Leveraging Graph Neural Networks for Efficient Reduced-Order Blood Flow Simulations

 
Speaker:
Luca Pegolotti
Affiliation:
Stanford University
When:
Thursday 18th May 2023
Time:
15:00:00
Where:
Aula Saleri
Abstract:
Recently, simulations of blood flow have shown great promise in revolutionizing cardiovascular disease research and treatment. Reduced-order models, specifically zero- and one-dimensional ones, are capable of approximating blood dynamics more efficiently than detailed three-dimensional simulations. These models prove helpful when computational resources or time are constrained, or in scenarios requiring numerous queries, such as uncertainty quantification. However, their accuracy can falter in complex geometries featuring many junctions or pathological conditions like stenoses or aneurysms. Data-driven reduced-order models utilize previous simulation data to address the limitations of conventional physics-based models. In our presentation, we delve into a one-dimensional reduced-order model utilizing MeshGraphNet, a graph neural network architecture designed for simulations on unstructured grids. The graph neural network is trained on a variety of three-dimensional simulation data restricted to the nodes on the geometry centerline. During its rollout phase, the network iteratively computes pressure and flow rates, incorporating relevant geometric and patient-specific data. Thanks to the versatility of graph neural networks, a single trained architecture can effectively approximate blood dynamics in a range of topologies and geometries. Our results show that, given sufficient training data, our algorithm outperforms physics-based one-dimensional models in accuracy while still offering dramatic speed enhancements compared to three-dimensional simulations. In this presentation, we also cover the limitations of the current methodology and future perspectives. Contatto: stefano.pganai@polimi.it
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