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Control of the Gyrover: a single-wheel gyroscopically stabilized robot

Enrique Ferreira, Shu-Jen Tsai, Christiaan J. J. Paredis, H. Benjamín Brown

Year
2000
Citations
28
Access
Open access

Abstract

The Gyrover is a single wheel gyroscopically stabilized mobile robot developed at Carnegie Mellon University. An internal pendulum serves as a counter weight for a drive motor that causes fore/aft motion, while a large gyroscope on a tilt-mechanism provides for lateral balance and steering actuation. In this paper, we develop a detailed dynamic model for the Gyrover, and use this model in an extended Kalman filter to estimate the complete state. A linearized version of the model is used to develop a state feedback controller. The design methodology is based on a semi-definite programming procedure which optimize the stability region subject to a set of Linear Matrix Inequalities that capture stability and pole placement constraints. Finally, the controller design combined with the extended Kalman filter are verified on the robot prototype.

Keywords

Control theory (sociology)Inverted pendulumGyroscopeKalman filterController (irrigation)RobotFull state feedbackStability (learning theory)Control engineeringTilt (camera)

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