Some applications of the concept of minimized integrated exponential error for low dispersion and low dissipation
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Publication:2893560
DOI10.1002/fld.2504zbMath1446.76137OpenAlexW2157016135MaRDI QIDQ2893560
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Publication date: 21 June 2012
Published in: International Journal for Numerical Methods in Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/fld.2504
dissipationdispersionCFL numberminimized integrated exponential error for low dispersion and low dissipationminimized integrated square difference error
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Cites Work
- Unnamed Item
- Control of numerical effects of dispersion and dissipation in numerical schemes for efficient shock-capturing through an optimal Courant number
- Finite volume schemes for multi-dimensional hyperbolic systems based on the use of bicharacteristics.
- High order one-step monotonicity-preserving schemes for unsteady compressible flow calculations.
- The remainder-effect analysis of finite difference schemes and the applications
- A method for reducing dispersion in convective difference schemes
- A global numerical ocean model. I
- The concept of minimized integrated exponential error for low dispersion and low dissipation schemes
- Generalized Leapfrog Methods
- The designing approach of difference schemes by controlling the remainder-effect
- Composite Schemes for Conservation Laws
- Two-dimensional shallow water equations by composite schemes
- Linear Bicharacteristic Schemes Without Dissipation
- Central Schemes for Multidimensional Hamilton--Jacobi Equations
- An upwind compact mpact approach with group velocity control for compressible flow fields
- Stability and convergence in fluid flow problems
- A new approach to design high-order schemes
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