Open AccessSelf-adaptive surrogate-assisted covariance matrix adaptation evolution strategy
Author(s) -
Ilya Loshchilov,
Marc Schoenauer,
Michèle Sébag
Publication year - 2012
Publication title -
hal (le centre pour la communication scientifique directe)
Language(s) - English
Resource type - Conference proceedings
DOI - 10.1145/2330163.2330210
Subject(s) - cma es , surrogate model , computer science , surrogate data , surrogate endpoint , covariance matrix , adaptation (eye) , artificial intelligence , selection (genetic algorithm) , evolution strategy , mathematical optimization , machine learning , algorithm , mathematics , evolutionary computation , psychology , medicine , neuroscience , physics , nonlinear system , quantum mechanics , radiology
This paper presents a novel mechanism to adapt surrogate-assisted population-based algorithms. This mechanism is applied to ACM-ES, a recently proposed surrogate-assisted variant of CMA-ES. The resulting algorithm, s*ACM-ES, adjusts online the lifelength of the current surrogate model (the number of CMA-ES generations before learning a new surrogate) and the surrogate hyper-parameters. Both heuristics significantly improve the quality of the surrogate model, yielding a significant speed-up of s*ACM-ES compared to the ACM-ES and CMA-ES baselines. The empirical validation of s*ACM-ES on the BBOB-2012 noiseless testbed demonstrates the efficiency and the scalability w.r.t the problem dimension and the population size of the proposed approach, that reaches new best results on some of the benchmark problems.
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