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Machine learning moment closure models for the radiative transfer equation I: directly learning a gradient based closure

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arxiv 2105.05690 v2 pith:AOG76DHG submitted 2021-05-12 math.NA cs.LGcs.NAphysics.comp-ph

Machine learning moment closure models for the radiative transfer equation I: directly learning a gradient based closure

classification math.NA cs.LGcs.NAphysics.comp-ph
keywords closurelearningmomentproblemmachineapproachdirectlyequation
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In this paper, we take a data-driven approach and apply machine learning to the moment closure problem for radiative transfer equation in slab geometry. Instead of learning the unclosed high order moment, we propose to directly learn the gradient of the high order moment using neural networks. This new approach is consistent with the exact closure we derive for the free streaming limit and also provides a natural output normalization. A variety of benchmark tests, including the variable scattering problem, the Gaussian source problem with both periodic and reflecting boundaries, and the two-material problem, show both good accuracy and generalizability of our machine learning closure model.

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