Title :
A segmentation-based predictive multiresolution image coder
Author :
Wu, Xiaolin ; Fang, Yonggang
Author_Institution :
Dept. of Comput. Sci., Univ. of Western Ontario, London, Ont., Canada
fDate :
1/1/1995 12:00:00 AM
Abstract :
Recursive rectilinear tessellations like quadtree are widely used in image coding, but a regular tessellation, despite simple geometry, may not suit image compression because it is too rigid to reflect the scene structure of an image. The paper presents a new image pyramid formed by adaptive, tree-structured segmentation to be a framework of a predictive multiresolution image coder. Subjectively appealing compression results are obtained at different resolutions by scene-adaptive, tree-structured segmentation and by exploiting the statistical dependency between the layers of the image pyramid. The adaptive segmentation-based image coder is constructed by recursive, least-squares piecewise functional approximation. The seemingly expensive encoding process can be made efficient by an incremental least-squares computation technique. The decoding is simple and can be done in real time if assisted by existing hardware technology
Keywords :
adaptive signal processing; decoding; image coding; image segmentation; least squares approximations; prediction theory; recursive estimation; tree data structures; vector quantisation; adaptive tree-structured segmentation; decoding; encoding process; image compression; image pyramid; incremental least-squares computation technique; predictive multiresolution image coder; recursive least-squares piecewise functional approximation; scene structure; scene-adaptive tree-structured segmentation; segmentation-based predictive multiresolution image coder; statistical dependency; Bit rate; Geometry; Image coding; Image databases; Image resolution; Image segmentation; Layout; Multimedia databases; Rate-distortion; Silicon carbide;
Journal_Title :
Image Processing, IEEE Transactions on
