Solutions of Hyperbolic Equations with the CIP-BS Method
Abstract
In this paper, we show that a new numerical method, the Constrained Interpolation Profile - Basis Set (CIP-BS) method, can solve general hyperbolic equations efficiently. This method uses a simple polynomial basis set that is easily extendable to any desired higher-order accuracy. The interpolating profile is chosen so that the subgrid scale solution approaches the local real solution owing to the constraints from the spatial derivatives of the master equations. Then, introducing scalar products, the linear and nonlinear partial differential equations are uniquely reduced to the ordinary differential equations for values and spatial derivatives at the grid points. The method gives stable, less diffusive, and accurate results. It is successfully applied to the continuity equation, the Burgers equation, the Korteweg-de Vries equation, and one-dimensional shock tube problems.
- Publication:
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JSME International Journal Series B
- Pub Date:
- 2004
- DOI:
- Bibcode:
- 2004JSMEB..47..768U
- Keywords:
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- the CIP-BS Method;
- the CIP Method;
- Basis Set;
- Hyperbolic Equations;
- Galerkin Formulation