DocumentCode
2150097
Title
Joint STAP-WVD based SAR slowly moving target detection and imaging
Author
Dong, Yongqiang ; Tao, Ran ; Zhou, Siyong ; Wang, Yue
Author_Institution
Dept. of Electron. Eng., Beijing Inst. of Technol., China
fYear
2000
fDate
2000
Firstpage
499
Lastpage
503
Abstract
The aim of this paper is to propose a joint STAP-WVD based slowly moving target detection and imaging approach for an airborne phased array SAR system. The difference in models of received echoes backscattered from the extended scene and point like moving target between the SAR and airborne early warning (AEW) system is investigated and it shows that the quadric phase can not be ignored in the SAR system as in the AEW system due to its long coherent processing period. A modified STAP is put forward to suppress the clutter whilst retaining the phase history of the moving target. The concept of the “weight signal” is proposed to retrieve the phase history of the moving target, which is damaged by the STAP due to the optimum SAR clutter cancellation. Computer simulation results, which lend support to the conclusions reached through theoretical analysis, are presented throughout the paper
Keywords
airborne radar; backscatter; interference suppression; optimisation; phased array radar; radar clutter; radar detection; radar imaging; radar theory; radar tracking; space-time adaptive processing; synthetic aperture radar; target tracking; AEW system; SAR imaging; airborne early warning system; airborne radar; backscattering; coherent processing period; computer simulation; joint STAP-WVD detection; optimum clutter cancellation; phase history; phased array radar; quadric phase; received echoes; slowly moving target detection; weight signal; Airborne radar; Azimuth; History; Information retrieval; Object detection; Phased arrays; Radar clutter; Signal processing; Synthetic aperture radar; Time frequency analysis;
fLanguage
English
Publisher
ieee
Conference_Titel
Radar Conference, 2000. The Record of the IEEE 2000 International
Conference_Location
Alexandria, VA
Print_ISBN
0-7803-5776-0
Type
conf
DOI
10.1109/RADAR.2000.851884
Filename
851884
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