Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics

Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics

The use of machine learning in mechanics is booming. Algorithms inspired by developments in the field of artificial intelligence today cover increasingly varied fields of application. This book illustrates recent results on coupling machine learning with computational mechanics, particularly for the...

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Fritzen, Felix
Ryckelynck, David
Year of Publication:2019
Language:English
Physical Description:1 electronic resource (254 p.)
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ctrlnum (CKB)4100000010106123
(oapen)https://directory.doabooks.org/handle/20.500.12854/52520
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record_format marc
spelling Fritzen, Felix auth
Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics
MDPI - Multidisciplinary Digital Publishing Institute 2019
1 electronic resource (254 p.)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
The use of machine learning in mechanics is booming. Algorithms inspired by developments in the field of artificial intelligence today cover increasingly varied fields of application. This book illustrates recent results on coupling machine learning with computational mechanics, particularly for the construction of surrogate models or reduced order models. The articles contained in this compilation were presented at the EUROMECH Colloquium 597, « Reduced Order Modeling in Mechanics of Materials », held in Bad Herrenalb, Germany, from August 28th to August 31th 2018. In this book, Artificial Neural Networks are coupled to physics-based models. The tensor format of simulation data is exploited in surrogate models or for data pruning. Various reduced order models are proposed via machine learning strategies applied to simulation data. Since reduced order models have specific approximation errors, error estimators are also proposed in this book. The proposed numerical examples are very close to engineering problems. The reader would find this book to be a useful reference in identifying progress in machine learning and reduced order modeling for computational mechanics.
English
supervised machine learning
proper orthogonal decomposition (POD)
PGD compression
stabilization
nonlinear reduced order model
gappy POD
symplectic model order reduction
neural network
snapshot proper orthogonal decomposition
3D reconstruction
microstructure property linkage
nonlinear material behaviour
proper orthogonal decomposition
reduced basis
ECSW
geometric nonlinearity
POD
model order reduction
elasto-viscoplasticity
sampling
surrogate modeling
model reduction
enhanced POD
archive
modal analysis
low-rank approximation
computational homogenization
artificial neural networks
unsupervised machine learning
large strain
reduced-order model
proper generalised decomposition (PGD)
a priori enrichment
elastoviscoplastic behavior
error indicator
computational homogenisation
empirical cubature method
nonlinear structural mechanics
reduced integration domain
model order reduction (MOR)
structure preservation of symplecticity
heterogeneous data
reduced order modeling (ROM)
parameter-dependent model
data science
Hencky strain
dynamic extrapolation
tensor-train decomposition
hyper-reduction
empirical cubature
randomised SVD
machine learning
inverse problem plasticity
proper symplectic decomposition (PSD)
finite deformation
Hamiltonian system
DEIM
GNAT
3-03921-409-8
Ryckelynck, David auth
language English
format eBook
author Fritzen, Felix
spellingShingle Fritzen, Felix
Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics
author_facet Fritzen, Felix
Ryckelynck, David
author_variant f f ff
author2 Ryckelynck, David
author2_variant d r dr
author_sort Fritzen, Felix
title Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics
title_full Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics
title_fullStr Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics
title_full_unstemmed Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics
title_auth Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics
title_new Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics
title_sort machine learning, low-rank approximations and reduced order modeling in computational mechanics
publisher MDPI - Multidisciplinary Digital Publishing Institute
publishDate 2019
physical 1 electronic resource (254 p.)
isbn 3-03921-410-1
3-03921-409-8
illustrated Not Illustrated
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is_hierarchy_title Machine Learning, Low-Rank Approximations and Reduced Order Modeling in Computational Mechanics
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