MODEL-FREE ADAPTIVE CONTROL APPROACH FOR CABLE-DRIVEN PARALLEL ROBOT
No. 66 (2021), Science - Technology
No. 66 (2021)

MODEL-FREE ADAPTIVE CONTROL APPROACH FOR CABLE-DRIVEN PARALLEL ROBOT

Science - Technology
Published 2022-06-01
BA PHAM DINH
DUONG PHAM XUAN
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Keywords

Model-free control, adaptive control, parallel robot. Điều khiển không mô hình, điều khiển thích nghi, robot song song.

How to Cite

PHẠM ĐÌNH, B., & PHẠM XUÂN, D. (2022). MODEL-FREE ADAPTIVE CONTROL APPROACH FOR CABLE-DRIVEN PARALLEL ROBOT. Journal of Marine Science and Technology, 66(66), 31–35. Retrieved from http://jmst.vimaru.edu.vn/index.php/tckhcnhh/article/view/67
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Abstract

When a mathematical model is not available and system-specific conditions are fulfilled, a model-free adaptive control (MFAC) approach is proposed based on a new dynamic linearization technique with a pseudo-partial derivative for a class of general multiple-input and multiple-output nonlinear discrete-time cable robot system. The key control ideal is that an estimation of real-time system parameters that represent system dynamic variations is realized by using only inputs and outputs. Then the proposed controller is successfully implemented in a cable-driven parallel robot (CDPR) to control the position of the end-effector (EE). This MFAC was applied and demonstrated satisfactory performance on an actual CDPR platform.

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