This paper presents analysis of the dynamics and vibration of an orientation motion platform utilizing a sphere actuated by omnidirectional wheels. The purpose of the analysis is to serve as a design tool for the construction of a six-degree-of-freedom motion platform with unlimited rotational motion. The equations of motion are presented taking flexibility of the system into account. The behaviour of the system is illustrated by sample configurations with a range of omnidirectional wheel types and geometries. Vibration analysis follows, and sensitivity to various parameters is investigated. It is determined that the geometry of omnidirectional wheels has a significant effect on the behaviour of the system.

Additional Metadata
Keywords Motion platform, Omnidirectional wheels, Orientation control, Parallel manipulators, Robot dynamics, Rotational motion
Persistent URL dx.doi.org/10.1017/S0263574714001088
Journal Robotica
Citation
Weiss, A. (A.), Langlois, R.G, & Hayes, M.J.D. (2014). Dynamics and vibration analysis of the interface between a non-rigid sphere and omnidirectional wheel actuators. Robotica, 72. doi:10.1017/S0263574714001088