Error estimation of the homotopy perturbation method to solve second kind volterra integral equations with piecewise smooth kernels: Application of the cadna library

Samad Noeiaghdam; Aliona Dreglea; Jihuan He; Zakieh Avazzadeh; Muhammad Suleman; Mohammad Ali Fariborzi Araghi; Denis N. Sidorov; Nikolai Sidorov

doi:10.3390/sym12101730

Error estimation of the homotopy perturbation method to solve second kind volterra integral equations with piecewise smooth kernels: Application of the cadna library

Samad Noeiaghdam^*, Aliona Dreglea^*, Jihuan He, Zakieh Avazzadeh, Muhammad Suleman, Mohammad Ali Fariborzi Araghi, Denis N. Sidorov, Nikolai Sidorov

^*Corresponding author for this work

Department of Applied Mathematics

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

38 Citations (Scopus)

Abstract

This paper studies the second kind linear Volterra integral equations (IEs) with a discontinuous kernel obtained from the load leveling and energy system problems. For solving this problem, we propose the homotopy perturbation method (HPM). We then discuss the convergence theorem and the error analysis of the formulation to validate the accuracy of the obtained solutions. In this study, the Controle et Estimation Stochastique des Arrondis de Calculs method (CESTAC) and the Control of Accuracy and Debugging for Numerical Applications (CADNA) library are used to control the rounding error estimation. We also take advantage of the discrete stochastic arithmetic (DSA) to find the optimal iteration, optimal error and optimal approximation of the HPM. The comparative graphs between exact and approximate solutions show the accuracy and efficiency of the method.

Original language	English
Article number	1730
Pages (from-to)	1-16
Number of pages	16
Journal	Symmetry
Volume	12
Issue number	10
DOIs	https://doi.org/10.3390/sym12101730
Publication status	Published - Oct 2020

Keywords

CADNA library
CESTAC method
Homotopy perturbation method
Stochastic arithmetic
Volterra integral equation with piecewise continuous kernel

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10.3390/sym12101730

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@article{5529b6b20f2e4a4fa02ddd62ee67fdbb,

title = "Error estimation of the homotopy perturbation method to solve second kind volterra integral equations with piecewise smooth kernels: Application of the cadna library",

abstract = "This paper studies the second kind linear Volterra integral equations (IEs) with a discontinuous kernel obtained from the load leveling and energy system problems. For solving this problem, we propose the homotopy perturbation method (HPM). We then discuss the convergence theorem and the error analysis of the formulation to validate the accuracy of the obtained solutions. In this study, the Controle et Estimation Stochastique des Arrondis de Calculs method (CESTAC) and the Control of Accuracy and Debugging for Numerical Applications (CADNA) library are used to control the rounding error estimation. We also take advantage of the discrete stochastic arithmetic (DSA) to find the optimal iteration, optimal error and optimal approximation of the HPM. The comparative graphs between exact and approximate solutions show the accuracy and efficiency of the method.",

keywords = "CADNA library, CESTAC method, Homotopy perturbation method, Stochastic arithmetic, Volterra integral equation with piecewise continuous kernel",

author = "Samad Noeiaghdam and Aliona Dreglea and Jihuan He and Zakieh Avazzadeh and Muhammad Suleman and Araghi, {Mohammad Ali Fariborzi} and Sidorov, {Denis N.} and Nikolai Sidorov",

note = "Publisher Copyright: {\textcopyright} 2020 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2020",

month = oct,

doi = "10.3390/sym12101730",

language = "English",

volume = "12",

pages = "1--16",

journal = "Symmetry",

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T2 - Application of the cadna library

AU - Noeiaghdam, Samad

AU - Dreglea, Aliona

AU - He, Jihuan

AU - Avazzadeh, Zakieh

AU - Suleman, Muhammad

AU - Araghi, Mohammad Ali Fariborzi

AU - Sidorov, Denis N.

AU - Sidorov, Nikolai

PY - 2020/10

Y1 - 2020/10

N2 - This paper studies the second kind linear Volterra integral equations (IEs) with a discontinuous kernel obtained from the load leveling and energy system problems. For solving this problem, we propose the homotopy perturbation method (HPM). We then discuss the convergence theorem and the error analysis of the formulation to validate the accuracy of the obtained solutions. In this study, the Controle et Estimation Stochastique des Arrondis de Calculs method (CESTAC) and the Control of Accuracy and Debugging for Numerical Applications (CADNA) library are used to control the rounding error estimation. We also take advantage of the discrete stochastic arithmetic (DSA) to find the optimal iteration, optimal error and optimal approximation of the HPM. The comparative graphs between exact and approximate solutions show the accuracy and efficiency of the method.

AB - This paper studies the second kind linear Volterra integral equations (IEs) with a discontinuous kernel obtained from the load leveling and energy system problems. For solving this problem, we propose the homotopy perturbation method (HPM). We then discuss the convergence theorem and the error analysis of the formulation to validate the accuracy of the obtained solutions. In this study, the Controle et Estimation Stochastique des Arrondis de Calculs method (CESTAC) and the Control of Accuracy and Debugging for Numerical Applications (CADNA) library are used to control the rounding error estimation. We also take advantage of the discrete stochastic arithmetic (DSA) to find the optimal iteration, optimal error and optimal approximation of the HPM. The comparative graphs between exact and approximate solutions show the accuracy and efficiency of the method.

KW - CADNA library

KW - CESTAC method

KW - Homotopy perturbation method

KW - Stochastic arithmetic

KW - Volterra integral equation with piecewise continuous kernel

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DO - 10.3390/sym12101730

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AN - SCOPUS:85093816772

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JO - Symmetry

JF - Symmetry

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ER -

Error estimation of the homotopy perturbation method to solve second kind volterra integral equations with piecewise smooth kernels: Application of the cadna library

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