Introduction to communication electronic warfare systems

Focuses on the engineering aspects of communications electronic warfare (EW) systems. This book includes treatments of two critical areas - RF noise and the effects of signal fading. It details the components, systems, and operations of electronic warfare systems dedicated to protecting and attacking military communications networks.

Communication Electronic Warfare Systems

Introduction

Information Warfare

Electronic Warfare

Electronic Support

Introduction

Intercept

Geolocation

Triangulation with Multiple Bearings

Deployment Considerations

Electronic Mapping

Common Operational Picture

Operational Integration with Other Disciplines

Support to Targeting

Electronic Attack

Introduction

Communication Jamming

Jammer Deployment

Look-Through

Analog Communications

Digital Communications

Narrowband/Partial-Band Jamming

Barrage Jamming

Follower Jammer

Jamming LPI Targets

Electromagnetic Signal Propagation

Introduction

Signal Propagation

Radio Frequency Band Designations

Polarization

Power Density

Free-Space Propagation

Ground Wave

Wave Diffraction

Reflected Waves

Ducting

Meteor Burst

Scattering

Signal Fading

Characteristics of the Mobile VHF Channel

Propagation via the Ionosphere

Radio Frequency Noise and Interference

Introduction

Sources of External Noise and Interference

Internal Noise in EW Systems

Noise in Digital Signal Processing

EMI

Noise in Amplifiers

Other Noise Considerations

Communications

Introduction

Modulation

Spread Spectrum

Access Methods

Duplexing

Orthogonal Frequency Division Multiplexing

Coding Communication Signals

Modems

Facsimile

Communication Security

Signal Processing

Introduction

Orthogonal Function

Transforms

Signal Sampling

Cyclostationary Signal Processing

Higher Order Statistics

Applications

Direction-Finding Position-Fixing Techniques

Introduction

Bearing Estimation

Position -Fixing Algorithms

Single-Site Location Techniques

Fix Accuracy

Fix Coverage

Quadratic Position-Fixing Techniques

Introduction

Time Difference of Arrival

Differential Doppler

Cross Ambiguity Function

Time of Arrival

TDOA Asymptote Emitter Localization

Multiple Targets

Early Entry Introduction

Target Model

Intercept System Model

Simulation Results

Detection and Geolocation of Frequency Hopping Emitters

Introduction

Analysis

Simulation

Signal Detection Range

Introduction

Noise Limits on Detection Range

Targets

Detection Range with the Propagation Model

Detection Range with the Reflection Propagation Model

Jamming Performance in Fading Channels

Introduction

Probability of Detection in Fading Channels

Jamming DSSS Wideband Systems

Jamming Performance in Nakagami Fading

Jamming FHSS Wideband Systems

Jamming Hybrid Wideband Systems

Electronic Attack-UAV and Ground-Based

Introduction

Signal Propagation at Long Ranges

Jamming ERP

Targets

RLOS

UAV Jammer

Ground-Based Jammer

Thin Jammers Introduction

Thin Jammers without Fading

Thin Jammers in Fading Channels

Frequency Following Jammer

Pulsed Jammer

Appendix A Probability and Random Variables Introduction

Means, Expected Values and Moment Functions of Random Variables

Probability

Gaussian Density Functions

Kurtosis

Skewness

Useful Characteristics of Probabilities, Density Functions and Distribution Functions

Appendix B Simulation Networks

Appendix C System Engineering

Introduction

System Engineering

Human Factors Engineering

System Cost

Available:*

On Order

Summary

Summary

Table of Contents