Learning and Generalizing Variable Impedance Manipulation Skills from Human Demonstrations

TL;DR

This paper introduces a DMP-based framework for robots to learn and generalize variable impedance manipulation skills from human demonstrations, enhancing adaptability and safety in human-robot interactions.

Contribution

It presents a novel method that learns and generalizes variable impedance control, including rotational stiffness, from demonstrations, improving robot adaptability to object changes.

Findings

Effective in adapting to object weight and shape changes

Generates comprehensive translational and rotational stiffness profiles

Validated on a 7 DoF robot manipulator

Abstract

By learning Variable Impedance Control policy, robot assistants can intelligently adapt their manipulation compliance to ensure both safe interaction and proper task completion when operating in human-robot interaction environments. In this paper, we propose a DMP-based framework that learns and generalizes variable impedance manipulation skills from human demonstrations. This framework improves robots$'$ adaptability to environment changes(i.e. the weight and shape changes of grasping object at the robot end-effector) and inherits the efficiency of demonstration-variance-based stiffness estimation methods. Besides, with our stiffness estimation method, we generate not only translational stiffness profiles but also rotational stiffness profiles that are ignored or incomplete in most learning Variable Impedance Control papers. Real-world experiments on a 7 DoF redundant robot manipulator have been conducted to validate the effectiveness of our framework.