals by forming cooperative groups.

As the cross over between nature and engineering
has always been fruitful, Cooperation in Wireless Networks: Principles
and Applications advocates the use of cooperative strategies in the
field of wireless communications.
Whether to cooperate or act autonomously, i.e.,
in a more selfish manner, has to be decided by each wireless terminal
individually. Following the rule "The real egoistic behavior is to cooperate",
mutual aid among terminals will be applied if and only if it is beneficial for
all group members.
Cooperation in Wireless Networks:
Principles and Applications covers the underlying principles of
cooperative techniques as well as several applications demonstrating the use
of such techniques in practical systems. The work is written in a
collaborative manner by several authors from Asia, America, and Europe. Twenty
chapters introduce and discuss in detail the main cooperative strategies for
the whole communication protocol stack from the application layer down to the
physical layer. Furthermore power saving strategies, security, hardware
realization, and user scenarios for cooperative communication systems are
introduced and discussed. The book also summarizes the strength of cooperation
for upcoming generation of wireless communication systems, clearly motivating
the use of cooperative techniques and pointing out that cooperation will
become one of the key technologies enabling 4G and beyond. This book puts into
one volume a comprehensive and technically rich view of the wireless
communications scene from a cooperation point of view.
 
Table of
contents

Dedication. List of Figures. List of Tables.
Contributing Authors. Foreword. Foreword. Acknowledgments.
Preface.1. Cooperation in Nature and Wireless
Communications; Frank H. P. Fitzek and Marcos Katz. 1.
Basics of Cooperation. 2. The Prisoner’s Dilemma. 3. The Iterated Prisoner’s
Dilemma. 4. N–person Prisoner’s Dilemma. 5. Stimulating Cooperative Behavior.

1. Cooperation in Wireless Communication Systems. 7. Cooperative Principles in
   Wireless Communications: The Future. 8. Conclusion. References.2.
   Cooperative Communications; Arnab Chakrabarti, Ashutosh Sabharwal
   and Behnaam Aazhang. 1. Introduction. 2. A Brief History of Relaying. 3.
   Preliminaries of Relaying. 4. Relaying : Fundamental Limits. 5. Practical
   Strategies for Relaying Information. 6. Conclusion. References.3.
   Cooperation, Competition and Cognition in Wireless Networks;
   Oh-Soon Shin, Natasha Devroye, Patrick Mitran, Hideki Ochiai, Saeed S.
   Ghassemzadeh, H. T. Kung and Vahid Tarokh. 1. Introduction. 2.
   Cooperative Diversity. 3. Cooperative Beamforming. 4. Cognitive Radio. 5.
   Summary and Remarks. References.4. Cooperation Techniques in
   Cross-layer Design; Shuguang Cui and Andrea J. Goldsmith. 1.
   Introduction. 2. Cross-layer Design. 3. Node Cooperation in Wireless Networks.
2. Node Cooperation with Cross-layer Design. 5. Design Examples.
   References.5. Network Coding in Wireless Networks;
   Tracey Ho, Ralf Koetter, Desmond S. Lun, Muriel Médard and Niranjan
   Ratnakar.1. Introduction. 2. Model. 3. Distributed random network coding.
3. Cost minimization. 5. Further directions and results.
   References.6. Cooperative Diversity: Models, Algorithms, and
   Architectures; J. Nicholas Laneman. 1. Introduction. 2.
   Elements of Cooperative Diversity. 3. Cooperative Diversity in Existing
   Network Architectures. 4. Discussion and Future Directions.
   References.7. Cooperation in Ad-Hoc
   Networks; Petri Mähönen, Marina Petrova and Janne
   Riihijärvi. 1. Introduction. 2. Limits of Multihop. 3. Spectrum
   Cooperation. 4. Topology Aware Ad Hoc Networks. 5. Hybrid Networks and 4G. 6.
   Discussion and Conclusions. Acknowledgments. References. 8.
   Multi-route and Multi-user Diversity in Infrastructure-based Multi-hop
   Networks; Keivan Navaie and Halim Yanikomeroglu. 1.
   Introduction. 2. Multi-route Diversity and Multi-user Diversity. 3.
   Cooperative Induced Multi-user Diversity Routing for Multi-hop
   Infrastructurebased Networks with Mobile Relays. 4. Simulation Results. 5.
   Conclusion. References. 9. Cognitive Radio Architecture;
   Joseph Mitola III. 1. Introduction. 2. Architecture. 3. CRA I:
   Functions, Components and Design Rules. 4. CRA II: The Cognition Cycle. 5. CRA
   III: The Inference Hierarchy. 6. CRA IV: Architecture Maps. 7. CRA V: Building
   the CRA on SDR Architectures. 8. Commercial CRA. 9. Future Direction.
   References. 10 Stability and
   Security in Wireless Cooperative Networks; Konrad Wrona and Petri Mähönen. 1.
   Introduction. 2. Sustaining cooperation. 3. Dynamics of cooperative
   communication systems. 4. Conclusions and discussion. References.
4. Power Consumption and Spectrum Usage Paradigms in Cooperative
   Wireless Networks; Frank H. P. Fitzek, Persefoni Kyritsi and
   Marcos Katz. 1. Motivation. 2. System under Investigation. 3. Time
   Division Multiple Access Cooperation. 4. Orthogonal Frequency Division
   Multiple Access Cooperation.5. Conclusion. References.12.
   Cooperative Antenna Systems; Patrick C.F. Eggers, Persefoni
   Kyritsi and István Z. Kovács. 1. Introducing antenna cooperation. 2.
   Antenna systems and algorithms : foundations and principles. 3. Channel
   conditions, measurements and modeling : Practical channels. 4. Radio Systems :
   Performance investigation. 5. General conclusions on practical antenna
   cooperation. References.13. Distributed Antennas: The Concept of
   Virtual Antenna Arrays; Mischa Dohler and A. Hamid Aghvami.
5. Introduction. 2. Background & State-of-the-Art. 3. Basic Application
   Principles. 4. Closed-Form Capacity Expressions. 5. Resource Allocation
   Protocols. 6. Case Studies & Observations. References.14.
   Cooperation in 4G Networks; Marcos Katz and Frank H. P.
   Fitzek. 1. Introduction. 2. Defining 4G. 3. Cooperation Opportunities in
   4G. 4. Discussions and Conclusions. References.15. Cooperation in
   IEEE 802 Standards; Kathiravetpillai Sivanesan and David
   Mazzarese. 1. Introduction. 2. Mesh MAC enhancement in IEEE 802.11s. 3.
   Mesh mode operation in IEEE 802.15. 4. Mesh mode operation in IEEE 802.16. 5.
   Mobile multihop relay PHY/MAC enhancement for IEEE 802.16e. 6. Cognitive
   Radio/Spectrum sharing techniques in IEEE 802.22. 7. Conclusions.
   References.16. Cooperative Communication with Multiple Description
   Coding; Morten Holm Larsen, Petar Popovski and Søren Vang
   Andersen. 1. Introduction. 2. Multiple Description Coding (MDC) Basics.
6. Optimizing Multiple Description Coding for losses in the Cooperative
   Context. 4. MDC with Conditional Compression (MDC–CC). 5. Discussion. 6.
   Conclusion. References. 17. Cooperative Header
   Compression; Tatiana K. Madsen. 1. Header Compression
   Principles. 2. Cooperative Header Compression. 3. Application Fields of the
   Cooperative Header Compression. 4. Tradeoff between compression gain,
   robustness and bandwidth savings. 5. Conclusion. References.18.
   Energy Aware Task Allocation in Cooperative Wireless Networks;
   Anders Brodlos Olsen and Peter Koch. 1. Introduction. 2. Motivating
   Scenarios. 3. Energy aware computing in cooperative networks. 4. Modeling and
   simulating cooperative energy aware computing. 5. Effects of system
   parameters. 6. Summary. References.19. Cooperative
   Coding; Jerry C. H. Lin and Andrej Stefanov. 1.
   Introduction. 2. System Model. 3. Performance Analysis of Coded Cooperative
   OFDM Systems. 4. Simulation Results. 5. Conclusions. References.
7. Cooperative Methods for Spatial Channel Control;
   Yasushi Takatori. 1. Introduction. 2. Overview of SCC methods. 3. SCC
   with Multiple APs for High Density Hot Spots Scenario. 4. SCC with Multiple
   BSs for Multi-Cell Outdoor Systems. 5. Summary. References.
   Index.