期刊
IEEE TRANSACTIONS ON AUTOMATIC CONTROL
卷 66, 期 1, 页码 468-475出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TAC.2020.2982907
关键词
Uncertainty; Observers; Probabilistic logic; Chaos; Symmetric matrices; Linear systems; Interval estimation; polynomial chaos expansion (PCE); time-invariant probabilistic uncertainty; zonotopes
资金
- National Natural Science Foundation of China [61973098, 61903303, 61933010, 61773145]
- Fundamental Research Funds for the Central Universities [3102019ZDHQD04, 3102019ZDHKY13]
- National Ten Thousand Talent Program for Young Top-notch Talents [W03070131]
- Fok Ying-Tong Education Foundation [161058]
This article proposes a two-step interval estimation method for linear systems with time-invariant probabilistic uncertainty, utilizing PCE and zonotopic technique. By approximating error dynamics via PCE and analyzing intervals of the expanded system with zonotopic technique, the interval estimation is achieved by combining nominal observer state and estimated error interval. Experimental and simulation examples in a case study demonstrate the effectiveness of the proposed method.
This article investigates interval estimation for linear systems with time-invariant probabilistic uncertainty. A two-step interval estimation method, which consists of nominal observer design and estimation error bound analysis, is proposed based on polynomial chaos expansion (PCE) and zonotopic technique. To deal with time-invariant probabilistic uncertainty, the error dynamics is approximated via PCE, which leads to an expanded deterministic linear system. Then intervals of the expanded system and error system are analyzed by zonotopic technique. The interval estimation is achieved by combining nominal observer state and estimated error interval. In a case study, an experimental example and a simulation example show the effectiveness of the proposed method.
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