Title :
Edge-retaining asymptotic projections onto convex sets for image interpolation
Author :
DeBrunner, Victor ; DeBrunner, Linda S. ; Yao, Minghua
Author_Institution :
Sch. of Electr. & Comput. Eng., Oklahoma Univ., Norman, OK, USA
Abstract :
We propose the concept of asymptotic projections onto convex sets (APOCS) in general and a wavelet (WT)-based, edge-retaining asymptotic POCS (ERAPOCS) algorithm for image interpolation in particular. APOCS differs from POCS in that the projections sequence in one (or more) of the convex sets can enter a desired region rapidly. Like POCS, our proposed algorithm is guaranteed to converge. Our new algorithm alleviates edge blurring by properly amplifying the WT of the image. The amplification in the WT domain biases the projection sequence to the subset of interpolated images that has less edge-bearing. Simulations show that our proposed algorithm performs better in the sense of PSNR and preserves the sharpness of the edges better than do the cubic interpolation and the POCS algorithms. In addition, our algorithm is more computationally efficient than the POCS algorithm since it converges in fewer iterations and has the same computational complexity
Keywords :
convergence of numerical methods; edge detection; image sequences; interpolation; iterative methods; set theory; wavelet transforms; ERAPOCS; PSNR; asymptotic projections onto convex sets; computational complexity; convergence; edge blurring; edge sharpness preservation; edge-retaining asymptotic POCS; image interpolation; image sequence; iterations; performance; wavelet-based asymptotic POCS; Convolution; Discrete wavelet transforms; Electronic switching systems; Image converters; Image restoration; Interpolation; PSNR; Smoothing methods; Wavelet domain; Wavelet transforms;
Conference_Titel :
Image Analysis and Interpretation, 2000. Proceedings. 4th IEEE Southwest Symposium
Conference_Location :
Austin, TX
Print_ISBN :
0-7695-0595-3
DOI :
10.1109/IAI.2000.839575
