Title :
Wavelet-domain texture modeling for image compression
Author :
Ryan, Thomas W. ; Sanders, L. Darwin ; Fisher, H. Donald
Author_Institution :
Sci. Applications Int. Corp., Tucson, AZ, USA
Abstract :
High quality image compression algorithms are capable of achieving transmission or storage rates of 0.5 to 1.0 bits/pixel with low degradation in image quality. In order to obtain even lower bit rates, the authors relax the usual rms error definition of image quality and allow certain “less critical” portions of the image to be transmitted as texture models. These regions are then reconstructed at the receiver with statistical fidelity in the mid- to high-range spatial frequencies and absolute fidelity in the low-pass frequency range. This hybrid spectral texture modeling technique takes place in the discrete wavelet transform domain. In this way, the authors obtain natural spectral texture models and avoid the boundary blending problems usually associated with polygonal modeling
Keywords :
data compression; image coding; image reconstruction; image segmentation; image texture; transforms; wavelet transforms; absolute fidelity; bit rates; boundary blending problems; degradation; discrete wavelet transform domain; frequency range; hybrid spectral texture modeling; image compression; image quality; polygonal modeling; reconstruct; regions; rms error definition; spectral texture models; statistical fidelity; storage rates; texture models; transmission rates; wavelet-domain texture modeling; Bit rate; Degradation; Discrete wavelet transforms; Frequency; Image coding; Image quality; Image reconstruction; Image storage; Pixel; Wavelet domain;
Conference_Titel :
Image Processing, 1994. Proceedings. ICIP-94., IEEE International Conference
Conference_Location :
Austin, TX
Print_ISBN :
0-8186-6952-7
DOI :
10.1109/ICIP.1994.413596
