Title :
Efficient FFT method for modelling performance of radars with scan-to-scan feedback integration
Author :
Zuk, Josef ; Rosenberg, Luke
Author_Institution :
DSTO, Australia
Abstract :
In discrete-event simulation (DES) involving radar systems, one is concerned with tracking the evolution of detection probability as explicitly simulated successive scans elapse. The survival-function based FFT technique discussed here constitutes an improvement over a previously developed approach, that provides speed and efficiency in maintaining and updating the detection state, and likewise for extracting the detection probability from the state after any scan over the target. It is shown to be particularly useful for modelling high-resolution airborne maritime surveillance radars that employ a combination of range stretching and autoregressive scan-to-scan integration.
Keywords :
airborne radar; autoregressive processes; discrete event simulation; fast Fourier transforms; marine radar; probability; radar detection; radar resolution; search radar; DES; autoregressive scan-to-scan feedback integration; discrete-event simulation; high-resolution airborne maritime surveillance radar; radar detection probability; survival-function based FFT technique; Clutter; Probability density function; Radar detection; Steady-state; Technological innovation; Autoregressive processes; Fast Fourier transforms; Radar detection;
Conference_Titel :
Acoustics, Speech and Signal Processing (ICASSP), 2015 IEEE International Conference on
Conference_Location :
South Brisbane, QLD
DOI :
10.1109/ICASSP.2015.7178284
