Position Control of a Floating Ball in a Vertical Air Stream

Authors

Shahin S. Nudehi, Valparaiso University
Shaffer Dehmlow, Valparaiso University
Devin Clark, Valparaiso University

Document Type

Article

Publication Date

11-2017

Journal Title

Dynamics, Vibration, and Control

Volume

4A

Abstract

Quantitative Feedback Theory (QFT) control theory was used to design a control loop in order to provide stability and tracking ability for a ball floating in a jet stream of air. Due to nonlinearity of the system governing equations, a set of linear transfer functions was derived to capture the dynamics of the system. Using this set, a controller and a prefilter were designed that met the stability and tracking performances. The feedback loop was also implemented in an experimental setup consisting of a DC motor, an axial fan, an expansion tank, and a nozzle. The experimental data showed some differences with the simulation results, but the closed-loop system response was satisfactory and the design criteria were met.

Recommended Citation

Nudehi, Shahin S.; Dehmlow, Shaffer; and Clark, Devin, "Position Control of a Floating Ball in a Vertical Air Stream" (2017). Engineering Faculty Publications, Patents, Presentations. 83.
https://scholar.valpo.edu/engineering_fac_pub/83