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Chapitre D'ouvrage Année : 2013

Theoretically grounded acceleration techniques for simulated annealing

Résumé

Simulated annealing (SA) is a generic optimization method whose popularity stems from its simplicity and its global convergence properties; it emulates the physical process of annealing whereby a solid is heated and then cooled down to eventually reach a minimum energy configuration. Although successfully applied to many difficult problems, SA is widely reported to converge very slowly, and it is common practice to relax some of its convergence conditions as well as to allow extra freedom in its design. However, variations on the theme of annealing usually come without optimal convergence guarantees. In this paper, we review the fundamentals of SA and we focus on acceleration techniques that come with a rigorous mathematical justification. We discuss the design of the candidate-solution generation mechanism, the issue of finite-time cooling, and the technique of acceleration by concave distortion of the objective function. We also investigate a recently introduced generalization of SA--stochastic continuation--which significantly increases the design flexibility by allowing the candidate-solution generation mechanism and the objective function to vary with temperature.

Dates et versions

hal-00828255 , version 1 (30-05-2013)

Identifiants

Citer

M. Robini. Theoretically grounded acceleration techniques for simulated annealing. I. Zelinka, V. Snášel, A. Abraham. Handbook of Optimization From Classical to Modern Approach. Intelligent Systems Reference Library, Springer, pp.311-335, 2013, 978-3-642-30504-7. ⟨10.1007/978-3-642-30504-7_13⟩. ⟨hal-00828255⟩
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