Gyroscopic Stabilization of a Self-Balancing Robot Bicycle

Pom Yuan Lam; Tan Kian Sin

doi:10.20965/ijat.2011.p0916

single-au.php

« previous

IJAT Vol.5 No.6 pp. 916-923

doi: 10.20965/ijat.2011.p0916

(2011)

Paper:

Views over last 60 days: 1,405

Gyroscopic Stabilization of a Self-Balancing Robot Bicycle

Pom Yuan Lam and Tan Kian Sin

Nanyang Polytechnic, 180 Ang Mo Kio Avenue 8 Singapore 569830

Received:

April 13, 2011

Accepted:

October 18, 2011

Published:

November 5, 2011

Keywords:

bicycle, Control Moment Gyro (CMG), realtime, control and FPGA

Abstract

This paper reports the design and development of a self-balancing bicycle using off-the-shelf electronics. A self-balancing bicycle is an unstable nonlinear system similar to an inverted pendulum. Experimental results show the robustness and efficiency of the proportional plus derivative controller balancing the bicycle. The system uses a control moment gyroscope as an actuator for balancing.

Cite this article as:

P. Lam and T. Sin, “Gyroscopic Stabilization of a Self-Balancing Robot Bicycle,” Int. J. Automation Technol., Vol.5 No.6, pp. 916-923, 2011.

Data files:

References

[1] A V. Beznos, A. M. Formalsky, E. V. Gurfinkel, D. N. Jicharev, A. V. Lensky, K. V. Savitsky et al., “Control of autonomous motion of two-wheel bicycle with gyroscopic stabilization,” In:Proc. of the IEEE int. conf. on robotics and automation, p. 2670-5, 1998.
[2] J. M. Gallaspy, “Gyroscopic stabilization of an unmanned bicycle,” M.S. Thesis, Auburn University, 1999.
[3] S. Lee, W. Ham, “Self-stabilizing strategy in tracking control of unmanned electric bicycle with mass balance,” IEEE int. conf. on intelligent robots and systems, p. 2200-5, 2002.
[4] Y. Tanaka, T. Murakami, “Self sustaining bicycle robot with steering controller,” In: Proc. of int. workshop on advanced motion control, 2004, p. 193-7.
[5] The Murata Boy Website.
[6] [Online].Available from http://www.murataboy.com/en/
[7] T. T. BUI and M. Parnichkun, “Balancing of Bicyrobo by particle swarm optimisation based structure-specified mixed H2/H_∞ control,” Int. J. of Advanced Robotic Systems, 5(4), 395-402, 2008.
[8] S. Wolfram, “Analytical robotics and mechatronics,” New York: McGraw-Hill, 1995.
[9] K. Ogata, “Modern Control Engineering,” Prentice Hall, 1998.

This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] A V. Beznos, A. M. Formalsky, E. V. Gurfinkel, D. N. Jicharev, A. V. Lensky, K. V. Savitsky et al., “Control of autonomous motion of two-wheel bicycle with gyroscopic stabilization,” In:Proc. of the IEEE int. conf. on robotics and automation, p. 2670-5, 1998.

[2] [2] J. M. Gallaspy, “Gyroscopic stabilization of an unmanned bicycle,” M.S. Thesis, Auburn University, 1999.

[3] [3] S. Lee, W. Ham, “Self-stabilizing strategy in tracking control of unmanned electric bicycle with mass balance,” IEEE int. conf. on intelligent robots and systems, p. 2200-5, 2002.

[4] [4] Y. Tanaka, T. Murakami, “Self sustaining bicycle robot with steering controller,” In: Proc. of int. workshop on advanced motion control, 2004, p. 193-7.

[5] [5] The Murata Boy Website.

[6] [6] [Online].Available from http://www.murataboy.com/en/

[7] [7] T. T. BUI and M. Parnichkun, “Balancing of Bicyrobo by particle swarm optimisation based structure-specified mixed H2/H_∞ control,” Int. J. of Advanced Robotic Systems, 5(4), 395-402, 2008.

[8] [8] S. Wolfram, “Analytical robotics and mechatronics,” New York: McGraw-Hill, 1995.

[9] [9] K. Ogata, “Modern Control Engineering,” Prentice Hall, 1998.