Decay rates for a beam with pointwise force and moment feedback

Kais Ammari; Zhuangyi Liu; Marius Tucsnak

doi:10.1007/s004980200009

Decay rates for a beam with pointwise force and moment feedback

Kais Ammari, Zhuangyi Liu, Marius Tucsnak

Mathematics & Statistics

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Abstract

We consider the Rayleigh beam equation and the Euler-Bernoulli beam equation with pointwise feedback shear force and bending moment at the position ξ in a bounded domain (0, π) with certain boundary conditions. The energy decay rate in both cases is investigated. In the case of the Rayleigh beam, we show that the decay rate is exponential if and only if ξ/π is a rational number with coprime factorization ξ/π = p/q, where q is odd. Moreover, for any other location of the actuator we give explicit polynomial decay estimates valid for regular initial data. In the case of the Euler-Bernoulli beam, even for a nonhomogeneous material, exponential decay of the energy is proved, independently of the position of the actuator.

Original language	English (US)
Pages (from-to)	229-255
Number of pages	27
Journal	Mathematics of Control, Signals, and Systems
Volume	15
Issue number	3
DOIs	https://doi.org/10.1007/s004980200009
State	Published - Sep 18 2002

Keywords

Exponential decay
Observability inequality
Pointwise control
Polynomial decay

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abstract = "We consider the Rayleigh beam equation and the Euler-Bernoulli beam equation with pointwise feedback shear force and bending moment at the position ξ in a bounded domain (0, π) with certain boundary conditions. The energy decay rate in both cases is investigated. In the case of the Rayleigh beam, we show that the decay rate is exponential if and only if ξ/π is a rational number with coprime factorization ξ/π = p/q, where q is odd. Moreover, for any other location of the actuator we give explicit polynomial decay estimates valid for regular initial data. In the case of the Euler-Bernoulli beam, even for a nonhomogeneous material, exponential decay of the energy is proved, independently of the position of the actuator.",

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AU - Ammari, Kais

AU - Liu, Zhuangyi

AU - Tucsnak, Marius

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N2 - We consider the Rayleigh beam equation and the Euler-Bernoulli beam equation with pointwise feedback shear force and bending moment at the position ξ in a bounded domain (0, π) with certain boundary conditions. The energy decay rate in both cases is investigated. In the case of the Rayleigh beam, we show that the decay rate is exponential if and only if ξ/π is a rational number with coprime factorization ξ/π = p/q, where q is odd. Moreover, for any other location of the actuator we give explicit polynomial decay estimates valid for regular initial data. In the case of the Euler-Bernoulli beam, even for a nonhomogeneous material, exponential decay of the energy is proved, independently of the position of the actuator.

AB - We consider the Rayleigh beam equation and the Euler-Bernoulli beam equation with pointwise feedback shear force and bending moment at the position ξ in a bounded domain (0, π) with certain boundary conditions. The energy decay rate in both cases is investigated. In the case of the Rayleigh beam, we show that the decay rate is exponential if and only if ξ/π is a rational number with coprime factorization ξ/π = p/q, where q is odd. Moreover, for any other location of the actuator we give explicit polynomial decay estimates valid for regular initial data. In the case of the Euler-Bernoulli beam, even for a nonhomogeneous material, exponential decay of the energy is proved, independently of the position of the actuator.

KW - Exponential decay

KW - Observability inequality

KW - Pointwise control

KW - Polynomial decay

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Decay rates for a beam with pointwise force and moment feedback

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