Title :
Sequence CLEAN: a modified deconvolution technique for microwave images of contiguous targets
Author :
Bose, Ranjan ; Freedman, Avraham ; Steinberg, Bernard D.
Author_Institution :
Dept. of Electr. Eng., Indian Inst. of Technol., New Delhi, India
fDate :
1/1/2002 12:00:00 AM
Abstract :
High resolution range profiles usually suffer from range sidelobe artifacts which cause reduction in the dynamic range. The sidelobes can be greatly reduced by a deconvolution technique called Coherent CLEAN. The Coherent CLEAN algorithm is based on the assumption that the scene consists of isolated and independent targets. However, many real-life targets are contiguous. Even if we approximate the contiguous targets by very closely spaced point sources, they can hardly be assumed to radiate independently. The sidelobes and the mainlobes of these closely spaced point sources can interact constructively and destructively causing spurious peaks and peak mislocations. These problems are studied and a variation in the existing Coherent CLEAN algorithm, called Sequence CLEAN, is proposed. Sequence CLEAN is found to work well with actual targets
Keywords :
convergence of numerical methods; deconvolution; image reconstruction; iterative methods; pulse compression; radar computing; radar imaging; radar resolution; synthetic aperture radar; tree searching; Coherent CLEAN algorithm; Sequence CLEAN; closely spaced point sources; contiguous targets; convergence; dynamic range; high resolution range profiles; microwave images; modified deconvolution technique; noise sensitivity; peak mislocations; point spread function; pulse compression; radar target images; range sidelobe artifacts; spurious peaks; tree search algorithm; true target locations; Deconvolution; Dynamic range; Image reconstruction; Image resolution; Layout; Microwave technology; Microwave theory and techniques; Moon; Radar imaging; Radio astronomy;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
