2015
DOI: 10.1002/cav.1641
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GPU‐assisted real‐time coupling of blood flow and vessel wall

Abstract: The vessel wall and the blood flow interact and influence each other, and real-time coupling between them is of great importance to the virtual surgery as well as the research and diagnosis of vascular disease. On the basis of smoothed particle hydrodynamics (SPH), we present a new approach to solve non-Newtonian viscous force of blood and a parallel mixed particles-based coupling method for blood flow and vessel wall. Meanwhile, we also design a proxy particle-based vessel wall force visualization method. Our… Show more

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Cited by 3 publications
(4 citation statements)
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“…The environment for the experiments is as follows: Windows 7 Ultimate 64bits SP1, Intel Xeon E 3-1230 V2@ 3.30-GHz quad-core processor, 8 GB internal storage, and graphics card of NVIDIA GeForces GTX 650 Ti (1 GB). We choose the GPU accelerated blood vessel wall coupling method proposed by Guo et al 15 as a physical simulation method for acquiring training samples and as a contrast method for the proposed method. The simulation scenario where we get the input data (the particle state feature vector of the current frame) and the target data (the particle acceleration of the next frame of blood flow) is as follows: Initialize a columnar blood flow of a certain height and let it flow into the fixed blood vessel model under gravity.…”
Section: Resultsmentioning
confidence: 99%
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“…The environment for the experiments is as follows: Windows 7 Ultimate 64bits SP1, Intel Xeon E 3-1230 V2@ 3.30-GHz quad-core processor, 8 GB internal storage, and graphics card of NVIDIA GeForces GTX 650 Ti (1 GB). We choose the GPU accelerated blood vessel wall coupling method proposed by Guo et al 15 as a physical simulation method for acquiring training samples and as a contrast method for the proposed method. The simulation scenario where we get the input data (the particle state feature vector of the current frame) and the target data (the particle acceleration of the next frame of blood flow) is as follows: Initialize a columnar blood flow of a certain height and let it flow into the fixed blood vessel model under gravity.…”
Section: Resultsmentioning
confidence: 99%
“…Lai and Xiang 14 implemented graphics processing unit (GPU)assisted blood flow simulation using the Compute Unified Device Architecture (CUDA), achieving 50 fps simulation at 9000 particles, but they did not consider the interaction of blood flow with blood vessels. Guo et al 15 proposed a GPU-accelerated mixed particle-based coupling method for blood flow and the vessel wall that real-time simulated at the 100,000 particle size. Although these studies have made some improvements in computational efficiency, a more efficient method is urgently needed due to the multiphase coupling involved in the virtual surgery scene with flexible organs and surgical instruments.…”
Section: Related Workmentioning
confidence: 99%
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