M. Meganathan scite author profile

In this research article, a discrete version of the fractional Bagley–Torvik equation is proposed: $$ \nabla _{h}^{2} u(t)+A{}^{C} \nabla _{h}^{\nu }u(t)+Bu(t)=f(t),\quad t>0, $$ ∇ h 2 u ( t ) + A C ∇ h ν u ( t ) + B u ( t ) = f ( t ) , t > 0 , where $0<\nu <1$ 0 < ν < 1 or $1<\nu <2$ 1 < ν < 2 , subject to $u(0)=a$ u ( 0 ) = a and $\nabla _{h} u(0)=b$ ∇ h u ( 0 ) = b , with a and b being real numbers. The solutions are obtained by employing the nabla discrete Laplace transform. These solutions are expressed in terms of Mittag-Leffler functions with three parameters. These solutions are handled numerically for some examples with specific values of some parameters.

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n-Dimensional Fractional Frequency Laplace Transform by the Inverse Difference Operator

Meganathan

Abdeljawad

Xavier

et al. 2020

Mathematical Problems in Engineering

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With the study of extensive literature on the Laplace transform with one and two variables and its properties, applications are available, but there is no work on n-dimensional Laplace transform. In this research article, we define n-dimensional fractional frequency Laplace transform with shift values. Several theorems are derived with properties of the Laplace transform. The results are numerically analyzed and discussed through MATLAB.

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Alpha fractional frequency Laplace transform through multiseries

et al. 2020

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Fractional frequency Laplace transform by inverse difference operator with shift value

Pinelas¹,

Meganathan²,

Gnanaprakasam³

2019

Open j. Math. Sci

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M. Meganathan

Discrete Fractional Sumudu Transform by Inverse Fractional Difference Operator

Analytic and numerical solutions of discrete Bagley–Torvik equation

n-Dimensional Fractional Frequency Laplace Transform by the Inverse Difference Operator

Alpha fractional frequency Laplace transform through multiseries

Fractional frequency Laplace transform by inverse difference operator with shift value

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