We propose a new progressive compression scheme for arbitrary topology, highly detailed and densely sampled meshes arising from geometry scanning. We observe that meshes consist of three distinct components: geometry, parameter, and connectivity information. The latter two do not contribute to the reduction of error in a compression setting. Using semi-regular meshes, parameter and connectivity information can be virtually eliminated. Coupled with semi-regular wavelet transforms, zerotree coding, and subdivision based reconstruction we see improvements in error by a factor four (12dB) compared to other progressive coding schemes
International audienceProgressive mesh compression techniques have reached very high compression rat...
We present a technique to compress scalar functions defined on 2-manifolds of arbitrary topology. Ou...
Previous work on progressive mesh compression focused on triangle meshes but meshes containing other...
We propose a new progressive compression scheme for arbitrary topology, highly detailed and densely ...
AbstractA new progressive compression algorithm for arbitrary topology with highly detailed triangle...
International audienceThis paper presents a new algorithm for the progressive compression of manifol...
International audienceThis paper presents a new algorithm for the progressive compression of manifol...
International audienceThis paper proposes a new lossy to lossless progressive compression scheme for...
Abstract — This paper proposes a new lossy to lossless pro-gressive compression scheme for triangula...
Performances of actual mesh compression algorithms vary significantly depending on the type of model...
Geometry compression concerns the representation of three-dimensional objects. The goal of geometry ...
Most systems that support the visual interaction with 3D models use shape representations based on t...
Abstract. Performances of actual mesh compression algorithms vary significantly depending on the typ...
International audienceIn this paper we introduce a novel approach for progressive transmission of th...
Proceedings of Symposium on Geometry Processing SGP 2009International audienceIn this paper, we prop...
International audienceProgressive mesh compression techniques have reached very high compression rat...
We present a technique to compress scalar functions defined on 2-manifolds of arbitrary topology. Ou...
Previous work on progressive mesh compression focused on triangle meshes but meshes containing other...
We propose a new progressive compression scheme for arbitrary topology, highly detailed and densely ...
AbstractA new progressive compression algorithm for arbitrary topology with highly detailed triangle...
International audienceThis paper presents a new algorithm for the progressive compression of manifol...
International audienceThis paper presents a new algorithm for the progressive compression of manifol...
International audienceThis paper proposes a new lossy to lossless progressive compression scheme for...
Abstract — This paper proposes a new lossy to lossless pro-gressive compression scheme for triangula...
Performances of actual mesh compression algorithms vary significantly depending on the type of model...
Geometry compression concerns the representation of three-dimensional objects. The goal of geometry ...
Most systems that support the visual interaction with 3D models use shape representations based on t...
Abstract. Performances of actual mesh compression algorithms vary significantly depending on the typ...
International audienceIn this paper we introduce a novel approach for progressive transmission of th...
Proceedings of Symposium on Geometry Processing SGP 2009International audienceIn this paper, we prop...
International audienceProgressive mesh compression techniques have reached very high compression rat...
We present a technique to compress scalar functions defined on 2-manifolds of arbitrary topology. Ou...
Previous work on progressive mesh compression focused on triangle meshes but meshes containing other...