%T Mathematical and statistical analysis of RL and RC fractional-order circuits
%I World Scientific
%A N.A. Sheikh
%A D.L.C. Ching
%A S. Ullah
%A I. Khan
%V 28
%O cited By 12
%J Fractals
%L scholars12449
%D 2020
%R 10.1142/S0218348X20400307
%N 8
%K Differential equations; Laplace transforms; Timing circuits, Fractional derivatives; Fractional differential equations; Fractional parameters; Fractional-order circuit; Inverse transformations; Laplace transform techniques; Mittag-Leffler functions; Research papers, Statistical methods
%X The RL and RC circuits are analyzed in this research paper. The classical model of these circuits is generalized using the modern concept of fractional derivative with Mittag-Leffler function in its kernel. The fractional differential equations are solved for exact solutions using the Laplace transform technique and the inverse transformation. The obtained solutions are plotted and presented in tables to show the effect of resistance, inductance and fractional parameter on current and voltage. Furthermore, the statistical analysis is presented to predict the seasonal of time and other parameters on the current flowing in the circuit. The statistical analysis shows that the variation in current is insignificant with respect to time and is more significant with respect to other parameters. © 2020 The Author(s).