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Autori principali: Tolguenec, Paul-Antoine Le, Besse, Yann, Teichteil-Konigsbuch, Florent, Wilson, Dennis G., Rachelson, Emmanuel
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2406.10127
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author Tolguenec, Paul-Antoine Le
Besse, Yann
Teichteil-Konigsbuch, Florent
Wilson, Dennis G.
Rachelson, Emmanuel
author_facet Tolguenec, Paul-Antoine Le
Besse, Yann
Teichteil-Konigsbuch, Florent
Wilson, Dennis G.
Rachelson, Emmanuel
contents The ability to perform different skills can encourage agents to explore. In this work, we aim to construct a set of diverse skills which uniformly cover the state space. We propose a formalization of this search for diverse skills, building on a previous definition based on the mutual information between states and skills. We consider the distribution of states reached by a policy conditioned on each skill and leverage the successor state measure to maximize the difference between these skill distributions. We call this approach LEADS: Learning Diverse Skills through Successor States. We demonstrate our approach on a set of maze navigation and robotic control tasks which show that our method is capable of constructing a diverse set of skills which exhaustively cover the state space without relying on reward or exploration bonuses. Our findings demonstrate that this new formalization promotes more robust and efficient exploration by combining mutual information maximization and exploration bonuses.
format Preprint
id arxiv_https___arxiv_org_abs_2406_10127
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Exploration by Learning Diverse Skills through Successor State Measures
Tolguenec, Paul-Antoine Le
Besse, Yann
Teichteil-Konigsbuch, Florent
Wilson, Dennis G.
Rachelson, Emmanuel
Artificial Intelligence
Robotics
The ability to perform different skills can encourage agents to explore. In this work, we aim to construct a set of diverse skills which uniformly cover the state space. We propose a formalization of this search for diverse skills, building on a previous definition based on the mutual information between states and skills. We consider the distribution of states reached by a policy conditioned on each skill and leverage the successor state measure to maximize the difference between these skill distributions. We call this approach LEADS: Learning Diverse Skills through Successor States. We demonstrate our approach on a set of maze navigation and robotic control tasks which show that our method is capable of constructing a diverse set of skills which exhaustively cover the state space without relying on reward or exploration bonuses. Our findings demonstrate that this new formalization promotes more robust and efficient exploration by combining mutual information maximization and exploration bonuses.
title Exploration by Learning Diverse Skills through Successor State Measures
topic Artificial Intelligence
Robotics
url https://arxiv.org/abs/2406.10127