Title :
Relevance of on-line noise compensated approaches for STAP based on AR-filter
Author :
Petitjean, Julien ; Grivel, Eric ; Roussilhe, Patrick
Author_Institution :
Centre Jacqueline Auriol, THALES Syst. Aeroportes, Pessac, France
Abstract :
Space Time Adaptive Processing (STAP) is known as one of the key techniques for radar processing, but its computational cost is high. To reduce it, the so-called STAP filters based on adaptive 2D FIR filters consists in modeling the clutter-plus-noise as a multichannel autoregressive (N-AR) process. In this paper, our contribution is twofold. 1/ the secondary data are assumed to be modeled as a N-AR process disturbed by an additive white noise. This has the advantage of distinguishing the clutter and the thermal noise. 2/ We suggest using on-line methods such as EKF and Sigma Point Kalman Filter (UKF, CDKF) to estimate the model parameters. These methods have the advantage of significantly reducing the number of secondary data to be used.
Keywords :
FIR filters; adaptive filters; autoregressive processes; clutter; finite difference time-domain analysis; radar signal processing; space-time adaptive processing; white noise; AR-filter; STAP filters; adaptive 2D FIR filters; additive white noise distribution; clutter-plus-noise modeling; multichannel autoregressive process; online noise compensated approaches; radar processing; space time adaptive processing; Adaptive arrays; Additive white noise; Clutter; Computational efficiency; Finite impulse response filter; Parameter estimation; Phased arrays; Radar antennas; Radar detection; Spaceborne radar; CDKF; EKF; STAP; UKF; sigma point Kalman filter;
Conference_Titel :
Radar Conference - Surveillance for a Safer World, 2009. RADAR. International
Conference_Location :
Bordeaux
Print_ISBN :
978-2-912328-55-7
