Our paper on frequency shaping control for grid-forming IBRs [1] has been accepted to Control Systems Letters!
[1] B. K. Poolla, Y. Lin, A. Bernstein, E. Mallada, and D. Groß, “Frequency shaping control for weakly-coupled grid-forming IBRs,” IEEE Control Systems Letters (L-CSS), pp. 937-942, 2022.
[Bibtex] [Abstract] [Download PDF]
[Bibtex] [Abstract] [Download PDF]
We introduce a novel framework to approximate the aggregate frequency dynamics of coherent synchronous generators. By leveraging recent results on dynamics concentration of tightly connected networks, we develop a hierarchy of reduced order models –based on frequency weighted balanced truncation– that accurately approximate the aggregate system response. Our results outperform existing aggregation techniques and can be shown to monotonically improve the approximation as the hierarchy order increases.
@article{plbmg2023lcss,
abstract = {We introduce a novel framework to approximate the aggregate frequency dynamics of coherent synchronous generators. By leveraging recent results on dynamics concentration of tightly connected networks, we develop a hierarchy of reduced order models --based on frequency weighted balanced truncation-- that accurately approximate the aggregate system response. Our results outperform existing aggregation techniques and can be shown to monotonically improve the approximation as the hierarchy order increases.},
author = {Poolla, Bala Kameshwar and Lin, Yashen and Bernstein, Andrey and Mallada, Enrique and Groß, Dominic},
doi = {10.1109/LCSYS.2022.3228855},
grants = {CAREER-1752362, CPS-2136324},
journal = {IEEE Control Systems Letters (L-CSS)},
month = {12},
pages = {937-942},
record = {published, online Dec 2022, accepted Nov 2022, submitted Sep 2022.},
title = {Frequency shaping control for weakly-coupled grid-forming IBRs},
url = {https://mallada.ece.jhu.edu/pubs/2022-LCSS-PLBMG.pdf},
year = {2022}
}