《多点协作通信系统--理论与应用(英文版)(精)》由丁铭、罗汉文所著，本书对多点协作通信技术中的关键问题进行了深入研究和论述，分理论研究与实际应用两部分。本书将对于国内外多点协作通信技术领域的最新研究动态进行系统性阐述与分析，并对感知干扰情况下的多点协作通信中的关键技术进行研究。

现代无线移动通信系统具有两个显著的特点，一是宽带高速率，二是移动互联，这对无线移动通信技术提出了许多挑战。多点协作通信技术是应对这些挑战的最有效技术之一，因而成为了现代移动通信领域的研究热点。

《多点协作通信系统--理论与应用(英文版)(精)》由丁铭、罗汉文所著，本书对多点协作通信技术中的关键问题进行了深入研究和论述，分理论研究与实际应用两部分。其中，第二章是全书的灵魂，将国内外在多点协作通信技术领域的研究动态分为八类进行系统性的阐述与分析，并对感知干扰情况下的多点协作通信中的关键技术进行了研究，属于第四代无线移动通信系统以及未来无线移动通信系统的范畴。

《多点协作通信系统--理论与应用(英文版)(精)》论述全面，条理清楚，含有大量理论分析和计算机仿真结果，具有重要的理论意义和应用前景，对该领域的学者和学生具有较高的参考价值。

Chapter 1 Introduction

1.1 A Brief History of the International Mobile

   Telecommunication Systems

1.2 The Future of Wireless Communication: The Enhanced

   4G Network

    1.2.1 Challenges in the Next Decade

    1.2.2 Development Requirements

    1.2.3 Key Technologies

1.3 Background of Multipoint Cooperative Communication

1.4 Scope of This Book

1.5 Book Outline

1.6 Conclusion

References

Chapter 2 Related Work

2.1 Fundamentals of Wireless Digital Communication

    2.1.1 What Form of Communication

    2.1.2 How to Communicate

    2.1.3 When/Where to Communicate

2.2 OFDM Technology

2.3 MIMO Technology

    2.3.1 Capacity of a MIMO System

    2.3.2 Space-Time Block Codes

    2.3.3 Antenna Array Gain

    2.3.4 MIMO-OFDM Technology

 2.4 Relay Technology

    2.4.1 Relaying Protocols

    2.4.2 One-Way MIMO Relay Technology

    2.4.3 Two-Way MIMO Relay Technology

 2.5 MultiuserMIMO Technology

    2.5.1 System Model

   2.5.2 MUMAC Model

   2.5.3 MU BC Model

   2.5.4 Duality of the MAC and BC Capacity Regions

   2.5.5 MU MIMO Schemes in Practical Systems

  2.6 CSI Feedback Technology

  2.7 Survey of Multipoint Cooperative Communication Technologies

   2.7.1 The First Category of Multipoint Cooperative

       Communication

   2.7.2 The Second Category of Multipoint Cooperative

       Communication

   2.7.3 The Third Category of Multipoint Cooperative

       Commumcation

   2.7.4 The Fourth Category of Multipoint Cooperative

       Communication

   2.7.5 The Fifth Category of Multipoint Cooperative

       Communication

   2.7.6 The Sixth Category of Multipoint Cooperative

       Communication

   2.7.7 The Seventh Category of Multipoint Cooperative

       Commumcation

   2.7.8 The Eighth Category of Multipoint Cooperative

       Commumcation

  2.8 Conclusion

References

Chapter 3 The Sixth Category: Antenna Selection Technologies

3.1 Introduction

3.2 System Model and Existing Technologies

   3.2.1 System Model

   3.2.2 Existing Technologies

3.3 Greedy Antenna Selection Algorithms

   3.3.1 Capacity Maximization for the System

        with Double ZF Processing

   3.3.2 Capacity Maximization for System with General

        Processing

   3.3.3 MSE Minimization for the System with General

        Processing

3.4 Simulation and Analysis

    3.4.1 The Proposed DZF-GCM Algorithm

    3.4.2 The Proposed GCM Algorithm

    3.4.3 The Proposed GMM Algorithm

3.5 Conclusion

References

Chapter 4 The Seventh Category: Advanced Interference

      Coordination

  4.1 Introduction

  4.2 System Model and Existing Technologies

   4.2.1 System Model

   4.2.2 Existing Technologies

  4.3 Advanced Interference Coordination Scheme

   4.3.1 Overall Description of the Proposed Scheme

   4.3.2 Implementation Details of the Proposed Scheme

  4.4 Simulation and Analysis

   4.4.1 Methodology of the System-Level Simulation

   4.4.2 Simulation Parameters

   4.4.3 Implementation Details in the Simulation

   4.4.4 Numerical Results and Discussions

  4.5 Conclusion

  References

Chapter 5 The Eighth Category: Joint Precoding with Ideal

      Backhaul

5.1 Introduction

5.2 System Model and Existing Technologies

   5.2.1 System Model

   5.2.2 Existing Technologies

5.3 Enhanced Single-Frequency Network Precoding Scheme

   5.3.1 The Proposed AS-SFNP Scheme

   5.3.2 Analytical Results for the Sing!e-Antenna UE

5.4 Simulation and Analysis

5.5 Conclusion

References

Chapter 6 The Eighth Category: Sequential and Incremental

      Precoding with Nonideal Backhaul

6.1 Introduction

6.2 System Model and Existing Technologies

   6.2.1 System Model

   6.2.2 Existing Technologies

6.3 Sequential and Incremental Precoding Scheme

   6.3.1 Precoder Design for the Two-BS JT Network

   6.3.2 Extension to the Multi-BS Scenario

   6.3.3 The SIP Scheme with Codebook-based Feedback

    6.3.4 Extension to the Multi-UE Scenario

6.4 Simulation and Analysis

    6.4.1 Convergence of the SIP Scheme

    6.4.2 Performance of the Mean of the Maximum

        of Sub-stream MSE

    6.4.3 Performance of Average BER

   6.4.4 Performance of the Extended SIP Scheme

   6.4.5 Performance with Codebook-basedFeedback

  6.5 Conclusion

  References

Chapter 7 Coordinated Multipoint System

  7.1 Introduction

7.2 Standardization Progress

   7.2.1 The Failed Campaign of CoMP in LTE Release 10

   7.2.2 CSI Feedback for Single-Cell MIMO in LTE Release

       8/9/10

   7.2.3 The Renewed Campaign of CoMP in LTE Release 11

7.3 CoMP Schemes in LTE Release 11

   7.3.1 Downlink CoMP Transmission Schemes

   7.3.2 UplinkCoMP Reception Schemes

7.4 Specification Works

7.5 Simulation and Analysis

7.6 Conclusion

References

Chapter 8 Common Feedback Framework for Downlink CoMP

8.1 Introduction ~

8.2 Candidates of Common Feedback Framework

    8.2.1 CFF Option Matrix

    8.2.2 Discussions on CFF Options

    8.2.3 Co-phaseVersus AggregatedCQI

8.3 Performance Evaluation

    8.3.1 Simulation Description

    8.3.2 Performance Comparison

8.4 The Final Winner of CFF

8.5 Conclusion

References

Chapter 9 Conclusion

9.1 Key Points of This Book

9.2 Toward the Future

9.3 Conclusion

References