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Exploiting Machine Learning in Multiscale Modelling of Materials

journal contribution
posted on 2023-05-24, 14:57 authored by G. Anand, Swarnava Ghosh, Liwei Zhang, Angesh AnupamAngesh Anupam, Colin L. Freeman, Christoph Ortner, Markus Eisenbach, James R. Kermode

 Recent developments in efficient machine learning algorithms have spurred significant interest in the materials community. The inherently complex and multiscale problems in Materials Science and Engineering pose a formidable challenge. The present scenario of machine learning research in Materials Science has a clear lacunae, where efficient algorithms are being developed as a separate endeavour, while such methods are being applied as ‘black-box’ models by others. The present article aims to discuss pertinent issues related to the development and application of machine learning algorithms for various aspects of multiscale materials modelling. The authors present an overview of machine learning of equivariant properties, machine learning-aided statistical mechanics, the incorporation of ab initio approaches in multiscale models of materials processing and application of machine learning in uncertainty quantification. In addition to the above, the applicability of Bayesian approach for multiscale modelling will be discussed. Critical issues related to the multiscale materials modelling are also discussed. 

History

Published in

Journal of The Institution of Engineers (India): Series D

Publisher

Springer

Citation

Anand, G., Ghosh, S., Zhang, L., Anupam, A., Freeman, C.L., Ortner, C., Eisenbach, M. and Kermode, J.R. (2022) 'Exploiting Machine Learning in Multiscale Modelling of Materials', Journal of The Institution of Engineers (India): Series D, pp.1-11. doi: 10.1007/s40033-022-00424-z

Print ISSN

2250-2122

Electronic ISSN

2250-2130

Cardiff Met Affiliation

  • Cardiff School of Technologies

Cardiff Met Authors

Angesh Anupam

Copyright Holder

  • © The Publisher

Publisher Rights Statement

This manuscript has been authored in part by UT-Battelle, LLC, under contract DE-AC05- 00OR22725 with the US Department of Energy (DOE). The publisher acknowledges the US government license to provide public access under the DOE Public Access Plan

Language

  • en

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