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Modeling and computed torque control of a 6 degree of freedom robotic arm

Muhammad Imran Ullah, Syed Ali Ajwad, Raza Ul Islam, Usarna Iqbal, Jamshed Iqbal

Year
2014
Citations
42

Abstract

This paper presents modelling and control design of ED 7220C — a vertical articulated serial arm having 5 revolute joints with 6 Degree Of Freedom. Both the direct and inverse kinematic models have been developed. For analysis of forces and to facilitate the controller design, svstem dvnamics have been formulated. A non-linear control technique, Computed Torque Control (CTC) has been presented. The algorithm, implemented in MATLAB/Simulink, utilizes the derived dynamics as well as linear control techniques. Simulation results dearly demonstrate the efficacy of the presented approach in terms of traiectory tracking Various responses of the arm joints have been recorded to characterize the performance of the control algorithm. The research finds its applications in simulation of advance nonlinear and robust control techniques as well as their implementation on the physical platform.

Keywords

Revolute jointControl theory (sociology)Robotic armKinematicsTorqueControl engineeringComputer scienceMATLABNonlinear systemInverse dynamics

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