Conceptual Design Algorithm of a. Two-Wheeled Inverted Pendulum Mobile Robot for Educational Purposes


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Abstract

It is a great challenge for the universities to present undergraduate students the fundamental knowledge needed to develop intelligent unstable robots. Due to the inherent instability and nonholonomic constraints, the problem of two-wheeled inverted pendulum (TWIP) mobile robot is appealing and challenging case in control and dynamic systems. In this paper, an approach is presented to introduce undergraduate students of the control engineering, the principle of developing a. TWIP mobile robot. For this purpose, a. conceptual design algorithm for TWIP robots is contributed and based on the algorithm and the design criteria, a. prototype of the robot is constructed. In the construction process, the selection of mechanical and electronic components is based on the algorithm and the students can experience different control techniques to stabilize and control the system.

About the authors

A. Shariati

Department of Mechanical Engineering

Author for correspondence.
Email: a.shariati@ucl.ac.uk
United Kingdom, London

A. H. Shamekhi

Department of Mechanical Engineering

Email: kamyar_motaghed@alumn.sharif.edu
Iran, Islamic Republic of, Tehran

A. Ghaffari

Department of Mechanical Engineering

Email: kamyar_motaghed@alumn.sharif.edu
Iran, Islamic Republic of, Tehran

S. Gholampour

Department of Biomedical Engineering, North Tehran Branch

Email: kamyar_motaghed@alumn.sharif.edu
Iran, Islamic Republic of, Tehran

A. Motaghed

Department of Aerospace Engineering

Author for correspondence.
Email: kamyar_motaghed@alumn.sharif.edu
Iran, Islamic Republic of, Tehran

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