Ultra Wideband Wireless Communication (Hardcover)
暫譯: 超寬頻無線通信 (精裝版)

Huseyin Arslan, Zhi Ning Chen, Maria-Gabriella Di Benedetto

Ultra Wideband Wireless Communication (Hardcover)

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An international panel of experts provide major research issues and a self-contained, rapid introduction to the theory and application of UWB

This book delivers end-to-end coverage of recent advances in both the theory and practical design of ultra wideband (UWB) communication networks. Contributions offer a worldwide perspective on new and emerging applications, including WPAN, sensor and ad hoc networks, wireless telemetry, and telemedicine. The book explores issues related to the physical layer, medium access layer, and networking layer.

Following an introductory chapter, the book explores three core areas:

  • Analysis of physical layer and technology issues
  • System design elements, including channel modeling, coexistence, and interference mitigation and control
  • Review of MAC and network layer issues, up to the application

Case studies present examples such as network and transceiver design, assisting the reader in understanding the application of theory to real-world tasks.

Ultra Wideband Wireless Communication enables technical professionals, graduate students, engineers, scientists, and academic and professional researchers in mobile and wireless communications to become conversant with the latest theory and applications by offering a survey of all important topics in the field. It also serves as an advanced mathematical treatise; however, the book is organized to allow non-technical readers to bypass the mathematical treatments and still gain an excellent understanding of both theory and practice.

 

Table of Contents

Preface.

Contributors.

Chapter 1 Introduction to Ultra Wideband (Hüseyin Arslan and Maria-Gabriella Di Benedetto)

1.1 Introduction.

1.2 Scope of the Book.

Chapter 2 UWB Channel Estimation and Synchronization (Irena Maravic and Martin Vetterli).

2.1 Introduction.

2.2 Channel Estimation at SubNyquist Sampling Rate.

2.3 Performance Evaluation.

2.4 Estimating UWB Channels with Frequency-Dependent Distortion.

2.5 Channel Estimation from Multiple Bands.

2.6 Low-Complexity Rapid Acquisition in UWB Localizers.

2.7 Conclusions.

Chapter 3 Ultra Wideband Geolocation (Sinan Gezici, Zafer Sahinoglu, Hisashi Kobayashi, and H. Vincent Poor).

3.1 Introduction.

3.2 Signal Model.

3.3 Positioning Techniques.

3.4 Main Sources of Error in Time-Based Positioning.

3.5 Ranging and Positioning.

3.6 Location-Aware Applications.

3.7 Conclusions.

Chapter 4 UWB Modulation Options (H&uUML;seyin Arslan, Ismail Güen&ccedil, and Sadia Ahmed).

4.1 Introduction.

4.2 UWB Signaling Techniques.

4.3 Data Mapping.

4.4 Spectral Characteristics.

4.5 Data Mapping and Transceiver Complexity.

4.6 Modulation Performances in Practical Conditions.

4.7 Conclusion.

Chapter 5 Ultra Wideband Pulse Shaper Design (Zhi Tian, Timothy N. Davidson, Xiliang Luo, Xianren Wu, and Georgios B. Giannakis).

5.1 Introduction.

5.2 Transmit Spectrum and Pulse Shaper.

5.3 FIR Digital Pulse Design.

5.4 Optimal UWB Single Pulse Design.

5.5 Optimal UWB Orthogonal Pulse Design.

5.6 Design Examples and Comparisons.

5.7 Conclusions.

Chapter 6 Antenna Issues (Zhi Ning Chen).

6.1 Introduction.

6.2 Design Considerations.

6.3 Antenna and Pulse versus BER Performance.

Chapter 7 Ultra Wideband Receiver Architectures (Hüseyin Arslan).

7.1 Introduction.

7.2 System Model.

7.3 UWB Receiver Related Issues.

7.4 TH-IR-UWB Receiver Options.

7.5 Conclusion.

Chapter 8 Ultra Wideband Channel Modeling and Its Impact on System Design (Chia-Chin Chong).

8.1 Introduction.

8.2 Principles and Background of UWB Multipath Propagation Channel Modeling.

8.3 Channel Sounding Techniques.

8.4 UWB Statistical-Based Channel Modeling.

8.5 Impact of UWB Channel on System Design.

8.6 Conclusion.

Chapter 9 MIMO and UWB (Thomas Kaiser).

9.1 Introduction.

9.2 Potential Benefits of MIMO and UWB.

9.3 Literature Review of UWB Multiantenna Techniques.

9.4 Spatial Channel Measurements and Modeling.

9.5 Spatial Multiplexing.

9.6 Spatial Diversity.

9.7 Beamforming.

9.8 Conclusion and Outlook.

Chapter 10 Multiple-Access Interference Mitigation in Ultra Wideband Systems (Sinan Gezici, Hisashi Kobayashi, and H. Vincent Poor).

10.1 Introduction.

10.2 Signal Model.

10.3 Multiple-Access Interference Mitigation at the Receiver Side.

10.4 Multiple-Access Interference Mitigation at the Transmitter Side.

10.5 Concluding Remarks.

Chapter 11 Narrowband Interference Issues in Ultra Wideband Systems (Hüseyin Arslan and Mustafa E. Sahin).

11.1 Introduction.

11.2 Effect of NBI in UWB Systems.

11.3 Avoiding NBI.

11.4 Canceling NBI.

11.5 Conclusion and Future Research.

Chapter 12 Orthogonal Frequency Division Multiplexing for Ultra Wideband Communications (Ebrahim Saberina and Ahmed H. Tewfik).

12.1 Introduction.

12.2 Multiband OFDM System.

12.3 Multiband Pulsed-OFDM UWB system.

12.4 Comparing MB-OFDM and MB-Pulsed-OFDM systems.

12.5 Conclusion.

Chapter 13 UWB Networks and Applications (Krishna M. Sivalingam and Aniruddha Rangnekar).

13.1 Introduction.

13.2 Background.

13.3 Medium Access Protocols.

13.4 Network Applications.

13.5 Summary and Discussion.

Acknowledgments.

Chapter 14 Low-Bit-Rate UWB Networks (Luca DeNardis and Gian Mario Maggio).

14.1 Low Data-Rate UWB Network Applications.

14.2 The 802.15.4 MAC Standard.

14.3 Advanced MAC Design for Low-Bit-Rate UWB Networks.

Chapter 15 An Overview of Routing Protocols for Mobile Ad Hoc Networks (David A. Sumy, Branimir Vojcic, and Jinghao Xu).

15.1 Introduction.

15.2 Ad Hoc Networks.

15.3 Routing in MANETs.

15.4 Proactive Routing.

15.5 Reactive Routing.

15.6 Power-Aware Routing.

15.7 Hybrid Routing.

15.8 Other.

15.9 Conclusion.

Appendix.

Chapter 16 Adaptive UWB Systems (Francesca Cuomo and Crishna Martello).

16.1 Introduction.

16.2 A Distributed Power-Regulated Admission Control Scheme for UWB.

16.3 Performance Analysis.

16.4 Summary.

Chapter 17 UWB Location and Tracking—A Practical Example of an UWB-Based Sensor Network (Ian Oppermann, Kegen Yu, Alberto Rabbachin, Lucian Stoica, Paul Cheong, Jean-Philippe Montillet, and Sakari Tiuraniemi).

17.1 Introduction.

17.2 Multiple Access in UWB Sensor Systems.

17.3 UWB Sensor Network Case Study.

17.4 System Description—UWEN.

17.5 System Implementation.

17.6 Location System.

17.7 Position Calculation Methods.

17.8 Tracking Moving Objects.

17.9 Conclusion.

Acknowledgments.

Index.

商品描述(中文翻譯)

**描述**

一個國際專家小組提供主要研究議題以及對超寬頻(UWB)理論和應用的自成體系、快速介紹。本書全面涵蓋了超寬頻通信網絡的理論和實際設計的最新進展。貢獻提供了對新興應用的全球視角,包括無線個人區域網(WPAN)、傳感器和臨時網絡、無線遙測和遠程醫療。本書探討了與物理層、中介訪問層和網絡層相關的問題。

在介紹章節之後,本書探討了三個核心領域:
- 物理層和技術問題的分析
- 系統設計要素,包括通道建模、共存和干擾緩解與控制
- MAC和網絡層問題的回顧,直至應用層

案例研究提供了網絡和收發器設計等示例,幫助讀者理解理論在現實任務中的應用。

《超寬頻無線通信》使技術專業人員、研究生、工程師、科學家以及移動和無線通信領域的學術和專業研究人員能夠熟悉最新的理論和應用,通過提供該領域所有重要主題的調查。它同時也是一本高級數學論文;然而,本書的組織方式使非技術讀者能夠跳過數學處理,仍然能夠很好地理解理論和實踐。

**目錄**

前言
貢獻者
**第1章 超寬頻介紹**(Hüseyin Arslan 和 Maria-Gabriella Di Benedetto)
1.1 介紹
1.2 本書範圍
**第2章 UWB通道估計與同步**(Irena Maravic 和 Martin Vetterli)
2.1 介紹
2.2 在子奈奎斯特取樣率下的通道估計
2.3 性能評估
2.4 估計具有頻率依賴失真的UWB通道
2.5 從多個頻段進行通道估計
2.6 UWB定位器中的低複雜度快速獲取
2.7 結論
**第3章 超寬頻地理定位**(Sinan Gezici, Zafer Sahinoglu, Hisashi Kobayashi 和 H. Vincent Poor)
3.1 介紹
3.2 信號模型
3.3 定位技術
3.4 基於時間的定位中的主要誤差來源
3.5 測距和定位
3.6 位置感知應用
3.7 結論
**第4章 UWB調變選項**(Hüseyin Arslan, Ismail Güenç 和 Sadia Ahmed)
4.1 介紹
4.2 UWB信號技術
4.3 數據映射
4.4 頻譜特性
4.5 數據映射和收發器複雜性
4.6 實際條件下的調變性能
4.7 結論
**第5章 超寬頻脈衝整形設計**(Zhi Tian, Timothy N. Davidson, Xiliang Luo, Xianren Wu 和 Georgios B. Giannakis)
5.1 介紹
5.2 發射頻譜和脈衝整形器
5.3 FIR數字脈衝設計
5.4 最佳UWB單脈衝設計
5.5 最佳UWB正交脈衝設計
5.6 設計示例和比較
5.7 結論
**第6章 天線問題**(Zhi Ning Chen)
6.1 介紹
6.2 設計考量
6.3 天線和脈衝與BER性能的比較
**第7章 超寬頻接收器架構**(Hüseyin Arslan)
7.1 介紹
7.2 系統模型
7.3 UWB接收器相關問題
7.4 TH-IR-UWB接收器選項
7.5 結論
**第8章 超寬頻通道建模及其對系統設計的影響**(Chia-Chin Chong)
8.1 介紹
8.2 UWB多徑傳播通道建模的原理和背景
8.3 通道探測技術
8.4 UWB統計基礎的通道建模
8.5 UWB通道對系統設計的影響
8.6 結論
**第9章 MIMO和UWB**(Thomas Kaiser)
9.1 介紹
9.2 MIMO和UWB的潛在好處
9.3 UWB多天線技術的文獻回顧
9.4 空間通道測量和建模
9.5 空間多路復用
9.6 空間多樣性
9.7 波束成形
9.8 結論與展望
**第10章 超寬頻系統中的多重接入干擾緩解**(Sinan Gezici, Hisashi Kobayashi 和 H. Vincent Poor)
10.1 介紹
10.2 信號模型
10.3 接收端的多重接入干擾緩解
10.4 發射端的多重接入干擾緩解
10.5 總結
**第11章 超寬頻系統中的窄帶干擾問題**(Hüseyin Arslan 和 Mustafa E. Sahin)
11.1 介紹
11.2 NBI在UWB系統中的影響
11.3 避免NBI
11.4 取消NBI
11.5 結論與未來研究
**第12章 超寬頻通信的正交頻分複用**(Ebrahim Saberina 和 Ahmed H. Tewfik)
12.1 介紹
12.2 多頻帶OFDM系統
12.3 多頻帶脈衝OFDM UWB系統
12.4 比較MB-OFDM和MB-Pulsed-OFDM系統
12.5 結論
**第13章 UWB網絡和應用**(Krishna M. Sivalingam 和 Aniruddha Rangnekar)
13.1 介紹
13.2 背景
13.3 媒介訪問協議
13.4 網絡應用
13.5 總結與討論
致謝
**第14章 低比特率UWB網絡**(Luca DeNardis 和 Gian Mario Maggio)
14.1 低數據速率UWB網絡應用
14.2 802.15.4 MAC標準
14.3 低比特率UWB網絡的先進MAC設計
**第15章 移動自組網路的路由協議概述**(David A. Sumy, Branimir Vojcic 和 Jinghao Xu)
15.1 介紹
15.2 自組網
15.3 MANET中的路由
15.4 主動路由
15.5 被動路由
15.6 考量功耗的路由
15.7 混合路由
15.8 其他
15.9 結論
附錄
**第16章 自適應UWB系統**(Francesca Cuomo 和 Crishna Martello)
16.1 介紹
16.2 一種分散式功率調節的UWB接入控制方案
16.3 性能分析
16.4 總結
**第17章 UWB定位與追蹤—UWB基礎的傳感器網絡的實際示例**(Ian Oppermann, Kegen Yu, Alberto Rabbachin, Lucian Stoica, Paul Cheong, Jean-Philippe Montillet 和 Sakari Tiuraniemi)
17.1 介紹

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