Supervisory observer for parameter and state estimation of nonlinear systems using the DIRECT algorithm

Michelle S. Chong; Romain Postoyan; Sei Zhen Khong; Dragan Nesic

doi:10.1109/CDC.2017.8263955

Supervisory observer for parameter and state estimation of nonlinear systems using the DIRECT algorithm

Michelle S. Chong, Romain Postoyan, Sei Zhen Khong, Dragan Nesic

Department of Automatic Control

Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review

Abstract

A supervisory observer is a multiple-model architecture, which estimates the parameters and the states of nonlinear systems. It consists of a bank of state observers, where each observer is designed for some nominal parameter values sampled in a known parameter set. A selection criterion is used to select a single observer at each time instant, which provides its state estimate and parameter value. The sampling of the parameter set plays a crucial role in this approach. Existing works require a sufficiently large number of parameter samples, but no explicit lower bound on this number is provided. The aim of this work is to overcome this limitation by sampling the parameter set automatically using an iterative global optimisation method, called DIviding RECTangles (DIRECT). Using this sampling policy, we start with 1 + 2n_p parameter samples where n_p is the dimension of the parameter set. Then, the algorithm iteratively adds samples to improve its estimation accuracy. Convergence guarantees are provided under the same assumptions as in previous works, which include a persistency of excitation condition. The efficacy of the supervisory observer with the DIRECT sampling policy is illustrated on a model of neural populations.

Original language	English
Title of host publication	2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017
Publisher	IEEE - Institute of Electrical and Electronics Engineers Inc.
Pages	2089-2094
Number of pages	6
Volume	2018-January
ISBN (Electronic)	9781509028733
DOIs	https://doi.org/10.1109/CDC.2017.8263955
Publication status	Published - 2018 Jan 18
Event	56th IEEE Annual Conference on Decision and Control, CDC 2017 - Melbourne, Australia Duration: 2017 Dec 12 → 2017 Dec 15 Conference number: 56 http://cdc2017.ieeecss.org/

Conference

Conference	56th IEEE Annual Conference on Decision and Control, CDC 2017
Abbreviated title	CDC 2017
Country/Territory	Australia
City	Melbourne
Period	2017/12/12 → 2017/12/15
Internet address	http://cdc2017.ieeecss.org/

Subject classification (UKÄ)

Control Engineering

Access to Document

10.1109/CDC.2017.8263955

Cite this

Chong, M. S., Postoyan, R., Khong, S. Z., & Nesic, D. (2018). Supervisory observer for parameter and state estimation of nonlinear systems using the DIRECT algorithm. In 2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017 (Vol. 2018-January, pp. 2089-2094). IEEE - Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CDC.2017.8263955

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abstract = "A supervisory observer is a multiple-model architecture, which estimates the parameters and the states of nonlinear systems. It consists of a bank of state observers, where each observer is designed for some nominal parameter values sampled in a known parameter set. A selection criterion is used to select a single observer at each time instant, which provides its state estimate and parameter value. The sampling of the parameter set plays a crucial role in this approach. Existing works require a sufficiently large number of parameter samples, but no explicit lower bound on this number is provided. The aim of this work is to overcome this limitation by sampling the parameter set automatically using an iterative global optimisation method, called DIviding RECTangles (DIRECT). Using this sampling policy, we start with 1 + 2np parameter samples where np is the dimension of the parameter set. Then, the algorithm iteratively adds samples to improve its estimation accuracy. Convergence guarantees are provided under the same assumptions as in previous works, which include a persistency of excitation condition. The efficacy of the supervisory observer with the DIRECT sampling policy is illustrated on a model of neural populations.",

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Chong, MS, Postoyan, R, Khong, SZ & Nesic, D 2018, Supervisory observer for parameter and state estimation of nonlinear systems using the DIRECT algorithm. in 2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017. vol. 2018-January, IEEE - Institute of Electrical and Electronics Engineers Inc., pp. 2089-2094, 56th IEEE Annual Conference on Decision and Control, CDC 2017, Melbourne, Australia, 2017/12/12. https://doi.org/10.1109/CDC.2017.8263955

Supervisory observer for parameter and state estimation of nonlinear systems using the DIRECT algorithm. / Chong, Michelle S.; Postoyan, Romain; Khong, Sei Zhen et al.
2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017. Vol. 2018-January IEEE - Institute of Electrical and Electronics Engineers Inc., 2018. p. 2089-2094.

Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review

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AB - A supervisory observer is a multiple-model architecture, which estimates the parameters and the states of nonlinear systems. It consists of a bank of state observers, where each observer is designed for some nominal parameter values sampled in a known parameter set. A selection criterion is used to select a single observer at each time instant, which provides its state estimate and parameter value. The sampling of the parameter set plays a crucial role in this approach. Existing works require a sufficiently large number of parameter samples, but no explicit lower bound on this number is provided. The aim of this work is to overcome this limitation by sampling the parameter set automatically using an iterative global optimisation method, called DIviding RECTangles (DIRECT). Using this sampling policy, we start with 1 + 2np parameter samples where np is the dimension of the parameter set. Then, the algorithm iteratively adds samples to improve its estimation accuracy. Convergence guarantees are provided under the same assumptions as in previous works, which include a persistency of excitation condition. The efficacy of the supervisory observer with the DIRECT sampling policy is illustrated on a model of neural populations.

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ER -

Supervisory observer for parameter and state estimation of nonlinear systems using the DIRECT algorithm

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