An Eigenanalysis of Angle-Based Deformation Energies

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dc.contributor.authorWu, Haomiaoen_US
dc.contributor.authorKim, Theodoreen_US
dc.contributor.editorWang, Huaminen_US
dc.contributor.editorYe, Yutingen_US
dc.contributor.editorVictor Zordanen_US
dc.date.accessioned2023-10-16T12:33:25Z
dc.date.available2023-10-16T12:33:25Z
dc.date.issued2023
dc.description.abstractAngle-based energies appear in numerous physics-based simulation models, including thin-shell bending and isotropic elastic strands. We present a generic analysis of these energies that allows us to analytically filter the negative eigenvalues of the second derivative (Hessian), which is critical for stable, implicit time integration. While these energies are usually formulated in terms of angles and positions, we propose an abstract edge stencil that succinctly parameterizes the edge deformation, and allows us to derive generic, closed-form analytical expressions for the energy eigensystems. The resultant eigenvectors have straightforward geometric interpretations. We demonstrate that our method is readily applicable to a variety of 2D and 3D angle-based elastic energies, including both cloth and strands, and is up to 7× faster than numerical eigendecomposition.en_US
dc.description.number3
dc.description.sectionheadersDeformation and Physics I
dc.description.seriesinformationProceedings of the ACM on Computer Graphics and Interactive Techniques
dc.description.volume6
dc.identifier.doi10.1145/3606929
dc.identifier.issn2577-6193
dc.identifier.urihttps://doi.org/10.1145/3606929
dc.identifier.urihttps://diglib.eg.org:443/handle/10.1145/3606929
dc.publisherACM Association for Computing Machineryen_US
dc.subjectCCS Concepts: Computing methodologies -> Physical simulation; Mathematics of computing?Nonlinear equations Physics-Based Simulation, Hyperelastic Simulation"
dc.subjectComputing methodologies
dc.subjectPhysical simulation
dc.subjectMathematics of computing?Nonlinear equations Physics
dc.subjectBased Simulation
dc.subjectHyperelastic Simulation"
dc.titleAn Eigenanalysis of Angle-Based Deformation Energiesen_US
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SCA 2023: Eurographics/SIGGRAPH Symposium on Computer Animation