Title :
SAR detection of wires using image phase signatures
Author :
Jao, Jen King ; Ayasli, Serpil
Author_Institution :
Lincoln Lab., MIT, Lexington, MA, USA
Abstract :
Analyses of high resolution UHF synthetic aperture radar images have uncovered a deterministic phase signature of a long wire. Given k 0 as the wave number and R as the range of a focused image pixel to the phase center of the SAR aperture, a factor exp(-j2k0 R) is imbedded in the complex target image signal return. This linear image phase variation results in a long, narrow wire spectrum in the spatial frequency domain orthogonal to the wire in orientation and is frequency shifted from the origin of the spectral coordinates. This spectral feature enables coherent processing such as spatial filtering and integration to improve significantly the signal-to-clutter ratio of a wire and its detectability in the clutter environment
Keywords :
filtering theory; frequency-domain analysis; integration; radar clutter; radar detection; radar imaging; signal resolution; spectral analysis; synthetic aperture radar; wires (electric); SAR aperture; SAR detection; clutter environment; coherent processing; complex target image signal return; deterministic phase signature; focused image pixel; high resolution UHF SAR radar images; image phase signatures; integration; linear image phase variation; long narrow wire spectrum; long wire; phase center; range; signal-to-clutter ratio; spatial filtering; spatial frequency domain; spectral coordinates; synthetic aperture radar; wave number; Apertures; Filtering; Focusing; Frequency domain analysis; Image analysis; Image resolution; Phase detection; Pixel; Radar detection; Wires;
Conference_Titel :
Radar Conference, 1995., Record of the IEEE 1995 International
Conference_Location :
Alexandria, VA
Print_ISBN :
0-7803-2121-9
DOI :
10.1109/RADAR.1995.522573
