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E-raamat: Introduction to Modern EW Systems, Second Edition

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  • Formaat: 500 pages
  • Ilmumisaeg: 31-Jan-2018
  • Kirjastus: Artech House Publishers
  • ISBN-13: 9781630815158
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Introduction to Modern EW Systems, Second EditionSuurem pilt
  • Formaat: 500 pages
  • Ilmumisaeg: 31-Jan-2018
  • Kirjastus: Artech House Publishers
  • ISBN-13: 9781630815158
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In answer to great demand, Artech House is proud to bring professionals a newly revised and updated edition of the bestselling book Introduction to Modern EW Systems. The Second Edition has been greatly expanded to include a wealth of new material, from remote piloted airborne systems, directed energy weapons, and non-cooperative air surveillance... to EW radar band sensor next generation architectures, real-time data links, and smart jamming.

This authoritative resource provides engineers and students with the latest electronic warfare (EW) techniques and technologies related to on-board military platforms. Practitioners gain expert design guidance on technologies and equipment used to detect and identify emitter threats, offering an advantage in the never-ending chess game between sensor guided weapons and EW systems. This unique book provides deeper insight into EW systems principles of operation and their mathematical descriptions, arming professionals with better knowledge for their specific design applications.

Moreover, readers get practical information on how to counter modern communications data links which provide connectivity and command flow among the armed forces in the battlefield. Taking a sufficiently broad perspective, this comprehensive volume offers a panoramic view of the various physical domains RF, Infrared, and electronics that are present in modern electronic warfare systems. This in-depth book is supported with over 340 illustrations and more than 450 equations.
Chapter 1 Introduction to Electronic Warfare Scenarios
1(28)
1.1 Definitions and Electronic Warfare Role in the Military Field
1(2)
1.2 Main Weapon Systems of Interest to EW
3(14)
1.2.1 Artillery Systems
5(2)
1.2.2 Missile Systems
7(4)
1.2.3 Active Homing Missiles
11(1)
1.2.4 Passive IR-Guided Missiles
12(1)
1.2.5 Sea-Skimming Missiles
13(1)
1.2.6 ARMs
14(1)
1.2.7 Theater Ballistic Missiles
15(2)
1.3 Remotely Piloted Airborne Systems
17(3)
1.3.1 UAVs
18(1)
1.3.2 USVs
18(2)
1.4 DEWs
20(2)
1.5 EW in Symmetric Conflicts
22(5)
1.6 EW in Asymmetric Conflicts
27(2)
References
28(1)
Chapter 2 Evolution of Signal Emitters and Sensors
29(136)
2.1 Introduction
29(1)
2.2 Sensor Electromagnetic Spectrum and Atmospheric Propagation
30(2)
2.3 Radar Principles and Types
32(87)
2.3.1 Radar Equation
36(1)
2.3.2 Radar Structure
37(2)
2.3.3 Radar Clutter Signal Processing
39(4)
2.3.4 Radar Signal Processing Fundamentals
43(13)
2.3.5 Automatic Detection
56(5)
2.3.6 Pulse Compression
61(1)
2.3.7 Surveillance Radars
62(1)
2.3.8 LPI Radars
63(13)
2.3.9 Pulse Doppler Radars
76(9)
2.3.10 Tracking Radars
85(17)
2.3.11 SAR
102(4)
2.3.12 Bistatic and Passive Covert Radars
106(9)
2.3.13 Multiple Input-Multiple Output Radars
115(4)
2.4 Communications
119(14)
2.4.1 Access Methods
122(1)
2.4.2 Digital Signaling
123(4)
2.4.3 Secure Communications
127(1)
2.4.4 Coding of Communication Signals
127(4)
2.4.5 Typical Military Communication Systems
131(2)
2.5 Satellite Navigation Systems
133(4)
2.6 EO Thermal Imagers
137(19)
2.6.1 MRT
144(3)
2.6.2 IR Missile Seekers
147(5)
2.6.3 IR Missile Detection Range
152(2)
2.6.4 IR Missile Seeker CCM
154(1)
2.6.5 Missile Approach Warner
155(1)
2.7 Laser Radar Systems
156(9)
2.7.1 Laser Target Designation and Ranging
157(1)
2.7.2 Laser Radar Receivers
157(1)
2.7.3 Laser Radar Range Equation
158(3)
2.7.4 Target Detection
161(2)
References
163(2)
Chapter 3 EW RF Band Sensor Systems
165(72)
3.1 EW RF Band Sensor Systems
165(1)
3.2 EW Radar Bands Sensors
166(4)
3.2.1 RWR Architecture
166(2)
3.2.2 ESM Architecture
168(1)
3.2.3 ELINT Architecture
168(2)
3.3 EW Sensor Sensitivity
170(7)
3.3.1 Conclusions
176(1)
3.4 POI
177(7)
3.5 EW Radar Band Sensor Architectures
184(24)
3.5.1 Architecture of Past Generation Intercept Receivers
184(10)
3.5.2 EW Radar Band Sensor New Architectures
194(9)
3.5.3 DSP Technologies
203(4)
3.5.4 EW Radar Band Sensor Next Generation Architectures
207(1)
3.6 Detection and Classification of LPI Radars
208(7)
3.7 Emitter Deinterleaving and Sorting
215(4)
3.8 Emitter Identification
219(4)
3.8.1 Specific Emitter Identification
220(3)
3.9 Communications ESM
223(7)
3.9.1 CESM
224(6)
3.9.2 COMINT
230(1)
3.10 SIGINT
230(3)
3.11 Conclusion
233(4)
References
233(4)
Chapter 4 RF Direction Finding and Emitter Location Techniques
237(50)
4.1 Introduction
237(1)
4.2 Amplitude Comparison DF Methods
237(8)
4.3 Phase Comparison Monopulse DF Measurement Methods
245(9)
4.3.1 Correlative Phase DF
249(5)
4.4 Time Difference DF
254(7)
4.5 Emitter Location
261(21)
4.5.1 Triangulation
263(3)
4.5.2 Trilateration
266(2)
4.5.3 Operational Mobile PET System
268(7)
4.5.4 Frequency Difference on Arrival Passive Location Technique
275(4)
4.5.5 Inverse Passive Location
279(3)
4.6 Conclusions
282(5)
References
284(3)
Chapter 5 Electronic Countermeasure Systems
287(48)
5.1 Introduction
287(6)
5.1.1 Typical RECM Requirements and Missions
289(1)
5.1.2 EW Radar Jamming Equation
290(3)
5.2 RECM Architecture
293(4)
5.3 DRFM
297(7)
5.3.1 Phase-Sampled DRFMs
300(4)
5.4 RECM Transmitters
304(13)
5.4.1 RTDL
315(2)
5.5 Chaff
317(2)
5.6 CECM Systems
319(5)
5.7 Infrared ECM Systems
324(7)
5.7.1 Flares
330(1)
5.7.2 Combined DIRCM-Flares Countermeasures
331(1)
5.8 Conclusions
331(4)
References
332(3)
Chapter 6 ECM Techniques and Sensor ECCMs
335(58)
6.1 Introduction
335(1)
6.2 ECM Principles and Techniques Used Against Surveillance Radars and Related ECCMs
335(10)
6.2.1 Frequency Agility in Transmission
336(1)
6.2.2 PRI Agility
336(1)
6.2.3 Ultralow Sidelobes
336(1)
6.2.4 Multisidelobe Canceller
337(4)
6.2.5 Sidelobe Blanker
341(1)
6.2.6 Adaptive Arrays
342(1)
6.2.7 Noise Jamming
343(1)
6.2.8 False Targets
344(1)
6.3 ECM Techniques Against SAR
345(7)
6.4 ECM Principles and Techniques Against Tracking Radars and Related ECCM
352(25)
6.4.1 Range Tracking Loop Deception
353(3)
6.4.2 RECM Techniques Against Radar Doppler Tracking
356(3)
6.4.3 RECM Techniques Against Radar Angle Measurement
359(18)
6.5 Conclusions About RECM Techniques
377(1)
6.6 ECM Techniques Against Communication Systems
378(12)
6.6.1 Noise Jamming
380(3)
6.6.2 Follower Jammer
383(3)
6.6.3 Smart Jamming
386(1)
6.6.4 GNSS Jamming
386(4)
6.7 Conclusions on ECM Techniques
390(3)
References
390(3)
Appendix A Signal Detection in Sensor Receivers
393(8)
A.1 Integration of Successive Radar Pulses
398(1)
A.2 Coherent Detection
399(2)
References
400(1)
Appendix B Introductory Concepts of Estimation Theory
401(6)
B.1 Maximum Likelihood Function Estimator
403(1)
B.2 Least-Squares Method of Estimation
404(3)
Reference
406(1)
Appendix C Antennas and Phased Array Antennas
407(18)
C.1 Antenna Types
410(2)
C.2 Array Antennas
412(13)
References
423(2)
Appendix D Analog Modulation Methods
425(4)
D.1 Amplitude Modulation
425(1)
D.2 Angle Modulation
426(1)
D.3 Quadrature Modulation
427(2)
Reference
428(1)
Appendix E Evaluation of BER Increase for Noise and CW Tone Jamming in Communication Systems Employing BFSK Modulation
429(6)
References
433(2)
Appendix F Radar Pulse Compression Waveforms
435(12)
F.1 Linear FM
435(1)
F.2 Binary Phase-Code Pulse Compression
435(3)
F.3 Polyphase Codes
438(2)
F.4 Costas Codes
440(1)
F.5 Further Coding
441(1)
F.5.1 NLFM
441(1)
F.5.2 Complementary Codes (Golay Codes)
441(1)
F.6 Combined or Compound Barker Codes
442(1)
F.7 Multicarrier Phase-Coded Signals
442(5)
References
445(2)
About the Author 447(2)
Index 449
Andrea De Martino is an honorary chief technical officer at Elettronica S.p.A. in Rome, Italy. He received his M.S. in nuclear/electronic track engineering and a Ph.D. in automatic controls, both from the Sapienza University of Rome.
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