Peyman Amiri
A Statistical Analysis of Commercial Articulated Industrial Robots and Cobots
Amiri, Peyman; Müller, Marcus; Southgate, Matthew; Theodoridis, Theodoros; Wei, Guowu; Richards-Brown, Mike; Holderbaum, William
Authors
Marcus Müller
Matthew Southgate
Dr Theodoros Theodoridis T.Theodoridis@salford.ac.uk
Associate Professor/Reader
Dr Guowu Wei G.Wei@salford.ac.uk
Associate Professor/Reader
Mike Richards-Brown
Prof William Holderbaum W.Holderbaum@salford.ac.uk
Professor
Contributors
Steven Y. Liang
Editor
Abstract
This paper aims to elucidate the state-of-the-art, prevailing priorities, and the focus of the industry, and identify both limitations and potential gaps regarding industrial robots and collaborative robots (cobots). Additionally, it outlines the advantages and disadvantages of cobots compared to traditional industrial robots. Furthermore, three novel factors are introduced in this survey as metrics to evaluate the efficiency and performance of industrial robots and cobots. To achieve these purposes, a statistical analysis and review of commercial articulated industrial robots and cobots are conducted based on their documented specifications, such as maximum payload, weight, reach, repeatability, average maximum angular speed, and degrees of freedom (DOF). Additionally, the statistical distributions of the efficiency factors are investigated to develop a systematic method for robot selection. Finally, specifications exhibiting strong correlations are compared in pairs using regressions to find out trends and relations between them, within each company and across them all. The investigation of the distribution of specifications demonstrates that the focus of the industry and robot makers is mostly on articulated industrial robots and cobots with higher reach, lower payload capacity, lower weight, better repeatability, lower angular speed, and six degrees of freedom. The regressions reveal that the weight of robots increases exponentially as the reach increases, primarily due to the added weight and torque resulting from the extended reach. They also indicate that the angular speed of robots linearly decreases with increasing reach, as robot manufacturers intentionally reduce the angular speed through reductive gearboxes to compensate for the additional torque required as the reach extends. The trends obtained from the regressions explain the reasons behind these interrelationships, the design purpose of robot makers, and the limitations of industrial robots and cobots. Additionally, they help industries predict the dependent specifications of articulated robots based on the specifications they require. Moreover, an accompanying program has been developed and uploaded on to GitHub, taking the required specifications and returning a list of proper and efficient robots sourced from different companies according to the aforementioned selection method.
Citation
Amiri, P., Müller, M., Southgate, M., Theodoridis, T., Wei, G., Richards-Brown, M., & Holderbaum, W. (2024). A Statistical Analysis of Commercial Articulated Industrial Robots and Cobots. #Journal not on list, 8(5), 216. https://doi.org/10.3390/jmmp8050216
Journal Article Type | Article |
---|---|
Acceptance Date | Sep 20, 2024 |
Online Publication Date | Sep 30, 2024 |
Publication Date | Sep 30, 2024 |
Deposit Date | Oct 7, 2024 |
Publicly Available Date | Oct 7, 2024 |
Journal | Journal of Manufacturing and Materials Processing |
Electronic ISSN | 2504-4494 |
Peer Reviewed | Peer Reviewed |
Volume | 8 |
Issue | 5 |
Article Number | 216 |
Pages | 216 |
DOI | https://doi.org/10.3390/jmmp8050216 |
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Copyright Statement
Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
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