Comparison of Single-Arm and Dual-Arm Collaborative Robots in Precision Assembly
The aim of the study is a multi-criteria comparative evaluation of robots cooperating with humans in single- and dual-arm variants used for the process of precise assembly of complex parts. RobotStudio simulation software with the Signal Analyzer add-on was used for comparative analyses. These studi...
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MDPI AG
2025-03-01
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| author | Katarzyna Peta Marcin Wiśniewski Mikołaj Kotarski Olaf Ciszak |
| author_facet | Katarzyna Peta Marcin Wiśniewski Mikołaj Kotarski Olaf Ciszak |
| author_sort | Katarzyna Peta |
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| description | The aim of the study is a multi-criteria comparative evaluation of robots cooperating with humans in single- and dual-arm variants used for the process of precise assembly of complex parts. RobotStudio simulation software with the Signal Analyzer add-on was used for comparative analyses. These studies were conducted as case studies. A robotic station was designed for the assembly of a computer motherboard and two robot variants were programmed to perform the assembly task while maintaining the same motion parameters and functions for both. Then, the TCP motion trajectories associated with the robot were analyzed, as well as monitoring signals from the robot controller during simulation, such as time, speed, acceleration and energy consumption. The costs and profitability of the robot variants were also calculated. The percentage share of tasks performed in the process was also analyzed, divided into assembly tasks and free movements. The differences between the robots in this process include time, 21 s single-arm versus 14 s dual-arm robots. The main influence on achieving the programmed speed was the length of the robot’s TCP motion path. In most cases, the maximum programmed speed of 200 mm/s was achieved. The single-arm robot proved to be more energy-efficient, but the dual-arm robot proved to be 20% faster, which in the long run proved to be a more profitable robot. The profitability of the dual-arm robot paid off after eight months of operation. The case study presented in this paper, assembling a computer motherboard using single- and dual-arm collaborative robots, provides a guide for conducting similar comparative analyses of different robotic stations. Simulations enabled reliable verification of collaborative robots in technological processes, supporting the design of production processes and the analysis of several variants of robotic solutions. |
| format | Article |
| id | doaj-art-69e40fca90a4448aba4fad58a87e9816 |
| institution | DOAJ |
| issn | 2076-3417 |
| language | English |
| publishDate | 2025-03-01 |
| publisher | MDPI AG |
| record_format | Article |
| series | Applied Sciences |
| spelling | doaj-art-69e40fca90a4448aba4fad58a87e98162025-08-20T02:42:45ZengMDPI AGApplied Sciences2076-34172025-03-01156297610.3390/app15062976Comparison of Single-Arm and Dual-Arm Collaborative Robots in Precision AssemblyKatarzyna Peta0Marcin Wiśniewski1Mikołaj Kotarski2Olaf Ciszak3Institute of Mechanical Technology, Poznan University of Technology, 60-965 Poznan, PolandInstitute of Mechanical Technology, Poznan University of Technology, 60-965 Poznan, PolandInstitute of Mechanical Technology, Poznan University of Technology, 60-965 Poznan, PolandInstitute of Mechanical Technology, Poznan University of Technology, 60-965 Poznan, PolandThe aim of the study is a multi-criteria comparative evaluation of robots cooperating with humans in single- and dual-arm variants used for the process of precise assembly of complex parts. RobotStudio simulation software with the Signal Analyzer add-on was used for comparative analyses. These studies were conducted as case studies. A robotic station was designed for the assembly of a computer motherboard and two robot variants were programmed to perform the assembly task while maintaining the same motion parameters and functions for both. Then, the TCP motion trajectories associated with the robot were analyzed, as well as monitoring signals from the robot controller during simulation, such as time, speed, acceleration and energy consumption. The costs and profitability of the robot variants were also calculated. The percentage share of tasks performed in the process was also analyzed, divided into assembly tasks and free movements. The differences between the robots in this process include time, 21 s single-arm versus 14 s dual-arm robots. The main influence on achieving the programmed speed was the length of the robot’s TCP motion path. In most cases, the maximum programmed speed of 200 mm/s was achieved. The single-arm robot proved to be more energy-efficient, but the dual-arm robot proved to be 20% faster, which in the long run proved to be a more profitable robot. The profitability of the dual-arm robot paid off after eight months of operation. The case study presented in this paper, assembling a computer motherboard using single- and dual-arm collaborative robots, provides a guide for conducting similar comparative analyses of different robotic stations. Simulations enabled reliable verification of collaborative robots in technological processes, supporting the design of production processes and the analysis of several variants of robotic solutions.https://www.mdpi.com/2076-3417/15/6/2976industrial robotscollaborative robotsassemblyprecision engineering |
| spellingShingle | Katarzyna Peta Marcin Wiśniewski Mikołaj Kotarski Olaf Ciszak Comparison of Single-Arm and Dual-Arm Collaborative Robots in Precision Assembly Applied Sciences industrial robots collaborative robots assembly precision engineering |
| title | Comparison of Single-Arm and Dual-Arm Collaborative Robots in Precision Assembly |
| title_full | Comparison of Single-Arm and Dual-Arm Collaborative Robots in Precision Assembly |
| title_fullStr | Comparison of Single-Arm and Dual-Arm Collaborative Robots in Precision Assembly |
| title_full_unstemmed | Comparison of Single-Arm and Dual-Arm Collaborative Robots in Precision Assembly |
| title_short | Comparison of Single-Arm and Dual-Arm Collaborative Robots in Precision Assembly |
| title_sort | comparison of single arm and dual arm collaborative robots in precision assembly |
| topic | industrial robots collaborative robots assembly precision engineering |
| url | https://www.mdpi.com/2076-3417/15/6/2976 |
| work_keys_str_mv | AT katarzynapeta comparisonofsinglearmanddualarmcollaborativerobotsinprecisionassembly AT marcinwisniewski comparisonofsinglearmanddualarmcollaborativerobotsinprecisionassembly AT mikołajkotarski comparisonofsinglearmanddualarmcollaborativerobotsinprecisionassembly AT olafciszak comparisonofsinglearmanddualarmcollaborativerobotsinprecisionassembly |