Technical Papers

Skinning & Deformation

Thursday, 25 July 9:00 AM - 10:30 AM
Session Chair: Michiel van de Panne, University of British Columbia

Two-Layer Sparse Compression of Dense-Weight Blend Skinning

An efficient two-layer sparse-compression technique that substantially reduces the computational cost of a dense-weight skinning model, with insignificant loss of its visual quality. The technique can work directly on dense skinning weights or use example-based skinning decomposition to further improve its accuracy.

Binh Le
University of Houston

Zhigang Deng
University of Houston

Implicit Skinning: Real-Time Skin Deformation With Contact Modeling

A geometric skinning method handling elbow collapse and skin contact effects in real time. Starting from a geometric skinning, the method exploits the advanced composition ability of volumic representations to adjust and control the skin deformation at bone joints while naturally handling contact and preventing any loss of detail.

Rodolphe Vaillant
Université de Toulouse

Loïc Barthe
Université de Toulouse

Gael Guennebaud

Marie-Paule Cani
Grenoble Universités, INRIA Grenoble

Brian Wyvill
University of Bath

Damien Rohmer
École supérieure de chimie physique électronique de Lyon, INRIA

Olivier Gourmel
Université de Toulouse

Mathias Paulin
Université de Toulouse

*Cages: A Multi‐Level, Multi‐Cage Based System for Mesh Deformation

*Cages smoothly deform a mesh by using multiple cages with different coordinate types at different levels, increasing control over the deformation and allowing fast evaluations and low memory footprint.

Francisco González García
Universitat de Girona

Teresa Paradinas
Universitat de Girona

Narcis Coll
Universitat de Girona

Gustavo Patow
Universitat de Girona

Cubic Mean Value Coordinates

This method for interpolating both boundary values and gradients over a 2D polygon builds on an existing transfinite interpolant over a continuous domain, which in turn extends the mean value interpolant. The method gives a closed-form formula for boundary constraints represented as polynomials up to degree 3.

Xianying Li
TsingHua University

Tao Ju
Washington University in St. Louis

Shi-Min Hu
Tsinghua University