A WAVELET COLLOCATION METHOD FOR NEUTRAL DELAY DIFFERENTIAL EQUATIONS ON METRIC STAR GRAPH

Mo Faheem; Arshad Khan; Fathalla Ali Rihan

doi:10.11948/20240402

A WAVELET COLLOCATION METHOD FOR NEUTRAL DELAY DIFFERENTIAL EQUATIONS ON METRIC STAR GRAPH

Mo Faheem
, Arshad Khan
, Fathalla Ali Rihan

Department of Mathematical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

This paper proposes a Haar wavelet collocation approach to solve neutral delay differential equations on a metric star graph (NDDE-MSG) with κ edges. The application of Haar wavelet, together with its integration on NDDE-MSG, yields a system of equations, which on solving gives unknown wavelet coefficients and subsequently the solution. The upper bound of the global error norm is established to demonstrate that the proposed method converges exponentially. We conduct some numerical experiments to test the computational convergence of our approach. In this study, the authors explore the numerical solution for NDDE on metric star graphs for the first time.

Original language	English
Pages (from-to)	2124-2151
Number of pages	28
Journal	Journal of Applied Analysis and Computation
Volume	15
Issue number	4
DOIs	https://doi.org/10.11948/20240402
Publication status	Published - Aug 2025

Keywords

Haar wavelet
collocatiomethod
convergence
metric star graph
neutral delay differential equations

ASJC Scopus subject areas

General Mathematics

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10.11948/20240402

Cite this

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title = "A WAVELET COLLOCATION METHOD FOR NEUTRAL DELAY DIFFERENTIAL EQUATIONS ON METRIC STAR GRAPH",

abstract = "This paper proposes a Haar wavelet collocation approach to solve neutral delay differential equations on a metric star graph (NDDE-MSG) with κ edges. The application of Haar wavelet, together with its integration on NDDE-MSG, yields a system of equations, which on solving gives unknown wavelet coefficients and subsequently the solution. The upper bound of the global error norm is established to demonstrate that the proposed method converges exponentially. We conduct some numerical experiments to test the computational convergence of our approach. In this study, the authors explore the numerical solution for NDDE on metric star graphs for the first time.",

keywords = "Haar wavelet, collocatiomethod, convergence, metric star graph, neutral delay differential equations",

author = "Mo Faheem and Arshad Khan and Rihan, \{Fathalla Ali\}",

year = "2025",

month = aug,

doi = "10.11948/20240402",

language = "English",

volume = "15",

pages = "2124--2151",

journal = "Journal of Applied Analysis and Computation",

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AU - Faheem, Mo

AU - Khan, Arshad

AU - Rihan, Fathalla Ali

PY - 2025/8

Y1 - 2025/8

N2 - This paper proposes a Haar wavelet collocation approach to solve neutral delay differential equations on a metric star graph (NDDE-MSG) with κ edges. The application of Haar wavelet, together with its integration on NDDE-MSG, yields a system of equations, which on solving gives unknown wavelet coefficients and subsequently the solution. The upper bound of the global error norm is established to demonstrate that the proposed method converges exponentially. We conduct some numerical experiments to test the computational convergence of our approach. In this study, the authors explore the numerical solution for NDDE on metric star graphs for the first time.

AB - This paper proposes a Haar wavelet collocation approach to solve neutral delay differential equations on a metric star graph (NDDE-MSG) with κ edges. The application of Haar wavelet, together with its integration on NDDE-MSG, yields a system of equations, which on solving gives unknown wavelet coefficients and subsequently the solution. The upper bound of the global error norm is established to demonstrate that the proposed method converges exponentially. We conduct some numerical experiments to test the computational convergence of our approach. In this study, the authors explore the numerical solution for NDDE on metric star graphs for the first time.

KW - Haar wavelet

KW - collocatiomethod

KW - convergence

KW - metric star graph

KW - neutral delay differential equations

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JO - Journal of Applied Analysis and Computation

JF - Journal of Applied Analysis and Computation

IS - 4

ER -

A WAVELET COLLOCATION METHOD FOR NEUTRAL DELAY DIFFERENTIAL EQUATIONS ON METRIC STAR GRAPH

Abstract

Keywords

ASJC Scopus subject areas

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