Home /Research /Personalized kinematics for human-robot collaborative manipulation
HRI

Personalized kinematics for human-robot collaborative manipulation

Aaron Bestick, Samuel A. Burden, Giorgia Willits, Nikhil Naikal, S. Shankar Sastry, Růžena Bajcsy

Year
2015
Citations
34

Abstract

We present a framework for parameter and state estimation of personalized human kinematic models from motion capture data. These models can be used to optimize a variety of human-robot collaboration scenarios for the comfort or ergonomics of an individual human collaborator. Our approach offers two main advantages over prior approaches from the literature and commercial software: the kinematic models are estimated for a specific individual without a priori assumptions on limb dimensions or range of motion, and our kinematic formalism explicitly encodes the natural kinematic constraints of the human body. The personalized models are tested in a human-robot collaborative manipulation experiment. We find that human subjects with a restricted range of motion rotate their torso significantly less during bimanual object handoffs if the robot uses a personalized kinematic model to plan the handoff configuration, as compared to previous approaches using generic human kinematic models.

Keywords

KinematicsComputer scienceTorsoRobotRobot kinematicsInverse kinematicsMotion captureHuman–robot interactionHuman–computer interactionArtificial intelligence

Related papers

Browse all HRI papers