Asymptotic analysis of Emden–Fowler type equation with an application to power flow models: Special Issue dedicated to the memory of J.W. Cohen

M. H.M. Christianen; A. J.E.M. Janssen; M. Vlasiou; B. Zwart

doi:10.1016/j.indag.2022.12.001

Asymptotic analysis of Emden–Fowler type equation with an application to power flow models: Special Issue dedicated to the memory of J.W. Cohen

M. H.M. Christianen^*, A. J.E.M. Janssen, M. Vlasiou, B. Zwart

^*Corresponding author for this work

Mathematics of Operations Research

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

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Abstract

Emden–Fowler type equations are nonlinear differential equations that appear in many fields such as mathematical physics, astrophysics and chemistry. In this paper, we perform an asymptotic analysis of a specific Emden–Fowler type equation that emerges in a queuing theory context as an approximation of voltages under a well-known power flow model. Thus, we place Emden–Fowler type equations in the context of electrical engineering. We derive properties of the continuous solution of this specific Emden–Fowler type equation and study the asymptotic behavior of its discrete analog. We conclude that the discrete analog has the same asymptotic behavior as the classical continuous Emden–Fowler type equation that we consider.

Original language	English
Pages (from-to)	1146-1180
Number of pages	35
Journal	Indagationes mathematicae
Volume	34
Issue number	5
Early online date	5 Dec 2022
DOIs	https://doi.org/10.1016/j.indag.2022.12.001
Publication status	Published - 1 Sept 2023

Keywords

Approximations
Asymptotics
Emden–Fowler type equation

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title = "Asymptotic analysis of Emden–Fowler type equation with an application to power flow models: Special Issue dedicated to the memory of J.W. Cohen",

abstract = "Emden–Fowler type equations are nonlinear differential equations that appear in many fields such as mathematical physics, astrophysics and chemistry. In this paper, we perform an asymptotic analysis of a specific Emden–Fowler type equation that emerges in a queuing theory context as an approximation of voltages under a well-known power flow model. Thus, we place Emden–Fowler type equations in the context of electrical engineering. We derive properties of the continuous solution of this specific Emden–Fowler type equation and study the asymptotic behavior of its discrete analog. We conclude that the discrete analog has the same asymptotic behavior as the classical continuous Emden–Fowler type equation that we consider.",

keywords = "Approximations, Asymptotics, Emden–Fowler type equation",

author = "Christianen, \{M. H.M.\} and Janssen, \{A. J.E.M.\} and M. Vlasiou and B. Zwart",

note = "Funding Information: This research is supported by the Dutch Research Council through the TOP programme under contract number 613.001.801 . Publisher Copyright: {\textcopyright} 2022 The Author(s)",

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AU - Vlasiou, M.

AU - Zwart, B.

PY - 2023/9/1

Y1 - 2023/9/1

N2 - Emden–Fowler type equations are nonlinear differential equations that appear in many fields such as mathematical physics, astrophysics and chemistry. In this paper, we perform an asymptotic analysis of a specific Emden–Fowler type equation that emerges in a queuing theory context as an approximation of voltages under a well-known power flow model. Thus, we place Emden–Fowler type equations in the context of electrical engineering. We derive properties of the continuous solution of this specific Emden–Fowler type equation and study the asymptotic behavior of its discrete analog. We conclude that the discrete analog has the same asymptotic behavior as the classical continuous Emden–Fowler type equation that we consider.

AB - Emden–Fowler type equations are nonlinear differential equations that appear in many fields such as mathematical physics, astrophysics and chemistry. In this paper, we perform an asymptotic analysis of a specific Emden–Fowler type equation that emerges in a queuing theory context as an approximation of voltages under a well-known power flow model. Thus, we place Emden–Fowler type equations in the context of electrical engineering. We derive properties of the continuous solution of this specific Emden–Fowler type equation and study the asymptotic behavior of its discrete analog. We conclude that the discrete analog has the same asymptotic behavior as the classical continuous Emden–Fowler type equation that we consider.

KW - Approximations

KW - Asymptotics

KW - Emden–Fowler type equation

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DO - 10.1016/j.indag.2022.12.001

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Asymptotic analysis of Emden–Fowler type equation with an application to power flow models: Special Issue dedicated to the memory of J.W. Cohen

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Keywords

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