The Euler-Lagrange and Legendre Necessary Conditions for Fractional Calculus of Variations

Shikhi Sh Yusubov; Shakir Sh Yusubov; Elimhan N. Mahmudov

doi:10.1007/s10957-026-03003-4

The Euler-Lagrange and Legendre Necessary Conditions for Fractional Calculus of Variations

Shikhi Sh Yusubov
, Shakir Sh Yusubov
, Elimhan N. Mahmudov^*

^*Corresponding author for this work

Shanghai University
Baku State University
Azerbaijan National Academy of Aviation
Azerbaijan University of Architecture and Construction

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper, we study the problems of minimizing a functional depending on the Caputo fractional derivative of order 0<α≤1 and the Riemann- Liouville fractional integral of order β>0 under certain constraints. A fractional analogue of the Du Bois-Reymond lemma is proved. Using this lemma for various weak local minimum problems, the Euler-Lagrange equation is derived in integral form. Some serious works 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. In spite of this, we prove the Legendre conditions using the standard classical method. The obtained necessary conditions are illustrated by appropriate examples.

Original language	English
Article number	51
Journal	Journal of Optimization Theory and Applications
Volume	209
Issue number	2
DOIs	https://doi.org/10.1007/s10957-026-03003-4
Publication status	Published - May 2026
Externally published	Yes

Bibliographical note

Publisher Copyright:
© The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2026.

Keywords

Caputo derivative
Euler-Lagrange equation
Fractional calculus of variations
Legendre condition

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10.1007/s10957-026-03003-4

Cite this

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abstract = "In this paper, we study the problems of minimizing a functional depending on the Caputo fractional derivative of order 0<α≤1 and the Riemann- Liouville fractional integral of order β>0 under certain constraints. A fractional analogue of the Du Bois-Reymond lemma is proved. Using this lemma for various weak local minimum problems, the Euler-Lagrange equation is derived in integral form. Some serious works 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. In spite of this, we prove the Legendre conditions using the standard classical method. The obtained necessary conditions are illustrated by appropriate examples.",

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AU - Yusubov, Shikhi Sh

AU - Yusubov, Shakir Sh

AU - Mahmudov, Elimhan N.

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2026.

PY - 2026/5

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N2 - In this paper, we study the problems of minimizing a functional depending on the Caputo fractional derivative of order 0<α≤1 and the Riemann- Liouville fractional integral of order β>0 under certain constraints. A fractional analogue of the Du Bois-Reymond lemma is proved. Using this lemma for various weak local minimum problems, the Euler-Lagrange equation is derived in integral form. Some serious works 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. In spite of this, we prove the Legendre conditions using the standard classical method. The obtained necessary conditions are illustrated by appropriate examples.

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KW - Euler-Lagrange equation

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KW - Legendre condition

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The Euler-Lagrange and Legendre Necessary Conditions for Fractional Calculus of Variations

Abstract

Bibliographical note

Keywords

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