Charlier Series Solutions of Systems of First Order Delay Differential Equations with Proportional and Constant Arguments

Ömür Kivanç Kürkçü; Mehmet Sezer

doi:10.52460/src.2022.004

Fundamental Sciences

Vol. 2 No. 1 (2022): Scientific Research Communications

Charlier Series Solutions of Systems of First Order Delay Differential Equations with Proportional and Constant Arguments

Ömür Kivanç Kürkçü^▸^▾
Mehmet Sezer^▸^▾

Full text

DOI: https://doi.org/10.52460/src.2022.004
Submitted: October 31, 2021
Published: 2022-01-30

Abstract

This study is devoted to obtaining the Charlier series solutions of first order delay differential equations involving proportional and constant arguments by employing an inventive numerical method dependent upon a collaboration of matrix structures derived from the parametric Charlier polynomial. The method essentially conducts the conversion of the unknown terms into a unique matrix equation at the collocation points, which yields a direct computation for these stiff equations. Two illustrative examples are included to test the accuracy and efficiency of the method. According to the investigation of the graphical and numerical results, the method holds fast, inventive and accurate computation, regularizing the matrix forms in compliance with the equations in question.

Keywords

Charlier polynomial
Collocation points
Delay arguments
Matrix method

How to Cite

Kürkçü, Ömür K., & Sezer, M. (2022). Charlier Series Solutions of Systems of First Order Delay Differential Equations with Proportional and Constant Arguments. Scientific Research Communications, 2(1). https://doi.org/10.52460/src.2022.004

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