Duality theory for optimistic bilevel optimization
Duality theory for optimistic bilevel optimization
In this paper, we exploit the so-called value function reformulation of the bilevel optimization problem to develop duality results for the problem. Our approach builds on Fenchel-Lagrange-type duality to establish suitable results for the bilevel optimization problem. First, we overview some standard duality results to show that they are not applicable to our problem. Secondly, via the concept of partial calmness, we establish weak and strong duality results. In particular, Lagrange, Fenchel-Lagrange, and Toland-Fenchel- Lagrange duality concepts are investigated for this type of problems under some suitable conditions. Thirdly, based on the use of some regularization of our bilevel program, we establish sufficient conditions ensuring strong duality results under a generalized Slater-type condition without convexity assumptions and without the partial calmness condition. Finally, without the Slater condition, a strong duality result is constructed for the bilevel optimization problem with geometric constraint.
math.OC
En-Naciri, Houria
96211d93-6307-40f6-b484-005fb54be520
Lafhim, Lahoussine
91f799b8-61c7-4ed6-b8f1-ccf6b6e220fc
Zemkoho, Alain
30c79e30-9879-48bd-8d0b-e2fbbc01269e
En-Naciri, Houria
96211d93-6307-40f6-b484-005fb54be520
Lafhim, Lahoussine
91f799b8-61c7-4ed6-b8f1-ccf6b6e220fc
Zemkoho, Alain
30c79e30-9879-48bd-8d0b-e2fbbc01269e
[Unknown type: UNSPECIFIED]
Abstract
In this paper, we exploit the so-called value function reformulation of the bilevel optimization problem to develop duality results for the problem. Our approach builds on Fenchel-Lagrange-type duality to establish suitable results for the bilevel optimization problem. First, we overview some standard duality results to show that they are not applicable to our problem. Secondly, via the concept of partial calmness, we establish weak and strong duality results. In particular, Lagrange, Fenchel-Lagrange, and Toland-Fenchel- Lagrange duality concepts are investigated for this type of problems under some suitable conditions. Thirdly, based on the use of some regularization of our bilevel program, we establish sufficient conditions ensuring strong duality results under a generalized Slater-type condition without convexity assumptions and without the partial calmness condition. Finally, without the Slater condition, a strong duality result is constructed for the bilevel optimization problem with geometric constraint.
Text
2205.10944v1
- Author's Original
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Accepted/In Press date: 22 May 2022
Keywords:
math.OC
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Local EPrints ID: 508582
URI: http://eprints.soton.ac.uk/id/eprint/508582
PURE UUID: bc5a92ab-9f3d-42c0-85a4-bb960410beca
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Date deposited: 27 Jan 2026 18:03
Last modified: 28 Jan 2026 03:37
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Author:
Houria En-Naciri
Author:
Lahoussine Lafhim
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