A State Space Approach for Distributed Parameter Circuit--Disturbance-Rejection Problem for Infinite-Dimensional Systems--
Summary :
It is an important problem whether or not we can reject the disturbances from distributed parameter circuit. In order to analyze this problem structurally, it is necessary to investigate the basic equation of distributed parameter circuit in the framework of state space. Since the basic equation has two parameters for time and space, the state value belongs to an infinite-dimensional space. In this paper, the disturbance-rejection problems with incomplete state feedback and/or incomplete state feedback and feedforward for infinite-dimensional systems are studied in the framework of geometric approach. And under certain assumptions, necessary and/or sufficient conditions for these problems to be solvable are proved.
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- IEICE TRANSACTIONS on Fundamentals Vol.E77-A No.5 pp.778-783
- Publication Date
- 1994/05/25
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- Special Section PAPER (Special Section on Signal Processing and System Theory)
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Naohisa OTSUKA, Hiroshi INABA, Kazuo TORAICHI, "A State Space Approach for Distributed Parameter Circuit--Disturbance-Rejection Problem for Infinite-Dimensional Systems--" in IEICE TRANSACTIONS on Fundamentals,
vol. E77-A, no. 5, pp. 778-783, May 1994, doi: .
Abstract: It is an important problem whether or not we can reject the disturbances from distributed parameter circuit. In order to analyze this problem structurally, it is necessary to investigate the basic equation of distributed parameter circuit in the framework of state space. Since the basic equation has two parameters for time and space, the state value belongs to an infinite-dimensional space. In this paper, the disturbance-rejection problems with incomplete state feedback and/or incomplete state feedback and feedforward for infinite-dimensional systems are studied in the framework of geometric approach. And under certain assumptions, necessary and/or sufficient conditions for these problems to be solvable are proved.
URL: https://global.ieice.org/en_transactions/fundamentals/10.1587/e77-a_5_778/_p
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@ARTICLE{e77-a_5_778,
author={Naohisa OTSUKA, Hiroshi INABA, Kazuo TORAICHI, },
journal={IEICE TRANSACTIONS on Fundamentals},
title={A State Space Approach for Distributed Parameter Circuit--Disturbance-Rejection Problem for Infinite-Dimensional Systems--},
year={1994},
volume={E77-A},
number={5},
pages={778-783},
abstract={It is an important problem whether or not we can reject the disturbances from distributed parameter circuit. In order to analyze this problem structurally, it is necessary to investigate the basic equation of distributed parameter circuit in the framework of state space. Since the basic equation has two parameters for time and space, the state value belongs to an infinite-dimensional space. In this paper, the disturbance-rejection problems with incomplete state feedback and/or incomplete state feedback and feedforward for infinite-dimensional systems are studied in the framework of geometric approach. And under certain assumptions, necessary and/or sufficient conditions for these problems to be solvable are proved.},
keywords={},
doi={},
ISSN={},
month={May},}
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TY - JOUR
TI - A State Space Approach for Distributed Parameter Circuit--Disturbance-Rejection Problem for Infinite-Dimensional Systems--
T2 - IEICE TRANSACTIONS on Fundamentals
SP - 778
EP - 783
AU - Naohisa OTSUKA
AU - Hiroshi INABA
AU - Kazuo TORAICHI
PY - 1994
DO -
JO - IEICE TRANSACTIONS on Fundamentals
SN -
VL - E77-A
IS - 5
JA - IEICE TRANSACTIONS on Fundamentals
Y1 - May 1994
AB - It is an important problem whether or not we can reject the disturbances from distributed parameter circuit. In order to analyze this problem structurally, it is necessary to investigate the basic equation of distributed parameter circuit in the framework of state space. Since the basic equation has two parameters for time and space, the state value belongs to an infinite-dimensional space. In this paper, the disturbance-rejection problems with incomplete state feedback and/or incomplete state feedback and feedforward for infinite-dimensional systems are studied in the framework of geometric approach. And under certain assumptions, necessary and/or sufficient conditions for these problems to be solvable are proved.
ER -
English
