Error Control, Adaptive Discretizations, and Applications, Part 3
- 1st Edition, Volume 60 - June 14, 2025
- Latest edition
- Editors: Franz Chouly, Stéphane P.A. Bordas, Roland becker, Pascal Omnes
- Language: English
Error Control, Adaptive Discretizations, and Applications, Volume 60, Part Three highlights new advances, with this volume presenting interesting chapters written by an intern… Read more
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Description
Description
Error Control, Adaptive Discretizations, and Applications, Volume 60, Part Three highlights new advances, with this volume presenting interesting chapters written by an international board of authors. Chapters in this release cover Higher order discontinuous Galerkin finite element methods for the contact problems, Anisotropic Recovery-Based Error Estimators and Mesh Adaptation Tailored for Real-Life Engineering Innovation, Adaptive mesh refinement on Cartesian meshes applied to the mixed finite element discretization of the multigroup neutron diffusion equations, A posteriori error analysis for Finite Element approximation of some groundwater models Part I: Linear models, A posteriori error estimates for low frequency electromagnetic computations, and more.
Other sections delve into A posteriori error control for stochastic Galerkin FEM with high-dimensional random parametric PDEs and Recovery techniques for finite element methods.
Other sections delve into A posteriori error control for stochastic Galerkin FEM with high-dimensional random parametric PDEs and Recovery techniques for finite element methods.
Key features
Key features
- Covers multi-scale modeling
- Includes updates on data-driven modeling
- Presents the latest information on large deformations of multi-scale materials
Readership
Readership
PhD students, experienced researchers, post-doctoral researchers, R&D specialists in industry
Table of contents
Table of contents
1. Chapter name yet to be determined.
Jean-Marie Mirebeau
2. Higher order discontinuous Galerkin finite element methods for the contact problems
Kamana Porwal and Gudi Thirupathi
3. Chapter name yet to be determined.
Michel Duprez
4. Anisotropic Recovery-Based Error Estimators and Mesh Adaptation Tailored for Real-Life Engineering Innovation
Simona Perotto, Erika Temellini, Nicola Ferro, Luca Liverotti and Giacomo Speroni
5. Chapter name yet to be determined.
Ricardo Ruiz Baier and Nicolás Alejandro Barnafi
6. Chapter name yet to be determined.
Frederic Alauzet, Eloi Guilbert, Matthieu Maunoury and Cosimo Tarsia Morisco
7. Chapter name yet to be determined.
Weimin Han
8. Chapter name yet to be determined.
Raphaël Bulle
9. Chapter name yet to be determined.
Patrick Hild
10. Chapter name yet to be determined.
Sundararajan Natarajan
11. Chapter name yet to be determined.
Dr. Oden
12. Chapter name yet to be determined.
Tristan Pryer and Georgoulis Emmanuil
13. Chapter name yet to be determined.
Gudi Thirupathi
14. Chapter name yet to be determined.
Iain Smears
15. Chapter name yet to be determined.
Juan José Ródenas, Enrique Nadal Soriano and José Manuel
16. Chapter name yet to be determined.
Isabelle Ramière
17. Chapter name yet to be determined.
Yousef Soleiman and Martin Vohralik
18. Chapter name yet to be determined.
Rodolfo Araya
19. Adaptive mesh refinement on Cartesian meshes applied to the mixed finite element discretization of the multigroup neutron diffusion equations
François Madiot, Patrick Ciarlet and Minh-Hieu Do
20. A posteriori error analysis for Finite Element approximation of some groundwater models Part I: Linear models
Zoubida Mghazli
21. Chapter name yet to be determined.
Andreas Veeser
22. Chapter name yet to be determined.
Hanen Amor
23. Chapter name yet to be determined.
Erik Burman
24. A posteriori error estimates for low frequency electromagnetic computations
Zuqi Tang
25. Chapter name yet to be determined.
Heiko Gimperlein
26. Chapter name yet to be determined.
Andrea Cangiani
27. Chapter name yet to be determined.
Michael Feischl
28. A posteriori error control for stochastic Galerkin FEM with high-dimensional random parametric PDEs
Christian Merdon and Martin Eigel
29. Recovery techniques for finite element methods
Hailong Guo
Jean-Marie Mirebeau
2. Higher order discontinuous Galerkin finite element methods for the contact problems
Kamana Porwal and Gudi Thirupathi
3. Chapter name yet to be determined.
Michel Duprez
4. Anisotropic Recovery-Based Error Estimators and Mesh Adaptation Tailored for Real-Life Engineering Innovation
Simona Perotto, Erika Temellini, Nicola Ferro, Luca Liverotti and Giacomo Speroni
5. Chapter name yet to be determined.
Ricardo Ruiz Baier and Nicolás Alejandro Barnafi
6. Chapter name yet to be determined.
Frederic Alauzet, Eloi Guilbert, Matthieu Maunoury and Cosimo Tarsia Morisco
7. Chapter name yet to be determined.
Weimin Han
8. Chapter name yet to be determined.
Raphaël Bulle
9. Chapter name yet to be determined.
Patrick Hild
10. Chapter name yet to be determined.
Sundararajan Natarajan
11. Chapter name yet to be determined.
Dr. Oden
12. Chapter name yet to be determined.
Tristan Pryer and Georgoulis Emmanuil
13. Chapter name yet to be determined.
Gudi Thirupathi
14. Chapter name yet to be determined.
Iain Smears
15. Chapter name yet to be determined.
Juan José Ródenas, Enrique Nadal Soriano and José Manuel
16. Chapter name yet to be determined.
Isabelle Ramière
17. Chapter name yet to be determined.
Yousef Soleiman and Martin Vohralik
18. Chapter name yet to be determined.
Rodolfo Araya
19. Adaptive mesh refinement on Cartesian meshes applied to the mixed finite element discretization of the multigroup neutron diffusion equations
François Madiot, Patrick Ciarlet and Minh-Hieu Do
20. A posteriori error analysis for Finite Element approximation of some groundwater models Part I: Linear models
Zoubida Mghazli
21. Chapter name yet to be determined.
Andreas Veeser
22. Chapter name yet to be determined.
Hanen Amor
23. Chapter name yet to be determined.
Erik Burman
24. A posteriori error estimates for low frequency electromagnetic computations
Zuqi Tang
25. Chapter name yet to be determined.
Heiko Gimperlein
26. Chapter name yet to be determined.
Andrea Cangiani
27. Chapter name yet to be determined.
Michael Feischl
28. A posteriori error control for stochastic Galerkin FEM with high-dimensional random parametric PDEs
Christian Merdon and Martin Eigel
29. Recovery techniques for finite element methods
Hailong Guo
Product details
Product details
- Edition: 1
- Latest edition
- Volume: 60
- Published: June 14, 2025
- Language: English
About the editors
About the editors
FC
Franz Chouly
Franz Chouly is professor at the University of Burgundy (Dijon, France). His research is focused on the numerical analysis of partial differential equations and variational inequalities, finite element methods, and applications in fluid and solid mechanics.
Affiliations and expertise
Professor, University of Burgundy, Dijon, FranceSB
Stéphane P.A. Bordas
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 directly worked with over four hundred collaborators and over fifty different companies, worldwide, as an R&D consultant. Stéphane and his students and collaborators received multiple international prizes for their research and mentorship. He has raised over 28 million euros in research funding from the private and public sector alike. He is Fellow of the Learned Society of Wales, and recipient of the 2022 Eugenio Beltrami Senior Scientist Prize. He is Editor in Chief of Advances in Applied Mechanics, Executive Editor of Data-Centric Engineering, and Subject Editor for Applied Mathematical Modelling.
Affiliations and expertise
Research Unit in Eng Science, University of Luxembourg, LuxembourgView book on ScienceDirect
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