Reinforcement learning for a biped robot based on a CPG-actor-critic method.

Reinforcement learning for a biped robot based on a CPG-actor-critic method. Research Abstract Details 

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Reinforcement learning for a biped robot based on a CPG-actor-critic method. Abstract Text:

Yutaka Nakamura,Takeshi Mori,Masa-aki Sato,Shin Ishii,Yutaka Nakamura,Takeshi Mori,Masa-aki Sato,Shin Ishii,

Animals' rhythmic movements, such as locomotion, are considered to be controlled by neural circuits called central pattern generators (CPGs), which generate oscillatory signals. Motivated by this biological mechanism, studies have been conducted on the rhythmic movements controlled by CPG. As an autonomous learning framework for a CPG controller, we propose in this article a reinforcement learning method we call the "CPG-actor-critic" method. This method introduces a new architecture to the actor, and its training is roughly based on a stochastic policy gradient algorithm presented recently. We apply this method to an automatic acquisition problem of control for a biped robot. Computer simulations show that training of the CPG can be successfully performed by our method, thus allowing the biped robot to not only walk stably but also adapt to environmental changes.

Reinforcement learning for a biped robot based on a CPG-actor-critic method. Publishing Authors By Initials

Y Nakamura,T Mori,MA Sato,S Ishii,Y Nakamura,T Mori,MA Sato,S Ishii,

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Reinforcement learning for a biped robot based on a CPG-actor-critic method. Journal Published:

PUBLICATION TYPE: Research Support, Non-U.S. Gov

Journal: Neural networks : the official journal of the Inte

VOLUME: 20

Page Numbers: 723-35

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ISSN: 0893-6080

DAY: 20

MONTH: 02

YEAR: 2007

Reinforcement learning for a biped robot based on a CPG-actor-critic method. Information

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LANGUAGE: eng

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Grant and Affiliation Information for Reinforcement learning for a biped robot based on a CPG-actor-critic method.

AFFILIATION: Nara Institute of Science and Technology, 8916-5 Takayama-cho, Ikoma, Nara 630-0192, Japan. nakamura@ams.eng.osaka-u.ac.jp

Country: United States

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MEDLINETA: Neural Netw

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