An edition of Ultra-Wideband Communications (2005)

Ultra-Wideband Communications

Fundamentals and Applications

by Faranak Nekoogar

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November 18, 2022 | History

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An edition of Ultra-Wideband Communications (2005)

Ultra-Wideband Communications

Fundamentals and Applications

by Faranak Nekoogar

0 Ratings
0 Want to read
0 Currently reading
0 Have read

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Publish Date

2006

Publisher

Prentice Hall Professional Technical Reference, Prentice Hall PTR

Language

English

Pages

213

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Previews available in: English

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Edition	Availability
1 Ultra-Wideband Communications: Fundamentals and Applications 2006, Prentice Hall Professional Technical Reference, Prentice Hall PTR in English 0131463268 9780131463264	aaaa Borrow Listen Libraries near you: WorldCat
2 Ultra-Wideband Communications: Fundamentals and Applications (Prentice Hall Communications Engineering and Emerging Technologies Series) August 31, 2005, Prentice Hall PTR Hardcover in English 0131463268 9780131463264	zzzz Not in Library Libraries near you: WorldCat
3 Ultra-Wideband Communications: Fundamentals and Applications 2005, Pearson Education, Limited in English 0132782235 9780132782234	zzzz Not in Library Libraries near you: WorldCat
4 Ultra-Wideband Communications: Fundamentals and Applications (Prentice Hall Communications Engineering and Emerging Technologies Series) August 31, 2005, Prentice Hall PTR in English 0131463268 9780131463264	zzzz Not in Library Libraries near you: WorldCat

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Book Details

First Sentence

"Ultra-wideband (UWB) radios are expected to play a revolutionary role in the future of wireless communications systems."

Preface Page xiii

Acknowledgements Page xvii

About the Author Page xix

Chapter 1. Indroduction to Ultra-Wideband Communications Page 1 1.1. Introduction Page 1 1.2. History and Background Page 2 1.3. UWB Concepts Page 4 1.4. UWB Signals Page 7 1.5. Advantages Page 9 1.5.1. Ability to Share the Frequency Spectrum Page 9 1.5.2. Large Channel Capacity Page 10 1.5.3. Ability to Work with Low Signal-to-Noise Ratios Page 11 1.5.4. Low Probability of Intercept and Detection Page 11 1.5.5. Resistance to Jamming Page 12 1.5.6. High Performance in Multipath Channels Page 12 1.5.7. Superior Penetration Properties Page 14 1.5.8. Simple Transceiver Architecture Page 15 1.6. Challenges Page 17 1.6.1. Pulse-Shape Distortion Page 17 1.6.2. Channel Estimation Page 18 1.6.3. High-Frequency Synchronization Page 18 1.6.4. Multiple-Access Interference Page 19 1.7. Differences Between UWB and Spread Spectrum Page 20 1.7.1. Direct-Sequence Spread Spectrum Page 21 1.7.2. Frequency-Hopping Spread Spectrum Page 21 1.7.3. The Essential Differences Page 22 1.8. Single Band vs. Multiband Page 24 1.8.1. Direct-Sequence UWB Page 25 1.8.2. Multiband OFDM Page 26 1.9. The Regulatory Situation Page 27 1.9.1. Current FCC Regulations Page 27 1.9.2. Worldwide Regulatory Effects Page 29 1.10. FCC Emmision Limits Page 31 1.10.1. Communications Devices Page 31 1.10.2. Imaging Devices Page 33 1.10.3. Vehicular Radar Systems Page 34 1.11. UWB Applications Page 36 1.12. Summary Page 39 References Page 40 Bibliography Page 41 Chapter 2. UWB Sources and Antennas Page 45 2.1. Introduction Page 45 2.2. UWB Pulse Generation Page 46 2.2.1. Tunnel Diodes Page 47 2.2.2. Step Recovery Diodes Page 47 2.2.3. Drift Step Recovery Diodes Page 49 2.2.4. UWB Pulse Shaping Page 50 2.3. UWB Antennas Page 51 2.3.1. UWB Antenna Concepts Page 53 2.3.2. System and Network Considerations for UWB Antennas Page 56 2.4. Sumary Page 65 References Page 66 Bibliography Page 68 Chapter 3. Pulse-Detenction and Multiple-Access Techniques Page 69 3.1. Introduction Page 69 3.2. Conventional Pulse-Detection Techniques Page 70 3.2.1. Energy Detectors Page 70 3.2.2. Classical Matched Filters Page 71 3.3. Pulse Modulation and Detection Techniques Page 74 3.3.1. On-Off Keying Page 74 3.3.2. Pulse-Amplitude Modulation Page 75 3.3.3. Pulse-Position Modulation Page 77 3.3.4. Biphase Modulation Page 79 3.3.5. Transmitted-Reference Modulation Page 80 3.4. UWB Multiple-Access Techniques Page 88 3.4.1. Pulse-Position Modulation with Time Hopping Page 91 3.4.2. Delay-Hopped Transmitted-Reference Modulation Page 93 3.5. Summary Page 94 References Page 95 Bibliography Page 96 Chapter 4. Interference Issues Page 99 4.1. Introduction Page 99 4.2. Interference Effects on IEEE 802.11a/b WLANs Page 101 4.2.1. Interference Model Page 102 4.2.2. WLAN Cell Coverage Page 105 4.2.3. UWB Emmission Limits in the IEEE 802.11a/b Band Page 113 4.2.4. Interference as a Function of UWB Transmitter Density Page 115 4.2.5. UWB Density Permitted for 1dB Degradation in the SNR Page 123 4.2.6. Minimum Distance with One UWB Transmitter Page 125 4.2.7. Maximum Possible UWB Transmission Power for Realistic UWB Densities Page 126 4.2.8. Comparison of Possible Data Rates for 802.11a and 802.11b with UWB Interference Page 128 4.3. Interference to GPS receivers Page 131 4.3.1. Interference Model Page 132 4.3.2. Isolation Between UWB Sources and a GPS receiver Page 134 4.4. Interference to Cellular Systems Page 137 4.4.1. Interference to Rural CDMA-Based Cellular Systems Page 139 4.4.2. Interference to Urban CDMA-Based Cellular Systems Page 142 4.5. Summary Page 144 References Page 146 Bibliography Page 146 Chapter 5. Applications and Target Markets Page 151 5.1. Introduction Page 151 5.2. Initial Mass Market Opportunities Page 152 5.3. Speed-to-Market Advantages Page 153 5.4. Driving CE, PC, and Mobile Industry Convergence Page 156 5.5. Existing Potential Markets Page 157 5.6. Target Consumer Electronics Products Page 158 5.7. Target PC-Oriented Markets Page 160 5.8. UWB in Consumer Electronics Devices Page 163 5.9. UWB for PC-Oriented Applications Page 164 5.10. Future Mass Market Page 166 5.11. Adoption Timeline Page 168 5.12. Additional and Niche Markets Page 169 5.12.1. Cable TV Page 169 5.12.2. Positioning and Measurement (Asset Management) Page 170 5.13. UWB Market Players Page 174 5.14. Summary Page 176 References Page 176 Bibliography Page 178 Appendix. Theoretical Derivations of UWB Interference Effects of Existing Radio Systems Page 179 A.1. 802.11a/b WLAN Systems Page 179 A.2. GPS Reveivers Page 182 A.3. CDMA-Based Cellular Systems Page 187 References Page 190 Abbreviations Page 191 Glossary Page 197 Index Page 205

Edition Notes

Includes bibliographical references and index

Published in: Upper Saddle River, NJ
Series: Prentice Hall Communications Engineering and Emerging Technologies Series

Classifications

Library of Congress: TK5103.4 .N45 2006, TK5103.4.N45 2005

Contributors

Series General Editor: Theodore S. Rappaport

The Physical Object

Pagination: xix, 213 p. :
Number of pages: 213

ID Numbers

Open Library: OL17193764M
Internet Archive: ultrawidebandcom0000neko
ISBN 10: 0131463268
LCCN: 2005018370
OCLC/WorldCat: 60835303
Library Thing: 5226951
Goodreads: 1537089

Source records

Miami University of Ohio MARC record
Library of Congress MARC record
Better World Books record
Library of Congress MARC record
marc_nuls MARC record
Internet Archive item record
harvard_bibliographic_metadata record

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Created December 10, 2009
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November 18, 2022	Edited by ImportBot	import existing book
December 3, 2010	Edited by Open Library Bot	Added subjects from MARC records.
April 28, 2010	Edited by Open Library Bot	Linked existing covers to the work.
December 10, 2009	Created by WorkBot	add works page

Ultra-Wideband Communications

Fundamentals and Applications

by Faranak Nekoogar