Title :
Adaptive clutter and jammer cancellation for element-digitised airborne radar
Author :
Mather, J.L. ; Rees, H.D. ; Skidmore, I.D.
Author_Institution :
Signal Process. Group, DERA, Malvern, UK
Abstract :
We describe a novel multi-layer ("domain factorisation") adaptive beamforming method, for an element-digitised array radar (EDAR). This enables adaptive beamforming weights for an array of many hundreds or thousands of elements to be calculated with realistic sample support and computational workload. Range-dependent gain adaption (RDGA) coupled with adaptive weighting of each element of the array permits much more effective cancellation of clutter and jamming than sub-array based space-time adaptive processing. Simulations of airborne intercept (AI) radar demonstrate the power of this approach for detection of small targets against severe clutter and main-beam jamming.
Keywords :
adaptive radar; adaptive signal processing; airborne radar; array signal processing; interference suppression; jamming; phased array radar; radar clutter; radar detection; adaptive beamforming method; adaptive beamforming weights; adaptive clutter cancellation; adaptive jammer cancellation; adaptive weighting; airborne intercept radar; element-digitised airborne radar; main-beam jamming; multi-layer domain factorisation; phased array radar; range-dependent gain adaption; sample support; simulations; sub-array based space-time adaptive processing; target detection; Adaptive arrays; Adaptive signal processing; Airborne radar; Array signal processing; Availability; Clutter; Integrated circuit technology; Jamming; Phased arrays; Radar signal processing;
Conference_Titel :
Signals, Systems, and Computers, 1999. Conference Record of the Thirty-Third Asilomar Conference on
Conference_Location :
Pacific Grove, CA, USA
Print_ISBN :
0-7803-5700-0
DOI :
10.1109/ACSSC.1999.832302
