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Main Authors: Yusubov, Shakir Sh., Yusubov, Shikhi Sh., Mahmudov, Elimhan N.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.12926
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author Yusubov, Shakir Sh.
Yusubov, Shikhi Sh.
Mahmudov, Elimhan N.
author_facet Yusubov, Shakir Sh.
Yusubov, Shikhi Sh.
Mahmudov, Elimhan N.
contents Summary]{In this paper, we study problems of minimization of a functional depending on the fractional Caputo derivative of order $0<α\leq 1$ and the fractional Riemann- Liouville integral of order $β> 0$ at fixed endpoints. A fractional analogue of the Du Bois-Reymond lemma is proved, and the Euler-Lagrange conditions are proved for the simplest problem of fractional variational calculus with fixed ends and for the fractional isoperimetric problem. An approach is proposed to obtain the necessary first-order conditions for the strong and weak extrema, and the necessary optimality conditions are obtained. From these necessary conditions, as a consequence, we obtain the Weierstrass condition and its local modification. It should be noted that some papers in the literature claim that the standard proof of the Legendre condition in the classical case $α=1$ cannot be adapted to the fractional case $0< α<1$ with final constraints. Despite this, we prove the Legendre conditions by the standard classical method via the Weierstrass condition. In addition, the necessary Weierstrass-Erdmann conditions at the corner points are obtained. Examples are provided to illustrate the significance of the main results obtained.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Isoperimetric Problem and Weierstrass Necessary Condition for Fractional Calculus of Variations
Yusubov, Shakir Sh.
Yusubov, Shikhi Sh.
Mahmudov, Elimhan N.
Optimization and Control
Summary]{In this paper, we study problems of minimization of a functional depending on the fractional Caputo derivative of order $0<α\leq 1$ and the fractional Riemann- Liouville integral of order $β> 0$ at fixed endpoints. A fractional analogue of the Du Bois-Reymond lemma is proved, and the Euler-Lagrange conditions are proved for the simplest problem of fractional variational calculus with fixed ends and for the fractional isoperimetric problem. An approach is proposed to obtain the necessary first-order conditions for the strong and weak extrema, and the necessary optimality conditions are obtained. From these necessary conditions, as a consequence, we obtain the Weierstrass condition and its local modification. It should be noted that some papers in the literature claim that the standard proof of the Legendre condition in the classical case $α=1$ cannot be adapted to the fractional case $0< α<1$ with final constraints. Despite this, we prove the Legendre conditions by the standard classical method via the Weierstrass condition. In addition, the necessary Weierstrass-Erdmann conditions at the corner points are obtained. Examples are provided to illustrate the significance of the main results obtained.
title Isoperimetric Problem and Weierstrass Necessary Condition for Fractional Calculus of Variations
topic Optimization and Control
url https://arxiv.org/abs/2506.12926