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Imitation Learning for Nonprehensile Manipulation Through Self-Supervised Learning Considering Motion Speed

Yuki Saigusa, Sho Sakaino, Toshiaki Tsuji

2022IEEE Access21 citationsDOIOpen Access PDF

Abstract

Robots are expected to replace menial tasks such as housework. Some of these tasks include nonprehensile manipulation performed without grasping objects. Nonprehensile manipulation is very difficult because it requires considering the dynamics of environments and objects. Imitating complex behaviors requires a large number of human demonstrations. In this study, a self-supervised learning that considers motion speed to achieve variable speed for nonprehensile manipulation is proposed. The proposed method collects and fine-tunes only successful actions among the data obtained during autonomous operations. By fine-tuning the successful data using speed labels, the robot learns the dynamics among itself, its environment, and objects. We experimented with the task of scooping and transporting pancakes using the neural network model trained on 24 human-collected training data. The proposed method significantly improved the success rate from 40.2% to 85.7%, and succeeded more than 75% for other objects.

Topics & Concepts

Computer scienceMotion (physics)Artificial intelligenceTask (project management)ImitationRobotDynamics (music)Computer visionArtificial neural networkHuman–computer interactionMachine learningEngineeringAcousticsSystems engineeringSocial psychologyPsychologyPhysicsRobot Manipulation and LearningSoft Robotics and ApplicationsRobotic Path Planning Algorithms
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