CAMA: Contact‐Aware Matrix Assembly with Unified Collision Handling for GPU‐based Cloth Simulation

Tang, Min; Wang, Huamin; Le, Tao; Tong, Ruofeng; Manocha, Dinesh

doi:10.1111/cgf.12851

Cited by 59 publications

(72 citation statements)

References 48 publications

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“…A BVH‐based CD pipeline using the incremental scheme was proposed by [TMLT11,TWT*16]. In their GPU‐streams, the collision pipeline involves a one‐time preprocessing stage and a runtime stage for collision queries.…”

Section: Related Workmentioning

confidence: 99%

“…We implement two versions of our CD pipeline. The first version is embedded in the ARCSim simulator in [TWT*16]. All primitives are categorized into a deformable BVH and a rigid BVH.…”

Section: Comparisons and Analysismentioning

confidence: 99%

“…[LC98] first came up with an incremental scheme that takes advantage of spatial coherence to accelerate CD, which is also known as generalized front tracking [EL01]. It was later used in a GPU‐based streaming algorithm by [TWT*16, TMLT11, DZPW15], which to our knowledge demonstrates the best CD performance among BVH‐based methods so far.…”

Section: Introductionmentioning

confidence: 99%

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Efficient BVH‐based Collision Detection Scheme with Ordering and Restructuring

Wang

Tang

Manocha

et al. 2018

Computer Graphics Forum

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Bounding volume hierarchy (BVH) has been widely adopted as the acceleration structure in broad‐phase collision detection. Previous state‐of‐the‐art BVH‐based collision detection approaches exploited the spatio‐temporal coherence of simulations by maintaining a bounding volume test tree (BVTT) front. A major drawback of these algorithms is that large deformations in the scenes decrease culling efficiency and slow down collision queries. Moreover, for front‐based methods, the inefficient caching on GPU caused by the arbitrary layout of BVH and BVTT front nodes becomes a critical performance issue. We present a fast and robust BVH‐based collision detection scheme on GPU that addresses the above problems by ordering and restructuring BVHs and BVTT fronts. Our techniques are based on the use of histogram sort and an auxiliary structure BVTT front log, through which we analyze the dynamic status of BVTT front and BVH quality. Our approach efficiently handles inter‐ and intra‐object collisions and performs especially well in simulations where there is considerable spatio‐temporal coherence. The benchmark results demonstrate that our approach is significantly faster than the previous BVH‐based method, and also outperforms other state‐of‐the‐art spatial subdivision schemes in terms of speed.

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Section: Related Workmentioning

confidence: 99%

“…We implement two versions of our CD pipeline. The first version is embedded in the ARCSim simulator in [TWT*16]. All primitives are categorized into a deformable BVH and a rigid BVH.…”

Section: Comparisons and Analysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Efficient BVH‐based Collision Detection Scheme with Ordering and Restructuring

Wang

Tang

Manocha

et al. 2018

Computer Graphics Forum

Self Cite

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“…[NKT15] improved the work from [AVGT12] using Asynchronous Contact Mechanics and reduced the communication by proposing a locality‐aware task assignment, which first scaled more than 16 cores. [TWT*16] implemented a GPU‐based simulation pipeline. Their method has achieved an impressive speedup of 58 times, which is comparable to the performance of our method on a 64‐core cluster.…”

Section: Related Workmentioning

confidence: 99%

“…On a given set of benchmarks, our method achieves an unprecedented level of scalability in distributed CPU systems when compared to [ZFV04, NKT15]. Its performance gain is also higher than the GPU parallelization [TWT*16], while our approach offers the additional flexibility for coupling with adaptively remeshed cloth simulators. We also verify that given sufficient amount of processors, our method can achieve an average performance as fast as the low‐resolution simulation, while obtaining simulation results similar to ones using high‐resolution meshes.…”

Section: Introductionmentioning

confidence: 99%

Time‐Domain Parallelization for Accelerating Cloth Simulation

Liang

2018

Computer Graphics Forum

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Cloth simulations, widely used in computer animation and apparel design, can be computationally expensive for real‐time applications. Some parallelization techniques have been proposed for visual simulation of cloth using CPU or GPU clusters and often rely on parallelization using spatial domain decomposition techniques that have a large communication overhead. In this paper, we propose a novel time‐domain parallelization technique that makes use of the two‐level mesh representation to resolve the time‐dependency issue and develop a practical algorithm to smooth the state transition from the corresponding coarse to fine meshes. A load estimation and a load balancing technique used in online partitioning are also proposed to maximize the performance acceleration. Our method achieves a nearly linear performance scaling on manycore clusters and outperforms spatial‐domain parallelization on a diverse set of benchmarks.

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A review of collision detection for deformable objects

Wang

Cao

2021

Computer Animation & Virtual

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In the process of simulating and modeling real objects, the phenomenon of objects penetrating each other may occur in the model, which is unrealistic and then the research of collision detection (CD) is generated. As a bottleneck of virtual environment simulation, researchers have conducted in-depth research on CD, especially the CD of deformable objects. In this paper, we briefly review the related research on CD of deformable objects regarding relevant literature. First, we briefly introduce previous reviews of CD. Second, we review the popular research methods and limitations of CD between deformable objects. Third, we review the popular research methods and limitations of self-collision detection in deformable objects. Finally, we discuss future directions of development.This review can be used as a reference for the application of CD in all directions.

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CAMA: Contact‐Aware Matrix Assembly with Unified Collision Handling for GPU‐based Cloth Simulation

Cited by 59 publications

References 48 publications

Efficient BVH‐based Collision Detection Scheme with Ordering and Restructuring

Efficient BVH‐based Collision Detection Scheme with Ordering and Restructuring

Time‐Domain Parallelization for Accelerating Cloth Simulation

A review of collision detection for deformable objects

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