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Main Authors: Charbonneau, Marie, Chavez, Francisco Javier Andrade, Mombaur, Katja
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2408.05301
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author Charbonneau, Marie
Chavez, Francisco Javier Andrade
Mombaur, Katja
author_facet Charbonneau, Marie
Chavez, Francisco Javier Andrade
Mombaur, Katja
contents Humans often work closely together and relay a wealth of information through physical interaction. Robots, on the other hand, are not yet able to work similarly closely with humans and to effectively convey information when engaging in physical-social human-robot interaction (psHRI). This currently limits the potential of human-robot collaboration to solve real-world problems. This paper investigates how to establish clear and intuitive robot-to-human communication, while considering human comfort during psHRI. We approach this question from the perspective of a leader-follower dancing scenario, in which a full-body humanoid robot leads a human by signaling the next steps through a choice of communication modalities including haptic, visual, and audio signals. This is achieved through the development of a split whole-body control framework combining admittance and impedance control on the upper body, with position control on the lower body for balancing and stepping. Robot-led psHRI participant experiments allowed us to verify controller performance, as well as to build an understanding of what types of communication work better from the perspective of human partners, particularly in terms of perceived effectiveness and comfort.
format Preprint
id arxiv_https___arxiv_org_abs_2408_05301
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Dancing with REEM-C: A robot-to-human physical-social communication study
Charbonneau, Marie
Chavez, Francisco Javier Andrade
Mombaur, Katja
Robotics
Humans often work closely together and relay a wealth of information through physical interaction. Robots, on the other hand, are not yet able to work similarly closely with humans and to effectively convey information when engaging in physical-social human-robot interaction (psHRI). This currently limits the potential of human-robot collaboration to solve real-world problems. This paper investigates how to establish clear and intuitive robot-to-human communication, while considering human comfort during psHRI. We approach this question from the perspective of a leader-follower dancing scenario, in which a full-body humanoid robot leads a human by signaling the next steps through a choice of communication modalities including haptic, visual, and audio signals. This is achieved through the development of a split whole-body control framework combining admittance and impedance control on the upper body, with position control on the lower body for balancing and stepping. Robot-led psHRI participant experiments allowed us to verify controller performance, as well as to build an understanding of what types of communication work better from the perspective of human partners, particularly in terms of perceived effectiveness and comfort.
title Dancing with REEM-C: A robot-to-human physical-social communication study
topic Robotics
url https://arxiv.org/abs/2408.05301