Computing Qualitatively Correct Approximations of Balance Laws

Computing Qualitatively Correct Approximations of Balance Laws
Title Computing Qualitatively Correct Approximations of Balance Laws PDF eBook
Author Laurent Gosse
Publisher Springer Science & Business Media
Pages 346
Release 2013-03-30
Genre Mathematics
ISBN 8847028922

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Substantial effort has been drawn for years onto the development of (possibly high-order) numerical techniques for the scalar homogeneous conservation law, an equation which is strongly dissipative in L1 thanks to shock wave formation. Such a dissipation property is generally lost when considering hyperbolic systems of conservation laws, or simply inhomogeneous scalar balance laws involving accretive or space-dependent source terms, because of complex wave interactions. An overall weaker dissipation can reveal intrinsic numerical weaknesses through specific nonlinear mechanisms: Hugoniot curves being deformed by local averaging steps in Godunov-type schemes, low-order errors propagating along expanding characteristics after having hit a discontinuity, exponential amplification of truncation errors in the presence of accretive source terms... This book aims at presenting rigorous derivations of different, sometimes called well-balanced, numerical schemes which succeed in reconciling high accuracy with a stronger robustness even in the aforementioned accretive contexts. It is divided into two parts: one dealing with hyperbolic systems of balance laws, such as arising from quasi-one dimensional nozzle flow computations, multiphase WKB approximation of linear Schrödinger equations, or gravitational Navier-Stokes systems. Stability results for viscosity solutions of onedimensional balance laws are sketched. The other being entirely devoted to the treatment of weakly nonlinear kinetic equations in the discrete ordinate approximation, such as the ones of radiative transfer, chemotaxis dynamics, semiconductor conduction, spray dynamics or linearized Boltzmann models. “Caseology” is one of the main techniques used in these derivations. Lagrangian techniques for filtration equations are evoked too. Two-dimensional methods are studied in the context of non-degenerate semiconductor models.

Error Estimates for Well-Balanced Schemes on Simple Balance Laws

Error Estimates for Well-Balanced Schemes on Simple Balance Laws
Title Error Estimates for Well-Balanced Schemes on Simple Balance Laws PDF eBook
Author Debora Amadori
Publisher Springer
Pages 119
Release 2015-10-23
Genre Mathematics
ISBN 3319247859

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This monograph presents, in an attractive and self-contained form, techniques based on the L1 stability theory derived at the end of the 1990s by A. Bressan, T.-P. Liu and T. Yang that yield original error estimates for so-called well-balanced numerical schemes solving 1D hyperbolic systems of balance laws. Rigorous error estimates are presented for both scalar balance laws and a position-dependent relaxation system, in inertial approximation. Such estimates shed light on why those algorithms based on source terms handled like "local scatterers" can outperform other, more standard, numerical schemes. Two-dimensional Riemann problems for the linear wave equation are also solved, with discussion of the issues raised relating to the treatment of 2D balance laws. All of the material provided in this book is highly relevant for the understanding of well-balanced schemes and will contribute to future improvements.

Continuum Mechanics, Applied Mathematics and Scientific Computing: Godunov's Legacy

Continuum Mechanics, Applied Mathematics and Scientific Computing: Godunov's Legacy
Title Continuum Mechanics, Applied Mathematics and Scientific Computing: Godunov's Legacy PDF eBook
Author Gennadii V. Demidenko
Publisher Springer Nature
Pages 378
Release 2020-04-03
Genre Science
ISBN 3030388700

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This book is a liber amicorum to Professor Sergei Konstantinovich Godunov and gathers contributions by renowned scientists in honor of his 90th birthday. The contributions address those fields that Professor Godunov is most famous for: differential and difference equations, partial differential equations, equations of mathematical physics, mathematical modeling, difference schemes, advanced computational methods for hyperbolic equations, computational methods for linear algebra, and mathematical problems in continuum mechanics.

Innovative Algorithms and Analysis

Innovative Algorithms and Analysis
Title Innovative Algorithms and Analysis PDF eBook
Author Laurent Gosse
Publisher Springer
Pages 362
Release 2016-05-26
Genre Mathematics
ISBN 3319492624

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This volume gathers contributions reflecting topics presented during an INDAM workshop held in Rome in May 2016. The event brought together many prominent researchers in both Mathematical Analysis and Numerical Computing, the goal being to promote interdisciplinary collaborations. Accordingly, the following thematic areas were developed: 1. Lagrangian discretizations and wavefront tracking for synchronization models; 2. Astrophysics computations and post-Newtonian approximations; 3. Hyperbolic balance laws and corrugated isometric embeddings; 4. “Caseology” techniques for kinetic equations; 5. Tentative computations of compressible non-standard solutions; 6. Entropy dissipation, convergence rates and inverse design issues. Most of the articles are presented in a self-contained manner; some highlight new achievements, while others offer snapshots of the “state of the art” in certain fields. The book offers a unique resource, both for young researchers looking to quickly enter a given area of application, and for more experienced ones seeking comprehensive overviews and extensive bibliographic references.

Theory, Numerics and Applications of Hyperbolic Problems I

Theory, Numerics and Applications of Hyperbolic Problems I
Title Theory, Numerics and Applications of Hyperbolic Problems I PDF eBook
Author Christian Klingenberg
Publisher Springer
Pages 685
Release 2018-06-23
Genre Mathematics
ISBN 3319915452

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The first of two volumes, this edited proceedings book features research presented at the XVI International Conference on Hyperbolic Problems held in Aachen, Germany in summer 2016. It focuses on the theoretical, applied, and computational aspects of hyperbolic partial differential equations (systems of hyperbolic conservation laws, wave equations, etc.) and of related mathematical models (PDEs of mixed type, kinetic equations, nonlocal or/and discrete models) found in the field of applied sciences.

Numerical Methods for Eulerian and Lagrangian Conservation Laws

Numerical Methods for Eulerian and Lagrangian Conservation Laws
Title Numerical Methods for Eulerian and Lagrangian Conservation Laws PDF eBook
Author Bruno Després
Publisher Birkhäuser
Pages 361
Release 2017-07-09
Genre Mathematics
ISBN 3319503553

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This book focuses on the interplay between Eulerian and Lagrangian conservation laws for systems that admit physical motivation and originate from continuum mechanics. Ultimately, it highlights what is specific to and beneficial in the Lagrangian approach and its numerical methods. The two first chapters present a selection of well-known features of conservation laws and prepare readers for the subsequent chapters, which are dedicated to the analysis and discretization of Lagrangian systems. The text is at the frontier of applied mathematics and scientific computing and appeals to students and researchers interested in Lagrangian-based computational fluid dynamics. It also serves as an introduction to the recent corner-based Lagrangian finite volume techniques.

Uncertainty Quantification for Hyperbolic and Kinetic Equations

Uncertainty Quantification for Hyperbolic and Kinetic Equations
Title Uncertainty Quantification for Hyperbolic and Kinetic Equations PDF eBook
Author Shi Jin
Publisher Springer
Pages 282
Release 2018-03-20
Genre Mathematics
ISBN 3319671103

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This book explores recent advances in uncertainty quantification for hyperbolic, kinetic, and related problems. The contributions address a range of different aspects, including: polynomial chaos expansions, perturbation methods, multi-level Monte Carlo methods, importance sampling, and moment methods. The interest in these topics is rapidly growing, as their applications have now expanded to many areas in engineering, physics, biology and the social sciences. Accordingly, the book provides the scientific community with a topical overview of the latest research efforts.