Characterization of All Robust PID Controllers for Belt Conveyor System via Corrected Polynomial Stabilization - Collections

＜departmental bulletin paper＞
Characterization of All Robust PID Controllers for Belt Conveyor System via Corrected Polynomial Stabilization

Creator	Author PID L002718 Creator Name Wahyudie, Addy Affiliation Affiliation Name Department of Electrical and Electronic Systems Engineering, Kyushu University
Creator	Author PID K002740 Creator Name Kawabe, Taketoshi 川邊, 武俊カワベ, タケトシ Affiliation Affiliation Name Department of Electrical Engineering, Kyushu University : Professor 九州大学大学院システム情報科学研究院電気システム工学部門
Language	English
Publisher	九州大学大学院システム情報科学研究院
Publisher	Faculty of Information Science and Electrical Engineering, Kyushu University
Date	2010-03-26
Source Title	Research reports on information science and electrical engineering of Kyushu University
Vol	15
Issue	1
First Page	13
Last Page	18
Publication Type	Version of Record
Access Rights	open access
JaLC DOI	https://doi.org/10.15017/17888
Related DOI	Research reports on information science and electrical engineering of Kyushu University \|\|15(1) \|\| p13-18
	九州大学大学院システム情報科学紀要 \|\| 15(1) \|\| p13-18
	https://portal.isee.kyushu-u.ac.jp/
Related URI	Research reports on information science and electrical engineering of Kyushu University \|\|15(1) \|\| p13-18
	九州大学大学院システム情報科学紀要 \|\| 15(1) \|\| p13-18
	https://portal.isee.kyushu-u.ac.jp/
Relation	Research reports on information science and electrical engineering of Kyushu University \|\|15(1) \|\| p13-18
	九州大学大学院システム情報科学紀要 \|\| 15(1) \|\| p13-18
	https://portal.isee.kyushu-u.ac.jp/
Abstract	Polynomial stabilization method has important feature in PID tuning. It computationally characterizes the entire set of admissible PID gains for various control system configurations. This paper shows... a correction is needed in order to find all robust PID region controllers that satisfy a given robust performance. We also provides selection procedure for searching the best PID gains controllers in the obtained PID gains region. Then, the corrected polynomial stabilization algorithm is applied on a short DC servo-driven belt conveyor system. Here, we suggest a simple model for the system. The admissible PID gains are showed both in 2D plot at specified value of kp, and in 3D plot for various values of kp. Hence, this paper provides a viable and practical means for modeling and robust PID tuning for a short DC servo-driven belt conveyor systemshow more

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PISSN	1342-3819
EISSN	2188-0891
NCID	AN10569524
Record ID	17888
Peer-Reviewed	Refereed
Subject Terms	PID tuning
	Robust performance
	Short DC servo-driven belt conveyor system
	Modeling
	Selection procedure
	Correction of polynomial stabilization algorithm
Type	紀要論文
Created Date	2011.10.07
Modified Date	2020.10.26

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＜departmental bulletin paper＞ Characterization of All Robust PID Controllers for Belt Conveyor System via Corrected Polynomial Stabilization

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＜departmental bulletin paper＞
Characterization of All Robust PID Controllers for Belt Conveyor System via Corrected Polynomial Stabilization