![]() Kumar P, Erturk V S, Murillo-Arcila M, Harley C (2022) Generalized forms of fractional Euler and Runge-Kutta methods using non-uniform grid. Kumar P, Erturk V S, Kumar A (2021) A new technique to solve generalized Caputo type fractional differential equations with the example of computer virus model. Odibat Z, Erturk VS, Kumar P, Govindaraj V (2021) Dynamics of generalized Caputo type delay fractional differential equations using a modified Predictor-Corrector scheme. Odibat Z, Erturk V S, Kumar P, Ben Makhlouf A, Govindaraj V (2022) An implementation of the generalized differential transform scheme for simulating impulsive fractional differential equations. Kumar P, Erturk VS, Vellappandi M, Trinh H, Govindaraj V (2022) A study on the maize streak virus epidemic model by using optimized linearization-based predictor-corrector method in Caputo sense. Optik 261:169086Įrturk V S, Alomari A K, Kumar P, Murillo-Arcila M (2022) Analytic solution for the strongly nonlinear multi-order fractional version of a BVP occurring in chemical reactor theory. Pramana 96(3):1–19Įrturk VS, Ahmadkhanlu A, Kumar P, Govindaraj V (2022) Some novel mathematical analysis on a corneal shape model by using Caputo fractional derivative. Kumar P, Govindaraj V, Erturk VS, Abdellattif MH (2022) A study on the dynamics of alkali-silica chemical reaction by using Caputo fractional derivative. ![]() Losada J, Nieto JJ (2015) Properties of a new fractional derivative without singular kernel. ![]() Podlubny I (1998) Fractional differential equations: an introduction to fractional derivatives, fractional differential equations, to methods of their solution and some of their applications. Kilbas A, Srivastava HM, Trujillo JJ (2006) Theory and applications of fractional differential equations. Lagaris IE, Likas A, Fotiadis DI (1998) Artificial neural networks for solving ordinary and partial differential equations. McCulloch WS, Pitts W (1943) A logical calculus of the ideas immanent in nervous activity.
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