Header menu link for other important links
X
PIECEWISE OPTIMAL FRACTIONAL REPRODUCING KERNEL SOLUTION and CONVERGENCE ANALYSIS for the ATANGANA-BALEANU-CAPUTO MODEL of the LIENARD'S EQUATION
, O. Abu Arqub, B. Maayah
Published in World Scientific
2020
Abstract
In this paper, an attractive reliable analytical technique is implemented for constructing numerical solutions for the fractional Lienard's model enclosed with suitable nonhomogeneous initial conditions, which are often designed to demonstrate the behavior of weakly nonlinear waves arising in the oscillating circuits. The fractional derivative is considered in the Atangana-Baleanu-Caputo sense. The proposed technique, namely, reproducing kernel Hilbert space method, optimizes numerical solutions bending on the Fourier approximation theorem to generate a required fractional solution with a rapidly convergent form. The influence, capacity, and feasibility of the presented approach are verified by testing some applications. The acquired results are numerically compared with the exact solutions in the case of nonfractional derivative, which show the superiority, compatibility, and applicability of the presented method to solve a wide range of nonlinear fractional models. © 2020
About the journal
JournalFractals
PublisherWorld Scientific
ISSN0218348X