Description
The world's most authoritative resource on LPI emitter design and counter-LPI techniques is now updated with the latest developments in the field, complete with 360 task-clarifying illustrations and ready-to-use MATLAB simulations for every LPI modulation in the book. This revised and expanded second edition brings you to the cutting edge with new chapters on LPI radar design, including over-the-horizon radar, random noise radar, and netted LPI radar. You also discover critical LPI detection techniques, parameter extraction signal processing techniques, and anti-radiation missile design strategies to counter LPI radar. This comprehensive book presents LPI radar design essentials, including ambiguity analysis of LPI waveforms, FMCW radar, and phase-shift and frequency-shift keying techniques. Moreover, you find details on new OTHR modulation schemes, noise radar, and spatial multiple-input multiple-output (MIMO) systems. The book explores autonomous non-linear classification signal processing algorithms for identifying LPI modulations. It also demonstrates four intercept receiver signal processing techniques for LPI radar detection that helps you determine which time-frequency, bi-frequency technique best suits any LPI modulation of interest.
Table Of Contents
Part I: Fundamentals of LPI Radar Design To See and Not Be Seen. Anti-Radiation Missiles. LPI Technology and Applications. Ambiguity Analysis of LPI Waveforms. FMCW Radar. Phase Shift Keying Techniques. Frequency Shift Keying Techniques. Noise Technology Radar. Netted LPI Radar Systems. Case Study: Antiship LPI Missile Seeker.; Part II: Intercept Receiver Strategies and Signal Processing Strategies for Intercepting LPI Radar Signals. Wigner-Ville Distribution Analysis of LPI Radar Waveforms. LPI Radar Analysis Using Quadrature Mirror Filtering. Cyclostationary Spectral Analysis for Detection of LPI Radar Parameters. Autonomous Classification of LPI Radar Modulations. Concluding Remarks. Appendixes.; To view complete TOC:; Click Google Preview button under book title above, then click on Contents tab.;
Author
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Phillip E. Pace
is a distinguished professor (emeritus) in the Department of Electrical and Computer Engineering at the Naval Postgraduate School (NPS) and has taught as an adjunct professor at Southern Methodist University (SMU), Dallas, Tx. He recently stepped down as a senior scientist at L3Harris Technologies, Plano Tx after over 2 years. He is also the author of Advanced Techniques for Digital Receivers (Artech House, 2000), and Detecting and Classifying Low Probability of Intercept Radar (Artech House, 2004) and the 2nd Edition (Artech House, 2009). He has published numerous papers and patents on high-speed signal processing, photonics receiver design and electromagnetic warfare applications. Dr. Pace served as a Technical Editor, IEEE Transactions on Aerospace and Electronic Systems (2014 – 2020) is a Life Member of the AOC and a Fellow of the IEEE.