Title :
Deconvolution approach to terrain scattered interference mitigation
Author :
Nelander, Anders
Author_Institution :
Swedish Defence Res. Agency, Linkoping, Sweden
Abstract :
Terrain scattered interference or hot clutter is a problem in radar ECCM, especially for airborne radar with low sidelobe antennas and conventional adaptive sidelobe cancellation. A deconvolution approach is proposed to mitigate terrain scattered interference. This approach is based on obtaining an estimate of the complex multipath impulse response from a short time interval in the received signals. The impulse response estimate is then convolved with a direct path reference signal to generate an estimate of the received terrain scattered interference signal. This interference signal estimate is then subtracted from the received main beam signal to generate a main beam signal with mitigated terrain scattered interference.
Keywords :
airborne radar; array signal processing; deconvolution; electromagnetic wave scattering; electronic countermeasures; interference suppression; planar antenna arrays; radar antennas; radar clutter; radar signal processing; transient response; adaptive sidelobe cancellation; airborne radar; deconvolution; direct path reference signal; hot clutter; impulse response estimate; interference signal estimate; low sidelobe antennas; main beam signal; multipath impulse response; planar array antenna; radar ECCM; radar signal model; received main beam signal; spatial beamforming; terrain scattered interference mitigation; terrain scattered interference signal; Adaptive arrays; Deconvolution; Interference; Jamming; Optical reflection; Radar antennas; Radar clutter; Radar scattering; Signal generators; Transmitting antennas;
Conference_Titel :
Radar Conference, 2002. Proceedings of the IEEE
Print_ISBN :
0-7803-7357-X
DOI :
10.1109/NRC.2002.999742
