Progressive Compression of 3D Objects with an Adaptive Quantization
This paper presents a new progressive compression method for triangular meshes. This method, in fact, is based on a schema of irregular multiresolution analysis and is centered on the optimization of the rate-distortion trade-off. The quantization precision is adapted to each vertex during the encoding/decoding process to optimize the rate-distortion compromise.
The Optimization of the treated mesh geometry improves the approximation quality and the compression ratio at each level of resolution. The experimental results show that the proposed algorithm gives competitive results compared to the previous works dealing with the rate-distortion compromise.
Keywords: 3D mesh, Progressive compression, Rate-distortion optimization, Adaptive quantization, Multiresolution analysis
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ABOUT THE AUTHORS
Zeineb Abderrahim
PHD Student(ENIS)
Mohamed Salim Bouhlel
Director of Research Unit Sciences and of image and Telecommunications(SETIT)
Zeineb Abderrahim
PHD Student(ENIS)
Mohamed Salim Bouhlel
Director of Research Unit Sciences and of image and Telecommunications(SETIT)
