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Topological Optimization and Optimal Transport

In the Applied Sciences, Radon Series on Computational and Applied Mathematics 17

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Bibliografische Daten
ISBN/EAN: 9783110439267
Sprache: Englisch
Umfang: XII, 420 S., 105 s/w Illustr., 105 b/w ill.
Format (T/L/B): 2.8 x 24.7 x 18.1 cm
Auflage: 1. Auflage 2017
Einband: gebundenes Buch

Beschreibung

By discussing topics such as shape representations, relaxation theory and optimal transport, trends and synergies of mathematical tools required for optimization of geometry and topology of shapes are explored. Furthermore, applications in science and engineering, including economics, social sciences, biology, physics and image processing are covered. Contents Part I Geometric issues in PDE problems related to the infinity Laplace operator Solution of free boundary problems in the presence of geometric uncertainties Distributed and boundary control problems for the semidiscrete CahnHilliard/NavierStokes system with nonsmooth GinzburgLandau energies Highorder topological expansions for Helmholtz problems in 2D On a new phase field model for the approximation of interfacial energies of multiphase systems Optimization of eigenvalues and eigenmodes by using the adjoint method Discrete varifolds and surface approximation Part II Weak MongeAmpere solutions of the semidiscrete optimal transportation problem Optimal transportation theory with repulsive costs Wardrop equilibria: longterm variant, degenerate anisotropic PDEs and numerical approximations On the Lagrangian branched transport model and the equivalence with its Eulerian formulation On some nonlinear evolution systems which are perturbations of Wasserstein gradient flows Pressureless Euler equations with maximal density constraint: a timesplitting scheme Convergence of a fully discrete variational scheme for a thinfilm equatio Interpretation of finite volume discretization schemes for the FokkerPlanck equation as gradient flows for the discrete Wasserstein distance

Autorenportrait

M. Bergounioux; É. Oudet; M. Rumpf; G. Carlier; T. Champion; F. Santambrogio.