@article{An Efficient Convergent Approach for Difference Delayed Reaction-Diffusion Equations_2024, place={Maryland, USA}, volume={17}, url={https://ejpam.com/index.php/ejpam/article/view/5197}, DOI={10.29020/nybg.ejpam.v17i3.5197}, abstractNote={It is usually not possible to solve partial differential equations, especially the delay type, with analytical methods. Therefore, in this article, we present an efficient method for solving differential equations of the difference delayed reaction-diffusion type, which can be generalized to other delayed partial differential equations. In the proposed approach, we first convert the delayed equation into an equivalent non-delayed equation by inserting the corresponding delay function with an effective technique. Then, using a pseudo-spectral method, we discretize the obtained equation in the Legendre-Gauss-Lobatto collocation points and present an algebraic system with an equal number of equations and unknowns which can be solved by quasi-Newton methods such as Levenderg-Marquardt algorithm. The approximate solutions can be obtained with exponential accuracy. The convergence analysis of the method is fully discussed and four examples are presented to evaluate the results and compare with one of the conventional methods used to solve partial differential equations, that is, the compact finite difference method. }, number={3}, journal={European Journal of Pure and Applied Mathematics}, year={2024}, month={Jul.}, pages={1565–1584} }