附註:Includes index.
Includes bibliographical references and index.
Preface; Acknowledgments; 1. Introduction; 1.1 Simulation; 1.2 EW Simulation Approaches; 1.3 Simulation for Training; 1.4 Simulation for T 1.5 Electronic Point of View; 1.6 Fidelity in EW Simulation; 1.7 The Tactical Big Picture; 1.8 Simulation Versus Life Cycle; 2. Overview of EW; 2.1 Radar; 2.2 Communication; 2.3 Electronic Support; 2.4 Electronic Attack; 2.5 Decoys; 2.6 Electronic Protection; 3. Math for Simulation; 3.1 About dB; 3.2 Spherical Trigonometry; 3.3 The Poisson Theorem; 3.4 Digitization; 4. Radio Propagation; 4.1 One-Way Link Equation; 4.2 Propagation Losses
4.3 Receiver Sensitivity 4.4 Effective Range; 4.5 Radar Range Equation; 4.6 Range Limitation from Modulation; 4.7 Radar Detection Range; 4.8 Jamming-to-signal Ratio; 5. Characterization of EW Equipment; 5.1 Antennas; 5.2 Transmitters; 5.3 Receivers; 5.4 Processors; 5.5 Emitter Location; 6. Threat Modeling; 6.1 Modes of Operation; 6.2 Modulations; 6.3 Antenna Characteristics; 6.4 Signals Leaving Transmitter Site; 6.5 Signals Arriving at Receiving Site; 7. Engagement Modeling; 7.1 Gaming Area; 7.2 Players; 7.3 Location and Movement of Players; 7.4 Point of View; 7.5 Engagement Fidelity
7.6 Electronic Interactions Between Players 7.7 Running the Engagement; 7.8 Aircraft in Hostile Airspace; 7.9 Ship Attacked by Anti-ship Missile; 8. Simulation for Training; 8.1 Approaches to Training Simulation; 8.2 Training Simulation Function; 8.3 Required Fidelity; 9. Simulation for Test and Evaluation; 10. Emulation; 10.1 Emulation Generation; 10.2 Emulation Injection Points; 10.3 Advantages and Disadvantages of Injection Points; 10.4 Emulation of the Receiving System; 10.5 Multiple-Signal Emulation; Glossary; About the Author; Index
摘要:This unique, new book covers the whole field of electronic warfare modeling and simulation at a systems level, including chapters that describe basic electronic warfare (EW) concepts. Written by a well-known expert in the field with more than 24 years of experience, the book explores EW applications and techniques and the radio frequency spectrum, with primary emphasis on HF (high frequency) to microwave. A detailed resource for entry-level engineering personnel in EW, military personnel with no radio or communications engineering background, technicians and software professionals, the work helps you understand the basic concepts required for modeling and simulation, as well as fidelity and other practical aspects of simulation design and application. You get clear explanations of important mathematical concepts, such as decibel notation and spherical trigonometry. This informative reference explains how to facilitate the generation of realistic computer models of EW equipment. Moreover, it describes specific types of EW equipment, how they work and how each is mathematically modeled. The book concludes with a description of the various types of models and simulations and the ways they are applied to training and equipment testing tasks.