In response to the outbreak of the novel coronavirus SARS-CoV-2 and the associated disease COVID-19, SIAM has made the following collection freely available. You’re seeing our new journal sites and we’d like your opinion, please send feedback. Journal of Scientific Computing is een internationaal, aan collegiale toetsing onderworpen wetenschappelijk tijdschrift op het gebied van de toegepaste wiskunde. Springer Nature. Comput. The SIAM Journal on Scientific Computing contains research articles on numerical methods and techniques for scientific computation. send feedback, Over 10 million scientific documents at your fingertips, Not logged in Part of Springer Nature. - 51.254.248.12. send feedback, This issue includes a special section in memory of Professor Saul Abarbanel, This Issue Includes a Special Section on "Recent Developments on Numerical Methods for Model Reduction", Special issue on discontinuous Galerkin and related methods, in honor of Professor Bernardo Cockburn on the occasion of his sixtieth birthday, Special Issue in Honor of Professor Chi-Wang Shu, Special Issue on Hyperbolic Problems: Theory and Computation, Papers Presented at the International Conference on Recent Developments of Numerical Schemes for Flow Problems, Fukuoka, Japan June 27-29, 2007, In Honor of the Sixtieth Birthday of Stanley Osher, Over 10 million scientific documents at your fingertips, Not logged in Het eerste nummer verscheen in 1986. System Upgrade on Fri, Jun 26th, 2020 at 5pm (ET) During this period, our website will be offline for less than an hour but the E-commerce and registration of new users may not be available for up to 4 hours. Journal of Scientific Computing is an international interdisciplinary forum for the publication of papers on state-of-the-art developments in scientific computing and its applications in science and engineering.

The journal publishes high-quality, peer-reviewed original papers, review papers and short communications on scientific computing. SIAM J. on Matrix Analysis and Applications, SIAM/ASA J. on Uncertainty Quantification, Journal / E-book / Proceedings TOC Alerts, Accelerating the Solution of Linear Systems by Iterative Refinement in Three Precisions, A New Approach to Probabilistic Rounding Error Analysis, The Wiener--Askey Polynomial Chaos for Stochastic Differential Equations, Numerical Gaussian Processes for Time-Dependent and Nonlinear Partial Differential Equations, Schwarz Solvers and Preconditioners for the Closest Point Method, A Robust Numerical Path Tracking Algorithm for Polynomial Homotopy Continuation, Anderson Accelerated Douglas--Rachford Splitting, Malliavin--Mancino Estimators Implemented with Nonuniform Fast Fourier Transforms, Efficient Numerical Methods for Computing the Stationary States of Phase Field Crystal Models. Part of Springer Nature. Part of The journal publishes high-quality, peer-reviewed original papers, review papers and short communications on scientific computing. Papers address computational issues relevant to the solution of scientific or engineering problems and generally include computational results demonstrating the effectiveness of the proposed techniques. Journal of Scientific Computing. Journal of Scientific Computing is an international interdisciplinary forum for the publication of papers on state-of-the-art developments in scientific computing and its applications in science and engineering. Michael Dumbser University of Trento, Italy High order and finite volume discontinuous Galerkin schemes, computational fluid dynamics, magnetohydrodynamics, numerical general relativity, Lagrangian schemes on moving meshes, adaptive mesh refinement Journal of Applied Mathematics and Computing (JAMC) is a broad-based journal covering all branches of computational or applied mathematics with special encouragement to researchers in theoretical computer science and mathematical computing. SIAM Epidemiology Collection You’re seeing our new journal sites and we’d like your opinion, please Computing publishes original papers, short communications and surveys on all fields of computing. De naam wordt in literatuurverwijzingen meestal afgekort tot J. Sci. Qiang Du Columbia University, New York Applied and numerical analysis, scientific computing. Search. Het eerste nummer verscheen in 1986. https://nl.wikipedia.org/w/index.php?title=Journal_of_Scientific_Computing&oldid=55825984, Wikipedia:Geen afbeelding lokaal en geen op Wikidata, Creative Commons Naamsvermelding/Gelijk delen. Click on title above or here to access this collection. De tekst is beschikbaar onder de licentie. Papers address computational issues relevant to the solution of scientific or engineering problems and generally include computational results demonstrating the effectiveness of the proposed techniques. We hope this content on epidemiology, disease modeling, pandemics and vaccines will help in the rapid fight against this global problem. Preface to the Special Issue in Memory of Professor Saul Abarbanel, Saul Abarbanel; Half a Century of Scientific Work, An Iteration-Free Approach to Solving the Navier–Stokes Equations by Implicit Finite Difference Schemes in the Vorticity-Stream Function Formulation, Smoothness-Increasing Accuracy-Conserving (SIAC) Filtering for Discontinuous Galerkin Solutions over Nonuniform Meshes: Superconvergence and Optimal Accuracy, Compact High Order Accurate Schemes for the Three Dimensional Wave Equation, Certified Offline-Free Reduced Basis (COFRB) Methods for Stochastic Differential Equations Driven by Arbitrary Types of Noise, Numerical Analysis for Conservation Laws Using, A Source of Uncertainty in Computed Discontinuous Flows, One-Dimensional/Two-Dimensional Coupling Approach with Quadrilateral Confluence Region for Modeling River Systems, Generalized Sensitivity Parameter Free Fifth Order WENO Finite Difference Scheme with Z-Type Weights, Entropy Stable Method for the Euler Equations Revisited: Central Differencing via Entropy Splitting and SBP, A Cartesian Compact Scheme for the Navier–Stokes Equations in Streamfunction Formulation in Irregular Domains, Adaptive Time Steps for Compressible Flows Based on Dual-Time Stepping and a RK/Implicit Smoother, A Second Order Traffic Flow Model with Lane Changing, Strong Stability Preserving Integrating Factor Two-Step Runge–Kutta Methods, Complementary Solutions of Nitsche’s Method, An Accurate Approximation of Exponential Integrators for the Schrödinger Equation, Discontinuous Galerkin Difference Methods for Symmetric Hyperbolic Systems, A Hierarchical Space-Time Spectral Element and Moment-of-Fluid Method for Improved Capturing of Vortical Structures in Incompressible Multi-phase/Multi-material Flows, Comparing Gradient Descent with Automatic Differentiation and Particle Swarm Optimization Techniques for Estimating Tumor Blood Flow Parameters in Contrast-Enhanced Imaging, Superconvergence Points for the Spectral Interpolation of Riesz Fractional Derivatives, Superconvergent Recovery of Rectangular Edge Finite Element Approximation by Local Symmetry Projection, Diffusion Across Semi-permeable Barriers: Spectral Properties, Efficient Computation, and Applications, Analysis of Spectral Approximations Using Eigenfunctions of Fractional Sturm–Liouville Problems, A Decoupled, Linear and Unconditionally Energy Stable Scheme with Finite Element Discretizations for Magneto-Hydrodynamic Equations, Multiscale Hybridizable Discontinuous Galerkin Method for Flow Simulations in Highly Heterogeneous Media, Discontinuity-Detecting Method for a Four-Point Stencil and Its Application to Develop a Third-Order Hybrid-WENO Scheme, Numerical Schemes for Solving the Time-Fractional Dual-Phase-Lagging Heat Conduction Model in a Double-Layered Nanoscale Thin Film, Error Bounds of the Finite Difference Time Domain Methods for the Dirac Equation in the Semiclassical Regime, Nonconforming Virtual Element Method for the Time Fractional Reaction–Subdiffusion Equation with Non-smooth Data, An Efficient Boundary Integral Scheme for the Threshold Dynamics Method II: Applications to Wetting Dynamics, Superconvergent Recovery of Raviart–Thomas Mixed Finite Elements on Triangular Grids, Modified Ghost Fluid Method with Acceleration Correction (MGFM/AC), Explicit Time Stepping of PDEs with Local Refinement in Space-Time, High Order Anchoring and Reinitialization of Level Set Function for Simulating Interface Motion, Polynomial Chaos Level Points Method for One-Dimensional Uncertain Steep Problems, Ordered Line Integral Methods for Solving the Eikonal Equation, Residual-Based a Posteriori Error Estimation for Immersed Finite Element Methods, Implicit–Explicit Local Discontinuous Galerkin Methods with Generalized Alternating Numerical Fluxes for Convection–Diffusion Problems, Well-Balanced Discontinuous Galerkin Method for Shallow Water Equations with Constant Subtraction Techniques on Unstructured Meshes, Capturing Composite Waves in Non-convex Special Relativistic Hydrodynamics, A Müntz-Collocation Spectral Method for Weakly Singular Volterra Integral Equations, Superconvergent Interpolatory HDG Methods for Reaction Diffusion Equations I: An HDG, Discrete Kernel Preserving Model for 3D Electron–Optical Phonon Scattering Under Arbitrary Band Structures, Energy Decay and Stability of a Perfectly Matched Layer For the Wave Equation, A Finite Element/Operator-Splitting Method for the Numerical Solution of the Three Dimensional Monge–Ampère Equation, A Finite Element Nonoverlapping Domain Decomposition Method with Lagrange Multipliers for the Dual Total Variation Minimizations, Accuracy of Stable, High-order Finite Difference Methods for Hyperbolic Systems with Non-smooth Wave Speeds, Virtual Element Method for an Elliptic Hemivariational Inequality with Applications to Contact Mechanics. Journal of Scientific Computing is een internationaal, aan collegiale toetsing onderworpen wetenschappelijk tijdschrift op het gebied van de toegepaste wiskunde.De naam wordt in literatuurverwijzingen meestal afgekort tot J. Sci. Volume 81, issue 3 articles listing for Journal of Scientific Computing Het wordt uitgegeven door Springer Science+Business Media en verschijnt 3 keer per jaar. Search Log in; Search SpringerLink. Chi-Wang ShuBrown University, Providence, RI, USAFinite difference and finite element methods for PDE; computational fluid dynamics, Sigal GottliebUniversity of Massachusetts at Dartmouth, MATime discretization techniques; numerical methods for hyperbolic PDEs, Bertil GustafssonUppsala University, SwedenDifference methods for time-dependent PDE; computational wave propagation and fluid dynamics, Yvon MadayCNRS and Université Pierre et Marie Curie, Paris, FranceSpectral and spectral element methods, Stanley OsherUCLA, CALevel set methods; PDE based image science; numerical solution of hyperbolic equations, Assyr AbdulleEcole Polytechnique Federale de Lausanne (EPFL), SwitzerlandMultiscale PDEs, Numerical ordinary and stochastic differential equations, Rémi AbgrallUniversität Zürich, SwitzerlandFinite difference and finite element methods for PDE; computational fluid dynamics; hyperbolic problems; multiphase and interface problems; Hamilton Jacobi equations, Mohamed AmaraIPRA Laboratoire de Mathématiques Appliquées, Pau, FranceFinite element and finite volume methods for PDE; porous media and multiphase flows, Jacques BlumUniversité de Nice-Sophia-Antipolis, FranceInverse problems; data assimilation for environmental problems; optimal control of PDE; plasma physics; oceanography, Mark CarpenterNASA Langley Research Center, Hampton, VAFinite difference and time integration methods for PDE's; computational fluid dynamics, Raymond ChanChinese University of Hong Kong, Hong KongNumerical linear algebra, image processing, Bernardo CockburnUniversity of Minnesota, MinneapolisFinite element methods; nonlinear conservation laws; computational fluid flow; computational structural mechanics, Kai Diethelm University of Applied Sciences Würzburg-Schweinfurt, GermanyFractional calculus, numerical integration, approximation theory, parallel numerical algorithms, Qiang DuColumbia University, New YorkApplied and numerical analysis, scientific computing, Michael DumbserUniversity of Trento, ItalyHigh order and finite volume discontinuous Galerkin schemes, computational fluid dynamics, magnetohydrodynamics, numerical general relativity, Lagrangian schemes on moving meshes, adaptive mesh refinement, Alexandre ErnCERMICS, ENPC, FranceFinite elements, discontinuous Galerkin, a posteriori error estimates, Uriel FrischObservatoire de la Côte d'Azur, Nice, FranceSpectral and other high-precision methods for tackling singularities in PDEs, Anne GelbArizona State University, AZFinite difference and spectral methods for solving PDEs; Gibbs phenomenon; edge detection from Fourier data, Roland GlowinskiUniversity of Houston, TXFinite element methods for PDEs; incompressible computational fluid dynamics; large scale numerical optimization; numerical methods for the control of systems modeled by PDEs, Nicola GuglielmiGran Sasso Science Institute, ItalyNumerical analysis of ODEs and DDEs, stability analysis of dynamical systems, ODE methods in matrix theory, Jonny GuzmánBrown University, Providence, RIFinite element methods, Jan S. HesthavenÉcole Polytechnique Fédérale de Lausanne (EPFL)High-order finite difference, finite elements, finite volume, and spectral methods for PDEs; computational electromagnetics and plasma physics, Ronald W. HoppeUniversity of Houston, Houston, TXNumerical analysis and optimization, Antony JamesonStanford University, CAComputational fluid dynamics, Shidong JiangNew Jersey Institute of TechnologyIntegral equation methods, fast algorithms, Li-Shi LuoOld Dominion University, Norfolk, VA and Beijing Computational Science Research Center, ChinaKinetic methods for computational fluid dynamics; non-equilibrium flows; complex fluids, Michael NgThe University of Hong Kong, Hong Kong numerical linear algebra, image processing, Ilaria PerugiaUniversity of Vienna, Austriafinite element methods, wave propagation problems, Sebastian Reich University of Potsdam, Germany Geometric integration, uncertainty quantification, geophysical fluid dynamics and molecular dynamics, Lothar ReichelKent State University, OHNumerical linear algebra; computational issues in inverse problemsJennifer RyanUniversity of East Anglia, Norwich, UKhigh order numerical methods, Pierre SagautLMM - UPMC/CNRS, Paris, FranceComputational fluid dynamics; aeroacoustics; finite-difference/finite volume schemes; turbulence, Norikazu Saito The University of Tokyo Finite element method, finite volume method, numerical methods for evolution equations, Christoph SchwabETHZ, SwitzerlandFinite element methods, high-dimensional numerical analysis, computational uncertainty quantification, Rémi SentisCEA/Bruyères (service SEL), FranceMonte-Carlo methods for PDE; transport equations; modelling and numerical simulations for plasma physics; asymptotic analysis, Jie ShenPurdue University, West Lafayette, IndianaSpectral methods; computational fluid dynamics, David J. SilvesterUniversity of Manchester, United KingdomNumerical analysis; fluid mechanics, Martin Stynes Beijing Computational Science Research Center, China Singularly perturbed differential equations; Fractional-derivative differential equations, Sauro SucciInstituto Applicazioni del Calcolo, Rome, ItalyComputational kinetic theory; fluid dynamics, Denis TalayINRIA, FranceStochastic analysis; stochastic numerical analysis; stochastic modelling; financial mathematics, Tao TangThe Hong Kong Baptist UniversityAdaptive grid methods; finite difference methods and spectral methods for PDEs, Roger TemamIndiana University, INClassical and geophysical fluid dynamicsVladimir A. TitarevRussian Academy of Sciences, Moscow, Russsiahigh order methods, computational fluid dynamics, Jaap van der VegtUniversity of Twente, Enschede, NetherlandsNumerical methods for PDE; computational fluid dynamics; Maxwell equationsYan XuUniversity of Science and Technology of China, Hefei,Chinanumerical methods for partial differential equations, finite element methods, Wotao YinUCLA, Los Angeles, California, USA optimizationLexing YingStanford University, Palo Alto, Californiascientific computing, numerical analysis, Ya-xiang YuanChinese Academy of Sciences, ChinaOptimization, Yong-Tao ZhangUniversity of Notre Dame, INNumerical partial differential equations; computational biology, Not logged in

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