Designing the sinc neural networks to solve the fractional optimal control problem

Designing the sinc neural networks to solve the fractional optimal control problem

Sinc numerical methods are essential approaches for solving nonlinear problems. In this work, based on this method, the sinc neural networks (SNNs) are designed and applied to solve the fractional optimal control problem (FOCP) in the sense of the Riemann–Liouville (RL) derivative. To solve the FOCP...

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Bibliographic Details
Main Authors: R. Heydari Dastjerdi, G. Ahmadi
Format: Article
Language:English
Published: Ferdowsi University of Mashhad 2024-12-01
Series:Iranian Journal of Numerical Analysis and Optimization
Subjects:
sinc numerical method
neural network
sinc neural network
pontryagin’s minimum principle
fractional optimal control problem
Online Access:https://ijnao.um.ac.ir/article_45196_621d8d6516c4ea0aff9c8a92689768ed.pdf
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Summary:Sinc numerical methods are essential approaches for solving nonlinear problems. In this work, based on this method, the sinc neural networks (SNNs) are designed and applied to solve the fractional optimal control problem (FOCP) in the sense of the Riemann–Liouville (RL) derivative. To solve the FOCP, we first approximate the RL derivative using Grunwald–Letnikov operators. Then, according to Pontryagin’s minimum principle for FOCP and using an error function, we construct an unconstrained minimization problem. We approximate the solution of the ordinary differential equation obtained from the Hamiltonian condition using the SNN. Simulation results show the efficiencies of the proposed approach.
ISSN:2423-6977
2423-6969

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