论文信息 - ISAR imaging of moving targets via the Gabor wavelet transform

ISAR imaging of moving targets via the Gabor wavelet transform

We describe an approach for inverse synthetic aperture radar (ISAR) imaging based on the Gabor wavelet transform. The Gabor basis function introduces three signal parameters which allow the components of a target signature to be mapped into a three-dimensional domain. Time, range, and frequency constitute the dimensions of this domain. Component distribution over the range and frequency dimensions corresponds to a snap shot of the target's scattering centers at a particular observation time. The snap shot resolution can be adjusted in each dimension by properly selecting the Gabor wavelet parameters. Parameter selection, as discussed in this paper, is used to minimize the quadratic phase distortion associated with moving target components. For multiple targets experiencing different velocities, selective motion compensation is incorporated to the Gabor wavelet transform approach, thus yielding focused imagery.

Benjamin C. Flores | Gabriel Thomas | Ana Martinez

[1] F. Harris. On the use of windows for harmonic analysis with the discrete Fourier transform , 1978, Proceedings of the IEEE.

[2] Richard P. Bocker,et al. ISAR motion compensation using the burst derivative measure as a focal quality indicator , 1992, Int. J. Imaging Syst. Technol..

[3] A. W. Rihaczek,et al. Radar resolution and complex-image analysis , 1996 .

[4] Del Villar,et al. Range-Doppler imaging via the wavelet transform , 1997 .

[5] Gabriel Thomas,et al. Selective motion compensation in ISAR imagery using time-frequency filtering , 1996, Defense, Security, and Sensing.

[6] Victor C. Chen. Reconstruction of inverse synthetic aperture radar image using adaptive time-frequency wavelet transform , 1995, Defense, Security, and Sensing.

[7] H. A. Dell,et al. Introduction to Radar Systems. Merrill I. Skolnik. McGraw-Hill Book Co., London and New York. 1962. 648 pp. Illustrated. £5 12s. 6d. , 1963, The Journal of the Royal Aeronautical Society.

[8] George W. Stimson,et al. Introduction to Airborne Radar , 1983 .

[9] Benjamin C. Flores,et al. Efficient target motion compensation method for stepped-frequency ISAR signatures , 1997, Optics & Photonics.