Abstract :
In this paper a technique for cross-range scaling of an ISAR image is proposed. Two suitable rows si and sj, relative to the i-th and j-th range bin, are extracted from the range compressed hologram. Then a proper functional G(d(t)), where d(t) is the target rotation law, is evaluated on the complex vector hequiv[h1 h2...hn s]T, with hk=s*iksjk and k=1, ..., ns, such that its maximization leads to motion rotation parameter estimation. It is shown how cross-range scaling may be obtained with an observation angle of few degrees. It is considered relevant that the scaling technique is applied to the hologram before motion compensation, so target translation estimation error does not affect rotation estimation. An efficient algorithm to evaluate the functional, based on nearest neighbor or linear interpolation, is then described. Finally, the effectiveness of the technique is tested on real data.
Keywords :
interpolation; motion compensation; radar imaging; synthetic aperture radar; ISAR cross-range scaling; ISAR image; complex vector; compressed hologram; correlation based functional; linaer interpolation; motion compensation; rotation estimation; target translation estimation error; Chirp; Frequency; Geometry; Image coding; Lighting control; Marine vehicles; Parameter estimation; Radar imaging; Scattering; Taylor series; ISAR; cross-range scaling; target rotation estimation;
