HAL - INRIA :: [inria-00380125, version 1] On the huge benefit of quasi-random mutations for multimodal optimization with application to grid-based tuning of neurocontrollers

inria-00380125, version 1

On the huge benefit of quasi-random mutations for multimodal optimization with application to grid-based tuning of neurocontrollers

Guillaume Chaslot^a^, 1, Jean-Baptiste Hoock ², Fabien Teytaud () ^2, 3, 4, Olivier Teytaud () ^2, 3, 4

ESANN (2009)

Abstract: In this paper, we study the optimization of a neural network used for controlling a Monte-Carlo Tree Search (MCTS/UCT) algorithm. The main results are: (i) the specification of a new multimodal benchmark function; this function has been defined in particular in agreement with [1] which has pointed out that most multimodal functions are not satisfactory for some real-world multimodal scenarios (section 2); (ii) experimentation of Evolution Strategies on this new multimodal benchmark function, showing the great efficiency of quasi-random mutations in this framework (section 3); (iii) the proof-of-concept of the application of ES for grid-based tuning Neural Networks for controlling MCTS/UCT (see section 3).

a – University of Maastricht
1: Maastricht University
univ. Maastricht
2: TAO (INRIA Saclay - Ile de France)
INRIA – CNRS : UMR8623 – Université Paris XI - Paris Sud
3: TAO (INRIA Futurs)
INRIA – CNRS : UMR8623 – Université Paris XI - Paris Sud
4: Laboratoire de Recherche en Informatique (LRI)
CNRS : UMR8623 – Université Paris XI - Paris Sud

inria-00380125, version 1
http://hal.inria.fr/inria-00380125
oai:hal.inria.fr:inria-00380125
From: Fabien Teytaud <>
Submitted on: Thursday, 30 April 2009 09:00:21
Updated on: Thursday, 30 April 2009 10:25:14

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