Projective dynamics

Bouaziz, Samir; Martín, Sebastián; Liu, Tiantian; Kavan, Ladislav; Pauly, Mark

doi:10.1145/2601097.2601116

Cited by 351 publications

(76 citation statements)

References 36 publications

(46 reference statements)

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“…Limitations and Future Work. This short paper demonstrates that the conjugate gradient method combined with linearly implicit Euler and corotational finite elements may be competitive with existing techniques for real-time animation of soft bodies, but it leaves open many directions for future work, including a more comprehensive comparison to alternative approaches such as projective dynamics [Bouaziz et al 2014;Liu et al 2013;Wang 2015]. Our experiments are limited to volumetric soft bodies where the linear system is guaranteed to be positive definite.…”

Section: Resultsmentioning

confidence: 99%

“…Recently, researchers have developed faster techniques that make use of precomputation of matrix decompositions or clever preconditioners [Bouaziz et al 2014;Brandt et al 2018;Dinev et al 2018;Hecht et al 2012;Liu et al 2013;Narain et al 2016;Wang 2015;Wang and Yang 2016]. Some of these approaches place limits on material models or other aspects of the animation.…”

Section: Related Workmentioning

confidence: 99%

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Early Termination of Conjugate Gradients for Corotated Finite Elements

Dahl

Bargteil

2019

Motion, Interaction and Games

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Section: Resultsmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

Early Termination of Conjugate Gradients for Corotated Finite Elements

Dahl

Bargteil

2019

Motion, Interaction and Games

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“…We then perform "smart averaging" between them. This is based on the approach of Bouaziz et al [50] and Weiler et al [51]. Our cloth system operates entirely on the GPU using compute shaders.…”

Section: Cloth Simulationmentioning

confidence: 99%

Real-Time Collision Detection for Deformable Characters with Radial Fields

Friston

Steed

2019

IEEE Trans. Visual. Comput. Graphics

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Many techniques facilitate real-time collision detection against complex models. These typically work by pre-computing information about the spatial distribution of geometry into a form that can be quickly queried. When models deform though, expensive pre-computations are impractical. We present radial fields: a variant of distance fields parameterised in cylindrical space, rather than Cartesian space. This 2D parameterisation significantly reduces the memory and computation requirements of the field, while introducing minimal overhead in collision detection tests. The interior of the mesh is defined implicitly for the entire domain. Importantly, it maps well to the hardware rasteriser of the GPU. Radial fields are much more application-specific than traditional distance fields. For these applications - such as collision detection with articulated characters - however, the benefits are substantial.

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“…Projective Dynamics [83] have been considered in place of PBD. It averages all constraint projections in one global step which limits oscillations.…”

Section: Muscle Dynamicsmentioning

confidence: 99%

Dynamic implicit muscles for character skinning

Roussellet

Rumman

Canezin

et al. 2018

Computers & Graphics

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Most current methods for character skinning can be categorized into 1) geometric techniques, which are fast and easy to use but often lack physical realism, 2) data-driven approaches, which require a large set of examples that are tedious to edit, and 3) physics-based methods, which are highly realistic but slow and difficult to use. Recently introduced geometric Implicit Skinning methods can solve contact interactions and skin elasticity with results comparable to physics-based simulation in real-time. In this paper we introduce an animation method that adds anatomical plausibility while benefiting from the advantages of Implicit Skinning. We propose an efficient way to model muscle primitives with implicit surfaces. Volumetric extrusions of individual muscles are attached to muscle center lines simulated with a fast, low-dimensional physics-based approach (Position Based Dynamics of one-dimensional line segments). This combination of physics-based simulation with implicit modeling allows us to elegantly resolve muscle-muscle and muscle-bone collisions and add dynamic effects such as flesh jiggling while guaranteeing volume preservation (which is a property of real biological muscles) and producing visually plausible skin-skin contact behavior. Our method runs at interactive frame-rates and features intuitive modeling parameters which allow animators to quickly explore a variety of designs and physics-based effects.

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Projective dynamics

Cited by 351 publications

References 36 publications

Early Termination of Conjugate Gradients for Corotated Finite Elements

Early Termination of Conjugate Gradients for Corotated Finite Elements

Real-Time Collision Detection for Deformable Characters with Radial Fields

Dynamic implicit muscles for character skinning

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