Extended self-tuning generalized predictive control with computation reduction focused on closed-loop characteristics

Akira Yanou; Mamoru Minami; Takayuki Matsuno

doi:10.3182/20130703-3-FR-4038.00112

Extended self-tuning generalized predictive control with computation reduction focused on closed-loop characteristics

Akira Yanou, Mamoru Minami, Takayuki Matsuno

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

1 Citation (Scopus)

Abstract

This paper proposes a design method of extended self-tuning generalized predictive control (GPC) with computation reduction focused on closed-loop characteristics. The authors have extended GPC by coprime factorization and proposed the extended controller for constructing a strongly stable system. Moreover, the proposed controller is able to be designed to make the same steady state output as pre-designed system's steady state output even if feedback loop is cut. Although self-tuning controller is one of the control methods for systems with uncertainty, there is a problem that the computation of self-tuning GPC increases as design engineer takes long prediction horizon in the design parameters. Therefore this paper considers computation reduction for extended self-tuning GPC focused on closed-loop characteristics. The validity of the proposed method is shown by numerical simulation.

Original language	English
Title of host publication	11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013 - Proceedings
Publisher	IFAC Secretariat
Pages	51-56
Number of pages	6
Edition	PART
ISBN (Print)	9783902823373
DOIs	https://doi.org/10.3182/20130703-3-FR-4038.00112
Publication status	Published - 2013
Event	11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013 - Caen, France Duration: Jul 3 2013 → Jul 5 2013

Publication series

Name	IFAC Proceedings Volumes (IFAC-PapersOnline)
Number	PART
Volume	11
ISSN (Print)	1474-6670

Other

Other	11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013
Country/Territory	France
City	Caen
Period	7/3/13 → 7/5/13

Keywords

Closed-loop gain
Coprime factorization
Data reduction.
Generalized predictive control
Self-tuning control

ASJC Scopus subject areas

Control and Systems Engineering

Access to Document

10.3182/20130703-3-FR-4038.00112

Cite this

Yanou, A., Minami, M., & Matsuno, T. (2013). Extended self-tuning generalized predictive control with computation reduction focused on closed-loop characteristics. In 11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013 - Proceedings (PART ed., pp. 51-56). (IFAC Proceedings Volumes (IFAC-PapersOnline); Vol. 11, No. PART). IFAC Secretariat. https://doi.org/10.3182/20130703-3-FR-4038.00112

Extended self-tuning generalized predictive control with computation reduction focused on closed-loop characteristics. / Yanou, Akira; Minami, Mamoru; Matsuno, Takayuki.
11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013 - Proceedings. PART. ed. IFAC Secretariat, 2013. p. 51-56 (IFAC Proceedings Volumes (IFAC-PapersOnline); Vol. 11, No. PART).

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

Yanou, A, Minami, M & Matsuno, T 2013, Extended self-tuning generalized predictive control with computation reduction focused on closed-loop characteristics. in 11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013 - Proceedings. PART edn, IFAC Proceedings Volumes (IFAC-PapersOnline), no. PART, vol. 11, IFAC Secretariat, pp. 51-56, 11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013, Caen, France, 7/3/13. https://doi.org/10.3182/20130703-3-FR-4038.00112

Yanou A, Minami M, Matsuno T. Extended self-tuning generalized predictive control with computation reduction focused on closed-loop characteristics. In 11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013 - Proceedings. PART ed. IFAC Secretariat. 2013. p. 51-56. (IFAC Proceedings Volumes (IFAC-PapersOnline); PART). doi: 10.3182/20130703-3-FR-4038.00112

Yanou, Akira ; Minami, Mamoru ; Matsuno, Takayuki. / Extended self-tuning generalized predictive control with computation reduction focused on closed-loop characteristics. 11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013 - Proceedings. PART. ed. IFAC Secretariat, 2013. pp. 51-56 (IFAC Proceedings Volumes (IFAC-PapersOnline); PART).

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abstract = "This paper proposes a design method of extended self-tuning generalized predictive control (GPC) with computation reduction focused on closed-loop characteristics. The authors have extended GPC by coprime factorization and proposed the extended controller for constructing a strongly stable system. Moreover, the proposed controller is able to be designed to make the same steady state output as pre-designed system's steady state output even if feedback loop is cut. Although self-tuning controller is one of the control methods for systems with uncertainty, there is a problem that the computation of self-tuning GPC increases as design engineer takes long prediction horizon in the design parameters. Therefore this paper considers computation reduction for extended self-tuning GPC focused on closed-loop characteristics. The validity of the proposed method is shown by numerical simulation.",

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author = "Akira Yanou and Mamoru Minami and Takayuki Matsuno",

note = "Funding Information: by JSPS KAKENHI Grant Funding Information: This work was supported by JSPS KAKENHI Grant Number 24760337. The authors gratefully acknowledge reviewers{\textquoteright} comments.; 11th IFAC International Workshop on Adaptation and Learning in Control and Signal Processing, ALCOSP 2013 ; Conference date: 03-07-2013 Through 05-07-2013",

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N2 - This paper proposes a design method of extended self-tuning generalized predictive control (GPC) with computation reduction focused on closed-loop characteristics. The authors have extended GPC by coprime factorization and proposed the extended controller for constructing a strongly stable system. Moreover, the proposed controller is able to be designed to make the same steady state output as pre-designed system's steady state output even if feedback loop is cut. Although self-tuning controller is one of the control methods for systems with uncertainty, there is a problem that the computation of self-tuning GPC increases as design engineer takes long prediction horizon in the design parameters. Therefore this paper considers computation reduction for extended self-tuning GPC focused on closed-loop characteristics. The validity of the proposed method is shown by numerical simulation.

AB - This paper proposes a design method of extended self-tuning generalized predictive control (GPC) with computation reduction focused on closed-loop characteristics. The authors have extended GPC by coprime factorization and proposed the extended controller for constructing a strongly stable system. Moreover, the proposed controller is able to be designed to make the same steady state output as pre-designed system's steady state output even if feedback loop is cut. Although self-tuning controller is one of the control methods for systems with uncertainty, there is a problem that the computation of self-tuning GPC increases as design engineer takes long prediction horizon in the design parameters. Therefore this paper considers computation reduction for extended self-tuning GPC focused on closed-loop characteristics. The validity of the proposed method is shown by numerical simulation.

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Extended self-tuning generalized predictive control with computation reduction focused on closed-loop characteristics

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