Title :
THz Imaging Radar for Standoff Personnel Screening
Author :
Cooper, Ken B. ; Dengler, Robert J. ; Llombart, Nuria ; Thomas, Bertrand ; Chattopadhyay, Goutam ; Siegel, Peter H.
Author_Institution :
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
Abstract :
A summary of the NASA Jet Propulsion Laboratory´s 675 GHz imaging radar is presented, with an emphasis on several key design aspects that enable fast, reliable through-clothes imaging of person-borne concealed objects. Using the frequency-modulated continuous-wave (FMCW) radar technique with a nearly 30 GHz bandwidth, sub-centimeter range resolution is achieved. To optimize the radar´s range resolution, a reliable software calibration procedure compensates for signal distortion from radar waveform nonlinearities. Low-noise, high dynamic range detection comes from the radar´s heterodyne RF architecture, low-noise chirp source, and high-performance 675 GHz transceiver. The radar´s optical design permits low-distortion fast beam scanning for single-pixel imaging, and a real-time radar image frame rate of 1 Hz is now possible. Still faster speeds are on the horizon as multi-beam THz transceivers are developed.
Keywords :
CW radar; FM radar; aerospace propulsion; calibration; optical radar; personnel; radar detection; radar imaging; radar resolution; terahertz wave imaging; weapons; FMCW radar technique; NASA jet propulsion laboratory; frequency 1 Hz; frequency 675 GHz; frequency-modulated continuous-wave radar technique; low-distortion fast beam scanning; low-noise chirp source; multibeam THz transceiver; person-borne concealed object; radar heterodyne RF architecture; radar optical design; radar transceiver; radar waveform nonlinearity; range detection; signal distortion; single-pixel imaging; software calibration procedure; standoff personnel screening; subcentimeter radar range resolution; terahertz imaging radar; through-clothes imaging; Bandwidth; Chirp; Image resolution; Imaging; Radar detection; Radar imaging; Terahertz imaging; ultra-wideband radar;
Journal_Title :
Terahertz Science and Technology, IEEE Transactions on
DOI :
10.1109/TTHZ.2011.2159556
