Consistent dynamic model identification of the Stäubli RX-160 industrial robot using convex optimization method

Dynamic models of robot manipulators with standard dynamic parameters are required for simulations, model-based controller design and external force estimation. The aim of this work is to identify the complete dynamic model of the 6-axis Stäubli RX-160 industrial robot. A convex optimization-based m...

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Published in	Journal of mechanical science and technology Vol. 35; no. 5; pp. 2185 - 2195
Main Authors	Argin, Omer Faruk, Bayraktaroglu, Zeki Yagiz
Format	Journal Article
Language	English
Published	Seoul Korean Society of Mechanical Engineers 01.05.2021 Springer Nature B.V 대한기계학회
Subjects	Computational geometry Control Control systems design Convex analysis Convexity Dynamic models Dynamical Systems End effectors Engineering Friction Industrial and Production Engineering Industrial robots Low speed Mechanical Engineering Optimization Original Article Parameter estimation Parameter identification Performance evaluation Robot arms Robots Springs (elastic) Vibration 기계공학 Industrial robots Excitation trajectory Convex optimization Dynamic model identification Force estimation
Online Access	Get full text
ISSN	1738-494X 1976-3824
DOI	10.1007/s12206-021-0435-1

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Abstract	Dynamic models of robot manipulators with standard dynamic parameters are required for simulations, model-based controller design and external force estimation. The aim of this work is to identify the complete dynamic model of the 6-axis Stäubli RX-160 industrial robot. A convex optimization-based method is used for parameter identification. Consistent model parameters are obtained as the result of the optimization procedure subject to physical constraints. Low-speed behavior of the robot being dominated by joint friction, the dynamic model includes an algebraic friction model consisting of the Coulomb and viscous friction components along with the Stribeck effect. The coupled mechanical structure of the 5th and 6th joints, and elasticity due to the presence of balancing springs are also represented in the proposed dynamic model. The ordinary least square error method is used for the performance evaluation of the convex optimization-based method. Estimated parameters from both methods are experimentally verified over identification and test trajectories. The identified model is finally used as a basis in the estimation of external forces acting on the robot’s end-effector. The proposed sensor-less model-based approach for the estimation of external forces constitutes an alternative mean of experimental validation. Comparison of computed external forces with measured ones by an F/T transducer shows that the dynamic model obtained with the proposed method provides an accurate estimation.
AbstractList	Dynamic models of robot manipulators with standard dynamic parameters are required for simulations, model-based controller design and external force estimation. The aim of this work is to identify the complete dynamic model of the 6-axis Stäubli RX-160 industrial robot. A convex optimization-based method is used for parameter identification. Consistent model parameters are obtained as the result of the optimization procedure subject to physical constraints. Low-speed behavior of the robot being dominated by joint friction, the dynamic model includes an algebraic friction model consisting of the Coulomb and viscous friction components along with the Stribeck effect. The coupled mechanical structure of the 5th and 6th joints, and elasticity due to the presence of balancing springs are also represented in the proposed dynamic model. The ordinary least square error method is used for the performance evaluation of the convex optimization-based method. Estimated parameters from both methods are experimentally verified over identification and test trajectories. The identified model is finally used as a basis in the estimation of external forces acting on the robot’s end-effector. The proposed sensor-less model-based approach for the estimation of external forces constitutes an alternative mean of experimental validation. Comparison of computed external forces with measured ones by an F/T transducer shows that the dynamic model obtained with the proposed method provides an accurate estimation. KCI Citation Count: 0 Dynamic models of robot manipulators with standard dynamic parameters are required for simulations, model-based controller design and external force estimation. The aim of this work is to identify the complete dynamic model of the 6-axis Stäubli RX-160 industrial robot. A convex optimization-based method is used for parameter identification. Consistent model parameters are obtained as the result of the optimization procedure subject to physical constraints. Low-speed behavior of the robot being dominated by joint friction, the dynamic model includes an algebraic friction model consisting of the Coulomb and viscous friction components along with the Stribeck effect. The coupled mechanical structure of the 5th and 6th joints, and elasticity due to the presence of balancing springs are also represented in the proposed dynamic model. The ordinary least square error method is used for the performance evaluation of the convex optimization-based method. Estimated parameters from both methods are experimentally verified over identification and test trajectories. The identified model is finally used as a basis in the estimation of external forces acting on the robot’s end-effector. The proposed sensor-less model-based approach for the estimation of external forces constitutes an alternative mean of experimental validation. Comparison of computed external forces with measured ones by an F/T transducer shows that the dynamic model obtained with the proposed method provides an accurate estimation.
Author	Argin, Omer Faruk Bayraktaroglu, Zeki Yagiz
Author_xml	– sequence: 1 givenname: Omer Faruk surname: Argin fullname: Argin, Omer Faruk email: oargin@itu.edu.tr organization: Mechatronics Eng. Dept., Istanbul Technical University – sequence: 2 givenname: Zeki Yagiz surname: Bayraktaroglu fullname: Bayraktaroglu, Zeki Yagiz organization: Mechanical Eng. Dept., Istanbul Technical University
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Cites_doi	10.1016/S0967-0661(01)00105-8 10.1109/LRA.2019.2931248 10.1016/j.advengsoft.2014.08.009 10.1109/ACCESS.2020.3000997 10.1016/0005-1098(94)90209-7 10.1109/ICMA.2019.8816533 10.3390/s19102248 10.1163/1568553053020269 10.5772/45818 10.1109/TRO.2016.2558190 10.1002/rob.4620080405 10.1109/TMECH.2019.2891177 10.1109/SICE.2006.314782 10.1006/mssp.1996.0039 10.1115/1.2919465 10.1007/s00158-011-0666-3 10.1109/LRA.2019.2927947 10.1109/ACCESS.2020.3012196 10.1109/70.917088 10.1007/978-3-319-32552-1_6 10.1109/CoASE.2014.6899487 10.1007/s12206-018-1235-0 10.5772/54643 10.1177/0278364913514870 10.23919/ECC.2003.7086447 10.1109/IROS.2013.6696862 10.1109/TRO.2015.2430053 10.1007/s11044-013-9403-6 10.1016/S0947-3580(98)70113-X 10.1177/027836498900800603
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SubjectTerms	Computational geometry Control Control systems design Convex analysis Convexity Dynamic models Dynamical Systems End effectors Engineering Friction Industrial and Production Engineering Industrial robots Low speed Mechanical Engineering Optimization Original Article Parameter estimation Parameter identification Performance evaluation Robot arms Robots Springs (elastic) Vibration 기계공학
Title	Consistent dynamic model identification of the Stäubli RX-160 industrial robot using convex optimization method
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