Buch, Englisch, Band 1670, 289 Seiten, Format (B × H): 155 mm x 235 mm, Gewicht: 970 g
Reihe: Lecture Notes in Mathematics
Buch, Englisch, Band 1670, 289 Seiten, Format (B × H): 155 mm x 235 mm, Gewicht: 970 g
Reihe: Lecture Notes in Mathematics
ISBN: 978-3-642-04040-5
Verlag: Springer
A Sobolev gradient of a real-valued functional on a Hilbert space is a gradient of that functional taken relative to an underlying Sobolev norm. This book shows how descent methods using such gradients allow a unified treatment of a wide variety of problems in differential equations. For discrete versions of partial differential equations, corresponding Sobolev gradients are seen to be vastly more efficient than ordinary gradients. In fact, descent methods with these gradients generally scale linearly with the number of grid points, in sharp contrast with the use of ordinary gradients. Aside from the first edition of this work, this is the only known account of Sobolev gradients in book form.
Most of the applications in this book have emerged since the first edition was published some twelve years ago. What remains of the first edition has been extensively revised. There are a number of plots of results from calculations and a sample MatLab code is included for a simple problem. Those working through a fair portion of the material have in the past been able to use the theory on their own applications and also gain an appreciation of the possibility of a rather comprehensive point of view on the subject of partial differential equations.
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Weitere Infos & Material
Several Gradients.- Comparison of Two Gradients.- Continuous Steepest Descent in Hilbert Space: Linear Case.- Continuous Steepest Descent in Hilbert Space: Nonlinear Case.- Orthogonal Projections, Adjoints and Laplacians.- Ordinary Differential Equations and Sobolev Gradients.- Convexity and Gradient Inequalities.- Boundary and Supplementary Conditions.- Continuous Newton#x2019;s Method.- More About Finite Differences.- Sobolev Gradients for Variational Problems.- An Introduction to Sobolev Gradients in Non-Inner Product Spaces.- Singularities and a Simple Ginzburg-Landau Functional.- The Superconductivity Equations of Ginzburg-Landau.- Tricomi Equation: A Case Study.- Minimal Surfaces.- Flow Problems and Non-Inner Product Sobolev Spaces.- An Alternate Approach to Time-dependent PDEs.- Foliations and Supplementary Conditions I.- Foliations and Supplementary Conditions II.- Some Related Iterative Methods for Differential Equations.- An Analytic Iteration Method.- Steepest Descent for Conservation Equations.- Code for an Ordinary Differential Equation.- Geometric Curve Modeling with Sobolev Gradients.- Numerical Differentiation, Sobolev Gradients.- Steepest Descent and Newton#x2019;s Method and Elliptic PDE.- Ginzburg-Landau Separation Problems.- Numerical Preconditioning Methods for Elliptic PDEs.- More Results on Sobolev Gradient Problems.- Notes and Suggestions for Future Work.
