Error Resilient 3-D Mesh Compression

Author

Park, Sung-Bum ; Kim, Chang-Su ; Lee, Sang-Uk

Author_Institution

Signal Process. Lab., Seoul

Volume

8

Issue

5

fYear

2006

Firstpage

885

Lastpage

895

Abstract

An error resilient three-dimensional (3-D) mesh coding system is proposed in this paper. The encoder uses a shape adaptive data partitioning scheme to alleviate the effect of error propagation. An input mesh surface is coarsely divided into smooth and detailed regions, and each region is further divided into partitions of similar sizes. Then, those partitions are progressively compressed and their joint boundaries are compressed using the boundary edge collapse rule. At the decoder, the boundary edge collapse rule facilitates the seamless assembly of the partitions. When no data is available for a partition due to transmission errors, we employ a concealment scheme based on the projection onto convex sets (POCS) theory. Simulation results demonstrate that the proposed algorithm reconstructs 3-D mesh surfaces faithfully even in severe error prone environments

Keywords

computational geometry; data compression; error correction codes; image coding; image reconstruction; mesh generation; set theory; 3D mesh compression; POCS theory; boundary edge collapse rule; convex set theory; decoder; encoder; error concealment; error propagation; error resilient three-dimensional mesh coding system; shape adaptive data partitioning scheme; surface reconstruction; Computer errors; Decoding; Error correction codes; Forward error correction; Information technology; Partitioning algorithms; Robustness; Shape; Video coding; Video compression; 3–D mesh compression; Error concealment; POCS; robust transmission; shape adaptive mesh partitioning;

fLanguage

English

Journal_Title

Multimedia, IEEE Transactions on

Publisher

ieee

ISSN

1520-9210

Type

jour

DOI

10.1109/TMM.2006.879914

Filename

1703503