2020
DOI: 10.1007/s00419-020-01744-w
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A new numerical approach to the solution of PDEs with optimal accuracy on irregular domains and Cartesian meshes—Part 1: the derivations for the wave, heat and Poisson equations in the 1-D and 2-D cases

Abstract: A new numerical approach for the time-dependent wave and heat equations as well as for the timeindependent Poisson equation on irregular domains has been developed. Trivial Cartesian meshes and simple 9-point stencil equations with unknown coefficients are used for 2-D irregular domains. The calculation of the coefficients of the stencil equations is based on the minimization of the local truncation error of the stencil equations and yields the optimal order of accuracy. The treatment of the Dirichlet and Neum… Show more

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Cited by 15 publications
(13 citation statements)
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“…We should also note that the derivations and the results of OLTEM for different PDEs are different. For example, in our paper 32 for the 2-D scalar PDEs, OLTEM with 9-point stencils provides the third order of accuracy on irregular domains. However, for the 2-D elasticity equations considered in this article, OLTEM with 9-point stencils provides the second order of accuracy on irregular domains (nevertheless, this is the optimal order of accuracy for 9-point stencils for elasticity equations independent of the numerical method used for the derivations).…”
Section: Introductionmentioning
confidence: 82%
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“…We should also note that the derivations and the results of OLTEM for different PDEs are different. For example, in our paper 32 for the 2-D scalar PDEs, OLTEM with 9-point stencils provides the third order of accuracy on irregular domains. However, for the 2-D elasticity equations considered in this article, OLTEM with 9-point stencils provides the second order of accuracy on irregular domains (nevertheless, this is the optimal order of accuracy for 9-point stencils for elasticity equations independent of the numerical method used for the derivations).…”
Section: Introductionmentioning
confidence: 82%
“…These results are different from those for OLTEM developed for the scalar wave and heat equations and for the Poisson equation. In these cases OLTEM with 9‐point stencils can provide a much higher order of accuracy compared to that for linear finite elements; for example, see our papers 32,33 A special procedure has been developed for the Neumann boundary conditions on irregular boundaries.…”
Section: Discussionmentioning
confidence: 99%
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“…The stencils coefficients of the cut stencils can be derived by zeroing k i = 0 ( i is the number of the grid point cut by the interface). Then, the stencil coefficients and the corresponding local truncation errors of the cut stencils can be analytically found similar to the procedure for the non-cut stencils (Idesman, 2020; Idesman and Dey, 2020). The orders of the local truncation error of the cut stencils are 4 for the 8-point cut stencils and 14 for the 24-point cut stencils (these orders are the same or higher compared to those considered below for the stencils with interfaces).…”
Section: Optimal Local Truncation Error Methods For the Two-dimension...mentioning
confidence: 99%