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Main Authors: Rego, Brenner S., Raimondo, Davide M., Raffo, Guilherme V.
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2401.10239
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author Rego, Brenner S.
Raimondo, Davide M.
Raffo, Guilherme V.
author_facet Rego, Brenner S.
Raimondo, Davide M.
Raffo, Guilherme V.
contents This paper proposes new methods for set-based state estimation and active fault diagnosis (AFD) of linear descriptor systems (LDS). Unlike intervals, ellipsoids, and zonotopes, constrained zonotopes (CZs) can directly incorporate linear static constraints on state variables - typical of descriptor systems - into their mathematical representation, leading to less conservative enclosures. However, for LDS that are unstable or not fully observable, a bounded representation cannot ensure a valid enclosure of the states over time. To address this limitation, we introduce line zonotopes, a new representation for unbounded sets that retains key properties of CZs, including polynomial time complexity reduction methods, while enabling the description of strips, hyperplanes, and the entire n-dimensional Euclidean space. This extension not only generalizes the use of CZs to unbounded settings but can also enhance set-based estimation and AFD in both stable and unstable scenarios. Additionally, we extend the AFD method for LDS from Rego et al. (2020) to operate over reachable tubes rather than solely on the reachable set at the final time of the considered horizon. This reduces conservatism in input separation and enables more accurate fault diagnosis based on the entire output sequence. The advantages of the proposed methods over existing CZ-based approaches are demonstrated through numerical examples.
format Preprint
id arxiv_https___arxiv_org_abs_2401_10239
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Line zonotopes: A tool for state estimation and fault diagnosis of unbounded and descriptor systems
Rego, Brenner S.
Raimondo, Davide M.
Raffo, Guilherme V.
Systems and Control
Dynamical Systems
This paper proposes new methods for set-based state estimation and active fault diagnosis (AFD) of linear descriptor systems (LDS). Unlike intervals, ellipsoids, and zonotopes, constrained zonotopes (CZs) can directly incorporate linear static constraints on state variables - typical of descriptor systems - into their mathematical representation, leading to less conservative enclosures. However, for LDS that are unstable or not fully observable, a bounded representation cannot ensure a valid enclosure of the states over time. To address this limitation, we introduce line zonotopes, a new representation for unbounded sets that retains key properties of CZs, including polynomial time complexity reduction methods, while enabling the description of strips, hyperplanes, and the entire n-dimensional Euclidean space. This extension not only generalizes the use of CZs to unbounded settings but can also enhance set-based estimation and AFD in both stable and unstable scenarios. Additionally, we extend the AFD method for LDS from Rego et al. (2020) to operate over reachable tubes rather than solely on the reachable set at the final time of the considered horizon. This reduces conservatism in input separation and enables more accurate fault diagnosis based on the entire output sequence. The advantages of the proposed methods over existing CZ-based approaches are demonstrated through numerical examples.
title Line zonotopes: A tool for state estimation and fault diagnosis of unbounded and descriptor systems
topic Systems and Control
Dynamical Systems
url https://arxiv.org/abs/2401.10239