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21 June 2011 Sidelobe minimization in MTI processing
Kenneth Ranney, Anthony Martone, Roberto Innocenti, Lam Nguyen
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Proceedings Volume 8021, Radar Sensor Technology XV; 802124 (2011) https://doi.org/10.1117/12.899485
Event: SPIE Defense, Security, and Sensing, 2011, Orlando, Florida, United States
Abstract
Moving target indication (MTI) algorithms often operate within a relatively narrow frequency band relying on Doppler processing to detect moving targets at long standoff ranges. At these standoff ranges, received wavefronts impinging on a linear array can be considered planar, enabling implementation of a variety of phase-based beam-forming techniques. At near ranges, however, the plane-wave assumption no longer holds. We describe enhancements to an impulse-based, low-frequency, ultra-wideband, moving-target imaging system for near-range, through-the-wall MTI. All MTI image processing is performed in the time domain using a change detection (CD) paradigm. We discuss how MTI image quality can be increased through the introduction of randomized linear arrays. After describing the process in detail, we present results obtained using data collected by an impulse-based, low frequency, ultra-wideband system.
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Kenneth Ranney, Anthony Martone, Roberto Innocenti, and Lam Nguyen "Sidelobe minimization in MTI processing", Proc. SPIE 8021, Radar Sensor Technology XV, 802124 (21 June 2011); https://doi.org/10.1117/12.899485
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KEYWORDS
Target detection
Radar
Detection and tracking algorithms
Image processing
Array processing
Image acquisition
Synthetic aperture radar
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