Conditional physics informed neural networks

Conditional physics informed neural networks

We introduce conditional PINNs (physics informed neural networks) for estimating the solution of classes of eigenvalue problems. The concept of PINNs is expanded to learn not only the solution of one particular differential equation but the solutions to a class of problems. We demonstrate this idea...

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Veröffentlicht in:arXiv.org 2021-04
Hauptverfasser: Kovacs, Alexander, Exl, Lukas, Kornell, Alexander, Fischbacher, Johann, Hovorka, Markus, Gusenbauer, Markus, Leoni Breth, Oezelt, Harald, Yano, Masao, Sakuma, Noritsugu, Kinoshita, Akihito, Shoji, Tetsuya, Kato, Akira, Schrefl, Thomas
Format: Artikel
Sprache:eng
Schlagworte:
Artificial neural networks
Coercivity
Computer Science - Learning
Eigenvalues
Estimation
Exact solutions
Magnetization reversal
Neural networks
Partial differential equations
Permanent magnets
Physics
Physics - Materials Science
Training
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Beschreibung
Zusammenfassung:We introduce conditional PINNs (physics informed neural networks) for estimating the solution of classes of eigenvalue problems. The concept of PINNs is expanded to learn not only the solution of one particular differential equation but the solutions to a class of problems. We demonstrate this idea by estimating the coercive field of permanent magnets which depends on the width and strength of local defects. When the neural network incorporates the physics of magnetization reversal, training can be achieved in an unsupervised way. There is no need to generate labeled training data. The presented test cases have been rigorously studied in the past. Thus, a detailed and easy comparison with analytical solutions is made. We show that a single deep neural network can learn the solution of partial differential equations for an entire class of problems.
ISSN:2331-8422
DOI:10.48550/arxiv.2104.02741