Dynamic stabilization of an Euler-Bernoulli beam under boundary control and non-collocated observation

Bao Zhu Guo; Jun Min Wang; Kun Yi Yang

doi:10.1016/j.sysconle.2008.02.004

Dynamic stabilization of an Euler-Bernoulli beam under boundary control and non-collocated observation

Bao Zhu Guo, Jun Min Wang^*, Kun Yi Yang

^*Corresponding author for this work

School of Mathematics and Statistics

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

57 Citations (Scopus)

Abstract

We study the dynamic stabilization of an Euler-Bernoulli beam system using boundary force control at the free end and bending strain observation at the clamped end. We construct an infinite-dimensional observer to track the state exponentially. A proportional output feedback control based on the estimated state is designed. The closed-loop system is shown to be non-dissipative but admits a set of generalized eigenfunctions, which forms a Riesz basis for the state space. As consequences, both the spectrum-determined growth condition and exponential stability are concluded.

Original language	English
Pages (from-to)	740-749
Number of pages	10
Journal	Systems and Control Letters
Volume	57
Issue number	9
DOIs	https://doi.org/10.1016/j.sysconle.2008.02.004
Publication status	Published - Sept 2008

Keywords

Controllability and observability
Euler-Bernoulli beam
Observer
Riesz basis
Stability

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10.1016/j.sysconle.2008.02.004

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title = "Dynamic stabilization of an Euler-Bernoulli beam under boundary control and non-collocated observation",

abstract = "We study the dynamic stabilization of an Euler-Bernoulli beam system using boundary force control at the free end and bending strain observation at the clamped end. We construct an infinite-dimensional observer to track the state exponentially. A proportional output feedback control based on the estimated state is designed. The closed-loop system is shown to be non-dissipative but admits a set of generalized eigenfunctions, which forms a Riesz basis for the state space. As consequences, both the spectrum-determined growth condition and exponential stability are concluded.",

keywords = "Controllability and observability, Euler-Bernoulli beam, Observer, Riesz basis, Stability",

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T1 - Dynamic stabilization of an Euler-Bernoulli beam under boundary control and non-collocated observation

AU - Guo, Bao Zhu

AU - Wang, Jun Min

AU - Yang, Kun Yi

PY - 2008/9

Y1 - 2008/9

N2 - We study the dynamic stabilization of an Euler-Bernoulli beam system using boundary force control at the free end and bending strain observation at the clamped end. We construct an infinite-dimensional observer to track the state exponentially. A proportional output feedback control based on the estimated state is designed. The closed-loop system is shown to be non-dissipative but admits a set of generalized eigenfunctions, which forms a Riesz basis for the state space. As consequences, both the spectrum-determined growth condition and exponential stability are concluded.

AB - We study the dynamic stabilization of an Euler-Bernoulli beam system using boundary force control at the free end and bending strain observation at the clamped end. We construct an infinite-dimensional observer to track the state exponentially. A proportional output feedback control based on the estimated state is designed. The closed-loop system is shown to be non-dissipative but admits a set of generalized eigenfunctions, which forms a Riesz basis for the state space. As consequences, both the spectrum-determined growth condition and exponential stability are concluded.

KW - Controllability and observability

KW - Euler-Bernoulli beam

KW - Observer

KW - Riesz basis

KW - Stability

UR - http://www.scopus.com/inward/record.url?scp=47649089973&partnerID=8YFLogxK

U2 - 10.1016/j.sysconle.2008.02.004

DO - 10.1016/j.sysconle.2008.02.004

M3 - Article

AN - SCOPUS:47649089973

SN - 0167-6911

VL - 57

SP - 740

EP - 749

JO - Systems and Control Letters

JF - Systems and Control Letters

IS - 9

ER -

Dynamic stabilization of an Euler-Bernoulli beam under boundary control and non-collocated observation

Abstract

Keywords

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