Title :
Parametric adaptive matched filter for airborne radar applications
Author :
Román, Jaime R. ; Rangaswamy, Muralidhar ; Davis, Dennis W. ; Zhang, Qingwen ; Himed, Braham ; Michels, James H.
Author_Institution :
Scientific Studies Corp., Palm Beach Gardens, FL, USA
fDate :
4/1/2000 12:00:00 AM
Abstract :
The parametric adaptive matched filter (PAMF) for space-time adaptive processing (STAP) is introduced via the matched filter (MF), multichannel linear prediction, and the multichannel LDU decomposition. Two alternative algorithmic implementations of the PAMF are discussed. Issues considered include sample training data size and constant false alarm rate (CFAR). Detection test statistics are estimated for airborne phased array radar measurements, and probability of detection is estimated using simulated phased array radar data for airborne surveillance radar scenarios. For large sample sizes, the PAMF performs close to the MF; performance degrades slightly for small sample sizes. In both sample size ranges, the PAMF is tolerant to targets present in the training set
Keywords :
Gaussian distribution; airborne radar; array signal processing; autoregressive processes; covariance matrices; filtering theory; least squares approximations; matched filters; phased array radar; prediction theory; radar clutter; radar detection; search radar; space-time adaptive processing; Gaussian interference background; Reed-Brennan rule; airborne radar applications; algorithmic implementations; constant false alarm rate; covariance matrix; detection test statistics; identification; least squares; low-order model; multichannel LDU decomposition; multichannel autoregressive model; multichannel linear prediction; parametric adaptive matched filter; phased array radar; prediction error filtering; probability of detection; sample training data size; simulated data; space-time adaptive processing; spatial whitening block filter; surveillance radar; weight vector; Airborne radar; Matched filters; Parametric statistics; Phase detection; Phase estimation; Phased arrays; Radar detection; Radar measurements; Testing; Training data;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
