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E-raamat: Introduction to Passive Radar, Second Edition

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  • Formaat: 310 pages
  • Ilmumisaeg: 31-Jan-2022
  • Kirjastus: Artech House Publishers
  • ISBN-13: 9781630818418
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Introduction to Passive Radar, Second EditionSuurem pilt
  • Formaat: 310 pages
  • Ilmumisaeg: 31-Jan-2022
  • Kirjastus: Artech House Publishers
  • ISBN-13: 9781630818418
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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.
Foreword 9(4)
Preface 13(2)
1 Introduction
15(16)
1.1 Terminology
15(3)
1.2 History
18(7)
1.3 Approach and Scope
25(6)
References
27(4)
2 Principles of Passive Radar
31(28)
2.1 Introduction
31(1)
2.2 Bistatic and Multistatic Geometry
32(5)
2.2.1 Coverage
35(1)
2.2.2 Direct Signal Suppression
36(1)
2.3 Bistatic Range and Doppler
37(6)
2.3.1 Range Measurement
37(1)
2.3.2 Range Resolution
38(3)
2.3.3 Doppler Measurement
41(1)
2.3.4 Doppler Resolution
41(2)
2.4 Multistatic Passive Radar Range and Doppler
43(3)
2.5 Multistatic Target Location
46(1)
2.6 The Bistatic Radar Range Equation
47(4)
2.7 Bistatic Target and Clutter Signatures
51(6)
2.8 Summary
57(2)
References
58(1)
3 Properties of Illuminators
59(40)
3.1 Ambiguity Functions
59(6)
3.1.1 The Ambiguity Function in Bistatic Radar
60(3)
3.1.2 Bandwidth Extension with FM Radio Signals
63(2)
3.2 Digital versus Analog
65(3)
3.2.1 Analog Television Signals
65(2)
3.2.2 Mismatched Filtering
67(1)
3.3 Digitally Coded Waveforms
68(13)
3.3.1 OFDM
68(2)
3.3.2 GSM
70(2)
3.3.3 Long Term Evolution (LTE)
72(2)
3.3.4 Terrestrial Digital Television (DVB-T)
74(4)
3.3.5 5G
78(1)
3.3.6 Wi-Fi and WiMAX
79(1)
3.3.7 Digital Radio Mondiale (DRM)
80(1)
3.4 Vertical-Plane Coverage
81(2)
3.5 Satellite-Borne Illuminators
83(6)
3.5.1 Global Navigation Satellite System (GNSS)
84(1)
3.5.2 Satellite TV
85(1)
3.5.3 INMARSAT
86(1)
3.5.4 IRIDIUM
87(1)
3.5.5 STARLINK
87(1)
3.5.6 LBO Radar Remote-Sensing Satellites
88(1)
3.6 Radar Illuminators
89(3)
3.7 Summary
92(7)
References
93(6)
4 Passive Radar and Single-Frequency Networks
99(28)
4.1 SFNs
100(4)
4.2 SFN Structures
104(2)
4.3 SFN Passive Radar
106(17)
4.3.1 SFN Direct Signal Interference Removal
113(1)
4.3.2 Target Ambiguity Removal
114(9)
4.4 Summary
123(4)
References
124(3)
5 Direct Signal Suppression
127(16)
5.1 Introduction
127(2)
5.2 DSI Power Levels
129(3)
5.3 Direct Signal Suppression
132(8)
5.4 Summary
140(3)
References
141(2)
6 Passive Radar Performance Prediction
143(18)
6.1 Introduction
143(1)
6.2 Detection Performance Prediction Parameters
144(6)
6.3 Detection Performance Prediction
150(6)
6.4 Comparing Predicted and Experimental Detection Performance
156(1)
6.5 Target Location
157(1)
6.6 Advanced Passive Radar Performance Prediction
157(1)
6.7 Summary
158(3)
References
159(2)
7 Detection and Tracking
161(16)
7.1 Introduction
161(1)
7.2 CFAR Detection
162(1)
7.3 Target Location Estimation
163(5)
7.3.1 Iso-Range Ellipses
163(3)
7.3.2 Time Difference of Arrival (TDOA)
166(1)
7.3.3 Range-Doppler Plots
167(1)
7.4 Track Filtering
168(6)
7.4.1 The Kalman Filter 16
9(162)
7.4.2 Probability Hypothesis Density (PHD) Tracking
171(1)
7.4.3 Multireceiver Passive Tracking
172(2)
7.5 Summary
174(3)
References
175(2)
8 Passive Radar from Moving Platforms
177(18)
8.1 Introduction
177(1)
8.2 Moving Target Detection
178(4)
8.2.1 Cochannel Interference
178(1)
8.2.2 Suppression of Clutter
179(2)
8.2.3 Multichannel Calibration
181(1)
8.3 Passive Synthetic Aperture Radar (SAR)
182(7)
8.3.1 Configurations and Resolution
182(1)
8.3.2 Motion Compensation
183(1)
8.3.3 Properties of Bistatic SAR Images
184(1)
8.3.4 Passive SAR Imaging Using Terrestrial Digital Video Broadcast TV Transmissions
185(4)
8.4 Multistatic Imaging Using Satellite Navigation Illuminators
189(3)
8.5 Summary
192(3)
References
192(3)
9 Examples of Systems and Results
195(34)
9.1 Introduction
195(1)
9.2 Analog TV
195(1)
9.3 FM Radio
196(5)
9.3.1 Silent Sentry
196(1)
9.3.2 The Manastash Ridge Radar (MRR)
197(2)
9.3.3 More Recent Experiments Using FM Radio Illuminators
199(1)
9.3.4 Monitoring of Square Kilometer Array (SKA) Airspace
200(1)
9.3.5 Summary
200(1)
9.4 Cell Phone Base Stations
201(3)
9.5 DVB-T and DAB
204(5)
9.6 Passive Radar from Moving Platforms
209(2)
9.7 HF Skywave Transmissions
211(2)
9.8 Indoor/Wi-Fi
213(3)
9.9 Satellite-Borne Illuminators
216(3)
9.9.1 Early Experiments Using GPS and Forward Scatter
216(1)
9.9.2 Geostationary Satellites
217(1)
9.9.3 Bistatic SAR
217(1)
9.9.4 Bistatic ISAR
218(1)
9.9.5 Summary
219(1)
9.10 Low-Cost Scientific Remote Sensing
219(4)
9.10.1 Ocean Scatterometry Using GNSS Signals
221(1)
9.10.2 Terrestrial Bistatic Weather Radar
221(1)
9.10.3 Planetary Radar Remote Sensing
222(1)
9.11 Summary
223(6)
References
224(5)
10 Future Developments and Applications
229(18)
10.1 Introduction
229(1)
10.2 The Spectrum Problem and Commensal Radar
229(2)
10.2.1 The Spectrum Problem
229(1)
10.2.2 Commensal Radar
230(1)
10.3 Passive Radar in Air Traffic Management
231(2)
10.4 Target Recognition and Passive Radar
233(3)
10.5 Countermeasures Against Passive Radar
236(2)
10.5.1 Countermeasures
236(2)
10.5.2 Bistatic Denial
238(1)
10.6 Eldercare and Assisted Living
238(1)
10.7 Low-Cost Passive Radar
238(3)
10.8 Low-Cost Remote Sensing
241(2)
10.9 The Intelligent Adaptive Radar Network
243(1)
10.10 Conclusions
244(3)
References
244(3)
Bibliography 247(4)
About the Authors 251(2)
Index 253
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