Lavu, Sridhar2007-10-312007-10-312002-09-012002-10-21S. Lavu, "3D Geometry Coding using Mixture Models and the Estimation Quantization Algorithm," Masters Thesis, 2002.https://hdl.handle.net/1911/20050Masters Thesis3D surfaces are used in applications such as animations, 3D object modeling and visualization. The geometries of such surfaces are often approximated using polygonal meshes. This thesis aims to compress 3D geometry meshes by using an algorithm based on normal meshes and the Estimation-Quantization (EQ) algorithm. Normal meshes are multilevel representations where finer level vertices lie in a direction normal to the local surface and therefore compress the vertex data to one scalar value per vertex. A mixture distribution model is used for the wavelet coefficients. The EQ algorithm uses the local neighborhood information and Rate-Distortion optimization to encode the wavelet coefficients. We achieve performance gains of 0.5-1dB compared to the zerotree coder for normal meshes.eng3D geometrynormal meshesEQ codergeometry processingWavelet based Signal/Image ProcessingMultiscale MethodsMultiscale geometry processingThesis3D geometrynormal meshesEQ codergeometry processing