Neuro-Symbolic Reinforcement Learning with First-Order Logic

Neuro-Symbolic Reinforcement Learning with First-Order Logic

Deep reinforcement learning (RL) methods often require many trials before convergence, and no direct interpretability of trained policies is provided. In order to achieve fast convergence and interpretability for the policy in RL, we propose a novel RL method for text-based games with a recent neuro...

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Hauptverfasser: Kimura, Daiki, Ono, Masaki, Chaudhury, Subhajit, Kohita, Ryosuke, Wachi, Akifumi, Agravante, Don Joven, Tatsubori, Michiaki, Munawar, Asim, Gray, Alexander
Format: Artikel
Sprache:eng
Schlagworte:
Computer Science - Artificial Intelligence
Computer Science - Computation and Language
Computer Science - Learning
Computer Science - Robotics
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Zusammenfassung:Deep reinforcement learning (RL) methods often require many trials before convergence, and no direct interpretability of trained policies is provided. In order to achieve fast convergence and interpretability for the policy in RL, we propose a novel RL method for text-based games with a recent neuro-symbolic framework called Logical Neural Network, which can learn symbolic and interpretable rules in their differentiable network. The method is first to extract first-order logical facts from text observation and external word meaning network (ConceptNet), then train a policy in the network with directly interpretable logical operators. Our experimental results show RL training with the proposed method converges significantly faster than other state-of-the-art neuro-symbolic methods in a TextWorld benchmark.
DOI:10.48550/arxiv.2110.10963