Verfügbarkeit: An introduction to passive radar /

An introduction to passive radar /:

This bestselling book - now in its second edition - introduces the basic principles of passive radar technology and provides a comprehensive overview of the recent developments and advances in this field. It shows you how passive radar works, how it differs from the active type, and helps you unders...

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Bibliographische Detailangaben
Hauptverfasser:	Griffiths, H. (Hugh), 1956- (VerfasserIn), Baker, Christopher J. (Radar specialist) (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Boston : Artech House, [2022]
Ausgabe:	Second edition.
Schriftenreihe:	Artech House radar library.
Schlagworte:	Bistatic radar. Tracking radar. Radar bistatique. Radar de poursuite. Bistatic radar Tracking radar
Online-Zugang:	Volltext
Zusammenfassung:	This bestselling book - now in its second edition - introduces the basic principles of passive radar technology and provides a comprehensive overview of the recent developments and advances in this field. It shows you how passive radar works, how it differs from the active type, and helps you understand the benefits and drawbacks of this novel technology. The book gives you the knowledge you need to get a full understanding of this fascinating technology. All chapters have been fully revised and updated and are written in a clear and accessible style. New chapters have been added to cover advances in the technology that have already been built and demonstrated, including systems on moving platforms (aircraft and UAVs), as well as advances in types of transmission - notably single-frequency broadcast transmissions, and 5G - and in processing techniques. This book remains an important resource for engineers working in academic, industry, or government research laboratories; academics teaching graduate level students; and those working in the specification and procurement of radar systems who need to understand the performance and limitations of the technology.
Beschreibung:	1 online resource (262 pages) : illustrations.
Bibliographie:	Includes bibliographical references (pages 247-249) and index.
ISBN:	1630818410 9781630818418

Internformat

MARC


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245	1	3	\|a An introduction to passive radar / \|c Hugh D. Griffiths, Christopher J. Baker.
250			\|a Second edition.
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300			\|a 1 online resource (262 pages) : \|b illustrations.
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588			\|a Online resource; title from PDF title page (EBSCO, viewed May 10, 2022).
504			\|a Includes bibliographical references (pages 247-249) and index.
520			\|a This bestselling book - now in its second edition - introduces the basic principles of passive radar technology and provides a comprehensive overview of the recent developments and advances in this field. It shows you how passive radar works, how it differs from the active type, and helps you understand the benefits and drawbacks of this novel technology. The book gives you the knowledge you need to get a full understanding of this fascinating technology. All chapters have been fully revised and updated and are written in a clear and accessible style. New chapters have been added to cover advances in the technology that have already been built and demonstrated, including systems on moving platforms (aircraft and UAVs), as well as advances in types of transmission - notably single-frequency broadcast transmissions, and 5G - and in processing techniques. This book remains an important resource for engineers working in academic, industry, or government research laboratories; academics teaching graduate level students; and those working in the specification and procurement of radar systems who need to understand the performance and limitations of the technology.
505	0		\|a Intro -- An Introduction to Passive Radar, Second Edition -- Contents -- Foreword -- Preface -- Chapter 1 Introduction -- 1.1 Terminology -- 1.2 History -- 1.3 Approach and Scope -- References -- Chapter 2 Principles of Passive Radar -- 2.1 Introduction -- 2.2 Bistatic and Multistatic Geometry -- 2.2.1 Coverage -- 2.2.2 Direct Signal Suppression -- 2.3 Bistatic Range and Doppler -- 2.3.1 Range Measurement -- 2.3.2 Range Resolution -- 2.3.3 Doppler Measurement -- 2.3.4 Doppler Resolution -- 2.4 Multistatic Passive Radar Range and Doppler -- 2.5 Multistatic Target Location -- 2.6 The Bistatic Radar Range Equation -- 2.7 Bistatic Target and Clutter Signatures -- 2.8 Summary -- References -- Chapter 3 Properties of Illuminators -- 3.1 Ambiguity Functions -- 3.1.1 The Ambiguity Function in Bistatic Radar -- 3.1.2 Bandwidth Extension with FM Radio Signals -- 3.2 Digital versus Analog -- 3.2.1 Analog Television Signals -- 3.2.2 Mismatched Filtering -- 3.3 Digitally Coded Waveforms -- 3.3.1 OFDM -- 3.3.2 GSM -- 3.3.3 Long Term Evolution (LTE) -- 3.3.4 Terrestrial Digital Television (DVB-T) -- 3.3.5 5G -- 3.3.6 Wi-Fi and WiMAX -- 3.3.7 Digital Radio Mondiale (DRM) -- 3.4 Vertical-Plane Coverage -- 3.5 Satellite-Borne Illuminators -- 3.5.1 Global Navigation Satellite System (GNSS) -- 3.5.2 Satellite TV -- 3.5.3 INMARSAT -- 3.5.4 IRIDIUM -- 3.5.5 STARLINK -- 3.5.6 LEO Radar Remote-Sensing Satellites -- 3.6 Radar Illuminators -- 3.7 Summary -- References -- Chapter 4 Passive Radar and Single-Frequency Networks -- 4.1 SFNs -- 4.2 SFN Structures -- 4.3 SFN Passive Radar -- 4.3.1 SFN Direct Signal Interference Removal -- 4.3.2 Target Ambiguity Removal -- 4.4 Summary -- References -- Chapter 5 Direct Signal Suppression -- 5.1 Introduction -- 5.2 DSI Power Levels -- 5.3 Direct Signal Suppression -- 5.4 Summary -- References.
505	8		\|a Chapter 6 Passive Radar Performance Prediction -- 6.1 Introduction -- 6.2 Detection Performance Prediction Parameters -- 6.3 Detection Performance Prediction -- 6.4 Comparing Predicted and Experimental Detection Performance -- 6.5 Target Location -- 6.6 Advanced Passive Radar Performance Prediction -- 6.7 Summary -- References -- Chapter 7 Detection and Tracking -- 7.1 Introduction -- 7.2 CFAR Detection -- 7.3 Target Location Estimation -- 7.3.1 Iso-Range Ellipses -- 7.3.2 Time Difference of Arrival (TDOA) -- 7.3.3 Range-Doppler Plots -- 7.4 Track Filtering -- 7.4.1 The Kalman Filter -- 7.4.2 Probability Hypothesis Density (PHD) Tracking -- 7.4.3 Multireceiver Passive Tracking -- 7.5 Summary -- References -- Chapter 8 Passive Radar from Moving Platforms -- 8.1 Introduction -- 8.2 Moving Target Detection -- 8.2.1 Cochannel Interference -- 8.2.2 Suppression of Clutter -- 8.2.3 Multichannel Calibration -- 8.3 Passive Synthetic Aperture Radar (SAR) -- 8.3.1 Configurations and Resolution -- 8.3.2 Motion Compensation -- 8.3.3 Properties of Bistatic SAR Images -- 8.3.4 Passive SAR Imaging Using Terrestrial Digital Video Broadcast TV Transmissions -- 8.4 Multistatic Imaging Using Satellite Navigation Illuminators -- 8.5 Summary -- References -- Chapter 9 Examples of Systems and Results -- 9.1 Introduction -- 9.2 Analog TV -- 9.3 FM Radio -- 9.3.1 Silent Sentry -- 9.3.2 The Manastash Ridge Radar (MRR) -- 9.3.3 More Recent Experiments Using FM Radio Illuminators -- 9.3.4 Monitoring of Square Kilometer Array (SKA) Airspace -- 9.3.5 Summary -- 9.4 Cell Phone Base Stations -- 9.5 DVB-T and DAB -- 9.6 Passive Radar from Moving Platforms -- 9.7 HF Skywave Transmissions -- 9.8 Indoor/Wi-Fi -- 9.9 Satellite-Borne Illuminators -- 9.9.1 Early Experiments Using GPS and Forward Scatter -- 9.9.2 Geostationary Satellites -- 9.9.3 Bistatic SAR -- 9.9.4 Bistatic ISAR.
505	8		\|a 9.9.5 Summary -- 9.10 Low-Cost Scientific Remote Sensing -- 9.10.1 Ocean Scatterometry Using GNSS Signals -- 9.10.2 Terrestrial Bistatic Weather Radar -- 9.10.3 Planetary Radar Remote Sensing -- 9.11 Summary -- References -- Chapter 10 Future Developments and Applications -- 10.1 Introduction -- 10.2 The Spectrum Problem and Commensal Radar -- 10.2.1 The Spectrum Problem -- 10.2.2 Commensal Radar -- 10.3 Passive Radar in Air Traffic Management -- 10.4 Target Recognition and Passive Radar -- 10.5 Countermeasures Against Passive Radar -- 10.5.1 Countermeasures -- 10.5.2 Bistatic Denial -- 10.6 Eldercare and Assisted Living -- 10.7 Low-Cost Passive Radar -- 10.8 Low-Cost Remote Sensing -- 10.9 The Intelligent Adaptive Radar Network -- 10.10 Conclusions -- References -- Bibliography -- About the Authors -- Index.
650		0	\|a Bistatic radar. \|0 http://id.loc.gov/authorities/subjects/sh90005248
650		0	\|a Tracking radar. \|0 http://id.loc.gov/authorities/subjects/sh85136454
650		6	\|a Radar bistatique.
650		6	\|a Radar de poursuite.
650		7	\|a Bistatic radar \|2 fast
650		7	\|a Tracking radar \|2 fast
700	1		\|a Baker, Christopher J. \|c (Radar specialist), \|e author. \|1 https://id.oclc.org/worldcat/entity/E39PCjKkJXXHtXVJJ6ytf4DxrC
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author	Griffiths, H. (Hugh), 1956- Baker, Christopher J. (Radar specialist)
author_GND	http://id.loc.gov/authorities/names/nb98022754
author_facet	Griffiths, H. (Hugh), 1956- Baker, Christopher J. (Radar specialist)
author_role	aut aut
author_sort	Griffiths, H. 1956-
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callnumber-sort	TK 46592 B57 G75 42022
callnumber-subject	TK - Electrical and Nuclear Engineering
collection	ZDB-4-EBA
contents	Intro -- An Introduction to Passive Radar, Second Edition -- Contents -- Foreword -- Preface -- Chapter 1 Introduction -- 1.1 Terminology -- 1.2 History -- 1.3 Approach and Scope -- References -- Chapter 2 Principles of Passive Radar -- 2.1 Introduction -- 2.2 Bistatic and Multistatic Geometry -- 2.2.1 Coverage -- 2.2.2 Direct Signal Suppression -- 2.3 Bistatic Range and Doppler -- 2.3.1 Range Measurement -- 2.3.2 Range Resolution -- 2.3.3 Doppler Measurement -- 2.3.4 Doppler Resolution -- 2.4 Multistatic Passive Radar Range and Doppler -- 2.5 Multistatic Target Location -- 2.6 The Bistatic Radar Range Equation -- 2.7 Bistatic Target and Clutter Signatures -- 2.8 Summary -- References -- Chapter 3 Properties of Illuminators -- 3.1 Ambiguity Functions -- 3.1.1 The Ambiguity Function in Bistatic Radar -- 3.1.2 Bandwidth Extension with FM Radio Signals -- 3.2 Digital versus Analog -- 3.2.1 Analog Television Signals -- 3.2.2 Mismatched Filtering -- 3.3 Digitally Coded Waveforms -- 3.3.1 OFDM -- 3.3.2 GSM -- 3.3.3 Long Term Evolution (LTE) -- 3.3.4 Terrestrial Digital Television (DVB-T) -- 3.3.5 5G -- 3.3.6 Wi-Fi and WiMAX -- 3.3.7 Digital Radio Mondiale (DRM) -- 3.4 Vertical-Plane Coverage -- 3.5 Satellite-Borne Illuminators -- 3.5.1 Global Navigation Satellite System (GNSS) -- 3.5.2 Satellite TV -- 3.5.3 INMARSAT -- 3.5.4 IRIDIUM -- 3.5.5 STARLINK -- 3.5.6 LEO Radar Remote-Sensing Satellites -- 3.6 Radar Illuminators -- 3.7 Summary -- References -- Chapter 4 Passive Radar and Single-Frequency Networks -- 4.1 SFNs -- 4.2 SFN Structures -- 4.3 SFN Passive Radar -- 4.3.1 SFN Direct Signal Interference Removal -- 4.3.2 Target Ambiguity Removal -- 4.4 Summary -- References -- Chapter 5 Direct Signal Suppression -- 5.1 Introduction -- 5.2 DSI Power Levels -- 5.3 Direct Signal Suppression -- 5.4 Summary -- References. Chapter 6 Passive Radar Performance Prediction -- 6.1 Introduction -- 6.2 Detection Performance Prediction Parameters -- 6.3 Detection Performance Prediction -- 6.4 Comparing Predicted and Experimental Detection Performance -- 6.5 Target Location -- 6.6 Advanced Passive Radar Performance Prediction -- 6.7 Summary -- References -- Chapter 7 Detection and Tracking -- 7.1 Introduction -- 7.2 CFAR Detection -- 7.3 Target Location Estimation -- 7.3.1 Iso-Range Ellipses -- 7.3.2 Time Difference of Arrival (TDOA) -- 7.3.3 Range-Doppler Plots -- 7.4 Track Filtering -- 7.4.1 The Kalman Filter -- 7.4.2 Probability Hypothesis Density (PHD) Tracking -- 7.4.3 Multireceiver Passive Tracking -- 7.5 Summary -- References -- Chapter 8 Passive Radar from Moving Platforms -- 8.1 Introduction -- 8.2 Moving Target Detection -- 8.2.1 Cochannel Interference -- 8.2.2 Suppression of Clutter -- 8.2.3 Multichannel Calibration -- 8.3 Passive Synthetic Aperture Radar (SAR) -- 8.3.1 Configurations and Resolution -- 8.3.2 Motion Compensation -- 8.3.3 Properties of Bistatic SAR Images -- 8.3.4 Passive SAR Imaging Using Terrestrial Digital Video Broadcast TV Transmissions -- 8.4 Multistatic Imaging Using Satellite Navigation Illuminators -- 8.5 Summary -- References -- Chapter 9 Examples of Systems and Results -- 9.1 Introduction -- 9.2 Analog TV -- 9.3 FM Radio -- 9.3.1 Silent Sentry -- 9.3.2 The Manastash Ridge Radar (MRR) -- 9.3.3 More Recent Experiments Using FM Radio Illuminators -- 9.3.4 Monitoring of Square Kilometer Array (SKA) Airspace -- 9.3.5 Summary -- 9.4 Cell Phone Base Stations -- 9.5 DVB-T and DAB -- 9.6 Passive Radar from Moving Platforms -- 9.7 HF Skywave Transmissions -- 9.8 Indoor/Wi-Fi -- 9.9 Satellite-Borne Illuminators -- 9.9.1 Early Experiments Using GPS and Forward Scatter -- 9.9.2 Geostationary Satellites -- 9.9.3 Bistatic SAR -- 9.9.4 Bistatic ISAR. 9.9.5 Summary -- 9.10 Low-Cost Scientific Remote Sensing -- 9.10.1 Ocean Scatterometry Using GNSS Signals -- 9.10.2 Terrestrial Bistatic Weather Radar -- 9.10.3 Planetary Radar Remote Sensing -- 9.11 Summary -- References -- Chapter 10 Future Developments and Applications -- 10.1 Introduction -- 10.2 The Spectrum Problem and Commensal Radar -- 10.2.1 The Spectrum Problem -- 10.2.2 Commensal Radar -- 10.3 Passive Radar in Air Traffic Management -- 10.4 Target Recognition and Passive Radar -- 10.5 Countermeasures Against Passive Radar -- 10.5.1 Countermeasures -- 10.5.2 Bistatic Denial -- 10.6 Eldercare and Assisted Living -- 10.7 Low-Cost Passive Radar -- 10.8 Low-Cost Remote Sensing -- 10.9 The Intelligent Adaptive Radar Network -- 10.10 Conclusions -- References -- Bibliography -- About the Authors -- Index.
ctrlnum	(OCoLC)1313480732
dewey-full	621.3848
dewey-hundreds	600 - Technology (Applied sciences)
dewey-ones	621 - Applied physics
dewey-raw	621.3848
dewey-search	621.3848
dewey-sort	3621.3848
dewey-tens	620 - Engineering and allied operations
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
edition	Second edition.
format	Electronic eBook
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id	ZDB-4-EBA-on1313480732
illustrated	Illustrated
indexdate	2024-11-27T13:30:33Z
institution	BVB
isbn	1630818410 9781630818418
language	English
oclc_num	1313480732
open_access_boolean
owner	MAIN DE-863 DE-BY-FWS
owner_facet	MAIN DE-863 DE-BY-FWS
physical	1 online resource (262 pages) : illustrations.
psigel	ZDB-4-EBA
publishDate	2022
publishDateSearch	2022
publishDateSort	2022
publisher	Artech House,
record_format	marc
series	Artech House radar library.
series2	Artech House radar series
spelling	Griffiths, H. (Hugh), 1956- author. https://id.oclc.org/worldcat/entity/E39PCjMg9wVxFT4CJMhTQhvgDq http://id.loc.gov/authorities/names/nb98022754 An introduction to passive radar / Hugh D. Griffiths, Christopher J. Baker. Second edition. Boston : Artech House, [2022] 1 online resource (262 pages) : illustrations. text txt rdacontent computer c rdamedia online resource cr rdacarrier Artech House radar series Online resource; title from PDF title page (EBSCO, viewed May 10, 2022). Includes bibliographical references (pages 247-249) and index. This bestselling book - now in its second edition - introduces the basic principles of passive radar technology and provides a comprehensive overview of the recent developments and advances in this field. It shows you how passive radar works, how it differs from the active type, and helps you understand the benefits and drawbacks of this novel technology. The book gives you the knowledge you need to get a full understanding of this fascinating technology. All chapters have been fully revised and updated and are written in a clear and accessible style. New chapters have been added to cover advances in the technology that have already been built and demonstrated, including systems on moving platforms (aircraft and UAVs), as well as advances in types of transmission - notably single-frequency broadcast transmissions, and 5G - and in processing techniques. This book remains an important resource for engineers working in academic, industry, or government research laboratories; academics teaching graduate level students; and those working in the specification and procurement of radar systems who need to understand the performance and limitations of the technology. Intro -- An Introduction to Passive Radar, Second Edition -- Contents -- Foreword -- Preface -- Chapter 1 Introduction -- 1.1 Terminology -- 1.2 History -- 1.3 Approach and Scope -- References -- Chapter 2 Principles of Passive Radar -- 2.1 Introduction -- 2.2 Bistatic and Multistatic Geometry -- 2.2.1 Coverage -- 2.2.2 Direct Signal Suppression -- 2.3 Bistatic Range and Doppler -- 2.3.1 Range Measurement -- 2.3.2 Range Resolution -- 2.3.3 Doppler Measurement -- 2.3.4 Doppler Resolution -- 2.4 Multistatic Passive Radar Range and Doppler -- 2.5 Multistatic Target Location -- 2.6 The Bistatic Radar Range Equation -- 2.7 Bistatic Target and Clutter Signatures -- 2.8 Summary -- References -- Chapter 3 Properties of Illuminators -- 3.1 Ambiguity Functions -- 3.1.1 The Ambiguity Function in Bistatic Radar -- 3.1.2 Bandwidth Extension with FM Radio Signals -- 3.2 Digital versus Analog -- 3.2.1 Analog Television Signals -- 3.2.2 Mismatched Filtering -- 3.3 Digitally Coded Waveforms -- 3.3.1 OFDM -- 3.3.2 GSM -- 3.3.3 Long Term Evolution (LTE) -- 3.3.4 Terrestrial Digital Television (DVB-T) -- 3.3.5 5G -- 3.3.6 Wi-Fi and WiMAX -- 3.3.7 Digital Radio Mondiale (DRM) -- 3.4 Vertical-Plane Coverage -- 3.5 Satellite-Borne Illuminators -- 3.5.1 Global Navigation Satellite System (GNSS) -- 3.5.2 Satellite TV -- 3.5.3 INMARSAT -- 3.5.4 IRIDIUM -- 3.5.5 STARLINK -- 3.5.6 LEO Radar Remote-Sensing Satellites -- 3.6 Radar Illuminators -- 3.7 Summary -- References -- Chapter 4 Passive Radar and Single-Frequency Networks -- 4.1 SFNs -- 4.2 SFN Structures -- 4.3 SFN Passive Radar -- 4.3.1 SFN Direct Signal Interference Removal -- 4.3.2 Target Ambiguity Removal -- 4.4 Summary -- References -- Chapter 5 Direct Signal Suppression -- 5.1 Introduction -- 5.2 DSI Power Levels -- 5.3 Direct Signal Suppression -- 5.4 Summary -- References. Chapter 6 Passive Radar Performance Prediction -- 6.1 Introduction -- 6.2 Detection Performance Prediction Parameters -- 6.3 Detection Performance Prediction -- 6.4 Comparing Predicted and Experimental Detection Performance -- 6.5 Target Location -- 6.6 Advanced Passive Radar Performance Prediction -- 6.7 Summary -- References -- Chapter 7 Detection and Tracking -- 7.1 Introduction -- 7.2 CFAR Detection -- 7.3 Target Location Estimation -- 7.3.1 Iso-Range Ellipses -- 7.3.2 Time Difference of Arrival (TDOA) -- 7.3.3 Range-Doppler Plots -- 7.4 Track Filtering -- 7.4.1 The Kalman Filter -- 7.4.2 Probability Hypothesis Density (PHD) Tracking -- 7.4.3 Multireceiver Passive Tracking -- 7.5 Summary -- References -- Chapter 8 Passive Radar from Moving Platforms -- 8.1 Introduction -- 8.2 Moving Target Detection -- 8.2.1 Cochannel Interference -- 8.2.2 Suppression of Clutter -- 8.2.3 Multichannel Calibration -- 8.3 Passive Synthetic Aperture Radar (SAR) -- 8.3.1 Configurations and Resolution -- 8.3.2 Motion Compensation -- 8.3.3 Properties of Bistatic SAR Images -- 8.3.4 Passive SAR Imaging Using Terrestrial Digital Video Broadcast TV Transmissions -- 8.4 Multistatic Imaging Using Satellite Navigation Illuminators -- 8.5 Summary -- References -- Chapter 9 Examples of Systems and Results -- 9.1 Introduction -- 9.2 Analog TV -- 9.3 FM Radio -- 9.3.1 Silent Sentry -- 9.3.2 The Manastash Ridge Radar (MRR) -- 9.3.3 More Recent Experiments Using FM Radio Illuminators -- 9.3.4 Monitoring of Square Kilometer Array (SKA) Airspace -- 9.3.5 Summary -- 9.4 Cell Phone Base Stations -- 9.5 DVB-T and DAB -- 9.6 Passive Radar from Moving Platforms -- 9.7 HF Skywave Transmissions -- 9.8 Indoor/Wi-Fi -- 9.9 Satellite-Borne Illuminators -- 9.9.1 Early Experiments Using GPS and Forward Scatter -- 9.9.2 Geostationary Satellites -- 9.9.3 Bistatic SAR -- 9.9.4 Bistatic ISAR. 9.9.5 Summary -- 9.10 Low-Cost Scientific Remote Sensing -- 9.10.1 Ocean Scatterometry Using GNSS Signals -- 9.10.2 Terrestrial Bistatic Weather Radar -- 9.10.3 Planetary Radar Remote Sensing -- 9.11 Summary -- References -- Chapter 10 Future Developments and Applications -- 10.1 Introduction -- 10.2 The Spectrum Problem and Commensal Radar -- 10.2.1 The Spectrum Problem -- 10.2.2 Commensal Radar -- 10.3 Passive Radar in Air Traffic Management -- 10.4 Target Recognition and Passive Radar -- 10.5 Countermeasures Against Passive Radar -- 10.5.1 Countermeasures -- 10.5.2 Bistatic Denial -- 10.6 Eldercare and Assisted Living -- 10.7 Low-Cost Passive Radar -- 10.8 Low-Cost Remote Sensing -- 10.9 The Intelligent Adaptive Radar Network -- 10.10 Conclusions -- References -- Bibliography -- About the Authors -- Index. Bistatic radar. http://id.loc.gov/authorities/subjects/sh90005248 Tracking radar. http://id.loc.gov/authorities/subjects/sh85136454 Radar bistatique. Radar de poursuite. Bistatic radar fast Tracking radar fast Baker, Christopher J. (Radar specialist), author. https://id.oclc.org/worldcat/entity/E39PCjKkJXXHtXVJJ6ytf4DxrC has work: An introduction to passive radar (Text) https://id.oclc.org/worldcat/entity/E39PCGj6kT9wDCHht49gv7Ppvb https://id.oclc.org/worldcat/ontology/hasWork Artech House radar library. http://id.loc.gov/authorities/names/n84729160 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3275457 Volltext
spellingShingle	Griffiths, H. (Hugh), 1956- Baker, Christopher J. (Radar specialist) An introduction to passive radar / Artech House radar library. Intro -- An Introduction to Passive Radar, Second Edition -- Contents -- Foreword -- Preface -- Chapter 1 Introduction -- 1.1 Terminology -- 1.2 History -- 1.3 Approach and Scope -- References -- Chapter 2 Principles of Passive Radar -- 2.1 Introduction -- 2.2 Bistatic and Multistatic Geometry -- 2.2.1 Coverage -- 2.2.2 Direct Signal Suppression -- 2.3 Bistatic Range and Doppler -- 2.3.1 Range Measurement -- 2.3.2 Range Resolution -- 2.3.3 Doppler Measurement -- 2.3.4 Doppler Resolution -- 2.4 Multistatic Passive Radar Range and Doppler -- 2.5 Multistatic Target Location -- 2.6 The Bistatic Radar Range Equation -- 2.7 Bistatic Target and Clutter Signatures -- 2.8 Summary -- References -- Chapter 3 Properties of Illuminators -- 3.1 Ambiguity Functions -- 3.1.1 The Ambiguity Function in Bistatic Radar -- 3.1.2 Bandwidth Extension with FM Radio Signals -- 3.2 Digital versus Analog -- 3.2.1 Analog Television Signals -- 3.2.2 Mismatched Filtering -- 3.3 Digitally Coded Waveforms -- 3.3.1 OFDM -- 3.3.2 GSM -- 3.3.3 Long Term Evolution (LTE) -- 3.3.4 Terrestrial Digital Television (DVB-T) -- 3.3.5 5G -- 3.3.6 Wi-Fi and WiMAX -- 3.3.7 Digital Radio Mondiale (DRM) -- 3.4 Vertical-Plane Coverage -- 3.5 Satellite-Borne Illuminators -- 3.5.1 Global Navigation Satellite System (GNSS) -- 3.5.2 Satellite TV -- 3.5.3 INMARSAT -- 3.5.4 IRIDIUM -- 3.5.5 STARLINK -- 3.5.6 LEO Radar Remote-Sensing Satellites -- 3.6 Radar Illuminators -- 3.7 Summary -- References -- Chapter 4 Passive Radar and Single-Frequency Networks -- 4.1 SFNs -- 4.2 SFN Structures -- 4.3 SFN Passive Radar -- 4.3.1 SFN Direct Signal Interference Removal -- 4.3.2 Target Ambiguity Removal -- 4.4 Summary -- References -- Chapter 5 Direct Signal Suppression -- 5.1 Introduction -- 5.2 DSI Power Levels -- 5.3 Direct Signal Suppression -- 5.4 Summary -- References. Chapter 6 Passive Radar Performance Prediction -- 6.1 Introduction -- 6.2 Detection Performance Prediction Parameters -- 6.3 Detection Performance Prediction -- 6.4 Comparing Predicted and Experimental Detection Performance -- 6.5 Target Location -- 6.6 Advanced Passive Radar Performance Prediction -- 6.7 Summary -- References -- Chapter 7 Detection and Tracking -- 7.1 Introduction -- 7.2 CFAR Detection -- 7.3 Target Location Estimation -- 7.3.1 Iso-Range Ellipses -- 7.3.2 Time Difference of Arrival (TDOA) -- 7.3.3 Range-Doppler Plots -- 7.4 Track Filtering -- 7.4.1 The Kalman Filter -- 7.4.2 Probability Hypothesis Density (PHD) Tracking -- 7.4.3 Multireceiver Passive Tracking -- 7.5 Summary -- References -- Chapter 8 Passive Radar from Moving Platforms -- 8.1 Introduction -- 8.2 Moving Target Detection -- 8.2.1 Cochannel Interference -- 8.2.2 Suppression of Clutter -- 8.2.3 Multichannel Calibration -- 8.3 Passive Synthetic Aperture Radar (SAR) -- 8.3.1 Configurations and Resolution -- 8.3.2 Motion Compensation -- 8.3.3 Properties of Bistatic SAR Images -- 8.3.4 Passive SAR Imaging Using Terrestrial Digital Video Broadcast TV Transmissions -- 8.4 Multistatic Imaging Using Satellite Navigation Illuminators -- 8.5 Summary -- References -- Chapter 9 Examples of Systems and Results -- 9.1 Introduction -- 9.2 Analog TV -- 9.3 FM Radio -- 9.3.1 Silent Sentry -- 9.3.2 The Manastash Ridge Radar (MRR) -- 9.3.3 More Recent Experiments Using FM Radio Illuminators -- 9.3.4 Monitoring of Square Kilometer Array (SKA) Airspace -- 9.3.5 Summary -- 9.4 Cell Phone Base Stations -- 9.5 DVB-T and DAB -- 9.6 Passive Radar from Moving Platforms -- 9.7 HF Skywave Transmissions -- 9.8 Indoor/Wi-Fi -- 9.9 Satellite-Borne Illuminators -- 9.9.1 Early Experiments Using GPS and Forward Scatter -- 9.9.2 Geostationary Satellites -- 9.9.3 Bistatic SAR -- 9.9.4 Bistatic ISAR. 9.9.5 Summary -- 9.10 Low-Cost Scientific Remote Sensing -- 9.10.1 Ocean Scatterometry Using GNSS Signals -- 9.10.2 Terrestrial Bistatic Weather Radar -- 9.10.3 Planetary Radar Remote Sensing -- 9.11 Summary -- References -- Chapter 10 Future Developments and Applications -- 10.1 Introduction -- 10.2 The Spectrum Problem and Commensal Radar -- 10.2.1 The Spectrum Problem -- 10.2.2 Commensal Radar -- 10.3 Passive Radar in Air Traffic Management -- 10.4 Target Recognition and Passive Radar -- 10.5 Countermeasures Against Passive Radar -- 10.5.1 Countermeasures -- 10.5.2 Bistatic Denial -- 10.6 Eldercare and Assisted Living -- 10.7 Low-Cost Passive Radar -- 10.8 Low-Cost Remote Sensing -- 10.9 The Intelligent Adaptive Radar Network -- 10.10 Conclusions -- References -- Bibliography -- About the Authors -- Index. Bistatic radar. http://id.loc.gov/authorities/subjects/sh90005248 Tracking radar. http://id.loc.gov/authorities/subjects/sh85136454 Radar bistatique. Radar de poursuite. Bistatic radar fast Tracking radar fast
subject_GND	http://id.loc.gov/authorities/subjects/sh90005248 http://id.loc.gov/authorities/subjects/sh85136454
title	An introduction to passive radar /
title_auth	An introduction to passive radar /
title_exact_search	An introduction to passive radar /
title_full	An introduction to passive radar / Hugh D. Griffiths, Christopher J. Baker.
title_fullStr	An introduction to passive radar / Hugh D. Griffiths, Christopher J. Baker.
title_full_unstemmed	An introduction to passive radar / Hugh D. Griffiths, Christopher J. Baker.
title_short	An introduction to passive radar /
title_sort	introduction to passive radar
topic	Bistatic radar. http://id.loc.gov/authorities/subjects/sh90005248 Tracking radar. http://id.loc.gov/authorities/subjects/sh85136454 Radar bistatique. Radar de poursuite. Bistatic radar fast Tracking radar fast
topic_facet	Bistatic radar. Tracking radar. Radar bistatique. Radar de poursuite. Bistatic radar Tracking radar
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=3275457
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