Kacker, R.H. Bamberger, and P.J. Flynn, "New subband geometries for image texture segmentation," in Proc. IEEE. Conf. Image Proc., 1996, vol. III, pp. 407--411.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....orientation dependent. Another solution to the coarse frequency sampling has been proposed by Wilson et al. in their Multiresolution Fourier Transform , which incorporates Fourier analysis in a wavelet scheme [11] An alternative frequency splitting scheme has been studied by Kacker et al. [12] to improve orientational selectivity. C. Continuous wavelet decomposition Finer frequency selectivity can be obtained from (1) when dropping the constraints of a complete orthogonal decomposition, at the expense of including redundancy. A complete description is usually required for a perfect ....

Kacker, R.H. Bamberger, and P.J. Flynn, "New subband geometries for image texture segmentation," in Proc. IEEE. Conf. Image Proc., 1996, vol. III, pp. 407--411.

....decomposition is given in by e.g. the need for orientational selectivity. Several intermediate schemes can be considered, which make a better compromise in splitting parts of the frequency plane (as discussed in chapter 10 of [8] An experiment with this is found in the work of Kacker et al. [17], who claim classification improvements to the level of Gabor transform results by using an additional splitting in a pyramidal wavelet scheme. A different but related solution to the coarse frequency sampling has been proposed by Wilson et al. [36] in their multiresolution Fourier Transform, which ....

D. Kacker, R. H. Bamberger, and P. J. Flynn. New subband geometries for image texture segmentation. In Proc. IEEE. Conf. Image Proc., pages III 971--974, 1996.

Online articles have much greater impact   More about CiteSeer.IST   Add search form to your site   Submit documents   Feedback  

CiteSeer.IST - Copyright Penn State and NEC