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Sim-to-Real Model-Based and Model-Free Deep Reinforcement Learning for Tactile Pushing

Max Yang, Yijiong Lin, Alex Church, John W. Lloyd, Dandan Zhang, David A. W. Barton, Nathan F. Lepora

2023IEEE Robotics and Automation Letters18 citationsDOIOpen Access PDF

Abstract

Object pushing presents a key non-prehensile manipulation problem that is illustrative of more complex robotic manipulation tasks. While deep reinforcement learning (RL) methods have demonstrated impressive learning capabilities using visual input, a lack of tactile sensing limits their capability for fine and reliable control during manipulation. Here we propose a deep RL approach to object pushing using tactile sensing without visual input, namely tactile pushing. We present a goal-conditioned formulation that allows both model-free and model-based RL to obtain accurate policies for pushing an object to a goal. To achieve real-world performance, we adopt a sim-to-real approach. Our results demonstrate that it is possible to train on a single object and a limited sample of goals to produce precise and reliable policies that can generalize to a variety of unseen objects and pushing scenarios without domain randomization. We experiment with the trained agents in harsh pushing conditions, and show that with significantly more training samples, a model-free policy can outperform a model-based planner, generating shorter and more reliable pushing trajectories despite large disturbances. The simplicity of our training environment and effective real-world performance highlights the value of rich tactile information for fine manipulation.

Topics & Concepts

Reinforcement learningComputer scienceArtificial intelligenceObject (grammar)Key (lock)PlannerSimplicityMachine learningHuman–computer interactionComputer visionComputer securityPhilosophyEpistemologyRobot Manipulation and LearningTactile and Sensory InteractionsAdvanced Sensor and Energy Harvesting Materials
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