Advances in Applied Mechanics
Langue : Anglais
Advances in Applied Mechanics, Volume 57 in this ongoing series, highlights new advances in the field, with this new volume presenting interesting chapters written by an international board of authors.
Preface
Stéphane P A Bordas
1. Artificial Neural Networks and Their Applications in Computational Materials Science: a Review and a Case Study
Shaoping Xiao, Stéphane P A Bordas and Tae-Yeon Kim
2. Coupled bulk and lattice waves in crystals seen as micromorphic anisotropic continua, with an application to crystals of the tetragonal group
Fabrizio Daví
3. Numerical modeling of highly nonlinear phenomena in heterogeneous materials and domains
Modesar Shakoo
Stéphane P A Bordas
1. Artificial Neural Networks and Their Applications in Computational Materials Science: a Review and a Case Study
Shaoping Xiao, Stéphane P A Bordas and Tae-Yeon Kim
2. Coupled bulk and lattice waves in crystals seen as micromorphic anisotropic continua, with an application to crystals of the tetragonal group
Fabrizio Daví
3. Numerical modeling of highly nonlinear phenomena in heterogeneous materials and domains
Modesar Shakoo
Stéphane is a multi-disciplinary computational and data science researcher, educator, mentor and coach. He was trained as an engineer and applied mathematician who has been teaching and researching in computational sciences since year 1999, in various capacities. He has been in the top 1% most cited in his field, worldwide since year 2015 (ISI Clarivate).
Stéphane leads the Legato Team (legato-team.eu), a multi-disciplinary team of about 30 researchers of a dozen nationalities. He is focusing on bringing the rigour of mathematics to bring intuition into the behaviour of complex systems. In particular, he pioneered new approaches to guarantee the quality of surgical simulation devices.
The philosophy that he has been following is to create methodologies which translate across discipline boundaries. For example, the methodological backbone of his PhD thesis supports applications in fracture mechanics, nanoscale heterogeneities, biofilm growth, cancer growth, astrocytic metabolism and many others. Recently, his team has become involved, through the Institute of Advanced Studies of the University of Luxembourg in the nascent field of Computational Archaeology.
Currently, one of the main focus points of his Team is to bring machine learning tools to bear on mathematical models of physical phenomena. In particular, his group develops adaptive data assimilation, model selection and discretisation optimisation schemes for the deformation of soft matter under large deformation with applications to surgical simulations and robotics. His team has been applying such ideas to programmable matter, multi-scale material modelling, wind energy harvesting, chemical engineering process optimisation, among others.
Stéphane has taught over 5,000 students directly and given short courses and research seminars reaching thousands of attendees. He has extensive experience in one-to-one tutoring, mentoring and coaching across various disciplines. He has direc
Stéphane leads the Legato Team (legato-team.eu), a multi-disciplinary team of about 30 researchers of a dozen nationalities. He is focusing on bringing the rigour of mathematics to bring intuition into the behaviour of complex systems. In particular, he pioneered new approaches to guarantee the quality of surgical simulation devices.
The philosophy that he has been following is to create methodologies which translate across discipline boundaries. For example, the methodological backbone of his PhD thesis supports applications in fracture mechanics, nanoscale heterogeneities, biofilm growth, cancer growth, astrocytic metabolism and many others. Recently, his team has become involved, through the Institute of Advanced Studies of the University of Luxembourg in the nascent field of Computational Archaeology.
Currently, one of the main focus points of his Team is to bring machine learning tools to bear on mathematical models of physical phenomena. In particular, his group develops adaptive data assimilation, model selection and discretisation optimisation schemes for the deformation of soft matter under large deformation with applications to surgical simulations and robotics. His team has been applying such ideas to programmable matter, multi-scale material modelling, wind energy harvesting, chemical engineering process optimisation, among others.
Stéphane has taught over 5,000 students directly and given short courses and research seminars reaching thousands of attendees. He has extensive experience in one-to-one tutoring, mentoring and coaching across various disciplines. He has direc
- Covers multi-scale modelling
- Includes updates on data-driven modeling
- Presents the latest information on large deformations of multi-scale materials
Date de parution : 11-2023
Ouvrage de 262 p.
15.2x22.8 cm
Thèmes d’Advances in Applied Mechanics :
Mots-clés :
Mechanics; simulation; digital twin; modelling; real-time; data driven modelling
© 2024 LAVOISIER S.A.S.