Self-organizing quasi-linear ARX RBFN modeling for identification and control of nonlinear systems

Imam Sutrisno; Mohammad Abu Jami'In; Takayuki Furuzuki; Mohammad Hamiruce Marhaban

doi:10.1109/SICE.2015.7285332

Self-organizing quasi-linear ARX RBFN modeling for identification and control of nonlinear systems

Imam Sutrisno, Mohammad Abu Jami'In, Takayuki Furuzuki, Mohammad Hamiruce Marhaban

Graduate School of Information, Production and Systems

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

1 Citation (Scopus)

Abstract

The quasi-linear ARX radial basis function network (QARX-RBFN) model has shown good approximation ability and usefulness in nonlinear system identification and control. It owns an ARX-like structure, easy design, good generalization and strong tolerance to input noise. However, the QARX-RBFN model still needs to improve the prediction accuracy by optimizing its structure. In this paper, a novel self-organizing QARX-RBFN (SOQARX-RBFN) model is proposed to solve this problem. The proposed SOQARX-RBFN model consists of simultaneously network construction and parameter optimization. It offers two important advantages. Firstly, the hidden neurons in the SOQARX-RBFN model can be added or removed, based on the neuron activity and mutual information (MI), to achieve the appropriate network complexity and maintain overall computational efficiency for identification. Secondly, the model performance can be significantly improved through the structure optimization. Additionally, the convergence of the SOQARX-RBFN model is analyzed, and the proposed approach is applied to identify and control the nonlinear dynamical systems. Mathematical system simulations are carried out to demonstrate the effectiveness of the proposed method.

Original language	English
Title of host publication	2015 54th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2015
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	642-647
Number of pages	6
ISBN (Print)	9784907764487
DOIs	https://doi.org/10.1109/SICE.2015.7285332
Publication status	Published - 2015 Sept 30
Event	54th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2015 - Hangzhou, China Duration: 2015 Jul 28 → 2015 Jul 30

Other

Other	54th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2015
Country/Territory	China
City	Hangzhou
Period	15/7/28 → 15/7/30

Keywords

artificial neural network
identification system
radial basis function network
self-organization

ASJC Scopus subject areas

Control and Systems Engineering

Access to Document

10.1109/SICE.2015.7285332

Cite this

Sutrisno, I., Jami'In, M. A., Furuzuki, T., & Marhaban, M. H. (2015). Self-organizing quasi-linear ARX RBFN modeling for identification and control of nonlinear systems. In 2015 54th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2015 (pp. 642-647). Article 7285332 Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/SICE.2015.7285332

Self-organizing quasi-linear ARX RBFN modeling for identification and control of nonlinear systems. / Sutrisno, Imam; Jami'In, Mohammad Abu; Furuzuki, Takayuki et al.
2015 54th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2015. Institute of Electrical and Electronics Engineers Inc., 2015. p. 642-647 7285332.

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

Sutrisno, I, Jami'In, MA, Furuzuki, T & Marhaban, MH 2015, Self-organizing quasi-linear ARX RBFN modeling for identification and control of nonlinear systems. in 2015 54th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2015., 7285332, Institute of Electrical and Electronics Engineers Inc., pp. 642-647, 54th Annual Conference of the Society of Instrument and Control Engineers of Japan, SICE 2015, Hangzhou, China, 15/7/28. https://doi.org/10.1109/SICE.2015.7285332

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abstract = "The quasi-linear ARX radial basis function network (QARX-RBFN) model has shown good approximation ability and usefulness in nonlinear system identification and control. It owns an ARX-like structure, easy design, good generalization and strong tolerance to input noise. However, the QARX-RBFN model still needs to improve the prediction accuracy by optimizing its structure. In this paper, a novel self-organizing QARX-RBFN (SOQARX-RBFN) model is proposed to solve this problem. The proposed SOQARX-RBFN model consists of simultaneously network construction and parameter optimization. It offers two important advantages. Firstly, the hidden neurons in the SOQARX-RBFN model can be added or removed, based on the neuron activity and mutual information (MI), to achieve the appropriate network complexity and maintain overall computational efficiency for identification. Secondly, the model performance can be significantly improved through the structure optimization. Additionally, the convergence of the SOQARX-RBFN model is analyzed, and the proposed approach is applied to identify and control the nonlinear dynamical systems. Mathematical system simulations are carried out to demonstrate the effectiveness of the proposed method.",

keywords = "artificial neural network, identification system, radial basis function network, self-organization",

author = "Imam Sutrisno and Jami'In, {Mohammad Abu} and Takayuki Furuzuki and Marhaban, {Mohammad Hamiruce}",

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AB - The quasi-linear ARX radial basis function network (QARX-RBFN) model has shown good approximation ability and usefulness in nonlinear system identification and control. It owns an ARX-like structure, easy design, good generalization and strong tolerance to input noise. However, the QARX-RBFN model still needs to improve the prediction accuracy by optimizing its structure. In this paper, a novel self-organizing QARX-RBFN (SOQARX-RBFN) model is proposed to solve this problem. The proposed SOQARX-RBFN model consists of simultaneously network construction and parameter optimization. It offers two important advantages. Firstly, the hidden neurons in the SOQARX-RBFN model can be added or removed, based on the neuron activity and mutual information (MI), to achieve the appropriate network complexity and maintain overall computational efficiency for identification. Secondly, the model performance can be significantly improved through the structure optimization. Additionally, the convergence of the SOQARX-RBFN model is analyzed, and the proposed approach is applied to identify and control the nonlinear dynamical systems. Mathematical system simulations are carried out to demonstrate the effectiveness of the proposed method.

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Self-organizing quasi-linear ARX RBFN modeling for identification and control of nonlinear systems

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