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Multiresolution random accessible mesh compression
| Content Provider | CiteSeerX |
|---|---|
| Author | Kim, Junho Choe, Sungyul Lee, Seungyong |
| Abstract | This paper presents a novel approach for mesh compression, which we call multiresolution random accessible mesh compression. In contrast to previous mesh compression techniques, the approach enables us to progressively decompress an arbitrary portion of a mesh without decoding other non-interesting parts. This simultaneous support of random accessibility and progressiveness is accomplished by adapting selective refinement of a multiresolution mesh to the mesh compression domain. We present a theoretical analysis of our connectivity coding scheme and provide several experimental results. The performance of our coder is about 11 bits for connectivity and 21 bits for geometry with 12-bit quantization, which can be considered reasonably good under the constraint that no fixed neighborhood information can be used for coding to support decompression in a random order. |
| File Format | |
| Volume Number | 25 |
| Journal | Computer Graphics Forum |
| Language | English |
| Access Restriction | Open |
| Subject Keyword | Multiresolution Random Accessible Mesh Compression Novel Approach Mesh Compression Several Experimental Result Theoretical Analysis 12-bit Quantization Fixed Neighborhood Information Previous Mesh Compression Technique Simultaneous Support Mesh Compression Domain Selective Refinement Random Order Multiresolution Mesh Non-interesting Part Arbitrary Portion Random Accessibility |
| Content Type | Text |
| Resource Type | Article |
