Skill-based instruction of collaborative robots in industrial settings

•A skill-based software system that facilitates easy and fast instruction of collaborative robots by inexperienced operators.•A system that can facilitate easy integration of existing off-the-shelf components in terms of hardware and software.•Multiple successful demonstrations where the adapt- abil...

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Vydáno v:Robotics and computer-integrated manufacturing Ročník 53; s. 72 - 80
Hlavní autoři: Schou, Casper, Andersen, Rasmus Skovgaard, Chrysostomou, Dimitrios, Bøgh, Simon, Madsen, Ole
Médium: Journal Article
Jazyk:angličtina
Vydáno: Oxford Elsevier Ltd 01.10.2018
Elsevier BV
Témata:
Agile manufacturing
Collaboration
Collaborative robots
Control methods
Industrial assembly
Industrial robots
Intuitive robot instruction
Manufacturing
Parameterization
Programming
Robot skills
Robots
Skills
Software development tools
Studies
Task-level programming
Workflow
Intuitive robot instruction
Industrial assembly
Task-level programming
Robot skills
Collaborative robots
ISSN:0736-5845, 1879-2537
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Shrnutí:•A skill-based software system that facilitates easy and fast instruction of collaborative robots by inexperienced operators.•A system that can facilitate easy integration of existing off-the-shelf components in terms of hardware and software.•Multiple successful demonstrations where the adapt- ability, scalability, and reconfigure-ability of the approach are investigated by deploying it in various real industrial settings. During the past decades, the increasing need for more flexible and agile manufacturing equipment has spawned a growing interest in collaborative robots. Contrary to traditional industrial robots, collaborative robots are intended for operating alongside the production personnel in dynamic or semi-structured human environments. To cope with the environment and workflow of humans, new programming and control methods are needed compared to those of traditional industrial robots. This paper presents a task-level programming software tool allowing robotic novices to program industrial tasks on a collaborative robot. The tool called Skill Based System (SBS) is founded on the concept of robot skills, which are parameterizable and task-related actions of the robot. Task programming is conducted by first sequencing skills followed by an online parameterization performed using kinesthetic teaching. Through several user studies, SBS is found to enable robotic novices to program industrial tasks. SBS has further been deployed and tested in two manufacturing settings demonstrating its applicability in real industrial scenarios.
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ISSN:0736-5845
1879-2537
DOI:10.1016/j.rcim.2018.03.008