1. Capture and Modeling of Non-Linear Heterogeneous Soft Tissue
- Author
-
Bickel, Bernd, Bächer, Moritz, Otaduy, Miguel A., Matusik, Wojciech, Pfister, Hanspeter, and Gross, Markus
- Subjects
data-driven graphics ,deformations ,model acquisition ,physically based animation and modeling - Abstract
This paper introduces a data-driven representation and modeling technique for simulating non-linear heterogeneous soft tissue. It simplifies the construction of convincing deformable models by avoiding complex selection and tuning of physical material parameters, yet retaining the richness of non-linear heterogeneous behavior. We acquire a set of example deformations of a real object, and represent each of them as a spatially varying stress-strain relationship in a finite-element model. We then model the material by non-linear interpolation of these stress-strain relationships in strain-space. Our method relies on a simple-to-build capture system and an efficient run-time simulation algorithm based on incremental loading, making it suitable for interactive computer graphics applications. We present the results of our approach for several non-linear materials and biological soft tissue, with accurate agreement of our model to the measured data., Engineering and Applied Sciences
- Published
- 2009
- Full Text
- View/download PDF