Advances in numerical simulation in physics and engineering : lecture notes of the XV 'Jacques-Louis Lions' Spanish-French School
Engineering mathematics Engineering Mathematical physics Physics Mathematics Computational Mathematics and Numerical Analysis Image Processing and Computer Vision Mathematical Modeling and Industrial Mathematics Natural Hazards Partial Differential Equations sähkökirjat
Springer
2014
EISBN 9783319028392
1 Begona Calvo and Estefania Pena: Fundamental aspects in modeling the constitutive behaviour of the fibered soft tissues.
2 Enrique D. Fernandez Nieto: Some remarks on avalanche modeling. An introduction to shallow flow models.
3 Emmanuel Gobet: Introduction to stochastic calculus and to the resolution of PDEs using Monte Carlo simulations.
4 Philippe G. LeFloch: Structure-preserving shock-capturing methods and applications.
5 Carlos Castro: Numerical approximation of optimal design problems in aerodynamics. From the mathematical analysis to industrial codes.
6Emanuele Schiavi: Medical image processing: mathematical modeling and numerical resolution.
7 Denis Talay: On probabilistic approaches for divergence from operators with discontinuous coefficient.
This book, based on the lecture notes from the XVth Spanish-French School on Numerical Simulation in Physics and Engineering, covers a range of advances in numerical simulation in physics and engineering. The main subjects addressed are: biomechanics, stochastic calculus, geophysical flow simulation, and shock-capturing numerical methods for hyperbolic systems of partial differential equations. The book is mainly aimed at young graduate students in mathematics, engineering, and natural sciences who are starting to confront numerical simulation, either at a research level or in the field of industrial applications. It will also be helpful for researchers or even technicians who are working in an industrial environment and are interested in the state-of-the-art numerical techniques in these fields. Finally, the book will be useful as a textbook for master's or PhD level courses in mathematics, physics, or engineering.
2 Enrique D. Fernandez Nieto: Some remarks on avalanche modeling. An introduction to shallow flow models.
3 Emmanuel Gobet: Introduction to stochastic calculus and to the resolution of PDEs using Monte Carlo simulations.
4 Philippe G. LeFloch: Structure-preserving shock-capturing methods and applications.
5 Carlos Castro: Numerical approximation of optimal design problems in aerodynamics. From the mathematical analysis to industrial codes.
6Emanuele Schiavi: Medical image processing: mathematical modeling and numerical resolution.
7 Denis Talay: On probabilistic approaches for divergence from operators with discontinuous coefficient.
This book, based on the lecture notes from the XVth Spanish-French School on Numerical Simulation in Physics and Engineering, covers a range of advances in numerical simulation in physics and engineering. The main subjects addressed are: biomechanics, stochastic calculus, geophysical flow simulation, and shock-capturing numerical methods for hyperbolic systems of partial differential equations. The book is mainly aimed at young graduate students in mathematics, engineering, and natural sciences who are starting to confront numerical simulation, either at a research level or in the field of industrial applications. It will also be helpful for researchers or even technicians who are working in an industrial environment and are interested in the state-of-the-art numerical techniques in these fields. Finally, the book will be useful as a textbook for master's or PhD level courses in mathematics, physics, or engineering.
