CLOT Norm Minimization for Continuous Hands-off Control
Abstract
In this paper, we consider hands-off control via minimization of the CLOT (Combined -One and Two) norm. The maximum hands-off control is the -optimal (or the sparsest) control among all feasible controls that are bounded by a specified value and transfer the state from a given initial state to the origin within a fixed time duration. In general, the maximum hands-off control is a bang-off-bang control taking values of and . For many real applications, such discontinuity in the control is not desirable. To obtain a continuous but still relatively sparse control, we propose to use the CLOT norm, a convex combination of and norms. We show by numerical simulations that the CLOT control is continuous and much sparser (i.e. has longer time duration on which the control takes 0) than the conventional EN (elastic net) control, which is a convex combination of and squared norms. We also prove that the CLOT control is continuous in the sense that, if denotes the sampling period, then the difference between successive values of the CLOT-optimal control is , which is a form of continuity. Also, the CLOT formulation is extended to encompass constraints on the state variable.
Cite
@article{arxiv.1710.07952,
title = {CLOT Norm Minimization for Continuous Hands-off Control},
author = {Niharika Challapalli and Masaaki Nagahara and Mathukumalli Vidyasagar},
journal= {arXiv preprint arXiv:1710.07952},
year = {2017}
}
Comments
38 pages, 20 figures. enlarged version of arXiv:1611.02071