Title :
Use of STAP techniques to enhance the detection of slow targets in shipborne HFSWR
Author_Institution :
Office Nat. d´´Etudes et Recherches Aerospatiales, Palaiseau, France
Abstract :
This paper addresses the detection of low velocity targets from a shipborne HFSWR (high frequency surface waves radar). In a shipborne configuration, as a consequence of the ship motion, the first order of Bragg lines is spread in the useful Doppler interval where detections of a ship target are expected to appear. Space time techniques like STAP, usually studied for airborne radar purposes, are candidates to reduce the effect of ship motion. The influence of pitch and roll components is also discussed. Simulations of STAP techniques are given, based on a conventional architecture of processing. Estimation of the clutter covariance matrix is studied with respect to the characteristics of the radar waveform. Interleaving between the classical HFSWR waveform and a wide band learning waveform is proposed, to enable the covariance estimation.
Keywords :
covariance matrices; marine radar; radar clutter; radar detection; radar signal processing; space-time adaptive processing; Bragg line spreading; Doppler detection interval; STAP techniques; clutter covariance matrix; covariance estimation; high frequency surface waves radar; low velocity targets; ship motion effects reduction; ship target; shipborne HFSWR; slow target detection enhancement; space time adaptive processing; wide band learning waveform; Airborne radar; Covariance matrix; Doppler radar; Frequency; Interleaved codes; Marine vehicles; Motion detection; Radar clutter; Radar detection; Surface waves;
Conference_Titel :
Radar Conference, 2003. Proceedings of the International
Print_ISBN :
0-7803-7870-9
DOI :
10.1109/RADAR.2003.1278793
