Delayed dynamic-feedback controller design for multi-frequency vibration suppression
Abstract
We present a methodology for designing a dynamic controller with delayed output feedback for achieving non-collocated vibration suppression with a focus on the multi-frequency case. To synthesize the delay-based controller, we first remodel the system of equations as a delay-differential algebraic equation (DDAE) in such a way that existing tools for design of a static output feedback controller can be easily adapted. The problem of achieving non-collocated vibration suppression with sufficient damping is formulated as a constrained optimization problem of minimizing the spectral abscissa in the presence of zero-location constraints, with the constraints exhibiting polynomial dependence on its parameters. We transform the problem into an unconstrained one using elimination, following which we solve the resulting non-convex, non-smooth optimization problem.
Cite
@article{arxiv.2505.16939,
title = {Delayed dynamic-feedback controller design for multi-frequency vibration suppression},
author = {Adrian Saldanha and Adam Peichl and Wim Michiels and Tomáš Vyhlídal},
journal= {arXiv preprint arXiv:2505.16939},
year = {2025}
}
Comments
7 pages, 4 figures, submitted April 24, 2024, to Time Delay Systems (TDS 2024)