Abstract--We develop and investigate several novel multiresolution algorithms for detecting coherent radar targets embedded in clutter. These multiresolution detectors exploit the fact that prominent target scatterers interfere in a characteristic manner as resolution is changed, while multiresolution clutter signatures are random. We show, both on simulated and collected synthetic aperture radar data, that these multiresolution algorithms yield significant detection improvements over single-pixel, singleresolution constant false alarm rate (CFAR) methods that use only the finest available resolution.
John D. Gorman, Nikola S. Subotic, Brian J. Thelen