Reference
W. Ananduta, T. Pippia, C. Ocampo-Martinez, J. Sijs, and B. De Schutter,
"Online partitioning method for decentralized control of linear switching
large-scale systems,"
Journal of the Franklin
Institute, vol. 356, no. 6, pp. 3290-3313, Apr. 2019.
Abstract
A novel partitioning approach for linear switching large-scale systems is
presented. We assume that the modes of the switching system are unknown a
priori but can be detected. We propose an online partitioning scheme that can
partition the system when the mode switches, thus adapting the partition to the
mode. Moreover, after the system has been partitioned, we apply a decentralized
state-feedback control scheme to stabilize the system. We also apply a dwell
time stability scheme to prove that the closed-loop system remains stable even
after both the mode and partition changes. The proposed approach is illustrated
by means of an automatic generation control problem related to frequency
deviation regulation in a large-scale power network.
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BibTeX
@article{AnaPip:19-003,
author = {Ananduta, Wicak and Pippia, Tom{\'{a}}s and Ocampo-Martinez,
Carlos and Sijs, Joris and De Schutter, Bart},
title = {Online Partitioning Method for Decentralized Control of Linear
Switching Large-Scale Systems},
journal = {Journal of the Franklin Institute},
volume = {356},
number = {6},
pages = {3290--3313},
month = apr,
year = {2019}
}