1. Distributed Data-driven Unknown-input Observers
- Author
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Wei, Yuzhou, Disarò, Giorgia, Liu, Wenjie, Sun, Jian, Valcher, Maria Elena, Wang, Gang, Wei, Yuzhou, Disarò, Giorgia, Liu, Wenjie, Sun, Jian, Valcher, Maria Elena, and Wang, Gang
- Abstract
Unknown inputs related to, e.g., sensor aging, modeling errors, or device bias, represent a major concern in wireless sensor networks, as they degrade the state estimation performance. To improve the performance, unknown-input observers (UIOs) have been proposed. Most of the results available to design UIOs are based on explicit system models, which can be difficult or impossible to obtain in real-world applications. Data-driven techniques, on the other hand, have become a viable alternative for the design and analysis of unknown systems using only data. In this context, a novel data-driven distributed unknown-input observer (D-DUIO) for an unknown linear system is developed, which leverages solely some data collected offline, without any prior knowledge of the system matrices. In the paper, first, the design of a DUIO is investigated by resorting to a traditional model-based approach. By resorting to a Lyapunov equation, it is proved that under some conditions, the state estimates at all nodes of the DUIO achieve consensus and collectively converge to the state of the system. Moving to a data-driven approach, it is shown that the input/output/state trajectories of the system are compatible with the equations of a D-DUIO, and this allows, under suitable assumptions, to express the matrices of a possible DUIO in terms of the matrices of pre-collected data. Then, necessary and sufficient conditions for the existence of the proposed D-DUIO are given. Finally, the efficacy of the D-DUIO is illustrated by means of numerical examples.
- Published
- 2024