Contents

Cover

Title Page

Copyright

Dedication

About the Editors

Afif Osseiran

Jose F. Monserrat

Werner Mohr

Preface

Goal and Objective of the Book

Structure of the Book

Background

Acknowledgements

List of Abbreviations

List of Contributors

Chapter 1: Introduction

1.1 Market and Technology Trends

1.2 Technology Evolution

1.3 Development of IMT-Advanced and Beyond

References

Chapter 2: Radio Resource Management

2.1 Overview of Radio Resource Management

2.2 Resource Allocation in IMT-Advanced Technologies

2.3 Dynamic Resource Allocation

2.4 Interference Coordination in Mobile Networks

2.5 Efficient MBMS Transmission

2.6 Future Directions of RRM Techniques

References

Chapter 3: Carrier Aggregation

3.1 Basic Concepts

3.2 ITU-R Requirements and Implementation in Standards

3.3 Evolution Towards Future Technologies

3.4 Cognitive Radio Enabling Dynamic/Opportunistic Carrier Aggregation

3.5 Implications for Signaling and Architecture

3.6 Hardware and Legal Limitations

References

Chapter 4: Spectrum Sharing

4.1 Introduction

4.2 Literature Overview

4.3 Spectrum Sharing with Game Theory

4.4 Spectrum Trading

4.5 Femtocells and Opportunistic Spectrum Usage

4.6 Conclusion, Discussion and Future Research

References

Chapter 5: Multiuser MIMO Systems

5.1 MIMO Fundamentals

5.2 MIMO in LTE-Advanced and 802.16m

5.3 Generic Linear Precoding with CSIT

5.4 CSI Acquisition for Multiuser MIMO

5.5 Future Directions of MIMO Techniques

References

Chapter 6: CoordinatedMultiPoint (CoMP) Systems

6.1 Overview of CoMP

6.2 CoMP in the Standardization Bodies

6.3 Generic System Model for Downlink CoMP

6.4 Joint Processing Techniques

6.5 Coordinated Beamforming and Scheduling Techniques

6.6 Practical Implementation of CoMP in a Trial Environment

6.7 Future Directions

References

Chapter 7: Relaying for IMT-Advanced

7.1 An Overview of Relaying

7.2 Relaying in the Standard Bodies

7.3 Comparison of Relaying and CoMP

7.4 In-band RNs versus Femtocells

7.5 Cooperative Relaying for Beyond IMT-Advanced

7.6 Relaying for beyond IMT-Advanced

References

Chapter 8: Network Coding in Wireless Communications

8.1 An Overview of Network Coding

8.2 Uplink Network Coding

8.3 Nonbinary Network Coding

8.4 Network Coding for Broadcast and Multicast

8.5 Conclusions and Future Directions

References

Chapter 9: Device-to-Device Communication

9.1 Introduction

9.2 State of the Art

9.3 Device-to-Device Communication as Underlay to Cellular Networks

9.4 Future Directions

References

Chapter 10: The End-to-end Performance of LTE-Advanced

10.1 IMT-Advanced Evaluation: ITU Process, Scenarios and Requirements

10.2 Short Introduction to LTE-Advanced Features

10.3 Performance of LTE-Advanced

10.4 Channel Model Implementation and Calibration

10.5 Simulator Calibration

10.6 Conclusion and Outlook on the IMT-Advanced Process

References

Chapter 11: Future Directions

11.1 Radio Resource Allocation

11.2 Heterogeneous Networks

11.3 MIMO and CoMP

11.4 Relaying and Network Coding

11.5 Device-to-Device Communications

11.6 Green and Energy Efficiency

References

Appendices

Appendix A: Resource Allocation

A.1 Dynamic Resource Allocation

A.2 Multiuser Resource Allocation

A.3 Busy Burst Extended to MIMO

A.4 Efficient MBMS Transmission

Appendix B: Spectrum Awareness

B.1 Spectrum Sensing

B.2 Geo-Location Databases

B.3 Beacon Signaling

Appendix C: CoordinatedMultiPoint (CoMP)

C.1 Joint Processing Methods

C.2 Coordinated Beamforming and Scheduling

C.3 Test-Bed: Distributed Realtime Implementation

Appendix D: Network Coding

D.1 Nonbinary NC based on UE Cooperation

D.2 Multiuser and Multirelay Scenario

Appendix E: LTE-Advanced Analytical Performance and Peak Spectral Efficiency

E.1 Analytical and Inspection Performance Assessment by WINNER+

E.2 Peak Spectral Efficiency Calculation

References

Index