Approximate-analytical solutions of cable equation  using conformable fractional operator

Yaşkıran, Burcu; Yavuz, Mehmet

doi:10.20852/ntmsci.2017.232

Cited by 14 publications

(9 citation statements)

References 31 publications

(33 reference statements)

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“…Various fractional models can be seen in the literature have many applications from science to engineering 13–20 . In this study, the following higher order fractional equations and their systems are considered:…”

Section: Governing Models and Resultsmentioning

confidence: 99%

Analytical solutions of some nonlinear fractional‐order differential equations by different methods

Odabaşı

Pınar

Koçak

2020

Math Methods in App Sciences

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In this work, we investigate exact solutions of some fractional‐order differential equations arising in mathematical physics. We consider the space‐time fractional Kaup‐Kupershmidt, the space‐time fractional Fokas, and the space‐time fractional breaking soliton equations, which have important applications in science and engineering. Exact traveling wave solutions of these equations have been established by different efficient methods.

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Section: Governing Models and Resultsmentioning

confidence: 99%

Analytical solutions of some nonlinear fractional‐order differential equations by different methods

Odabaşı

Pınar

Koçak

2020

Math Methods in App Sciences

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“…In the latest scientific publications, we may find the Caputo definition, which is used to describe many phenomena; for example, electrical circuits [11][12][13][14][15][16]. The use of fractional derivatives having different orders is a complicated process, and only a couple of illustrative implementations regarding this case are known [17][18][19]. On the other hand, SPICE simulations, compared to real measurements, of the circuits containing fractional elements shows great differences.…”

Section: Introductionmentioning

confidence: 99%

Analysis of an Electrical Circuit Using Two-Parameter Conformable Operator in the Caputo Sense

Piotrowska

Sajewski

2021

Symmetry

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The problem of voltage dynamics description in a circuit containing resistors, and at least two fractional order elements such as supercapacitors, supplied with constant voltage is addressed. A new operator called Conformable Derivative in the Caputo sense is used. A state solution is proposed. The considered operator is a generalization of three derivative definitions: classical definition (integer order), Caputo fractional definition and the so-called Conformable Derivative (CFD) definition. The proposed solution based on a two-parameter Conformable Derivative in the Caputo sense is proven to be better than the classical approach or the one-parameter fractional definition. Theoretical considerations are verified experimentally. The cumulated matching error function is given and it reveals that the proposed CFD–Caputo method generates an almost two times lower error compared to the classical method.

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“…Some significant definitions that deal with fractional derivatives have been developed by Coimbra, Davison-Essex, Riesz, Riemann-Liouville, Hadamard, Grunwald-Letnikov, and Caputo [1,2]. Novel solution methods of such problems have been investigated by using these fractional derivative operators [3][4][5][6][7][8][9]. Moreover, in the last decades, new fractional derivative operators have been defined by using an exponential kernel called Caputo-Fabrizio (CF) [10] and the Mittag-Leffler kernel called Atangana-Baleanu (AB) [11].…”

Section: Introduction and Some Preliminariesmentioning

confidence: 99%

Nonlocal Cauchy Problem via a Fractional Operator Involving Power Kernel in Banach Spaces

2019

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We investigated existence and uniqueness conditions of solutions of a nonlinear differential equation containing the Caputo–Fabrizio operator in Banach spaces. The mentioned derivative has been proposed by using the exponential decay law and hence it removed the computational complexities arising from the singular kernel functions inherit in the conventional fractional derivatives. The method used in this study is based on the Banach contraction mapping principle. Moreover, we gave a numerical example which shows the applicability of the obtained results.

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Approximate-analytical solutions of cable equation using conformable fractional operator

Cited by 14 publications

References 31 publications

Analytical solutions of some nonlinear fractional‐order differential equations by different methods

Analytical solutions of some nonlinear fractional‐order differential equations by different methods

Analysis of an Electrical Circuit Using Two-Parameter Conformable Operator in the Caputo Sense

Nonlocal Cauchy Problem via a Fractional Operator Involving Power Kernel in Banach Spaces

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