Mirko Sattler scite author profile

We present a new geometry compression method for animations, which is based on the clustered principal component analysis (CPCA). Instead of analyzing the set of vertices for each frame, our method analyzes the set of paths for all vertices for a certain animation length. Thus, using a data-driven approach, it can identify mesh parts, that are "coherent" over time. This usually leads to a very efficient and robust segmentation of the mesh into meaningful clusters, e.g. the wings of a chicken. These parts are then compressed separately using standard principal component analysis (PCA). Each of this clusters

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Acquisition, Synthesis, and Rendering of Bidirectional Texture Functions

Müller

Meseth

Sattler

et al. 2005

Computer Graphics Forum

106

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One of the main challenges in computer graphics is still the realistic rendering of complex materials such as fabric or skin. The difficulty arises from the complex meso structure and reflectance behavior defining the unique look-and-feel of a material. A wide class of such realistic materials can be described as 2D-texture under varying light-and view direction, namely, the Bidirectional Texture Function (BTF). Since an easy and general method for modeling BTFs is not available, current research concentrates on image-based methods, which rely on measured BTFs (acquired real-world data) in combination with appropriate synthesis methods. Recent results have shown that this approach greatly improves the visual quality of rendered surfaces and therefore the quality of applications such as virtual prototyping. This state-of-the-art report (STAR) will present the techniques for the main tasks involved in producing photo-realistic renderings using measured BTFs in details.

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Exploitation of human shadow perception for fast shadow rendering

Sattler

Sarlette

Mücken

et al. 2005

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Simulation and Visualisation of Virtual Textiles for Virtual Try-On

Wacker¹,

Keckeisen²,

Kimmerle³

et al. 2005

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The correct simulation and visualisation of textiles comprises many research fields such as mathematics, physics, materials science, and computer graphics. It consists of modelling the physical behaviour of textiles based on real data of garment patterns which have to be placed around an avatar. Therefore efficient numerical algorithms have to be developed to solve the appearing differential equations. Finally the obtained results are displayed photorealistically). The aim of the national research project ''Virtual Try-On'' consists in providing a prototype of a virtual try-on scenario in a real shop or the internet realizing cost-efficient made-tomeasure wear. In this article we present the whole process chain from the choice of clothes up to the final visualisation and the individual evaluation of fit.

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Mirko Sattler

Simple and efficient compression of animation sequences

Acquisition, Synthesis, and Rendering of Bidirectional Texture Functions

Exploitation of human shadow perception for fast shadow rendering

Simulation and Visualisation of Virtual Textiles for Virtual Try-On

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