In this paper we introduce a novel edge directed image interpolation algorithm so as to obtain an high-resolution image, given a low-resolution image. The interpolation is based on the local image directionality features estimated on the low-resolution image. The in depth analysis of the local edge features is accomplished at a low computational cost by filtering the low-resolution image by means of the first order filter belonging to the class of the Circular Harmonic Functions (CHF). The interpolation algorithm shows low computational complexity. Numerical results show that the CHF-driven interpolation outperforms state of the art estimators from both a subjective and objective point of view, in several simulation conditions. ©2010 IEEE.
Fast image interpolation using circular harmonic functions / Colonnese, Stefania; Roberto, Randi; Rinauro, Stefano; Scarano, Gaetano. - (2010), pp. 114-118. (Intervento presentato al convegno 2nd European Workshop on Visual Information Processing, EUVIP2010 tenutosi a Paris; France nel 5 July 2010 through 7 July 2010) [10.1109/euvip.2010.5699119].
Fast image interpolation using circular harmonic functions
COLONNESE, Stefania;RINAURO, STEFANO;SCARANO, Gaetano
2010
Abstract
In this paper we introduce a novel edge directed image interpolation algorithm so as to obtain an high-resolution image, given a low-resolution image. The interpolation is based on the local image directionality features estimated on the low-resolution image. The in depth analysis of the local edge features is accomplished at a low computational cost by filtering the low-resolution image by means of the first order filter belonging to the class of the Circular Harmonic Functions (CHF). The interpolation algorithm shows low computational complexity. Numerical results show that the CHF-driven interpolation outperforms state of the art estimators from both a subjective and objective point of view, in several simulation conditions. ©2010 IEEE.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
