Modeling and Simulation of a Point to Point Spherical Articulated Manipulator using Optimal Control

Modeling and Simulation of a Point to Point Spherical Articulated Manipulator using Optimal Control

This paper aims to design an optimal stability controller for a point to point trajectory tracking 3 degree of freedom articulated manipulator. The DH convention is used to obtain the forward and inverse kinematics of the manipulator. The manipulator dynamics are formulated using the Lagrange Euler...

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Veröffentlicht in:arXiv.org 2020-10
Hauptverfasser: Saraf, Prathamesh, Ponnalagu, R N
Format: Artikel
Sprache:eng
Schlagworte:
Control stability
Control systems design
Inverse kinematics
Manipulators
Nonlinear equations
Nonlinear systems
Optimal control
Proportional integral derivative
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Zusammenfassung:This paper aims to design an optimal stability controller for a point to point trajectory tracking 3 degree of freedom articulated manipulator. The DH convention is used to obtain the forward and inverse kinematics of the manipulator. The manipulator dynamics are formulated using the Lagrange Euler method to obtain a nonlinear system. The complicated nonlinear equations obtained are then linearized in order to implement the optimal LQR. The simulations are performed in MATLAB and Simulink and the optimal controllers performance is tested for various conditions and the results are presented. The results obtained prove the superiority of LQR over conventional PID control.
ISSN:2331-8422