M. J. Lazo, G. S. F. Frederico, P. M. Carvalho-Neto
Published 2019-08-29Version 1
In the present work, by taking advantage of a so-called practical limitation of fractional derivatives, namely, the absence of a simple chain and Leibniz's rules, we proposed a generalized fractional calculus of variation where the Lagrangian function depends on fractional derivatives of differentiable functions. The Euler-Lagrange equation we obtained generalizes previously results and enables us to construct simple Lagrangians for nonlinear systems. Furthermore, in our main result, we formulate a Noether-type theorem for these problems that provides us with a means to obtain conservative quantities for nonlinear systems. In order to illustrate the potential of the applications of our results, we obtain Lagrangians for some nonlinear chaotic dynamical systems, and we analyze the conservation laws related to time translations and internal symmetries.
Comments: accepted in Applicable Analysis. arXiv admin note: text overlap with arXiv:1307.8331
Calculus of variations with fractional derivatives and fractional integrals
Noether's theorem for fractional variational problems of variable order
A Closed Form Solution for the Normal Form and Zero Dynamics of a Class of Nonlinear Systems
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