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Manikas A. (ed.) Beamforming. Sensor Signal Processing for Defence Applications
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- размером 8,53 МБ
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Springer, 2015. — 311 p.Beamforming: Sensor Signal Processing for Defence Applications presents a range of important research contributions concerned with sensor array signal processing and, in particular, with the superresolution beamformers fundamental to many civilian and defence applications. Both space and space-time (STAP) beamforming algorithms and their application to radar systems are considered with emphasis given to "look-down" airborne radars, synthetic aperture radar (SAR), arrayed MIMO radar and a number of common wake-wave detection algorithms for two-dimensional SAR imagery. Furthermore, ocean towed arrays, which find applications in a variety of areas such as defence, oil and gas exploration, and geological and marine life studies, are also considered paying particular attention to receiver positional uncertainties resulting from the array's flexible structure. Array geometrical and electrical uncertainties, design of auto-calibration algorithms, beamforming "pointing" error uncertainties and robustification issues are also presented.
This book is self-contained and unified in its presentation, and comprehensively covers some of the classic and fundamental models of beamforming for sensor signal processing. It is suitable as an advanced textbook for graduate students and researchers in the area of signal processing, as well as a reference book for engineers in the defence industry.
Readership: Postgraduate students and researchers working in the area of signal processing as well researchers working in the defence industry. The UDRC runs a series of short courses in signal processing for PhD students and industrial researchers and this book is recommended reading.Space-Time Adaptive Beamforming Algorithms for Airborne Radar Systems
Transmit Beamforming for Forward-Looking Space-Time Radars
Digital Beamforming for Synthetic Aperture Radar
Arrayed MIMO Radar: Multi-target Parameter Estimation for Beamforming
Beamforming for Wake Wave Detection and Estimation — An Overview —
Towed Arrays: Channel Estimation, Tracking and Beamforming
Array Uncertainties and Auto-calibration
Robust Beamforming to Pointing Errors
This book is self-contained and unified in its presentation, and comprehensively covers some of the classic and fundamental models of beamforming for sensor signal processing. It is suitable as an advanced textbook for graduate students and researchers in the area of signal processing, as well as a reference book for engineers in the defence industry.
Readership: Postgraduate students and researchers working in the area of signal processing as well researchers working in the defence industry. The UDRC runs a series of short courses in signal processing for PhD students and industrial researchers and this book is recommended reading.Space-Time Adaptive Beamforming Algorithms for Airborne Radar Systems
Transmit Beamforming for Forward-Looking Space-Time Radars
Digital Beamforming for Synthetic Aperture Radar
Arrayed MIMO Radar: Multi-target Parameter Estimation for Beamforming
Beamforming for Wake Wave Detection and Estimation — An Overview —
Towed Arrays: Channel Estimation, Tracking and Beamforming
Array Uncertainties and Auto-calibration
Robust Beamforming to Pointing Errors
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