Robust Stability Control of Inverted Pendulum Model for Bipedal Walking Robot

Authors

  • Ali Fawzi Abdul Kareem Mechanical Engineering Department, University of Baghdad, Baghdad-Iraq.
  • Ahmed Abdul Hussein Ali Mechanical Engineering Department, University of Baghdad, Baghdad-Iraq.

DOI:

https://doi.org/10.29194/NJES.23010081

Keywords:

Robust Stability, Control of Inverted Pendulum, Robust Control of Bipedal Robot

Abstract

This paper proposes robust control for three models of the linear inverted pendulum (one mass linear inverted pendulum model, two masses linear inverted pendulum model and three masses linear inverted pendulum model) which represents the upper, middle and lower body of a bipedal walking robot. The bipedal walking robot is built of light-weight and hard Aluminum sheets with 2 mm thickness. The minimum phase system and non-minimum phase system are studied and investigated for inverted pendulum models. The bipedal walking robot is programmed by Arduino microcontroller UNO. A MATLAB Simulink system is built to embrace the theoretical work. The results showed that one linear inverted pendulum is the worst performance, worst noise rejection and the worst set point tracking to the zero moment point. But two masses linear inverted pendulum models and three masses linear inverted pendulum model have a better performance, a better high-frequency noise rejection characteristic and better set-point tracking to the zero moment point.

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Published

20-03-2020

How to Cite

[1]
A. F. Abdul Kareem and A. A. H. Ali, “Robust Stability Control of Inverted Pendulum Model for Bipedal Walking Robot”, NJES, vol. 23, no. 1, pp. 81–88, Mar. 2020, doi: 10.29194/NJES.23010081.

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