Title :
A robust parallel architecture for adaptive color quantization
Author :
Mailachalam, Babu ; Srikanthan, T.
Author_Institution :
Centre for High Performance Embedded Syst., Nanyang Technol. Inst., Singapore
Abstract :
Adaptive color quantization (ACQ) as described here is one method of color image compression employed for image storage and display in low cost monitors. Due to the nature of the palette based mapping employed in ACQ, it is prone to large errors due to noises introduced in transmission or additional lossy compression. This paper proposes a robust method of ACQ using a three dimensional self organizing map (3D SOM) which is tolerant to noises. The robustness of the 3D SOM is due to the property of such maps to cluster the color vectors in a topological manner. An efficient parallel architecture based on the SIMD structure and parallel winner determination scheme, is presented for the implementation of the 3D SOM. The VLSI area-time efficiency of this parallel architecture over the current implementations is also established
Keywords :
VLSI; adaptive codes; data compression; digital signal processing chips; image coding; image colour analysis; neural net architecture; parallel architectures; quantisation (signal); self-organising feature maps; 3D SOM architecture; 3D self organizing map; SIMD structure; VLSI area-time efficiency; adaptive color quantization; color image compression; color vectors clustering; image display; image storage; image transmission; lossy compression; low cost monitors; noise; palette based mapping; parallel architecture; parallel winner determination; robust parallel architecture; Color; Colored noise; Computer displays; Costs; Image coding; Image storage; Noise robustness; Parallel architectures; Propagation losses; Quantization;
Conference_Titel :
Information Technology: Coding and Computing, 2000. Proceedings. International Conference on
Conference_Location :
Las Vegas, NV
Print_ISBN :
0-7695-0540-6
DOI :
10.1109/ITCC.2000.844201
