The well-posedness and stability of a beam equation with conjugate variables assigned at the same boundary point

Bao Zhu Guo; Jun Min Wang

doi:10.1109/TAC.2005.860275

The well-posedness and stability of a beam equation with conjugate variables assigned at the same boundary point

Bao Zhu Guo^*, Jun Min Wang

^*Corresponding author for this work

School of Mathematics and Statistics

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

15 Citations (Scopus)

Abstract

A Euler-Bernoulli beam equation subject to a special boundary feedback is considered. The well-posedness problem of the system proposed by G. Chen is studied. This problem is in sharp contrast to the general principle in applied mathematics that the conjugate variables cannot be assigned simultaneously at the same boundary point. We use the Riesz basis approach in our investigation. It is shown that the system is well-posed in the usual energy state space and that the state trajectories approach the zero eigenspace of the system as time goes to infinity. The relaxation of the applied mathematics principle gives more freedom in the design of boundary control for suppression of vibrations of flexible structures.

Original language	English
Pages (from-to)	2087-2093
Number of pages	7
Journal	IEEE Transactions on Automatic Control
Volume	50
Issue number	12
DOIs	https://doi.org/10.1109/TAC.2005.860275
Publication status	Published - Dec 2005

Keywords

Boundary control
C-semigroup
Euler-Bernoulli beam
Riesz basis
Stability

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10.1109/TAC.2005.860275

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abstract = "A Euler-Bernoulli beam equation subject to a special boundary feedback is considered. The well-posedness problem of the system proposed by G. Chen is studied. This problem is in sharp contrast to the general principle in applied mathematics that the conjugate variables cannot be assigned simultaneously at the same boundary point. We use the Riesz basis approach in our investigation. It is shown that the system is well-posed in the usual energy state space and that the state trajectories approach the zero eigenspace of the system as time goes to infinity. The relaxation of the applied mathematics principle gives more freedom in the design of boundary control for suppression of vibrations of flexible structures.",

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AU - Wang, Jun Min

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N2 - A Euler-Bernoulli beam equation subject to a special boundary feedback is considered. The well-posedness problem of the system proposed by G. Chen is studied. This problem is in sharp contrast to the general principle in applied mathematics that the conjugate variables cannot be assigned simultaneously at the same boundary point. We use the Riesz basis approach in our investigation. It is shown that the system is well-posed in the usual energy state space and that the state trajectories approach the zero eigenspace of the system as time goes to infinity. The relaxation of the applied mathematics principle gives more freedom in the design of boundary control for suppression of vibrations of flexible structures.

AB - A Euler-Bernoulli beam equation subject to a special boundary feedback is considered. The well-posedness problem of the system proposed by G. Chen is studied. This problem is in sharp contrast to the general principle in applied mathematics that the conjugate variables cannot be assigned simultaneously at the same boundary point. We use the Riesz basis approach in our investigation. It is shown that the system is well-posed in the usual energy state space and that the state trajectories approach the zero eigenspace of the system as time goes to infinity. The relaxation of the applied mathematics principle gives more freedom in the design of boundary control for suppression of vibrations of flexible structures.

KW - Boundary control

KW - C-semigroup

KW - Euler-Bernoulli beam

KW - Riesz basis

KW - Stability

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JO - IEEE Transactions on Automatic Control

JF - IEEE Transactions on Automatic Control

IS - 12

ER -

The well-posedness and stability of a beam equation with conjugate variables assigned at the same boundary point

Abstract

Keywords

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