an:06817726
Zbl 1379.65080
Alzahrani, Ebraheem O.; Al-Aidarous, Eman S.; Younas, Arshad M. M.; Ahmad, Fayyaz; Ahmad, Shamshad; Ahmad, Shahid
A higher order frozen Jacobian iterative method for solving Hamilton-Jacobi equations
EN
J. Nonlinear Sci. Appl. 9, No. 12, 6210-6227 (2016).
00372595
2016
j
65M70 35F21 65M12
Hamilton-Jacobi equations; frozen Jacobian iterative methods; systems of nonlinear equations; Chebyshev pseudo-spectral collocation method; numerical example; convergence
Summary: It is well-known that the solution of Hamilton-Jacobi equation may have singularity i.e., the solution is non-smooth or nearly non-smooth. We construct a frozen Jacobian multi-step iterative method for solving Hamilton-Jacobi equation under the assumption that the solution is nearly singular. The frozen Jacobian iterative methods are computationally very efficient because a single instance of the iterative method uses a single inversion (in the scene of LU factorization) of the frozen Jacobian. The multi-step part enhances the convergence order by solving lower and upper triangular systems. The convergence order of our proposed iterative method is \(3(m - 1)\) for \(m \geq 3\). For attaining good numerical accuracy in the solution, we use Chebyshev pseudo-spectral collocation method. Some Hamilton-Jacobi equations are solved, and numerically obtained results show high accuracy.