Title :
Hybrid learning methods for vector quantization and its to image compression
Author :
Shigei, Noritaka ; Miyajima, Hiromi ; Maeda, Michiharu ; Fukumoto, Shinya
Author_Institution :
Dept. of Eng., Kagoshima Univ., Japan
Abstract :
Neural networks for vector quantization such as K-means, neural-gas (NG) network and Kohonen\´s self-organizing map (SOM) is proposed. K-means, which is a "hard-max" approach, converges very fast, but it easily falls into local minima. On the other hand, the NG and SOM methods, which are "soft-max" approaches, are good at the global search ability. Though NG and SOM exhibit better performance in coming close to the optimum than K-means, they converge slower than K-means. In order to the drawbacks that exist when K-means, NG and SOM are used individually, we have developed hybrid methods such as NG-K and SOM-K. This paper investigates the effectiveness of NG- K and SOM-K in an image compression application. Our simulation results show that NG-K and SOM-K have good scalability to the number of weight vectors.
Keywords :
image coding; learning (artificial intelligence); minimax techniques; self-organising feature maps; vector quantisation; K-means; Kohonen self-organizing map; global search ability; hard-max approach; hybrid learning methods; image compression application; local minima; neural-gas network; soft-max approaches; vector quantization; Educational institutions; Entropy; Image coding; Image converters; Image processing; Lattices; Learning systems; Neural networks; Simulated annealing; Vector quantization;
Conference_Titel :
Signal Processing and Its Applications, 2003. Proceedings. Seventh International Symposium on
Print_ISBN :
0-7803-7946-2
DOI :
10.1109/ISSPA.2003.1224859
