First and second order necessary optimality conditions for multiobjective programming with interval-valued objective functions on Riemannian manifolds

The growing dependence on optimization models in decision-making has created a demand for tools that can facilitate the formulation and resolution of a broader range of real-world processes and systems associated with human activity. These situations often involve assumptions that diverge from tradi...

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Vydáno v:R.A.I.R.O. Recherche opérationnelle Ročník 58; číslo 5; s. 4259 - 4276
Hlavní autoři: Bhat, Hilal Ahmad, Iqbal, Akhlad, Aftab, Mahwash
Médium: Journal Article
Jazyk:angličtina
Vydáno: 01.09.2024
ISSN:0399-0559, 2804-7303
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Shrnutí:The growing dependence on optimization models in decision-making has created a demand for tools that can facilitate the formulation and resolution of a broader range of real-world processes and systems associated with human activity. These situations often involve assumptions that diverge from traditional optimization methodologies. One viable approach for addressing optimization problems in real-life scenarios with uncertainty is interval-valued optimization. Taking into account the significance of interval-valued optimization, in this paper, we derive first and second order necessary optimality conditions for a multi-objective programming problem with interval-valued objective functions defined on a Riemannian manifold. To establish these conditions, we consider the objective functions to be weakly differentiable and twice weakly differentiable for first and second order, respectively. Additionally, we assume that the constraints, both equality and inequality constraints, are differentiable and twice differentiable for first and second order conditions respectively. The first order as well as second order necessary conditions are derived under two types of constraint qualifications. Furthermore, we provide illustrative examples to demonstrate the application of the established results.
ISSN:0399-0559
2804-7303
DOI:10.1051/ro/2024157