Title of article
Design and implementation of the output feedback linearization control method to determine the DLCC of 6R manipulator
Author/Authors
Alizadeh Saravi ، L. نويسنده Department of Engineering, Science and Research Branch , , KORAYEM، M. H. نويسنده , , Nekoo، S. R. نويسنده Robotic Research Laboratory, Center of Excellence in Experimental Solid Mechanics and Dynamics, School of Mechanical Engineering, Iran University of Science and Technology, Tehran ,
Issue Information
فصلنامه با شماره پیاپی 32 سال 2015
Pages
8
From page
59
To page
66
Abstract
In this study, feedback linearization (FL) for 6R manipulator is designed, simulated and implemented. The presented input-output FL controller has achieved the desired performance for the complicated nonlinear terms in the arm’s dynamic equations. Simulations were used to test the performance of the controller for point-to-point motion as well as continuous trajectory. The results of the point-to-point motion simulations and experiments were compared, where it indicates that the proposed approach preserved smooth motion in a very short process time with good accuracy. The dynamic load carrying capacity (DLCC), which is a criterion to determine FL controller performance on 6R robot, is also investigated, based on saturated torque of the motors and allowable error bounds. Moreover, it was shown that the control law is able to accurately represent closed-loop equations and simultaneously imposed desirable behavior on 6R robot.
Journal title
International Journal of Advanced Design and Manufacturing Technology
Serial Year
2015
Journal title
International Journal of Advanced Design and Manufacturing Technology
Record number
2385850
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