Decision of impedance-based scaling factor for workspace mapping in teleoperation
In teleoperation, it is important to utilize the large workspace of a slave robot as well as to guarantee the execution accuracy in sophisticated work. However, the difference between the workspaces of the master device and the slave robot makes the teleoperational mission more difficult. To solve t...
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| Published in | Journal of mechanical science and technology Vol. 37; no. 11; pp. 6003 - 6009 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Seoul
Korean Society of Mechanical Engineers
01.11.2023
Springer Nature B.V 대한기계학회 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1738-494X 1976-3824 |
| DOI | 10.1007/s12206-023-1036-y |
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| Abstract | In teleoperation, it is important to utilize the large workspace of a slave robot as well as to guarantee the execution accuracy in sophisticated work. However, the difference between the workspaces of the master device and the slave robot makes the teleoperational mission more difficult. To solve this problem, this study develops a new method for determining the scale factor of workspace mapping based on both 1) the impedance between the slave robot and object and 2) the moving distance of the master device. The object feature and information on the working environment collected from an RGB-D camera in the slave robot are used to set the scaling factor for collision avoidance. Furthermore, application of the movable distance of the master device into the determination of the scale factor helps to improve work efficiency. The fuzzy rule in this study plays a role in determining the scaling coefficient by considering two different pieces of information. Two experimental tests show the effectiveness of the proposed method in both work efficiency and execution accuracy. |
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| AbstractList | In teleoperation, it is important to utilize the large workspace of a slave robot as well as to guarantee the execution accuracy in sophisticated work. However, the difference between the workspaces of the master device and the slave robot makes the teleoperational mission more difficult. To solve this problem, this study develops a new method for determining the scale factor of workspace mapping based on both 1) the impedance between the slave robot and object and 2) the moving distance of the master device. The object feature and information on the working environment collected from an RGB-D camera in the slave robot are used to set the scaling factor for collision avoidance. Furthermore, application of the movable distance of the master device into the determination of the scale factor helps to improve work efficiency. The fuzzy rule in this study plays a role in determining the scaling coefficient by considering two different pieces of information. Two experimental tests show the effectiveness of the proposed method in both work efficiency and execution accuracy. In teleoperation, it is important to utilize the large workspace of a slave robot as well as to guarantee the execution accuracy in sophisticated work. However, the difference between the workspaces of the master device and the slave robot makes the teleoperational mission more difficult. To solve this problem, this study develops a new method for determining the scale factor of workspace mapping based on both 1) the impedance between the slave robot and object and 2) the moving distance of the master device. The object feature and information on the working environment collected from an RGB-D camera in the slave robot are used to set the scaling factor for collision avoidance. Furthermore, application of the movable distance of the master device into the determination of the scale factor helps to improve work efficiency. The fuzzy rule in this study plays a role in determining the scaling coefficient by considering two different pieces of information. Two experimental tests show the effectiveness of the proposed method in both work efficiency and execution accuracy. KCI Citation Count: 0 |
| Author | Yi, Hak Park, Taemun |
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| References_xml | – reference: DubeyR VEverettS EPernaleteNManochaK ATeleoperation assistance through variable velocity mappingIEEE Transaction on Robotics Automation200117576176610.1109/70.964674 – reference: ParkTLeeSYiHWorkspace mapping with adaptive fuzzy control for robotic manipulator in teleoperationJournal of Mechanical Science and Technology20203452171217810.1007/s12206-020-0438-3 – reference: ChenZYanSYuanMYaoBHuJModular development of master-slave asymmetric teleoperation systems with a novel workspace mapping algorithmIEEE Access20186153561536410.1109/ACCESS.2018.2809860 – reference: A. Pérez and J. Rosell, An assisted re-synchronization method for robotic teleoperated tasks, IEEE International Conference on Robotics and Automation, Shanghai, China (2011) 886–891. – reference: Z. Ju, C. Yang, Z. Li, L. Cheng and H. Ma, Teleoperation of humanoid baxter robot using haptic feedback, International Conference on Multi-sensor Fusion and Information for Intelligent Systems, Beijing, China (2014) 1–6. – reference: HusseinMAliAMohamedAMohamedAHaptic control development of robotic armInternational Journal of Control, Automation and Systems2014331622 – reference: YiHAhnMHongDAdaptive fuzzy-PI control of redundant humanoid arm using full-body balanceJournal of Intelligent and Fuzzy Systems201613161362110.3233/IFS-151885 – reference: NaUA new impedance force control of a haptic teleoperation system for improved transparencyJournal of Mechanical Science and Technology201731126005601710.1007/s12206-017-1145-6 – reference: AbdolrasolMHussainSUstunTSarkerMHannanMMohamedRAliJMekhilefSMiladAArtificial neural networks based optimization techniques: A reviewElectronics2021102114310.3390/electronics10212689 – reference: HokayemP FSpongM WBilateral teleoperation: an historical surveyAutomatica2006421220352057225914910.1016/j.automatica.2006.06.0271104.93009 – reference: AroraRBeraTImpedance control of three-dimensional hybrid manipulatorJournal of Mechanical Science and Technology20203453936710.1007/s12206-019-1235-8 – reference: M. Mamdouh and A. Ramadan, Development of a teleoperation system with a new workspace spanning technique, IEEE International Conference on Robotics and Biomimetics, Guangzhou, China (2012) 1570–1575. – reference: I. Farkhatdinov and J. Ryu, Improving mobile robot bilateral teleoperation by introducing variable force feedback gain, IEEE/RSJ International Conference on Intelligent Robots and Systems, Taipei, Taiwan (2010). – reference: KimBKimYSongJSonSImpedance-control based peg-in-hole assembly with a 6 DOF manipulatorTransactions of the Korean Society of Mechanical Engineers A201135434735210.3795/KSME-A.2011.35.4.347 – ident: 1036_CR5 doi: 10.1109/IROS.2010.5649112 – volume: 6 start-page: 15356 year: 2018 ident: 1036_CR7 publication-title: IEEE Access doi: 10.1109/ACCESS.2018.2809860 – volume: 3 start-page: 16 issue: 3 year: 2014 ident: 1036_CR8 publication-title: International Journal of Control, Automation and Systems – volume: 34 start-page: 539 year: 2020 ident: 1036_CR11 publication-title: Journal of Mechanical Science and Technology doi: 10.1007/s12206-019-1235-8 – volume: 35 start-page: 347 issue: 4 year: 2011 ident: 1036_CR12 publication-title: Transactions of the Korean Society of Mechanical Engineers A doi: 10.3795/KSME-A.2011.35.4.347 – volume: 10 start-page: 1 issue: 21 year: 2021 ident: 1036_CR10 publication-title: Electronics doi: 10.3390/electronics10212689 – volume: 42 start-page: 2035 issue: 12 year: 2006 ident: 1036_CR6 publication-title: Automatica doi: 10.1016/j.automatica.2006.06.027 – ident: 1036_CR1 doi: 10.1109/ICRA.2011.5980069 – volume: 13 start-page: 613 issue: 1 year: 2016 ident: 1036_CR13 publication-title: Journal of Intelligent and Fuzzy Systems doi: 10.3233/IFS-151885 – volume: 31 start-page: 6005 issue: 12 year: 2017 ident: 1036_CR14 publication-title: Journal of Mechanical Science and Technology doi: 10.1007/s12206-017-1145-6 – ident: 1036_CR2 doi: 10.1109/ROBIO.2012.6491191 – volume: 17 start-page: 761 issue: 5 year: 2001 ident: 1036_CR3 publication-title: IEEE Transaction on Robotics Automation doi: 10.1109/70.964674 – ident: 1036_CR4 doi: 10.1109/MFI.2014.6997721 – volume: 34 start-page: 2171 issue: 5 year: 2020 ident: 1036_CR9 publication-title: Journal of Mechanical Science and Technology doi: 10.1007/s12206-020-0438-3 |
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| SubjectTerms | Collision avoidance Control Dynamical Systems Engineering Impedance Industrial and Production Engineering Mapping Mechanical Engineering Original Article Robots Scaling factors Vibration Working conditions 기계공학 |
| Title | Decision of impedance-based scaling factor for workspace mapping in teleoperation |
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