Title :
Optimal reduced-rank 3D STAP for joint hot and cold clutter mitigation
Author :
Guerci, J.R. ; Goldstein, J.S. ; Zulch, P.A. ; Reed, I.S.
Author_Institution :
SAIC, Arlington, VA, USA
Abstract :
A novel signal processing strategy is presented which provides optimal signal-dependent rank reduction for the 3D STAP hot and cold clutter mitigation problem. Through the use of spatial (angle) and PRI temporal (Doppler) degrees-of-freedom, conventional 2D STAP can cancel both monostatic (“cold”) clutter and direct path jamming. However, additional “fast-time” degrees of freedom (on the order of the reciprocal of the receiver bandwidth) are required to cancel so-called “hot” clutter formed by jammer terrain-scattered interference. A multistage decomposition of the 3D sidelobe canceler (Wiener filter) is introduced both to evaluate the theoretical performance limits of rank reduction and to demonstrate that a more compact compression of the interference is possible than that obtained by the principal-components method. A high-fidelity simulated data set, based on DTED measurements, is employed to illustrate the efficacy of the multistage Wiener filtering approach to 3D STAP
Keywords :
Wiener filters; interference suppression; jamming; multidimensional signal processing; radar clutter; radar signal processing; space-time adaptive processing; 3D sidelobe canceler; DTED measurements; Wiener filter; compact compression; degrees-of-freedom; direct path jamming; jammer terrain-scattered interference; joint hot/cold clutter mitigation; optimal reduced-rank 3D STAP; signal processing strategy; signal-dependent rank reduction; Adaptive filters; Bandwidth; Clutter; Interference; Jamming; Level measurement; Signal processing; Signal to noise ratio; Terrain mapping; Wiener filter;
Conference_Titel :
Radar Conference, 1999. The Record of the 1999 IEEE
Conference_Location :
Waltham, MA
Print_ISBN :
0-7803-4977-6
DOI :
10.1109/NRC.1999.767288
