Editors’ preface for the topical issue “Numerical Methods for Large-Scale Scientific Computing, I”
János Karátson, Sergey Korotov, Svetozar Margenov (2013)
Open Mathematics
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Displaying similar documents to “Preface”
Editors’ preface for the topical issue “Numerical Methods for Large-Scale Scientific Computing, I”
Preface
P. Chartier, L. Petzold (2009)
ESAIM: Mathematical Modelling and Numerical Analysis
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Front matter
Mikula, Karol, Ševčovič, Daniel, Urbán, Jozef
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The Equadiff is a series of biannual conferences on mathematical analysis, numerical approximation and applications of differential equations. Proceedings of Equadiff 2017 Conference contain peer-reviewed contributions of participants of the conference. The proceedings cover a wide range of topics presented by plenary, minisymposia and contributed talks speakers. The scope of papers ranges from ordinary differential equations, differential inclusions and dynamical systems towards qualitative...
Editors’ preface for the topical issue “Numerical Methods for Large-Scale Scientific Computing, II”
János Karátson, Sergey Korotov, Svetozar Margenov (2013)
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In memoriam David Gottlieb 1944–2008
Claude Le Bris, Anthony T. Patera (2009)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
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Editors’ preface for the topical issue “Advances in Numerical Analysis and Numerical Linear Algebra”
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Mathematical and numerical modelling of piezoelectric sensors
Sebastien Imperiale, Patrick Joly (2012)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
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The present work aims at proposing a rigorous analysis of the mathematical and numerical modelling of ultrasonic piezoelectric sensors. This includes the well-posedness of the final model, the rigorous justification of the underlying approximation and the design and analysis of numerical methods. More precisely, we first justify mathematically the classical quasi-static approximation that reduces the electric unknowns to a scalar electric potential. We next justify the reduction of the...
Mathematical and numerical modelling of piezoelectric sensors
Sebastien Imperiale, Patrick Joly (2012)
ESAIM: Mathematical Modelling and Numerical Analysis
Similarity:
The present work aims at proposing a rigorous analysis of the mathematical and numerical modelling of ultrasonic piezoelectric sensors. This includes the well-posedness of the final model, the rigorous justification of the underlying approximation and the design and analysis of numerical methods. More precisely, we first justify mathematically the classical quasi-static approximation that reduces the electric unknowns to a scalar electric potential. We next justify the reduction of the...
Mathematical and numerical modelling of piezoelectric sensors
Sebastien Imperiale, Patrick Joly (2012)
ESAIM: Mathematical Modelling and Numerical Analysis
Similarity:
The present work aims at proposing a rigorous analysis of the mathematical and numerical modelling of ultrasonic piezoelectric sensors. This includes the well-posedness of the final model, the rigorous justification of the underlying approximation and the design and analysis of numerical methods. More precisely, we first justify mathematically the classical quasi-static approximation that reduces the electric unknowns to a scalar electric potential. We next justify the reduction of the...