Frontiers in Neurorobotics (Feb 2024)

Human-robot planar co-manipulation of extended objects: data-driven models and control from human-human dyads

  • Erich Mielke,
  • Eric Townsend,
  • David Wingate,
  • John L. Salmon,
  • Marc D. Killpack

DOI
https://doi.org/10.3389/fnbot.2024.1291694
Journal volume & issue
Vol. 18

Abstract

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Human teams are able to easily perform collaborative manipulation tasks. However, simultaneously manipulating a large extended object for a robot and human is a difficult task due to the inherent ambiguity in the desired motion. Our approach in this paper is to leverage data from human-human dyad experiments to determine motion intent for a physical human-robot co-manipulation task. We do this by showing that the human-human dyad data exhibits distinct torque triggers for a lateral movement. As an alternative intent estimation method, we also develop a deep neural network based on motion data from human-human trials to predict future trajectories based on past object motion. We then show how force and motion data can be used to determine robot control in a human-robot dyad. Finally, we compare human-human dyad performance to the performance of two controllers that we developed for human-robot co-manipulation. We evaluate these controllers in three-degree-of-freedom planar motion where determining if the task involves rotation or translation is ambiguous.

Keywords