Title :
ISAR motion compensation using evolutionary adaptive wavelet transform
Author :
Choi, I.-S. ; Cho, B.-L. ; Kim, H.-T.
Author_Institution :
Mobile Multimedia Lab., LG Electron. Inst. of Technol., Seoul, South Korea
Abstract :
Many time-frequency analysis techniques have been used for ISAR motion compensation. One of them, the adaptive wavelet transform (AWT), is cross-term free and has high resolution, but its accuracy is limited because it uses a bisection search method and fast Fourier transform (FFT) for parameter extraction. A novel time-frequency (T-F) analysis, called the evolutionary adaptive wavelet transform (EAWT), is used for ISAR motion compensation. The EAWT is more accurate than the conventional AWT. Using artificially created data from three time-frequency centres and simulated MIG-25 ISAR data, this algorithm is compared with the conventional AWT for accuracy. From the constructed ISAR image using AWT and EAWT, it is demonstrated that the EAWT algorithm can obtain a more clear motion-compensated ISAR image than the conventional AWT
Keywords :
adaptive signal processing <ISAR motion compensation, evol. adaptive wavelet transform>; fast Fourier transforms <ISAR motion compensation, evol. adaptive wavelet transform>; feature extraction <ISAR motion compensation, evol. adaptive wavelet transform>; image resolution <ISAR motion compensation, evol. adaptive wavelet transform>; motion compensation <ISAR motion compensation, evol. adaptive wavelet transform>; radar resolution <ISAR motion compensation, evol. adaptive wavelet transform>; synthetic aperture radar <ISAR motion compensation, evol. adaptive wavelet transform>; time-frequency analysis <ISAR motion compensation, evol. adaptive wavelet transform>; wavelet transforms <ISAR motion compensation, evol. adaptive wavelet transform>; EAWT algorithm; FFT; ISAR image; ISAR motion compensation; MIG-25 ISAR data; bisection search method; evolutionary adaptive wavelet transform; fast Fourier transform; high resolution techniques; noncooperative target recognition; parameter extraction; radar resolution; time-frequency analysis; time-frequency centres;
Journal_Title :
Radar, Sonar and Navigation, IEE Proceedings -
DOI :
10.1049/ip-rsn:20030639
