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Köp båda 2 för 1471 kr'For radar experts and amateurs there is much here to expand understanding of the very latest concepts and techniques. The authors clearly understand their audience, and have produced a work that will quickly become essential to anyone wishing to understand airborne radar.' -- Darren Coe, MSc CEng, MIET, Principal Scientist - Airborne Radar, QinetiQ Malvern
George W. Stimson was the author of Introduction to Airborne Radar (1st and 2nd editions) and served as an engineer on Southern California Edison's frequency-change project before being hired by Hughes Aircraft Company. Working closely with the company's top designers, Stimson observed first-hand the fascinating evolution of airborne radar and with the help from Hughes engineers updated the first edition with 11 new chapters. Hugh D. Griffiths holds the Thales/Royal Academy of Engineering Chair of RF Sensors within the Department of Electronic and Electrical Engineering at University College London. He has received numerous awards, served as President of the IEEE AESS Society for 2012/13, is a member of the IEEE AESS Radar Systems Panel, and is Editor-in-Chief of the Journal IET Radar, Sonar and Navigation. Chris J. Baker is the Ohio State Research Scholar in Integrated Sensor Systems at The Ohio State University. He has been actively engaged in radar systems research since 1984 and is the author of over 250 publications. His research covers coherent radar techniques, radar signal processing, radar signal interpretation, electronically scanned radar systems, radar imaging, natural and cognitive echo locating systems. He has won numerous awards for research and holds visiting position at a number of the worlds leading universities. Dave Adamy is an internationally recognized expert in electronic warfare with 47 years experience as a systems engineer. He has published over 180 articles, has 11 books in print and is a past National President of the Association of Old Crows. For the past 26 years he has run his own company performing studies for the United States Government and defense contractors as well as teaching EW courses worldwide.
Part I: Overview of Airborne Radar Chapter 1: Basic Concepts Chapter 2: Approaches to Implementation Chapter 3: Representative Applications Part II: Essential Groundwork Chapter 4: Radio Waves and Alternating Current Signals Chapter 5: A Nonmathematical Approach to Radar Chapter 6: Preparatory Math for Radar Part III: Fundamentals of Radar Chapter 7: Choice of Radio Frequency Chapter 8: Directivity and the Antenna Beam Chapter 9: Electronically Scanned Array Antennas Chapter 10: Electronically Scanned Array Design Chapter 11: Pulsed Operation Chapter 12: Detection Range Chapter 13: The Range Equation: What It Does and Doesn't Tell Us Chapter 14: Radar Receivers and Digitization Chapter 15: Measuring Range and Resolving in Range Chapter 16: Pulse Compression and High-Resolution Radar Chapter 17: Frequency-Modulated Continuous Wave Ranging Part IV: Pulse Doppler Radar Chapter 18: The Doppler Effect Chapter 19: The Spectrum of a Pulsed Signal Chapter 20: The Pulsed Spectrum Unveiled Chapter 21: Doppler Sensing and Digital Filtering Chapter 22: Measuring Range-Rate Part V: Clutter Chapter 23: Sources and Spectra of Ground Return Chapter 24: Effect of Range and Doppler Ambiguities on Ground Clutter Chapter 25: Representing Clutter Chapter 26: Separating Ground Moving Targets from Clutter Part VI: Air-to-Air Operation Chapter 27: PRF and Ambiguities Chapter 28: Low PRF Operation Chapter 29: Medium PRF Operation Chapter 30: High PRF Operation Chapter 31: Automatic Tracking Part VII: Imaging Radar Chapter 32: Radar and Resolution Chapter 33: Imaging Methods Chapter 34: SAR Image Formation and Processing Chapter 35: SAR System Design Part VIII Radar and Electronic Warfare Chapter 36: Electronic Warfare Terms and Concepts Chapter 37: Electronic Warfare Support Chapter 38: Electronic Attack Chapter 39: Electronic Protection Chapter 40: Decoys Chapter 41: Low Probability of Intercept (LPI) Part IX: Special Topics and Advanced Concepts Chapter 42: Antenna Radar Cross Section Reduction Chapter 43: Advanced Processor Architectures Chapter 44: Bistatic Radar Chapter 45: Distributed Radar and MIMO Radar Chapter 46: Radar Waveforms: Advanced Concepts Chapter 47: Target Classification Chapter 48: Emerging Radar Trends Part X: Representative Radar Systems Chapter 49: Airborne Early Warning and Control Chapter 50: Reconnaissance & Surveillance Chapter 51: Space Based Radar Systems Chapter 52: Fighter & Attack