Title :
Multistage vector quantization based on simulated annealing for image coding
Author :
Shigang, Wang ; Hexin, Chen
Author_Institution :
Dept. of Comput. Eng., ChangChun Post & Telecommun. Inst., China
Abstract :
Multistage vector quantization (MSVQ) can achieve very low encoding and storage complexity in comparison to unstructured vector quantization. However, the conventional stage-by-stage design of the codebooks in MSVQ is suboptimal with respect to the overall performance measure. The generation of codebooks from a set of training vectors using simulated annealing (SA) can converge to the globally optimal codebook in finite time. In this paper, SA is combined with MSVQ for optimizing the overall performance. The algorithm of multistage vector quantization based on simulated annealing (MSVQ-SA) for image coding is presented. Experimental results show that MSVQ-SA technique results in significantly better quantizer performance than that obtained with SA and MSVQ
Keywords :
convergence; image coding; performance evaluation; simulated annealing; vector quantisation; MSVQ; codebooks; image coding; multistage vector quantization; performance measure; quantizer performance; simulated annealing; stage-by-stage design; storage complexity; training vectors; unstructured vector quantization; Computational modeling; Encoding; Image coding; Image converters; Image storage; Iterative methods; Simulated annealing; Source coding; Telecommunication computing; Vector quantization;
Conference_Titel :
Intelligent Processing Systems, 1997. ICIPS '97. 1997 IEEE International Conference on
Conference_Location :
Beijing
Print_ISBN :
0-7803-4253-4
DOI :
10.1109/ICIPS.1997.669128
