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8 May 2012 340-GHz 3D radar imaging test bed with 10-Hz frame rate
Duncan A. Robertson, Paul N. Marsh, David R. Bolton, Robert J. C. Middleton, Robert I. Hunter, Peter J. Speirs, David G. Macfarlane, Scott L. Cassidy, Graham M. Smith
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Proceedings Volume 8362, Passive and Active Millimeter-Wave Imaging XV; 836206 (2012) https://doi.org/10.1117/12.918581
Event: SPIE Defense, Security, and Sensing, 2012, Baltimore, Maryland, United States
Abstract
We present a 340 GHz 3D radar imaging test bed with 10 Hz frame rate which enables the investigation of strategies for the detection of concealed threats in high risk public areas. The radar uses a wideband heterodyne scheme and fast-scanning optics to achieve moderate resolution volumetric data sets, over a limited field of view, of targets at moderate stand-off ranges. The high frame rate is achieved through the use of DDS chirp generation, fast galvanometer scanners and efficient processing which combines CPU multi-threading and GPU-based techniques, and is sufficiently fast to follow smoothly the natural motion of people.
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Duncan A. Robertson, Paul N. Marsh, David R. Bolton, Robert J. C. Middleton, Robert I. Hunter, Peter J. Speirs, David G. Macfarlane, Scott L. Cassidy, and Graham M. Smith "340-GHz 3D radar imaging test bed with 10-Hz frame rate", Proc. SPIE 8362, Passive and Active Millimeter-Wave Imaging XV, 836206 (8 May 2012); https://doi.org/10.1117/12.918581
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KEYWORDS
Radar
Extremely high frequency
Mirrors
Radar imaging
3D image processing
Head
Imaging systems
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