MACHINE PERCEPTION AND ROBOTICS GROUP

機械知覚&ロボティクスグループ
中部大学

Deep reinforcement learning (DRL) can learn an agent’s optimal behavior from the experience it gains through interacting with its environment. However, since the decision-making process of DRL agents is a black-box, it is difficult for users to understand the reasons for the agents’ actions. To date, conventional visual explanation methods for DRL agents have focused only on the policy and not on the state value. In this work, we propose a DRL method called Mask-Attention A3C (Mask A3C) to analyze agents’ decision-making by focusing on both the policy and value branches, which have different outputs. Inspired by the Actor-Critic method, our method introduces an Attention mechanism that applies mask processing to the feature map of the policy and value branches using mask-attention, which is a heat-map representation of the basis for judging the policy and state values. We also propose the introduction of a Mask-attention Loss to obtain highly interpretable mask-attention. By introducing this loss function, the agent learns not to gaze at regions that do not affect its decision-making. Our evaluations with Atari 2600 as a video game strategy task and robot manipulation as a robot control task showed that visualizing the mask-attention of an agent during its action selection facilitates the analysis of the agent’s decision-making. We also investigated the effect of Mask-attention Loss and confirmed that it is useful for analyzing agents’ decision-making. In addition, we showed that these mask-attentions are highly interpretable to the user by conducting a user survey on the prediction of the agent’s behavior.