Title :
Monopulse estimation with subarray output adaptive beamforming and low sidelobe sum and difference beams
Author :
Nickel, Ulrich R O
Author_Institution :
FGAN-FFM, Wachtberg, Germany
Abstract :
Monopulse estimation with adapted sum and difference beams can produce a large bias, because the shape of the beams can be severely distorted by the nulls formed in the jammer directions. This effect is distinct for mainbeam jammers. With an adaptive array that uses the subarray outputs one can, in principle, correct this bias. The previously developed correction formula for element adaptive arrays are generalized to subarray output arrays with arbitrary sum and difference patterns, e.g., for patterns with low sidelobes. We assume that a low sidelobe sum beam is formed by element tapering and low sidelobe difference beams are formed by subarray output weighting. The bias can be further reduced by switching the beams at the subarray level to the estimated direction and repeating the procedure. This is called the multistep monopulse procedure
Keywords :
adaptive antenna arrays; antenna radiation patterns; array signal processing; direction-of-arrival estimation; interference suppression; jamming; radar antennas; adaptive array; adaptive beamforming; beam distortion; beam switching; bias correction formula; difference patterns; element adaptive arrays; element tapering; jammer directions; low sidelobe difference beams; low sidelobe sum beams; mainbeam jammers; monopulse estimation; multistep monopulse procedure; nulls; radar antennas; subarray level; subarray output adaptive beamforming; subarray output arrays; subarray output weighting; subarray outputs; sum patterns; Adaptive arrays; Array signal processing; Azimuth; Interference; Jamming; Nickel; Radar antennas; Radar detection; Radar tracking; Shape;
Conference_Titel :
Phased Array Systems and Technology, 1996., IEEE International Symposium on
Conference_Location :
Boston, MA
Print_ISBN :
0-7803-3232-6
DOI :
10.1109/PAST.1996.566100
