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Dave Barton Q&A |
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 David K. Barton is a holder of the IEEE’s Centennial Medal, Millennium Medal, and Dennis J. Picard Medal, and is widely regarded throughout the world as a leading authority on radar technology. Now's your chance to ask Dave your own Radar question.....
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Radar Book Reviews |
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 Read published reviews for selected Artech House book titles in Radar engineering from sources including Biophotonics International Magazine and SciTech Book Review.
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It is the primary task of a radar engineer to design, analyze and optimize system performance within the context of our computerized high technology applications. "Radar System Analysis, Design and Simulation" by Eyung W. Kang is a comprehensive introduction and training textbook specifically and successfully designed for radar engineers at all levels to master critical system analysis, use digital computer simulation to verify that their analysis is correct, and to insure that their design is optimal for the purposes intended. From matric, vector and linear equations, noise and clutter genereation, filters, ambiguity functions, antennas, target detection, false alarm rate processing moving target indicators and a great deal more, "Radar System Analysis, Design and Simulation" offers a text enhanced with detailed examples, more than 340 equations and over 250 illustrations. Enhanced even further with the inclusion of an accompanying CD-ROM containing more than 200 simulation and implementation tools written in C++, "Radar System Analysis, Design and Simulation" is an ideal and core addition to professional and academic library reference collections and as a basic introductory textbook for radar engineering students.
Review Source: The Midwest Book Review, October 2008
ISBN: 978-1-59693-347-7
Copyright: 2008
Pages: 280
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This is the new edition of a 2001 text introducing the theory and components of radar systems, particularly radar on the ground that detects moving aircraft. Extensively revised and updated, coverage includes description of the function of transmitters, antennae, receivers, matched filters and signal processors. In addition to amplitude and phase graphs, three-dimensional space curves are shown, which emphasize the vector relationships involved. The author notes the importance of low attenuation and reflection between main radio frequency blocks, including the use of oversized waveguides for long runs. The closing chapters review the relevant mathematics of statistics and transforms. An appendix provides tapering functions.
Review Source: Book News Inc., June 2008
ISBN: 978-1-59693-242-5
Copyright: 2008
Pages: 712
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Fenn (MIT Lincoln Library) concentrates on what practitioners encounter in his in-depth descriptions of adaptive array design and field testing methods. he works through adaptive antennas and degrees of freedom, array mutual coupling effects on adaptive clutter suppression, forced near-field techniques for evaluating adaptive phased arrays, moment method analysis of focused near-field adaptive nulling, focused near-field testing of multiphase-center adaptive array radar systems, experimental testing of focused near-field adaptive nulling, experimental testing of high-resolution nulling with a multiple beam antenna, basic phased array antennas, monopole phased array antenna design (including analysis and measurement), monopole phased array field characteristics in the focused near-field region, displaced phase center antenna and low-sidelobe phased array antenna measurements using near-field scanning, arrays of horizontally polarized omnidirectional elements, finite arrays of crossed V-dipole elements, experimental ultra-wideband dipole antenna arrays and finite rectangular waveguide phased arrays.
Review Source: Book News Inc., March 2008
ISBN: 978-1-59693-273-9
Copyright: 2008
Pages: 416
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