Title :
Image resampling between orthogonal and hexagonal lattices
Author :
Van De Ville, Dimitri ; Van de Walle, Rik ; Philips, Wilfried ; Lemahieu, Ignace
Abstract :
Resampling techniques are commonly required in digital image processing systems. Many times the classical interpolation functions are used, i.e., nearest-neighbour interpolation and bilinear interpolation, which are prone to the introduction of undesirable artifacts due to aliasing such as moire patterns. This paper presents a novel approach which minimizes the loss of information, in a least-squares sense, while resampling between orthogonal and hexagonal lattices. Making use of an extension of 2D splines to hexagonal lattices, the proper reconstruction function is derived. Experimental results for a printing application demonstrate the feasibility of the proposed method and are compared against the classical techniques.
Keywords :
image representation; image sampling; interpolation; splines (mathematics); 2D splines; aliasing; artifacts; bilinear interpolation; digital image processing systems; hexagonal lattices; image representation; image resampling; interpolation functions; moire patterns; nearest-neighbour interpolation; orthogonal lattices; printing application; reconstruction function; Convolution; Digital images; Filters; Image reconstruction; Image sampling; Interpolation; Lattices; Printing;
Conference_Titel :
Image Processing. 2002. Proceedings. 2002 International Conference on
Print_ISBN :
0-7803-7622-6
DOI :
10.1109/ICIP.2002.1038987
