Development of a Whole-body Work Imitation Learning System by a Biped and Bi-armed Humanoid

TL;DR

This paper presents a comprehensive imitation learning system for humanoid robots with floating links, integrating advanced control devices and posture optimization for complex tasks like fabric manipulation and heavy object lifting.

Contribution

The study develops a novel imitation learning system combining a whole-body control device and posture optimization for humanoid robots with floating links.

Findings

Successful manipulation of flexible fabrics with multiple body parts.

Effective object manipulation using legs in humanoid robots.

Heavy object lifting demonstrated with the system.

Abstract

Imitation learning has been actively studied in recent years. In particular, skill acquisition by a robot with a fixed body, whose root link position and posture and camera angle of view do not change, has been realized in many cases. On the other hand, imitation of the behavior of robots with floating links, such as humanoid robots, is still a difficult task. In this study, we develop an imitation learning system using a biped robot with a floating link. There are two main problems in developing such a system. The first is a teleoperation device for humanoids, and the second is a control system that can withstand heavy workloads and long-term data collection. For the first point, we use the whole body control device TABLIS. It can control not only the arms but also the legs and can perform bilateral control with the robot. By connecting this TABLIS with the high-power humanoid robot JAXON, we construct a control system for imitation learning. For the second point, we will build a system that can collect long-term data based on posture optimization, and can simultaneously move the robot's limbs. We combine high-cycle posture generation with posture optimization methods, including whole-body joint torque minimization and contact force optimization. We designed an integrated system with the above two features to achieve various tasks through imitation learning. Finally, we demonstrate the effectiveness of this system by experiments of manipulating flexible fabrics such that not only the hands but also the head and waist move simultaneously, manipulating objects using legs characteristic of humanoids, and lifting heavy objects that require large forces.