Title :
Compression of illumination-adjustable images
Author :
Wong, Tien-Tsin ; Leung, Chi-Sing
Author_Institution :
Dept. of Comput. Sci. & Eng., Chinese Univ. of Hong Kong, China
Abstract :
The image-based modeling and rendering (IBMR) approaches allow the time complexity of synthesizing novel images to be independent of scene complexity. Unfortunately, illumination control (relighting) is no longer trivial under the image-based framework. To relight the image-based scenery, the scene must be captured under various illumination conditions. This drastically increases the data volume. Hence, data compression is a must. In this paper, we describe a compression algorithm for an illumination-adjustable image representation. We focus on compressing constant-viewpoint images. A divide-and-conquer approach is proposed. The compression algorithm consists of three parts which exploit the intrapixel, interpixel, and interchannel data correlations. Experimental result shows that the proposed method not just effectively compresses the data but also outperforms standard image and video coding methods.
Keywords :
correlation methods; data compression; harmonic analysis; image coding; image colour analysis; image representation; rendering (computer graphics); transform coding; color images; compression algorithm; constant-viewpoint image compression; data compression; data reduction; data volume; divide-and-conquer approach; illumination conditions; illumination control; illumination-adjustable image compression; illumination-adjustable image representation; image coding; image synthesis; image-based modeling; image-based rendering; image-based scenery; interchannel data correlation; interpixel data correlation; intrapixel data correlation; performance evaluation; relighting; scene complexity; spherical harmonic transform; time complexity; video coding; wavelet transform; Application software; Compression algorithms; Image coding; Image representation; Layout; Lighting control; Rendering (computer graphics); Transform coding; Virtual reality; Wavelet transforms;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
DOI :
10.1109/TCSVT.2003.817628
