Title :
Noncausal predictive image codec
Author :
Balram, Nikhil ; Moura, José M F
Author_Institution :
Kaiser Electronics, San Jose, CA, USA
fDate :
8/1/1996 12:00:00 AM
Abstract :
The paper describes a lossy image codec that uses a noncausal (or bilateral) prediction model coupled with vector quantization. The noncausal prediction model is an alternative to the causal (or unilateral) model that is commonly used in differential pulse code modulation (DPCM) and other codecs with a predictive component. We show how to obtain a recursive implementation of the noncausal image model without compromising its optimality and how to apply this in coding in much the same way as a causal predictor. We report experimental compression results that demonstrate the superiority of using a noncausal model based predictor over using traditional causal predictors. The codec is shown to produce high-quality compressed images at low bit rates such as 0.375 b/pixel. This quality is contrasted with the degraded images that are produced at the same bit rates by codecs using causal predictors or standard discrete cosine transform/Joint Photographic Experts Group-based (DCT/JPEG-based) algorithms
Keywords :
codecs; image coding; prediction theory; vector quantisation; DCT/JPEG based algorithms; Joint Photographic Experts Group; VQ; bilateral prediction model; causal predictor; causal predictors; compressed image quality; degraded images; discrete cosine transform; experimental compression results; lossy image codec; low bit rates; noncausal prediction model; noncausal predictive image codec; recursive implementation; vector quantisation; Bit rate; Codecs; Degradation; Discrete cosine transforms; Image coding; Modulation coding; Pixel; Predictive models; Pulse modulation; Vector quantization;
Journal_Title :
Image Processing, IEEE Transactions on
