A comparison of explicit semi-analytical numerical integration methods for solving stiff ODE systems

E. R. El-Zahar; H. M. Habib; M. M. Rashidi; I. M. El-Desoky

doi:10.3844/ajassp.2015.304.320

A comparison of explicit semi-analytical numerical integration methods for solving stiff ODE systems

E. R. El-Zahar, H. M. Habib, M. M. Rashidi, I. M. El-Desoky

Mathematics

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10 Scopus citations

Abstract

In this study, a comparison among three semi-analytical numerical integration algorithms for solving stiff ODE systems is presented. The algorithms are based on Differential Transform Method (DTM) which are Multiple-Step DTM (MsDTM), Enhanced MsDTM (EMsDTM) and MsDTM with Padé approximants (MsDTM-P). These methods can be classified as explicit one step semi-analytical numerical integration methods. The error and stability analysis of each method is presented. New important relationships among the methods are introduced. To demonstrate our results, a comparison of the accuracy, stability and computational efficiency of the methods is presented through solving some linear and nonlinear problems arising in applied science and engineering.

Original language	English
Pages (from-to)	304-320
Number of pages	17
Journal	American Journal of Applied Sciences
Volume	12
Issue number	5
DOIs	https://doi.org/10.3844/ajassp.2015.304.320
State	Published - 2015

Keywords

Accuracy
Enhanced MsDTM
Multiple-Step Differential Transform Methods (MsDTM)
Padé Approximants
Stability
Stiff Problems

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10.3844/ajassp.2015.304.320

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title = "A comparison of explicit semi-analytical numerical integration methods for solving stiff ODE systems",

abstract = "In this study, a comparison among three semi-analytical numerical integration algorithms for solving stiff ODE systems is presented. The algorithms are based on Differential Transform Method (DTM) which are Multiple-Step DTM (MsDTM), Enhanced MsDTM (EMsDTM) and MsDTM with Pad{\'e} approximants (MsDTM-P). These methods can be classified as explicit one step semi-analytical numerical integration methods. The error and stability analysis of each method is presented. New important relationships among the methods are introduced. To demonstrate our results, a comparison of the accuracy, stability and computational efficiency of the methods is presented through solving some linear and nonlinear problems arising in applied science and engineering.",

keywords = "Accuracy, Enhanced MsDTM, Multiple-Step Differential Transform Methods (MsDTM), Pad{\'e} Approximants, Stability, Stiff Problems",

author = "El-Zahar, \{E. R.\} and Habib, \{H. M.\} and Rashidi, \{M. M.\} and El-Desoky, \{I. M.\}",

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doi = "10.3844/ajassp.2015.304.320",

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AU - El-Zahar, E. R.

AU - Habib, H. M.

AU - Rashidi, M. M.

AU - El-Desoky, I. M.

PY - 2015

Y1 - 2015

N2 - In this study, a comparison among three semi-analytical numerical integration algorithms for solving stiff ODE systems is presented. The algorithms are based on Differential Transform Method (DTM) which are Multiple-Step DTM (MsDTM), Enhanced MsDTM (EMsDTM) and MsDTM with Padé approximants (MsDTM-P). These methods can be classified as explicit one step semi-analytical numerical integration methods. The error and stability analysis of each method is presented. New important relationships among the methods are introduced. To demonstrate our results, a comparison of the accuracy, stability and computational efficiency of the methods is presented through solving some linear and nonlinear problems arising in applied science and engineering.

AB - In this study, a comparison among three semi-analytical numerical integration algorithms for solving stiff ODE systems is presented. The algorithms are based on Differential Transform Method (DTM) which are Multiple-Step DTM (MsDTM), Enhanced MsDTM (EMsDTM) and MsDTM with Padé approximants (MsDTM-P). These methods can be classified as explicit one step semi-analytical numerical integration methods. The error and stability analysis of each method is presented. New important relationships among the methods are introduced. To demonstrate our results, a comparison of the accuracy, stability and computational efficiency of the methods is presented through solving some linear and nonlinear problems arising in applied science and engineering.

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KW - Enhanced MsDTM

KW - Multiple-Step Differential Transform Methods (MsDTM)

KW - Padé Approximants

KW - Stability

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JO - American Journal of Applied Sciences

JF - American Journal of Applied Sciences

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A comparison of explicit semi-analytical numerical integration methods for solving stiff ODE systems

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Keywords

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