Title :
Fast fully adaptive processing: A multistage STAP approach
Author :
Saleh, O. ; Adve, R.S. ; Riddolls, R.J.
Author_Institution :
Res. in Motion, Waterloo, ON
Abstract :
Due to the associated computational load and required statistically homogeneous training, fully optimal space-time adaptive processing (STAP) is well-accepted to be impractical. Previous work has addressed these issues by reducing the adaptive degrees of freedom (DoF). In this paper we introduce a new multistage STAP approach that significantly reduces required sample support, and computational complexity, while still processing all available DoF. The multistage ldquofast fully adaptiverdquo (FFA) scheme draws inspiration from the butterfly structure of the Fast Fourier Transform (FFT). The reduction in complexity and required sample support rival currently available reduced DoF algorithms. We test the efficacy of this algorithm using measured high frequency surface wave radar data.
Keywords :
fast Fourier transforms; object detection; space-time adaptive processing; associated computational load; butterfly structure; computational complexity; fast Fourier transform; fast fully adaptive processing; frequency surface wave radar data; homogeneous training; multistage STAP approach; optimal space-time adaptive processing; Computational complexity; Covariance matrix; Fast Fourier transforms; Frequency measurement; Interference; Matched filters; Radar measurements; Research and development; Surface waves; Testing;
Conference_Titel :
Radar Conference, 2009 IEEE
Conference_Location :
Pasadena, CA
Print_ISBN :
978-1-4244-2870-0
Electronic_ISBN :
1097-5659
DOI :
10.1109/RADAR.2009.4976973
