Title :
Geometry compression of 3-D mesh models using predictive two-stage quantization
Author :
Choi, Jin Soo ; Kim, Yong Han ; Lee, Ho-Jang ; Park, In-Sung ; Lee, Myoung Ho ; Ahn, Chieteuk
Author_Institution :
Radio & Broadcasting Technol. Lab., ETRI, Taejon, South Korea
fDate :
3/1/2000 12:00:00 AM
Abstract :
In conventional predictive quantization schemes for 3-D mesh geometry, excessively large residuals or prediction errors, although occasional, lead to visually unacceptable geometric distortion. This is due to the fact that they cannot limit the maximum quantization error within a given bound. In order to completely eliminate the visually unacceptable distortion caused by large residuals, we propose a predictive two-stage quantization scheme. This scheme is very similar to the conventional DPCM, except that the embedded quantizer is replaced by a series of two quantizers. Each quantizer output is further compressed by an arithmetic code. When applied to typical 3-D mesh models, the scheme performs much better than the conventional predictive quantization methods and, depending upon the input models, even than the MPEG-4 compression method for 3-D mesh geometry both in rate distortion sense and in subjective viewing
Keywords :
arithmetic codes; data compression; geometry; image coding; image representation; prediction theory; quantisation (signal); rate distortion theory; 3D mesh geometry; 3D mesh models representation; DPCM; MPEG-4 compression method; arithmetic code; geometric distortion; geometry compression; input models; large prediction errors; large residuals; maximum quantization error; predictive two-stage quantization; quantizer output compression; rate distortion; subjective viewing; Arithmetic; Computer graphics; Geometry; IP networks; MPEG 4 Standard; Predictive coding; Predictive models; Quantization; Rate-distortion; Solid modeling;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
