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Artech House UK
Self-Protection Jammer Systems

Self-Protection Jammer Systems

By (author): Ahmet Gungor Pakfiliz
Copyright: 2024
Pages: 510
ISBN: 9781685690113

Print Book £84.00 Qty:
eBook £62.00
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Self-Protection Jammer Systems is an in-depth exploration of the technical and operational principles of self-protection jammer systems. This comprehensive resource covers the theoretical foundations of self-protection jammers, including radar theory, radar guidance, radar jamming theory, radar warning receiver systems, and the theory of self-protection jammer systems. It translates these technical foundations into practical applications in operational settings, specifically highlighting the effective deployment of self-protection jammers on airborne platforms and decoys for jamming purposes.

 

This book also focuses on the future trends in both technical and operational aspects of self-protection jammer systems. To facilitate a deeper understanding, it includes solved problems that illustrate key concepts and applications.

 

Aimed at engineers involved in developing and maintaining self-protection electronic warfare systems, this book provides essential theoretical and practical knowledge necessary for design, implementation, field support, and maintenance. It will also help operational personnel to understand and address technical issues and define realistic requirements. The book is expected to inspire scholars in the field, offering new perspectives and insights into self-protection jammer systems.

CHAPTER 1 - Self-Protection EW Concept

 

1.1 Introduction to Self-Protection EW Systems
1.2 Role of SPEW Systems
1.3 Using SPEW Systems in Different Platforms
1.4 History of SPEW Systems
1.5 General Structure of Self-Protection EW Systems
References

 

CHAPTER 2 - Principles Of Radar Systems and Radar Guided Threat Systems

2.1 Radar Basics
2.2 Basic Radar Block Diagrams for Operation Modes
2.3 Radar Classification
2.4 Radar Equations
2.5 Radar Operations
2.6 Tracking Radars
2.7 Radar Guidance
2.8 Radar-Guided Threat Systems
2.9 Problems and Solutions
References

 

CHAPTER 3 - Jamming of Radar Guided Systems

3.1 Radar Jamming Principles
3.2 Radar Jamming Types
3.3 Radar Jamming Equations
3.4 Jamming Tactics
3.5 Jamming Methods of Radar Guided Missile Systems
3.6 Jamming Methods for Different Tracking Radars
3.7 Problems and Solutions
References

 

CHAPTER 4 - Radar Warning Receiver (RWR) Systems

4.1 RWR in Self-Protection EW System Architecture
4.2 Relation between RWR and Self-Protection Jammer
4.3 Receiver (Rx) Types Used in RWRs
4.4 Receiver Sensitivity Calculations
4.5 Dynamic Range in Receivers
4.6 RWR Architecture
4.7 Problems and Solutions
References

 

CHAPTER 5 - RWR Signal Processing

5.1 Radar Signals
5.2 Emitter Identification Database (EIDD)
5.3 Signal Deinterleaving
5.4 Signal Labeling and Emitter Identification
5.5 Pre-Programming of RWR for Operational Requirements
5.6 Machine Learning and Deep Learning in RWR Processes
5.7 Future Trends in RWR Projection
5.8 Problems and Solutions
References

 

CHAPTER 6 - Self-Protection Jammer Systems

6.1 Self-Protection Jammer Principles
6.2 Derivation of Self-Protection Jammer Equations
6.3 Self-Protection Jammer Architecture
6.4 Noise Jamming in Self-Protection
6.5 Deceptive Jamming in Self-Protection
6.6 Self-Protection Jammer Constraints in Dense Threat Environment
6.7 Future Trends in Self-Protection Jammer Systems
6.8 Problems and Solutions
References

 

CHAPTER 7 - Effective Use of Self-Protection Jammer

7.1 Developing Specific Self-Protection Jamming Techniques
7.2 Operational Field Aspects
7.3 Threat Systems Aspects
7.4 Self-Protection Jammer Aspects
7.5 Future Trends in Developing Jamming Techniques
7.6 Problems and Solutions
References

 

CHAPTER 8 - Use of Self-Protection Jammer Systems for Airborne Platforms

8.1 Self-Protection Jammer Systems in Fighters
8.2 Self-Protection Jammer Systems in Helicopters
8.3 Self-Protection Jammer Concept for UAVs
8.4 Future Projection of Self-Protected Jammer for Airborne Platforms
References

 

CHAPTER 9 - Decoys for Self-Protection Jamming

9.1 Concept of Using Decoy for Self-Protection Jamming
9.2 Towed Decoys for Self-Protection Jamming
9.3 Air Expendable Decoys for Self-Protection Jamming
9.4 Future Trends in Self-Protection Jamming Decoys
9.5 Problems and Solutions
References

 

GLOSSARY
BIBLIOGRAPHY
ABOUT THE AUTHOR
INDEX

  • Ahmet Gungor Pakfiliz

    graduated in Electrical Engineering from Yildiz Technical University in 1991. The same year, he was appointed lieutenant as an engineer officer in the Turkish Air Force. During the first years of his military life, he gained experience in radar and avionics system maintenance and procurement projects. He earned his MSc in Electrical and Electronics Engineering from Middle East Technical University in 1997. This year, he was appointed to the Electronic Warfare (EW) Department of the Turkish General Staff. From this point, he worked as a system engineer on radar and EW systems in procurement projects, pre-programming of the systems, and operational support. He received his Ph.D. in statistical signal processing in Electronics Engineering from Ankara University in 2004. From 2004 to 2013, he worked as a technical director and engineering management in different parts of the Turkish Armed Forces. From 2009-2011, he was the national representative of the NATO Science and Technology Organization Board's Systems Concepts and Integration Panel. He retired from military service in 2013 as a Colonel.

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