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Author:   Juergen Geiser
Publisher:   Taylor & Francis Inc
Imprint:   CRC Press Inc
Volume:   22
Dimensions:   Width: 15.60cm , Height: 2.80cm , Length: 23.40cm
Weight:   0.589kg
ISBN:  

9781466578012

ISBN 10:   1466578017
Pages:   314
Publication Date:   14 February 2014
Audience:   College/higher education ,  General/trade ,  Tertiary & Higher Education ,  General
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Introduction. General Principle for Coupled Systems. Numerical Methods. Applications. Summary and Perspectives. Software Tools. Appendix. Bibliography. Index.

Reviews

"""The book brings together many novel ideas for solving multiscale and multiphysics problems. It also presents simulation results for many interesting engineering models. To decouple different scales into simpler equations, various multiscale methods are employed. A combination of numerical methods is discussed to solve engineering models. A big advantage of the presented schemes is the combination of modern multiscale technique with the known splitting approaches. It is a good resource for graduate students and researchers who are involved with solving coupled systems. The book especially covers many ideas for solving coupled systems derived from engineering applications."" -Sanjay Khattri, Professor of Applied Mathematics, Stord/Haugesund University College, Norway ""Coupled Systems: Theory, Models and Applications in Engineering provides the latest research results from combined multi-scale and multi-physics explorations. It provides not only clear images of the theory and considerations but also some of the most brilliant computational experimentation. The latter is particularly important to many researchers, engineers, and those who work in frontier modeling and applications. The book addresses several interesting issues, such as why a decomposed, or split, system may be key to many important applications in multiple scaled territories, and why iterative splitting methods can be powerful and more appropriate for well-balanced coupled nonlinear problems. The study of stochastic differential equation solvers is extremely useful to investigators and graduate students who have been troubled by multiple body/particle simulation algorithm designs and computations. I would definitely consider the book in my seminar course and recommend it to colleagues and graduate students in multi-physics environments. The book may also be adopted in our upper-level classes in computational mathematics as well as in physics and engineering fields."" - Professor Qin Sheng, Department of Mathematics and Center for Astrophysics, Space Physics, and Engineering Research, Baylor University, Waco, Texas, USA ""Coupled Systems: Theory, Models, and Applications in Engineering is a brilliant book. It contains theoretical and practical aspects of solving multiscale and multiphysics models in engineering. Analytical as well as numerical methods are described in time and space. The book covers an overview of different coupled (weak and strong) equation systems. It is an excellent choice for graduate students and researchers to select and start their projects related to multiscale and multiphysics simulations. A great merit of this research monograph is the combination of modern multiscale techniques together with splitting schemes. In particular, theoretical analysis and practical implementations allow the reader to get an impression of different applications in hydrogeological, fluid dynamical, and plasma physics problems."" -Professor Shuyu Sun, King Abdullah University of Science and Technology, Saudi Arabia"

The book brings together many novel ideas for solving multiscale and multiphysics problems. It also presents simulation results for many interesting engineering models. To decouple different scales into simpler equations, various multiscale methods are employed. A combination of numerical methods is discussed to solve engineering models. A big advantage of the presented schemes is the combination of modern multiscale technique with the known splitting approaches. It is a good resource for graduate students and researchers who are involved with solving coupled systems. The book especially covers many ideas for solving coupled systems derived from engineering applications. -Sanjay Khattri, Professor of Applied Mathematics, Stord/Haugesund University College, Norway Coupled Systems: Theory, Models and Applications in Engineering provides the latest research results from combined multi-scale and multi-physics explorations. It provides not only clear images of the theory and considerations but also some of the most brilliant computational experimentation. The latter is particularly important to many researchers, engineers, and those who work in frontier modeling and applications. The book addresses several interesting issues, such as why a decomposed, or split, system may be key to many important applications in multiple scaled territories, and why iterative splitting methods can be powerful and more appropriate for well-balanced coupled nonlinear problems. The study of stochastic differential equation solvers is extremely useful to investigators and graduate students who have been troubled by multiple body/particle simulation algorithm designs and computations. I would definitely consider the book in my seminar course and recommend it to colleagues and graduate students in multi-physics environments. The book may also be adopted in our upper-level classes in computational mathematics as well as in physics and engineering fields. - Professor Qin Sheng, Department of Mathematics and Center for Astrophysics, Space Physics, and Engineering Research, Baylor University, Waco, Texas, USA Coupled Systems: Theory, Models, and Applications in Engineering is a brilliant book. It contains theoretical and practical aspects of solving multiscale and multiphysics models in engineering. Analytical as well as numerical methods are described in time and space. The book covers an overview of different coupled (weak and strong) equation systems. It is an excellent choice for graduate students and researchers to select and start their projects related to multiscale and multiphysics simulations. A great merit of this research monograph is the combination of modern multiscale techniques together with splitting schemes. In particular, theoretical analysis and practical implementations allow the reader to get an impression of different applications in hydrogeolocial, fluid dynamical, and plasma physics problems. -Professor Shuyu Sun, King Abdullah University of Science and Technology, Saudi Arabia

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Geiser, Juergen

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