単一の不確定パラメータを有する線形時不変系のロバストH_∞性能解析: 双対LMIに基づく緩和問題の漸近的に厳密な階層的構成と非漸近的な厳密性検証

雄介 松田; 雅人 田原; 義雄 蛯原; 朋道 萩原

doi:10.5687/iscie.23.46

単一の不確定パラメータを有する線形時不変系のロバストH_∞性能解析: 双対LMIに基づく緩和問題の漸近的に厳密な階層的構成と非漸近的な厳密性検証

Translated title of the contribution: Robust H_∞ Performance Analysis of LTI Systems with a Single Uncertain Parameter: Asymptotically Exact Construction of a Sequence of Relaxation Problems via Dual LMIs and Non-Asymptotic Exactness Verification

松田雄介, 田原雅人, 蛯原義雄, 萩原朋道

Section of Measurement and Control Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

This paper addresses the robust H∞ performance analysis problem of linear time-invariant (LTI) systems whose state-space coefficient matrices depend polynomially on a single uncertain parameter. By means of a dual LMI that characterizes the H∞ performance of uncertainty-free LTI systems, we firstly formulate this analysis problem as a polynomial matrix inequality (PMI) optimization problem. However, this PMI problem is non-convex and hence intractable in general. Therefore, we apply linearization and construct an infinite sequence of relaxation problems, represented by SDPs, with theoretical guarantee of asymptotic exactness in the limit. In order to detect whether an arbitrary relaxation problem in the sequence is “exact” in the sense that it provides the same optimal value as that of the original problem, we derive a rank condition on the SDP solution under which we can conclude the exactness.

Translated title of the contribution	Robust H_∞ Performance Analysis of LTI Systems with a Single Uncertain Parameter: Asymptotically Exact Construction of a Sequence of Relaxation Problems via Dual LMIs and Non-Asymptotic Exactness Verification
Original language	Japanese
Pages (from-to)	46-55
Number of pages	10
Journal	システム制御情報学会論文誌
Volume	23
Issue number	3
DOIs	https://doi.org/10.5687/iscie.23.46
Publication status	Published - Mar 15 2010

Access to Document

10.5687/iscie.23.46

Fingerprint

Dive into the research topics of 'Robust H_∞ Performance Analysis of LTI Systems with a Single Uncertain Parameter: Asymptotically Exact Construction of a Sequence of Relaxation Problems via Dual LMIs and Non-Asymptotic Exactness Verification'. Together they form a unique fingerprint.

Cite this

単一の不確定パラメータを有する線形時不変系のロバストH_∞性能解析: 双対LMIに基づく緩和問題の漸近的に厳密な階層的構成と非漸近的な厳密性検証. / 松田雄介; 田原雅人; 蛯原義雄 et al.
In: システム制御情報学会論文誌, Vol. 23, No. 3, 15.03.2010, p. 46-55.

Research output: Contribution to journal › Article › peer-review

松田雄介, 田原雅人, 蛯原義雄 & 萩原朋道 2010, '単一の不確定パラメータを有する線形時不変系のロバストH_∞性能解析: 双対LMIに基づく緩和問題の漸近的に厳密な階層的構成と非漸近的な厳密性検証', システム制御情報学会論文誌, vol. 23, no. 3, pp. 46-55. https://doi.org/10.5687/iscie.23.46

@article{bf6ae6dfa82443c6aff8fb7cfa4b540e,

title = "単一の不確定パラメータを有する線形時不変系のロバストH_∞性能解析: 双対LMIに基づく緩和問題の漸近的に厳密な階層的構成と非漸近的な厳密性検証",

abstract = "This paper addresses the robust H∞ performance analysis problem of linear time-invariant (LTI) systems whose state-space coefficient matrices depend polynomially on a single uncertain parameter. By means of a dual LMI that characterizes the H∞ performance of uncertainty-free LTI systems, we firstly formulate this analysis problem as a polynomial matrix inequality (PMI) optimization problem. However, this PMI problem is non-convex and hence intractable in general. Therefore, we apply linearization and construct an infinite sequence of relaxation problems, represented by SDPs, with theoretical guarantee of asymptotic exactness in the limit. In order to detect whether an arbitrary relaxation problem in the sequence is “exact” in the sense that it provides the same optimal value as that of the original problem, we derive a rank condition on the SDP solution under which we can conclude the exactness.",

author = "雄介松田 and 雅人田原 and 義雄蛯原 and 朋道萩原",

year = "2010",

month = mar,

day = "15",

doi = "10.5687/iscie.23.46",

language = "日本語",

volume = "23",

pages = "46--55",

journal = "システム制御情報学会論文誌",

issn = "1342-5668",

publisher = "一般社団法人システム制御情報学会",

number = "3",

}

TY - JOUR

T1 - 単一の不確定パラメータを有する線形時不変系のロバストH_∞性能解析

T2 - 双対LMIに基づく緩和問題の漸近的に厳密な階層的構成と非漸近的な厳密性検証

AU - 松田, 雄介

AU - 田原, 雅人

AU - 蛯原, 義雄

AU - 萩原, 朋道

PY - 2010/3/15

Y1 - 2010/3/15

N2 - This paper addresses the robust H∞ performance analysis problem of linear time-invariant (LTI) systems whose state-space coefficient matrices depend polynomially on a single uncertain parameter. By means of a dual LMI that characterizes the H∞ performance of uncertainty-free LTI systems, we firstly formulate this analysis problem as a polynomial matrix inequality (PMI) optimization problem. However, this PMI problem is non-convex and hence intractable in general. Therefore, we apply linearization and construct an infinite sequence of relaxation problems, represented by SDPs, with theoretical guarantee of asymptotic exactness in the limit. In order to detect whether an arbitrary relaxation problem in the sequence is “exact” in the sense that it provides the same optimal value as that of the original problem, we derive a rank condition on the SDP solution under which we can conclude the exactness.

AB - This paper addresses the robust H∞ performance analysis problem of linear time-invariant (LTI) systems whose state-space coefficient matrices depend polynomially on a single uncertain parameter. By means of a dual LMI that characterizes the H∞ performance of uncertainty-free LTI systems, we firstly formulate this analysis problem as a polynomial matrix inequality (PMI) optimization problem. However, this PMI problem is non-convex and hence intractable in general. Therefore, we apply linearization and construct an infinite sequence of relaxation problems, represented by SDPs, with theoretical guarantee of asymptotic exactness in the limit. In order to detect whether an arbitrary relaxation problem in the sequence is “exact” in the sense that it provides the same optimal value as that of the original problem, we derive a rank condition on the SDP solution under which we can conclude the exactness.

U2 - 10.5687/iscie.23.46

DO - 10.5687/iscie.23.46

M3 - 学術誌

SN - 1342-5668

VL - 23

SP - 46

EP - 55

JO - システム制御情報学会論文誌

JF - システム制御情報学会論文誌

IS - 3

ER -