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Deep Imitation Learning for Humanoid Loco-manipulation Through Human Teleoperation

Mingyo Seo, Steve Han, Kyutae Sim, Seung Hyeon Bang, Carlos González, Luis Sentis, Yuke Zhu

202348 citationsDOI

Abstract

We tackle the problem of developing humanoid loco-manipulation skills with deep imitation learning. The difficulty of collecting task demonstrations and training policies for humanoids with a high degree of freedom presents substantial challenges. We introduce TRILL, a data-efficient framework for training humanoid loco-manipulation policies from human demonstrations. In this framework, we collect human demonstration data through an intuitive Virtual Reality (VR) interface. We employ the whole-body control formulation to transform task-space commands by human operators into the robot's joint-torque actuation while stabilizing its dynamics. By employing high-level action abstractions tailored for humanoid loco-manipulation, our method can efficiently learn complex sensorimotor skills. We demonstrate the effectiveness of TRILL in simulation and on a real-world robot for performing various loco-manipulation tasks. Videos and additional materials can be found on the project page: https://ut-austin-rpl.github.io/TRILL.

Topics & Concepts

Humanoid robotTeleoperationComputer scienceImitationTask (project management)Human–computer interactionArtificial intelligenceRobotAction (physics)Virtual realityEngineeringQuantum mechanicsSystems engineeringSocial psychologyPhysicsPsychologyHuman Pose and Action RecognitionRobotic Locomotion and ControlHuman Motion and Animation