Two-phase obstacle problem in 2D and its aposteriori error estimate
This code computes a finite element (FEM) approximation to two benchmark two-phase obstacle problems in 2D. The FEM approximation is constructed from the maximization of the Lagrange multiplier in a dual problem. It leads to a quadratic programming problem with box constrains. Therefore, the optimization toolbox of MATLAB is required to run the code. Once the approximation is available, its quality is measured in terms of a posteriori error estimate.
Details on theory and numerics will be found in the forthcoming paper of Farid Borzorgnia and Jan Valdman: A FEM approximation of a two-phase obstacle problem and its a posteriori error estimate (submitted).
A link to the paper will be found at the author's web page http://sites.google.com/site/janvaldman/publications .
Please cite the paper if you find the code useful.
Call 'start' in the 'solver_two_phase_obstacle' directory to run the code.
Cita come
Jan Valdman (2024). Two-phase obstacle problem in 2D and its aposteriori error estimate (https://www.mathworks.com/matlabcentral/fileexchange/57232-two-phase-obstacle-problem-in-2d-and-its-aposteriori-error-estimate), MATLAB Central File Exchange. Recuperato .
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Ispirato da: Obstacle problem in 2D and its aposteriori error estimate, Two-phase obstacle problem in 1D and its aposteriori error estimate, Tricontf, Quadrature of the absolute value of a function
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