| Hits ?▲ |
Authors |
Title |
Venue |
Year |
Link |
Author keywords |
| 87 | Audrey Rault, Guillaume Chiavassa, Rosa Donat |
Shock-Vortex Interactions at High Mach Numbers.  |
J. Sci. Comput.  |
2003 |
DBLP DOI BibTeX RDF |
shock capturing schemes, composite vortex, shock deformation |
| 79 | H. C. Yee 0001, Björn Sjögreen |
Non-Linear Filtering and Limiting in High Order Methods for Ideal and Non-Ideal MHD. |
J. Sci. Comput. |
2006 |
DBLP DOI BibTeX RDF |
High order schemes filtering, MHD, shock-capturing, shock/turbulence interactions, nonlinear filtering, limiting |
| 64 | Ellen M. Taylor, M. Pino Martín |
Stencil Adaptation Properties of a WENO Scheme in Direct Numerical Simulations of Compressible Turbulence. |
J. Sci. Comput. |
2007 |
DBLP DOI BibTeX RDF |
Shock capturing, adaptive numerical method, WENO, compressible turbulence, isotropic turbulence, DNS |
| 56 | Appanah Rao Appadu, Muhammad Zaid Dauhoo, S. D. D. V. Rughooputh |
Efficient Shock-Capturing Numerical Schemes Using the Approach of Minimised Integrated Square Difference Error for Hyperbolic Conservation Laws. |
ICCSA (3) |
2007 |
DBLP DOI BibTeX RDF |
4-6 Low-Dissipation and Dispersion Runge Kutta, LW????, Minimised Integrated Square Difference Error |
| 53 | Rosa Donat, Pep Mulet |
Characteristic-Based Schemes for Multi-Class Lighthill-Whitham-Richards Traffic Models. |
J. Sci. Comput. |
2008 |
DBLP DOI BibTeX RDF |
Multi-class Lighthill Whitham Richards traffic model, High resolution shock capturing schemes, Finite-difference WENO schemes, Adaptive mesh refinement |
| 53 | H. C. Yee 0001, Björn Sjögreen |
Efficient Low Dissipative High Order Schemes for Multiscale MHD Flows, II: Minimization of Delta*B Numerical Error. |
J. Sci. Comput. |
2006 |
DBLP DOI BibTeX RDF |
Magnetohydrodynamics, difference scheme, high order of accuracy, shock capturing, numerical divergence |
| 51 | Renato Paciorri, Aldo Bonfiglioli |
Accurate detection of shock waves and shock interactions in two-dimensional shock-capturing solutions. |
J. Comput. Phys. |
2020 |
DBLP DOI BibTeX RDF |
|
| 40 | Emad Fatemi, Joseph W. Jerome, Stanley J. Osher |
Solution of the hydrodynamic device model using high-order nonoscillatory shock capturing algorithms. |
IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. |
1991 |
DBLP DOI BibTeX RDF |
|
| 39 | Shujun Fu, Qiuqi Ruan, Chengpo Mu, Wenqia Wang |
Geometry-Driven Nonlinear Equation with an Accelerating Coupled Scheme for Image Enhancement. |
International Conference on Computational Science (1) |
2007 |
DBLP DOI BibTeX RDF |
|
| 39 | Shujun Fu, Qiuqi Ruan, Wenqia Wang, Jingnian Chen |
Region-Based Shock-Diffusion Equation for Adaptive Image Enhancement. |
IWICPAS |
2006 |
DBLP DOI BibTeX RDF |
|
| 39 | Shujun Fu, Qiuqi Ruan, Wenqia Wang, Jingnian Chen |
Feature-Oriented Fuzzy Shock-Diffusion Equation for Adaptive Image Resolution Enhancement. |
FSKD |
2006 |
DBLP DOI BibTeX RDF |
|
| 39 | Björn Sjögreen, H. C. Yee 0001 |
Multiresolution Wavelet Based Adaptive Numerical Dissipation Control for High Order Methods. |
J. Sci. Comput. |
2004 |
DBLP DOI BibTeX RDF |
low dissipation, high order finite difference method, TVD schemes, wavelets, multi resolution, shock waves |
| 37 | Renato Paciorri, Aldo Bonfiglioli |
Recognition of shock-wave patterns from shock-capturing solutions. |
CompIMAGE |
2012 |
DBLP DOI BibTeX RDF |
|
| 37 | Michael Breuß, Thomas Brox, Thomas Sonar, Joachim Weickert |
Stabilised Nonlinear Inverse Diffusion for Approximating Hyperbolic PDEs. |
Scale-Space |
2005 |
DBLP DOI BibTeX RDF |
|
| 37 | Xing He, Ann R. Karagozian |
Numerical Simulation of Pulse Detonation Engine Phenomena. |
J. Sci. Comput. |
2003 |
DBLP DOI BibTeX RDF |
detonations, gasdynamics, reactive Euler equations, shock capturing schemes |
| 37 | Huanan Yang |
A Local Extrapolation Method for Hyperbolic Conservation Laws. I. The ENO Underlying Schemes. |
J. Sci. Comput. |
2000 |
DBLP DOI BibTeX RDF |
shock capturing schemes, extrapolation method, conservation law |
| 26 | John Steinhoff, Meng Fan, Lesong Wang, William Dietz |
Convection of Concentrated Vortices and Passive Scalars as Solitary Waves. |
J. Sci. Comput. |
2003 |
DBLP DOI BibTeX RDF |
vortical flow, scalar convection, solitary wave, vorticity confinement, CFD |
| 24 | Sai Swetha Venkata Kolluru, Nicolas Besse, Rahul Pandit |
Novel spectral methods for shock capturing and the removal of tygers in computational fluid dynamics. |
CoRR |
2024 |
DBLP DOI BibTeX RDF |
|
| 24 | Weijie Ren, Wenjia Xie, Ye Zhang, Hang Yu, Zhengyu Tian |
MSAT: Matrix stability analysis tool for shock-capturing schemes. |
SoftwareX |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | Yaming Chen, Xiaogang Deng |
Nonlinear weights for shock capturing schemes with unconditionally optimal high order. |
J. Comput. Phys. |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | S. R. Siva Prasad Kochi, M. Ramakrishna 0001 |
Shock capturing using discontinuous Galerkin method and overset grids for two-dimensional Euler equations. |
J. Comput. Phys. |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | Fengrui Zhang, Yulia T. Peet |
Discontinuous Galerkin spectral element method for shock capturing with summation by parts properties. |
J. Comput. Phys. X |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | Weijie Ren, Wenjia Xie, Ye Zhang, Hang Yu, Zhengyu Tian |
Numerical stability analysis of shock-capturing methods for strong shocks I: second-order MUSCL schemes. |
CoRR |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | Ngoc Cuong Nguyen, R. Loek Van Heyningen, Jordi Vila-Pérez, Jaime Peraire |
Optimal transport for mesh adaptivity and shock capturing of compressible flows. |
CoRR |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | Shaoshuai Chu, Olyana A. Kovyrkina, Alexander Kurganov, Vladimir V. Ostapenko |
Experimental Convergence Rate Study for Three Shock-Capturing Schemes and Development of Highly Accurate Combined Schemes. |
CoRR |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | Andrés Mateo-Gabín, Kenza Tlales, Eusebio Valero, Esteban Ferrer, Gonzalo Rubio |
Unsupervised machine-learning shock-capturing technique for high-order solvers. |
CoRR |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | Weijie Ren, Wenjia Xie, Ye Zhang, Hang Yu, Zhengyu Tian |
MSAT: Matrix stability analysis tool for shock-capturing schemes. |
CoRR |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | Weijie Ren, Wenjia Xie, Ye Zhang, Hang Yu, Zhengyu Tian |
Numerical stability analysis of shock-capturing methods for strong shocks II: high-order finite-volume schemes. |
CoRR |
2023 |
DBLP DOI BibTeX RDF |
|
| 24 | Victor C. B. Sousa, Carlo Scalo |
Corrigendum to "A unified Quasi-Spectral Viscosity (QSV) approach to shock capturing and large-eddy simulation" [J. Comput. Phys. 455 (2022) 111139]. |
J. Comput. Phys. |
2022 |
DBLP DOI BibTeX RDF |
|
| 24 | Victor C. B. Sousa, Carlo Scalo |
A Legendre spectral viscosity (LSV) method applied to shock capturing for high-order flux reconstruction schemes. |
J. Comput. Phys. |
2022 |
DBLP DOI BibTeX RDF |
|
| 24 | Victor C. B. Sousa, Carlo Scalo |
A unified Quasi-Spectral Viscosity (QSV) approach to shock capturing and large-eddy simulation. |
J. Comput. Phys. |
2022 |
DBLP DOI BibTeX RDF |
|
| 24 | Andrés Mateo-Gabín, Juan Manzanero, Eusebio Valero |
An entropy stable spectral vanishing viscosity for discontinuous Galerkin schemes: Application to shock capturing and LES models. |
J. Comput. Phys. |
2022 |
DBLP DOI BibTeX RDF |
|
| 24 | C. R. Jisha, T. K. Riyasudheen, Ritesh Kumar Dubey |
A novel numerical viscosity for fourth order hybrid entropy stable shock capturing schemes for convection diffusion equation. |
J. Comput. Phys. |
2022 |
DBLP DOI BibTeX RDF |
|
| 24 | Per-Olof Persson, Benjamin Stamm |
A discontinuous Galerkin method for shock capturing using a mixed high-order and sub-grid low-order approximation space. |
J. Comput. Phys. |
2022 |
DBLP DOI BibTeX RDF |
|
| 24 | Pascal Mossier, Andrea Beck, Claus-Dieter Munz |
A p-Adaptive Discontinuous Galerkin Method with hp-Shock Capturing. |
J. Sci. Comput. |
2022 |
DBLP DOI BibTeX RDF |
|
| 24 | Sebastian Hennemann, Andrés M. Rueda-Ramírez, Florian J. Hindenlang, Gregor J. Gassner |
A provably entropy stable subcell shock capturing approach for high order split form DG for the compressible Euler equations. |
J. Comput. Phys. |
2021 |
DBLP DOI BibTeX RDF |
|
| 24 | Yue Li, Lin Fu, Nikolaus A. Adams |
A low-dissipation shock-capturing framework with flexible nonlinear dissipation control. |
J. Comput. Phys. |
2021 |
DBLP DOI BibTeX RDF |
|
| 24 | Amareshwara Sainadh Chamarthi, Steven H. Frankel |
High-order central-upwind shock capturing scheme using a Boundary Variation Diminishing (BVD) algorithm. |
J. Comput. Phys. |
2021 |
DBLP DOI BibTeX RDF |
|
| 24 | Andrés M. Rueda-Ramírez, Sebastian Hennemann, Florian J. Hindenlang, Andrew R. Winters, Gregor J. Gassner |
An entropy stable nodal discontinuous Galerkin method for the resistive MHD equations. Part II: Subcell finite volume shock capturing. |
J. Comput. Phys. |
2021 |
DBLP DOI BibTeX RDF |
|
| 24 | Huaibao Zhang, Fan Zhang |
On the numerical overshoots of shock-capturing schemes. |
CoRR |
2021 |
DBLP BibTeX RDF |
|
| 24 | Andrés Mateo-Gabín, Juan Manzanero, Eusebio Valero |
An entropy stable spectral vanishing viscosity for discontinuous Galerkin schemes: application to shock capturing and LES models. |
CoRR |
2021 |
DBLP BibTeX RDF |
|
| 24 | Huajun Zhu, Huayong Liu, Zhen-Guo Yan, Guoquan Shi, Xiaogang Deng |
Shock capturing schemes based on nonuniform nonlinear weighted interpolation for conservation laws and their application as subcell limiters for FR/CPR. |
CoRR |
2021 |
DBLP BibTeX RDF |
|
| 24 | Tatiana Kossaczká, Matthias Ehrhardt 0001, Michael Günther 0005 |
Enhanced fifth order WENO Shock-Capturing Schemes with Deep Learning. |
CoRR |
2021 |
DBLP BibTeX RDF |
|
| 24 | Tarik Dzanic, Will Trojak, Freddie D. Witherden |
Utilizing Time-Reversibility for Shock Capturing in Nonlinear Hyperbolic Conservation Laws. |
CoRR |
2021 |
DBLP BibTeX RDF |
|
| 24 | Eduardo Abreu, Vítor Matos, John Pérez, P. Rodríguez-Bermúdez |
A Class of Lagrangian-Eulerian Shock-Capturing Schemes for First-Order Hyperbolic Problems with Forcing Terms. |
J. Sci. Comput. |
2021 |
DBLP DOI BibTeX RDF |
|
| 24 | Takahiro Miyoshi, Takashi Minoshima |
A short note on reconstruction variables in shock capturing schemes for magnetohydrodynamics. |
J. Comput. Phys. |
2020 |
DBLP DOI BibTeX RDF |
|
| 24 | Tarik Dzanic, Will Trojak, Freddie D. Witherden |
A Riemann Difference Scheme for Shock Capturing in Discontinuous Finite Element Methods. |
CoRR |
2020 |
DBLP BibTeX RDF |
|
| 24 | Andrés M. Rueda-Ramírez, Sebastian Hennemann, Florian J. Hindenlang, Andrew R. Winters, Gregor Gassner |
An Entropy Stable Nodal Discontinuous Galerkin Method for the resistive MHD Equations. Part II: Subcell Finite Volume Shock Capturing. |
CoRR |
2020 |
DBLP BibTeX RDF |
|
| 24 | Ben Stevens, Tim Colonius |
Enhancement of shock-capturing methods via machine learning. |
CoRR |
2020 |
DBLP BibTeX RDF |
|
| 24 | Amareshwara Sainadh Chamarthi, Steven H. Frankel |
High-Order Central-Upwind shock capturing scheme using a Boundary Variation Diminishing (BVD) Algorithm. |
CoRR |
2020 |
DBLP BibTeX RDF |
|
| 24 | S. R. Siva Prasad Kochi, M. Ramakrishna 0001 |
Shock capturing with discontinuous Galerkin Method using Overset grids for two-dimensional Euler equations. |
CoRR |
2020 |
DBLP BibTeX RDF |
|
| 24 | Yue Li, Lin Fu, Nikolaus A. Adams |
A low-dissipation shock-capturing framework with flexible nonlinear dissipation control. |
CoRR |
2020 |
DBLP BibTeX RDF |
|
| 24 | Johannes Markert, Gregor Gassner, Stefanie Walch |
A Sub-Element Adaptive Shock Capturing Approach for Discontinuous Galerkin Methods. |
CoRR |
2020 |
DBLP BibTeX RDF |
|
| 24 | Lin Fu |
A low-dissipation finite-volume method based on a new TENO shock-capturing scheme. |
Comput. Phys. Commun. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Jan Glaubitz |
Shock capturing by Bernstein polynomials for scalar conservation laws. |
Appl. Math. Comput. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Stavros Avgerinos, Florian Bernard, Angelo Iollo, Giovanni Russo 0001 |
Linearly implicit all Mach number shock capturing schemes for the Euler equations. |
J. Comput. Phys. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Xi Deng, Yuya Shimizu, Feng Xiao 0001 |
A fifth-order shock capturing scheme with two-stage boundary variation diminishing algorithm. |
J. Comput. Phys. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Guoyan Zhao 0003, Mingbo Sun, Antonio Memmolo, Sergio Pirozzoli |
A general framework for the evaluation of shock-capturing schemes. |
J. Comput. Phys. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Eric J. Ching, Yu Lv, Peter A. Gnoffo, Michael Barnhardt, Matthias Ihme |
Shock capturing for discontinuous Galerkin methods with application to predicting heat transfer in hypersonic flows. |
J. Comput. Phys. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Adam Reyes, Dongwook Lee 0004, Carlo Graziani, Petros Tzeferacos |
A variable high-order shock-capturing finite difference method with GP-WENO. |
J. Comput. Phys. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Per-Olof Persson, Benjamin Stamm |
A Discontinuous Galerkin method for Shock Capturing using a mixed high-order and sub-grid low-order approximation space. |
CoRR |
2019 |
DBLP BibTeX RDF |
|
| 24 | Marvin Bohm, Sven Schermeng, Andrew R. Winters, Gregor J. Gassner, Gustaaf B. Jacobs |
Multi-element SIAC filter for shock capturing applied to high-order discontinuous Galerkin spectral element methods. |
CoRR |
2019 |
DBLP BibTeX RDF |
|
| 24 | Jan Glaubitz |
Shock Capturing by Bernstein Polynomials for Scalar Conservation Laws. |
CoRR |
2019 |
DBLP BibTeX RDF |
|
| 24 | Jan Glaubitz, Alberto Costa Nogueira Jr., João Lucas de Sousa Almeida, R. F. Cantão, C. A. C. Silva |
Smooth and Compactly Supported Viscous Sub-cell Shock Capturing for Discontinuous Galerkin Methods. |
J. Sci. Comput. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Marvin Bohm, Sven Schermeng, Andrew R. Winters, Gregor J. Gassner, Gustaaf B. Jacobs |
Multi-element SIAC Filter for Shock Capturing Applied to High-Order Discontinuous Galerkin Spectral Element Methods. |
J. Sci. Comput. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Mehdi Mollaei, Seyyed Majid Malek Jafarian |
The introduction of the surfing scheme for shock capturing with high-stability and high-speed convergence. |
Commun. Nonlinear Sci. Numer. Simul. |
2019 |
DBLP DOI BibTeX RDF |
|
| 24 | Taku Ohwada, Yuki Shibata, Takuma Kato, Taichi Nakamura |
A simple, robust and efficient high-order accurate shock-capturing scheme for compressible flows: Towards minimalism. |
J. Comput. Phys. |
2018 |
DBLP DOI BibTeX RDF |
|
| 24 | D. V. Kotov, H. C. Yee 0001, A. A. Wray, Björn Sjögreen, Alexei G. Kritsuk |
Corrigendum to "Numerical dissipation control in high order shock-capturing schemes for LES of low speed flows" [J. Comput. Phys. 307 (2016) 189-202]. |
J. Comput. Phys. |
2018 |
DBLP DOI BibTeX RDF |
|
| 24 | David Sidilkover |
Towards unification of the Vorticity Confinement and Shock Capturing (TVD and ENO/WENO) methods. |
J. Comput. Phys. |
2018 |
DBLP DOI BibTeX RDF |
|
| 24 | Frédéric Coquel, Shi Jin 0003, Jian-Guo Liu 0006, Li Wang 0020 |
Entropic sub-cell shock capturing schemes via Jin-Xin relaxation and Glimm front sampling for scalar conservation laws. |
Math. Comput. |
2018 |
DBLP DOI BibTeX RDF |
|
| 24 | Carlos Pantano, Richard Saurel, T. Schmitt |
An oscillation free shock-capturing method for compressible van der Waals supercritical fluid flows. |
J. Comput. Phys. |
2017 |
DBLP DOI BibTeX RDF |
|
| 24 | Sergio Amat, Vicente F. Candela |
On the convergence of a local third order shock capturing method for hyperbolic conservation laws. |
Numer. Algorithms |
2017 |
DBLP DOI BibTeX RDF |
|
| 24 | Matthias Sonntag, Claus-Dieter Munz |
Efficient Parallelization of a Shock Capturing for Discontinuous Galerkin Methods using Finite Volume Sub-cells. |
J. Sci. Comput. |
2017 |
DBLP DOI BibTeX RDF |
|
| 24 | Mohammad Zakerzadeh, Georg May |
On the Convergence of a Shock Capturing Discontinuous Galerkin Method for Nonlinear Hyperbolic Systems of Conservation Laws. |
SIAM J. Numer. Anal. |
2016 |
DBLP DOI BibTeX RDF |
|
| 24 | D. V. Kotov, H. C. Yee 0001, A. A. Wray, Björn Sjögreen, Alexei G. Kritsuk |
Numerical dissipation control in high order shock-capturing schemes for LES of low speed flows. |
J. Comput. Phys. |
2016 |
DBLP DOI BibTeX RDF |
|
| 24 | Vladimir V. Ostapenko, Olyana Kovyrkina |
On Construction of Combined Shock-Capturing Finite-Difference Schemes of High Accuracy. |
NAA |
2016 |
DBLP DOI BibTeX RDF |
|
| 24 | Forrest Wolfgang Glines, Matthew Anderson, David Neilsen |
Scalable Relativistic High-Resolution Shock-Capturing for Heterogeneous Computing. |
CLUSTER |
2015 |
DBLP DOI BibTeX RDF |
|
| 24 | Andreas Hiltebrand, Siddhartha Mishra |
Entropy stable shock capturing space-time discontinuous Galerkin schemes for systems of conservation laws. |
Numerische Mathematik |
2014 |
DBLP DOI BibTeX RDF |
|
| 24 | Hamdullah Yücel, Martin Stoll, Peter Benner |
Discontinuous Galerkin finite element methods with shock-capturing for nonlinear convection dominated models. |
Comput. Chem. Eng. |
2013 |
DBLP DOI BibTeX RDF |
|
| 24 | H. C. Yee 0001, D. V. Kotov, Wei Wang 0027, Chi-Wang Shu |
Spurious behavior of shock-capturing methods by the fractional step approach: Problems containing stiff source terms and discontinuities. |
J. Comput. Phys. |
2013 |
DBLP DOI BibTeX RDF |
|
| 24 | Andrew W. Cook |
Effects of heat conduction on artificial viscosity methods for shock capturing. |
J. Comput. Phys. |
2013 |
DBLP DOI BibTeX RDF |
|
| 24 | H. C. Yee 0001, D. V. Kotov, Wei Wang 0027, Chi-Wang Shu |
Corrigendum to "Spurious behavior of shock-capturing methods by the fractional step approach: Problems containing stiff source terms and discontinuities" [J. Comput. Physics 241 (2013) 266-291]. |
J. Comput. Phys. |
2013 |
DBLP DOI BibTeX RDF |
|
| 24 | J. R. Serrano, H. Climent, Pedro Piqueras, Oscar García-Afonso |
Analysis of shock capturing methods for chemical species transport in unsteady compressible flow. |
Math. Comput. Model. |
2013 |
DBLP DOI BibTeX RDF |
|
| 24 | Friedhelm Schieweck, Piotr Skrzypacz |
A Local Projection Stabilization Method with Shock Capturing and Diagonal Mass Matrix for Solving Non-stationary Transport Dominated Problems. |
Comput. Methods Appl. Math. |
2012 |
DBLP DOI BibTeX RDF |
|
| 24 | Appanah Rao Appadu |
Investigating the shock-capturing properties of some composite numerical schemes for the 1-D linear advection equation. |
Int. J. Comput. Appl. Technol. |
2012 |
DBLP DOI BibTeX RDF |
|
| 24 | Garrett E. Barter, David L. Darmofal |
Shock capturing with PDE-based artificial viscosity for DGFEM: Part I. Formulation. |
J. Comput. Phys. |
2010 |
DBLP DOI BibTeX RDF |
|
| 24 | Olivier Heuzé, Stéphane Jaouen, Hervé Jourdren |
Dissipative issue of high-order shock capturing schemes with non-convex equations of state. |
J. Comput. Phys. |
2009 |
DBLP DOI BibTeX RDF |
|
| 24 | Christophe Bogey, Nicolas de Cacqueray, Christophe Bailly |
A shock-capturing methodology based on adaptative spatial filtering for high-order non-linear computations. |
J. Comput. Phys. |
2009 |
DBLP DOI BibTeX RDF |
|
| 24 | Magnus Svärd, Siddhartha Mishra |
Shock Capturing Artificial Dissipation for High-Order Finite Difference Schemes. |
J. Sci. Comput. |
2009 |
DBLP DOI BibTeX RDF |
|
| 24 | Ritesh Kumar, Mohan K. Kadalbajoo |
A class of high resolution shock capturing schemes for hyperbolic conservation laws. |
Appl. Math. Comput. |
2008 |
DBLP DOI BibTeX RDF |
|
| 24 | S. Kudriakov, W. H. Hui |
On a new defect of shock-capturing methods. |
J. Comput. Phys. |
2008 |
DBLP DOI BibTeX RDF |
|
| 24 | Ben Thornber, Dimitris Drikakis, Robin J. R. Williams, David Youngs |
On entropy generation and dissipation of kinetic energy in high-resolution shock-capturing schemes. |
J. Comput. Phys. |
2008 |
DBLP DOI BibTeX RDF |
|
| 24 | Zheng Ran |
Lie Symmetry Preservation and Shock-Capturing Methods. |
SIAM J. Numer. Anal. |
2007 |
DBLP DOI BibTeX RDF |
|
| 24 | Guo-Hua Tu, Xiang-Jiang Yuan |
A characteristic-based shock-capturing scheme for hyperbolic problems. |
J. Comput. Phys. |
2007 |
DBLP DOI BibTeX RDF |
|
| 24 | Leonardo Di G. Sigalotti, Hender López, Arnaldo Donoso, Eloy Sira, Jaime Klapp |
A shock-capturing SPH scheme based on adaptive kernel estimation. |
J. Comput. Phys. |
2006 |
DBLP DOI BibTeX RDF |
|
| 24 | Sergio Pirozzoli |
On the spectral properties of shock-capturing schemes. |
J. Comput. Phys. |
2006 |
DBLP DOI BibTeX RDF |
|
| 24 | Michael Breuß, Joachim Weickert |
A Shock-Capturing Algorithm for the Differential Equations of Dilation and Erosion. |
J. Math. Imaging Vis. |
2006 |
DBLP DOI BibTeX RDF |
|
| 24 | Tsutomu Saito, Atsushi Abe, Kazuyoshi Takayama |
Benchmark of Parallelization Methods for Unstructured Shock Capturing Code. |
IPDPS |
2001 |
DBLP DOI BibTeX RDF |
|
| 24 | Kaleem Siddiqi, Benjamin B. Kimia, Chi-Wang Shu |
Geometric Shock-Capturing ENO Schemes for Subpixel Interpolation, Computation and Curve Evolution. |
CVGIP Graph. Model. Image Process. |
1997 |
DBLP DOI BibTeX RDF |
|
| 16 | Gabriella Puppo, Giovanni Russo 0001 |
Staggered Finite Difference Schemes for Conservation Laws. |
J. Sci. Comput. |
2006 |
DBLP DOI BibTeX RDF |
balance laws, central schemes, Conservation laws, high-order accuracy, finite difference schemes |
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