Active Force Control of An Inverted Pendulum: Simulation and Experimental Implementation

Authors

  • Seet Hao Sheng School of Mechanical Engineering, Faculty of Engineering Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor
  • Musa Mailah School of Mechanical Engineering, Faculty of Engineering Universiti Teknologi Malaysia, 81310 UTM Johor Bahru, Johor

Keywords:

Inverted pendulum, PID controller, active force control, simulation, experimental implementation

Abstract

The paper describes the simulation and practical implementation of active force control
(AFC) with proportional-integral-derivative (PID) control strategy to an inverted
pendulum system. The resulting two-degree of freedom (2-DOF) control system essentially
comprises two main feedback control loops to facilitate the control needs with reference to
the outer and inner loops. The outer control loop employs two PID controllers for the
computation of the desired force that use the cart position and pendulum angle errors as
the inputs to the respective controller. The inner loop of the control system implements an
AFC loop that is cascaded in series with each of the PID controller for the compensation
of the disturbances. An experimental rig was designed and developed, in which the
validation of the proposed AFC-based control method was subsequently carried out in realtime
incorporating the MATLAB/Simulink computing platform plus the use of Arduino
MEGA microcontroller. The performance of the proposed PID+AFC control scheme was
evaluated and benchmarked against the conventional PID controller to examine the
robustness of the proposed control method. It was found that the experimental results
demonstrate the superiority of the PID+AFC controller over the conventional PID
counterpart. The overshoot of the system response was reduced and the response of the
proposed controller was more stable, thereby implying that the stabilization of the inverted
pendulum is improved via the proposed control scheme; the inverted pendulum was able to
maintain an upright position when the controllers were activated.

References

Emad A., 1999. On-line Tuning Strategy for PI Control Algorithms, Journal of King Saud University, 11: 49-70.

Emad A., 2000. Control of Non-linear Chemical Processes Using Adaptive PI Algorithms, Ind. Eng. Chem. Res., 39: 1980-1992.

Emad A., 2000. On-line Tuning Strategy for PI Control Algorithms Based on Simple Linear Models, submitted to Journal of Chemical Engineering of Japan.

Emad A., 2001. Online Tuning Strategy for Multi-loop SISO PI Control Algorithms in Multivariable Interactive Systems, accepted for publication in Journal of King Saud University.

Astr˚om K.J. and Furuta K., 2000. Swinging up A Pendulum by Energy Control, Automatica, 36(2000): 287–295.

Mason P., Broucke M. and Piccoli B., 2008. Time Optimal Swing-up of The Planar Pendulum, IEEE Transactions on Automatic Control, 53(2008): 1876–1886.

Tao C., Taur J.S., Hsieh T.W. and Tsai C., 2008. Design of A Fuzzy Controller with Fuzzy Swing-up and Parallel Distributed Pole Assignment Schemes for An Inverted Pendulum and Cart System, IEEE Transactions on Control Systems Technology,16(2008): 1277–1288.

Wang J-J., 2008. Simulation Studies of Inverted Pendulum Based on PID Controllers, Simulation Modelling Practice and Theory, 19 (2011): 440–449.

Hewit J.R. and Burdess J.S., 1981. Fast Dynamic Decoupled Control for Robotics using Active Force Control, Trans. Mechanism and Machine Theory, 16(5): 535-542.

Mailah M., 1998. Intelligent Active Force Control of A Rigid Robot Arm using Neural Network and Iterative Learning Algorithms, PhD Thesis, University of Dundee, UK.

Hussein S.B., Zalzala A.M.S., Jamaluddin H., Mailah M., 2000. An Evolutionary Neural Network Controller for Intelligent Active Force Control, in Evolutionary Design and Manufacture, Parmee I.C. (Ed.), Springer Verlag, London, 352-362.

Mailah M., Pitowarno E., Jamaluddin H., 2005. Robust Motion Control for Mobile Manipulator Using Resolved Acceleration and Proportional-Integral Active Force Control, International Journal of Advanced Robotic Systems, 2(2): 125-134.

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Published

2019-05-15

How to Cite

Hao Sheng, S., & Mailah, M. (2019). Active Force Control of An Inverted Pendulum: Simulation and Experimental Implementation. Jurnal Mekanikal, 41(2-S). Retrieved from https://jurnalmekanikal.utm.my/index.php/jurnalmekanikal/article/view/343

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