Title :
Nonlinear apodization for sidelobe control in SAR imagery
Author :
Stankwitz, H.C. ; Dallaire, R.J. ; Fienup, J.R.
Author_Institution :
Environ. Res. Inst. of Michigan, Ann Arbor, MI, USA
Abstract :
Synthetic aperture radar (SAR) imagery often requires sidelobe control, or apodization, via weighting of the frequency domain aperture. This is of particular importance when imaging scenes containing objects such as ships or buildings having very large radar cross sections. Sidelobe improvement using spectral weighting is invariably at the expense of mainlobe resolution presented here is a class of nonlinear operators which significantly reduce sidelobe levels without degrading mainlobe resolution implementation is via sequential nonlinear operations applied to complex-valued (undetected) SAR imagery. SAR imaging is used to motivate the concepts developed in this work. However, these nonlinear apodization techniques have potentially broad and far-ranging applications in antenna design, sonar, digital filtering etc., i.e., whenever data can be represented as the Fourier transform of a finite-aperture signal.<>
Keywords :
Nyquist diagrams; fast Fourier transforms; frequency-domain analysis; image processing equipment; nonlinear systems; radar cross-sections; radar imaging; spectral analysis; synthetic aperture radar; Fourier transform; SAR imagery; antenna design; buildings; complex-valued SAR imagery; digital filtering; finite-aperture signal; frequency domain aperture; mainlobe resolution; nonlinear apodization; nonlinear apodization techniques; nonlinear operators; sequential nonlinear operations; ships; sidelobe control; sonar; spectral weighting; synthetic aperture radar imagery; weighting; Degradation; Frequency domain analysis; Image resolution; Layout; Marine vehicles; Radar cross section; Radar polarimetry; Signal design; Sonar; Synthetic aperture radar;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
