@article { author = {Khasteh, Mohsen and Refahi Sheikhani, Amir Hossein and Shariffar, Farhad}, title = {A novel numerical approach for distributed order time fractional COVID-19 virus model}, journal = {Journal of Applied Research on Industrial Engineering}, volume = {9}, number = {4}, pages = {442-453}, year = {2022}, publisher = {Research Expansion Alliance (REA) on behalf of Ayandegan Institute of Higher Education}, issn = {2538-5100}, eissn = {2676-6167}, doi = {10.22105/jarie.2022.305182.1381}, abstract = {In this paper, we proposed a numerical approach to solve a distributed order time fractional COVID 19 virus model. The fractional derivatives are shown in the Caputo-Prabhakar contains generalized Mittag-Leffler Kernel. The coronavirus 19 disease model has 8 Inger diets leading to system of 8 nonlinear ordinary differential equations in this sense, we used the midpoint quadrature method and finite different scheme for solving this problem, our approximation method reduce the distributed order time fractional COVID 19 virus equations to a system of algebraic equations. Finally, to confirm the efficiency and accuracy of this method, we presented some numerical experiments for several values of distributed order. Also, all parameters introduced in the given model are positive parameters.}, keywords = {Covid-19 Virus,Distributed-order,Finite difference method,Caputo-Prabhakar derivative}, url = {https://www.journal-aprie.com/article_143582.html}, eprint = {https://www.journal-aprie.com/article_143582_0590a07a3f40d53ae93fb6ff03e20cfe.pdf} }