Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network

Dong Dong Zheng; Wen Fang Xie; Chaomin Luo

doi:10.1109/CDC.2017.8264637

Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network

Dong Dong Zheng, Wen Fang Xie^*, Chaomin Luo

^*Corresponding author for this work

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

2 Citations (Scopus)

Abstract

In this paper, a novel identification scheme is proposed for a class of singularly perturbed nonlinear systems. In order to identify the unknown singularly perturbed nonlinear system, a set of filtered variables are firstly defined and incorporated into the multi-time-scale dynamic neural network (DNN). Subsequently, the new weight's updating laws are proposed to train the neural network, such that the neural network weights will converge to their nominal values. By incorporating the filtered variables into the dynamic neural network, the derivatives of the identification errors are no longer needed in the weight's updating laws. As a result, the identification scheme proposed here is more robust to the measurement noises. The stability analysis of the identification algorithm using Lyapunov method is presented. Numerical simulations are performed to demonstrate the validity of the proposed identification algorithm.

Original language	English
Title of host publication	2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	6487-6492
Number of pages	6
ISBN (Electronic)	9781509028733
DOIs	https://doi.org/10.1109/CDC.2017.8264637
Publication status	Published - 28 Jun 2017
Externally published	Yes
Event	56th IEEE Annual Conference on Decision and Control, CDC 2017 - Melbourne, Australia Duration: 12 Dec 2017 → 15 Dec 2017

Publication series

Name	2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017
Volume	2018-January

Conference

Conference	56th IEEE Annual Conference on Decision and Control, CDC 2017
Country/Territory	Australia
City	Melbourne
Period	12/12/17 → 15/12/17

Access to Document

10.1109/CDC.2017.8264637

Cite this

Zheng, D. D., Xie, W. F., & Luo, C. (2017). Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network. In 2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017 (pp. 6487-6492). (2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017; Vol. 2018-January). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CDC.2017.8264637

Zheng, Dong Dong ; Xie, Wen Fang ; Luo, Chaomin. / Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network. 2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 6487-6492 (2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017).

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title = "Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network",

abstract = "In this paper, a novel identification scheme is proposed for a class of singularly perturbed nonlinear systems. In order to identify the unknown singularly perturbed nonlinear system, a set of filtered variables are firstly defined and incorporated into the multi-time-scale dynamic neural network (DNN). Subsequently, the new weight's updating laws are proposed to train the neural network, such that the neural network weights will converge to their nominal values. By incorporating the filtered variables into the dynamic neural network, the derivatives of the identification errors are no longer needed in the weight's updating laws. As a result, the identification scheme proposed here is more robust to the measurement noises. The stability analysis of the identification algorithm using Lyapunov method is presented. Numerical simulations are performed to demonstrate the validity of the proposed identification algorithm.",

author = "Zheng, {Dong Dong} and Xie, {Wen Fang} and Chaomin Luo",

note = "Publisher Copyright: {\textcopyright} 2017 IEEE.; 56th IEEE Annual Conference on Decision and Control, CDC 2017 ; Conference date: 12-12-2017 Through 15-12-2017",

year = "2017",

month = jun,

day = "28",

doi = "10.1109/CDC.2017.8264637",

language = "English",

series = "2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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Zheng, DD, Xie, WF & Luo, C 2017, Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network. in 2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017. 2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017, vol. 2018-January, Institute of Electrical and Electronics Engineers Inc., pp. 6487-6492, 56th IEEE Annual Conference on Decision and Control, CDC 2017, Melbourne, Australia, 12/12/17. https://doi.org/10.1109/CDC.2017.8264637

Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network. / Zheng, Dong Dong; Xie, Wen Fang; Luo, Chaomin.
2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017. Institute of Electrical and Electronics Engineers Inc., 2017. p. 6487-6492 (2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017; Vol. 2018-January).

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

TY - GEN

T1 - Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network

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AU - Xie, Wen Fang

AU - Luo, Chaomin

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N2 - In this paper, a novel identification scheme is proposed for a class of singularly perturbed nonlinear systems. In order to identify the unknown singularly perturbed nonlinear system, a set of filtered variables are firstly defined and incorporated into the multi-time-scale dynamic neural network (DNN). Subsequently, the new weight's updating laws are proposed to train the neural network, such that the neural network weights will converge to their nominal values. By incorporating the filtered variables into the dynamic neural network, the derivatives of the identification errors are no longer needed in the weight's updating laws. As a result, the identification scheme proposed here is more robust to the measurement noises. The stability analysis of the identification algorithm using Lyapunov method is presented. Numerical simulations are performed to demonstrate the validity of the proposed identification algorithm.

AB - In this paper, a novel identification scheme is proposed for a class of singularly perturbed nonlinear systems. In order to identify the unknown singularly perturbed nonlinear system, a set of filtered variables are firstly defined and incorporated into the multi-time-scale dynamic neural network (DNN). Subsequently, the new weight's updating laws are proposed to train the neural network, such that the neural network weights will converge to their nominal values. By incorporating the filtered variables into the dynamic neural network, the derivatives of the identification errors are no longer needed in the weight's updating laws. As a result, the identification scheme proposed here is more robust to the measurement noises. The stability analysis of the identification algorithm using Lyapunov method is presented. Numerical simulations are performed to demonstrate the validity of the proposed identification algorithm.

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M3 - Conference contribution

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Zheng DD, Xie WF, Luo C. Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network. In 2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017. Institute of Electrical and Electronics Engineers Inc. 2017. p. 6487-6492. (2017 IEEE 56th Annual Conference on Decision and Control, CDC 2017). doi: 10.1109/CDC.2017.8264637

Robust identification for singularly perturbed nonlinear systems using multi-time-scale dynamic neural network

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