Control Synthesis for an Underactuated Cable Suspended System Using Dynamic Decoupling
Abstract
This article studies the dynamics and control of a novel underactuated system, wherein a plate suspended by cables and with a freely moving mass on top, whose other ends are attached to three quadrotors, is sought to be horizontally stabilized at a certain height, with the ball positioned at the center of mass of the plate. The freely moving mass introduces a 2-degree of underactuation into the system. The design proceeds through a decoupling of the quadrotors and the plate dynamics. Through a partial feedback linearization approach, the attitude of the plate and the translational height of the plate is initially controlled, while maintaining a bounded velocity along the and directions. These inputs are then synthesized through the quadrotors with a backstepping and timescale separation argument based on Tikhonov's theorem.
Keywords
Cite
@article{arxiv.1707.00661,
title = {Control Synthesis for an Underactuated Cable Suspended System Using Dynamic Decoupling},
author = {Siddharth H. Nair and Ravi N. Banavar and D. H. S. Maithripala},
journal= {arXiv preprint arXiv:1707.00661},
year = {2018}
}