Laplacian Damping for Projective Dynamics

dc.contributor.authorLi, Jingen_US
dc.contributor.authorLiu, Tiantianen_US
dc.contributor.authorKavan, Ladislaven_US
dc.contributor.editorAndrews, Sheldon and Erleben, Kenny and Jaillet, Fabrice and Zachmann, Gabrielen_US
dc.date.accessioned2018-04-23T14:40:58Z
dc.date.available2018-04-23T14:40:58Z
dc.date.issued2018
dc.description.abstractDamping is an important ingredient in physics-based simulation of deformable objects. Recent work introduced new fast simulation methods such as Position Based Dynamics and Projective Dynamics. Explicit velocity damping methods currently used in conjunction with Position Based Dynamics or Projective Dynamics are simple and fast, but have some limitations. They may damp global motion or non-physically transport velocities throughout the simulated object. More advanced damping models do not have these limitations, but are slow to evaluate, defeating the benefits of fast solvers such as Projective Dynamics. We present a new type of damping model specifically designed for Projective Dynamics, which provides the quality of advanced damping models while adding only minimal computing overhead. The key idea is to define damping forces using Projective Dynamics' Laplacian matrix. In a number of simulation examples we show that this damping model works very well in practice. When used with a modified Projective Dynamics solver that uses a non-dissipative implicit midpoint integrator, our damping method provides fully user-controllable damping, allowing the user to quickly produce visually pleasing and vivid animations.en_US
dc.description.sectionheadersTechnical Papers II
dc.description.seriesinformationWorkshop on Virtual Reality Interaction and Physical Simulation
dc.identifier.doi10.2312/vriphys.20181065
dc.identifier.isbn978-3-03868-059-8
dc.identifier.pages29-36
dc.identifier.urihttps://doi.org/10.2312/vriphys.20181065
dc.identifier.urihttps://diglib.eg.org:443/handle/10.2312/vriphys20181065
dc.publisherThe Eurographics Associationen_US
dc.subjectComputing methodologies
dc.subjectPhysical simulation
dc.titleLaplacian Damping for Projective Dynamicsen_US
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