Introduction to Communication Electronic Warfare Systems 2nd Edition by Richard Poisel ISBN 978-1596934528 1596934522
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ISBN 10: 1596934522
ISBN 13: 978-1596934528
Author: Richard A. Poisel
Table of contents:
Chapter 1
Communication Electronic Warfare Systems
1.1 Introduction
1.2 Information Warfare
1.3 Electronic Warfare
1.3.1 Electronic Support
1.3.2 Electronic Attack
1.3.3 Electronic Protect
1.4 Electronic Support
1.4.1 Low Probability of Detection/Interception/Exploitation
1.4.2 Future Communication Environments
1.4.3 Electronic Support Summary
1.5 Electronic Attack
1.5.1 Electronic Attack Summary
1.6 Introduction Summary
1.7 Typical EW System Configuration
1.7.1 System Control
1.7.2 Antennas
1.7.3 Signal Distribution
1.7.4 Search Receiver
1.7.5 Set-On Receivers
1.7.6 Signal Processing
1.7.7 Direction-Finding Signal Processing
1.7.8 Exciter
1.7.9 Power Amplifier
1.7.10 Filters
1.7.11 Communications
1.8 Concluding Remarks
References
Chapter 2
Electronic Support
2.1
Introduction
2.2
Intercept
2.2.1
Internals Versus Externals
2.2.2
Propagation Loss
2.3
Geolocation
2.4
Triangulation with Multiple Bearings
2.5
Deployment Considerations
2.6
Electronic Mapping
2.7
Common Operational Picture
2.8
Operational Integration with Other Disciplines
2.9
Support to Targeting
2.10
Concluding Remarks
References
Chapter 3
Electronic Attack
3.1
Introduction
3.2
Communication Jamming
3.3
Jammer Deployment
3.4
Look-Through
3.5
Analog Communications Digital Communications
3.6
3.7
Narrowband/Partial-Band Jamming
3.8
Barrage Jamming
3.9
Follower Jammer
3.10
Jamming LPI Targets
3.11
Concluding Remarks
References
Part I-Basics
4.1
Chapter 4
Electromagnetic Signal Propagation
Introduction
4.2
Signal Propagation
4.3
Radio Frequency Band Designations
4.4
Polarization
4.5
Power Density
4.6
Free-Space Propagation
4.7
Ground Wave
4.7.1
Direct Wave
4.7.2
Surface Wave
4.8
Wave Diffraction
4.9
Reflected Waves
4.10 Ducting
4.11
Meteor Burst
4.12 Scattering
Signal Fading
4.13
4.13.1 Signal Model
4.13.2 Types of Fading
4.13.3 PDF of Amplitude, Phase, and Power for Rayleigh Fading
4.13.4 PDF of Amplitude and Phase for Ricean Fading
4.13.5 PDF of Amplitude, Phase, and Power for Nakagami-m Fading
4.14 Characteristics of the Mobile VHF Channel
4.15 Propagation via the Ionosphere
4.15.1 Refraction
4.15.2 Ionospheric Layers
4.15.3 Near Vertical Incidence Skywave
4.15.4 HF Fading
4.15.5 Maximum Usable Frequency and Lowest Usable Frequency
4.15.6 Automatic Link Establishment
4.16
Concluding Remarks
References
Chapter 5
Radio Frequency Noise and Interference
5.1
Introduction
5.2
Sources of External Radio Noise
5.2.1 Man-Made Noise
5.2.2 External Noise Summary
5.3
Internal Noise in EW Systems
5.3.1 Introduction
5.3.2 Broadband Noise Sources
5.3.3 Low-Frequency Noise
5.3.4 Generation-Recombination Noise
5.3.5 Phase Noise
5.4
5.5
Noise in Digital Signal Processing
5.4.1 ADC Quantization Noise
5.4.2 Data Converter Clock Jitter Noise
5.4.3 Sampling and Timing
Electromagnetic Interference
5.5.1 Sources of EMI
5.5.2 Coupling Paths
5.5.3 Remarks
5.6
Noise in Amplifiers
5.6.1
Amplifier Noise Model
5.6.2
Noise Bandwidth Versus Signal Bandwidth
5.6.3
Noise Bandwidth and Low-Frequency
(1/f) Noise
5.6.4
Noise Factor and Noise Figure
5.6.5 Equivalent Noise Temperature
Other Noise Considerations
5.7
5.7.1 Correlated Noise
5.7.2
References
Partition Noise
5.8
Concluding Remarks
Chapter 6
Radio Communication Technologies
6.1
Introduction
6.2
Modulation
5.2.1
Analog Modulations
5.2.2 Digital Modulations
6.3
Spread Spectrum
6.3.1 DSSS
6.3.2 FHSS
6.4
Access Methods
6.4.1
Frequency Division Multiple Access
6.4.2
Time Division Multiple Access
6.4.3
Carrier-Sensed Multiple Access
6.4.4 Demand Assignment Multiple Access
Code Division Multiple Access
6.4.5
6.5
Duplexing
6.6
6.7
6.5.1
6.5.2
Time Division Duplexing
Frequency Division Duplexing
Orthogonal Frequency Division Multiplexing
Coding Communication Signals
6.7.1
Source Coding for Data Compression
6.7.2
Channel Coding for Error Control
6.8
Modems
6.9
Facsimile
6.10
Communication Security
6.10.1 Data Encryption
6.10.2
Public Key Encryption
6.10.3 Digital Signatures
6.10.4 6.10.5
Data Encryption Standard
Pretty Good Privacy
6.10.6
Fortezza Encryption System
Chapter 7
7.1 Signal Processing
7.2 Concluding Remarks
References
7.3
Transforms
7.3.1
Trigonometric Transforms
7.3.2
Hair Transform
7.3.3
Wavelet Transforms
7.3.4
Fast Transforms
7.4
Signal Sampling
7.4.1
Band-Limited Sampling
7.4.2
Aliasing
7.4.3
Recovering Sampled Signal
7.5
Cyclostationary Signal Processing
7.6
Higher-Order Statistics
7.7
Applications
7.7.1
Signal Detection
7.7.2
DSSS Interception Detection
7.7.3
Signal Classification
7.7.4
Recognition/Identification
7.8
Concluding Remarks
References
Chapter 8
Direction-Finding Position-Fixing Techniques
8.1
Introduction
8.2
Bearing Estimation
8.2.1
Circular Antenna Array
8.2.2
Interferometry
8.2.3
Monopulse Direction Finder
8.2.4
Amplitude Direction Finder
8.2.5
Doppler Direction Finder
8.2.6
Array-Processing Bearing Estimation
8.2.7 Line-of-Bearing (LOB) Optimization
8.3
Position-Fixing Algorithms
8.3.1
Eliminating Wild Bearings
8.3.2
Stansfield Fix Algorithm
8.3.3
Mean-Squared Distance Algorithm
8.3.4
Combining Error Contours
8.4
Single-Site Location Techniques
8.5
Fix Accuracy
8.5.1 Geometric Dilution of Precision
8.6
Fix Coverage
8.7
Concluding Remarks
References
Chapter 9
Quadratic Position-Fixing Techniques
9.1
9.2
Introduction
Time Difference of Arrival
9.2.1
Position-Fixing Using TDOA Measurements
9.2.2
Geometric Dilution of Precision
9.2.3 Time Delay Estimate Limitations
Differential Doppler
9.3
9.4
Cross-Ambiguity Function Processing
9.4.1 Position-Fix Accuracy
9.5
Time of Arrival
9.6
TDOA Asymptote Emitter Localization
9.7
Multiple Targets
9.8
Concluding Remarks
References
Part II – Performance
Chapter 10
Early-Entry Organic Electronic Support
10.1
Introduction
10.2
Target Model
10.3
Intercept System Model
10.4
Simulation Results
10.4.1 Performance Versus the Number of Target Nets
10.4.2 Search Bandwidth
10.4.3 Noise Figure
10.4.4 Postprocessing Time
10.4.5 Mission Duration
Concluding Remarks
10.5
References
Chapter 11
Detection and Geolocation of Frequency-Hopping Emitters
Introduction
Analysis
11.2.1 Scanning Superheterodyne Receivers
11.1
11.2
11.3
Simulation
11.3.1 ES System Operation
11.3.2 Results and Analysis
11.3.3 Discussion
11.4
Concluding Remarks
11.4.1 Scanning Superheterodyne Receiver
11.4.2 Simulation
References
Chapter 12
Signal Detection Range
12.1
12.2
12.3
12.4
Introduction
Noise Limits on Detection Range
Targets
Detection Range with the Reflection Propagation Model
12.4.1 Airborne Configurations of ES Systems
12.4.2 Ground-Based Detection Ranges
12.4.3 Discussion
Concluding Remarks
12.5
References
Chapter 13
Jamming Performance in Fading Channels
Introduction
13.1
13.2
Probability of Detection in Fading Channels
13.2.1 AWGN Channels
13.3
13.2.2 Probability of Detection over Nakagami and Rayleigh Fading Channels
Jamming Fading Narrowband Targets
13.3.1 Jamming Narrowband Targets
13.3.2 Jamming NCBFSK Signals with Narrowband Tone Jammer
13.3.3 Band-Limited Gaussian Noise Jammer
Jamming DSSS Wideband Systems
13.4
13.4.1 BPSK/QPSK
13.5
13.6
13.7
13.4.2 Comments
Jamming Performance in Nakagami Fading
13.5.1 Slow Fading
13.5.2 Faster Fading
Jamming FHSS Wideband Systems
13.6.1 Noise Jamming
13.6.2 Signal-Only Fading
13.6.3 Both Target Signal and Jammer Signal Fading
13.6.4 Remarks
Jamming Hybrid Wideband Systems
13.8 Concluding Remarks
References
Chapter 14
Electronic Attack: UAV and Ground-Based
14.1
Introduction
14.2
Signal Propagation at Long Ranges
14.3
Jamming ERP
14.4
Targets
14.5
RLOS
14.6
UAS Sorry
14.7
Ground-Based Jammer
14.8
Concluding Remarks
References
Chapter 15
Thin Jammers
15.1
Introduction
15.2
Thin Jammers without Fading
15.3
Thin Jammers in Fading Channels
15.3.1 Rayleigh Fading
15.3.2 Spread Spectrum Processing Gain
15.3.3 Jamming Measure of Effectiveness
15.3.4 Range-Loss
15.4
Frequency Following Jammer
15.5
Pulsed Jammer
15.6
Concluding Remarks
References
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