Abstract
A calibration process simulation for the interest variable values, including Cartesian coordinates of exit points, moving platform poses and initial cable lengths is performed. The simulation considers the modelling of the pulleys at exit points, and is carried out using nonlinear least square method. The effects of calibration tuning parameters and of measurement pose number on calibration quality are analyzed. As a result, the calibration quality increases with the decrease of tuning parameters and the increase of measurement pose number. The use of Jacobian matrix of the interest function \(f_{i,j}\) also leads to a better calibration quality.
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References
Gagliardini, L., Caro, S., Gouttefarde, M., Girin, A.: Discrete reconfiguration planning for cable-driven parallel robots. Mech. Mach. Theory 100, 313–337 (2016)
Rasheed, T., Long, P., Caro, S.: Wrench-feasible workspace of mobile cable-driven parallel robots. ASME J. Mech. Robot. 12(3), 031009 (2020)
Fortin-Côté, A., Cardou, P., Gosselin, C.: An admittance control scheme for haptic interfaces based on cable-driven parallel mechanisms. In: Proceedings of the IEEE International Conference on Robotics and Automation, pp. 819–825 (2014)
Qian, S., Bao, K., Zi, B., Wang, N.: Kinematic calibration of a cable-driven parallel robot for 3D printing. Sensors 18(9), 2898 (2018)
Elatta, A., Gen, L., Zhi, F., Daoyuan, Y., Fei, L.: An overview of robot calibration. Inf. Technol. J. 3, 74–78 (2004)
Wu, Y., Klimchik, A., Caro, S., Furet, B., Pashkevich, A.: Geometric calibration of industrial robots using enhanced partial pose measurements and design of experiments. Robot. Comput. Integr. Manuf. 35, 151–168 (2015)
Klimchik, A., Caro, S., Pashkevich, A.: Optimal pose selection for calibration of planar anthropomorphic manipulators. Precis. Eng. 40, 214–229 (2015)
Klimchik, A., Wu, Y., Caro, S., Furet, B., Pashkevich, A.: Geometric and elastostatic calibration of robotic manipulator using partial pose measurements. Adv. Robot. 28, 1419–1429 (2014)
Klimchik, A., Pashkevich, A., Wu, Y., Caro, S., Furet, B.: Design of calibration experiments for identification of manipulator elastostatic parameters. J. Mech. Eng. Autom. 2, 531–542 (2012)
Baklouti, S., Caro, S., Courteille, E.: Sensitivity analysis of the elasto-geometrical model of cable-driven parallel robots. In: 3rd International Conference on Cable-Driven Parallel Robots, CableCon 2017, Quebec City, Canada, August 2017
dit Sandretto, J.A., Daney, D., Gouttefarde, M.: Calibration of a fully-constrained parallel cable-driven robot. In: CISM International Centre for Mechanical Sciences, Courses and Lectures, vol. 544, no. 2007, pp. 77–84 (2013)
Reicherts, S., Blume, S., Reichert, C., Schramm, D.I.D.D.: Sensitivity analysis of the design parameters for the calibration of cable-driven parallel robots. PAMM 16(1), 859–860 (2016)
Lessanibahri, S., Cardou, P., Caro, S.: A cable-driven parallel robot with an embedded tilt-roll wrist. ASME J. Mech. Robot. 12(2), 021107 (2020)
Zavatta, M., Chianura, M., Pott, A., Carricato, M.: A vision-based referencing procedure for cable-driven parallel manipulators. J. Mech. Robot. 12(4), 1–7 (2020)
Tremblay, N., Kamali, K., Cardou, P., Desrosiers, C., Gouttefarde, M., Otis, M.J.: Eye-on-hand calibration method for cable-driven parallel robots. Mech. Mach. Sci. 74, 345–356 (2019)
Garrido-Jurado, S., Muñoz-Salinas, R., Madrid-Cuevas, F.J., Medina-Carnicer, R.: Generation of fiducial marker dictionaries using mixed integer linear programming. Pattern Recogn. 51, 481–491 (2016)
Lau, D.: Initial length and pose calibration for cable-driven parallel robots with relative length feedback. Mech. Mach. Sci. 53, 140–151 (2018)
Tang, G.R., Mooring, B.W.: Plane-motion approach to manipulator calibration. Int. J. Adv. Manuf. Technol. 7(1), 21–28 (1992)
Zhuang, H., Liu, L., Masory, O.: Autonomous calibration of hexapod machine tools. J. Manuf. Sci. Eng. Trans. ASME 122(1), 140–148 (2000)
Picard, E., Caro, S., Claveau, F., Plestan, F.: Pulleys and force sensors influence on payload estimation of cable-driven parallel robots. In: 2018 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2018), Madrid, Spain, October 2018
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This work was supported by the ANR CRAFT project, grant ANR- 18-CE10-0004, https://anr.fr/Project-ANR-18-CE10-0004
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Wang, B., Caro, S. (2021). Exit Point, Initial Length and Pose Self-calibration Method for Cable-Driven Parallel Robots. In: Zeghloul, S., Laribi, M.A., Arsicault, M. (eds) Mechanism Design for Robotics. MEDER 2021. Mechanisms and Machine Science, vol 103. Springer, Cham. https://doi.org/10.1007/978-3-030-75271-2_10
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DOI: https://doi.org/10.1007/978-3-030-75271-2_10
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