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Main Authors: Ferrari, Davide, Pupa, Andrea, Secchi, Cristian
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.07158
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author Ferrari, Davide
Pupa, Andrea
Secchi, Cristian
author_facet Ferrari, Davide
Pupa, Andrea
Secchi, Cristian
contents In the context of Human-Robot Collaboration (HRC), it is crucial that the two actors are able to communicate with each other in a natural and efficient manner. The absence of a communication interface is often a cause of undesired slowdowns. On one hand, this is because unforeseen events may occur, leading to errors. On the other hand, due to the close contact between humans and robots, the speed must be reduced significantly to comply with safety standard ISO/TS 15066. In this paper, we propose a novel architecture that enables operators and robots to communicate efficiently, emulating human-to-human dialogue, while addressing safety concerns. This approach aims to establish a communication framework that not only facilitates collaboration but also reduces undesired speed reduction. Through the use of a predictive simulator, we can anticipate safety-related limitations, ensuring smoother workflows, minimizing risks, and optimizing efficiency. The overall architecture has been validated with a UR10e and compared with a state of the art technique. The results show a significant improvement in user experience, with a corresponding 23% reduction in execution times and a 50% decrease in robot downtime.
format Preprint
id arxiv_https___arxiv_org_abs_2409_07158
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Collaborative Conversation in Safe Multimodal Human-Robot Collaboration
Ferrari, Davide
Pupa, Andrea
Secchi, Cristian
Robotics
In the context of Human-Robot Collaboration (HRC), it is crucial that the two actors are able to communicate with each other in a natural and efficient manner. The absence of a communication interface is often a cause of undesired slowdowns. On one hand, this is because unforeseen events may occur, leading to errors. On the other hand, due to the close contact between humans and robots, the speed must be reduced significantly to comply with safety standard ISO/TS 15066. In this paper, we propose a novel architecture that enables operators and robots to communicate efficiently, emulating human-to-human dialogue, while addressing safety concerns. This approach aims to establish a communication framework that not only facilitates collaboration but also reduces undesired speed reduction. Through the use of a predictive simulator, we can anticipate safety-related limitations, ensuring smoother workflows, minimizing risks, and optimizing efficiency. The overall architecture has been validated with a UR10e and compared with a state of the art technique. The results show a significant improvement in user experience, with a corresponding 23% reduction in execution times and a 50% decrease in robot downtime.
title Collaborative Conversation in Safe Multimodal Human-Robot Collaboration
topic Robotics
url https://arxiv.org/abs/2409.07158