On the stabilization of the disk-beam system via torque and direct strain feedback controls

Boumediene Chentouf; Jun Min Wang

doi:10.1109/TAC.2015.2406974

On the stabilization of the disk-beam system via torque and direct strain feedback controls

Boumediene Chentouf^*, Jun Min Wang

^*المؤلف المقابل لهذا العمل

Mathematics

نتاج البحث: المساهمة في مجلة › Article › مراجعة النظراء

22 اقتباسات (Scopus)

ملخص

This note deals with the stabilization problem of a rotating disk-beam system. The proposed feedback law consists of a nonlinear torque control exerted on the disk, whereas a direct strain control is applied at the beam with a rigid offset. As a consequence, we end up with a nondissipative nonlinear hybrid PDE-ODE system and hence the existence and stability of solutions of the system cannot be addressed by using standard methods such as energy-multiplier or frequency-domain. To overcome this situation, we adopt the Riesz basis methodology and show that the closed-loop system is well-posed and stable as long as the angular velocity of the disk is less than a well-defined value related to the beam. The results are illustrated through a wide set of numerical examples.

اللغة الأصلية	English
رقم المقال	7047787
الصفحات (من إلى)	3006-3011
عدد الصفحات	6
دورية	IEEE Transactions on Automatic Control
مستوى الصوت	60
رقم الإصدار	11
المعرِّفات الرقمية للأشياء	https://doi.org/10.1109/TAC.2015.2406974
حالة النشر	Published - نوفمبر 1 2015

ASJC Scopus subject areas

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10.1109/TAC.2015.2406974

الملفات والروابط الأخرى

قم بذكر هذا

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abstract = "This note deals with the stabilization problem of a rotating disk-beam system. The proposed feedback law consists of a nonlinear torque control exerted on the disk, whereas a direct strain control is applied at the beam with a rigid offset. As a consequence, we end up with a nondissipative nonlinear hybrid PDE-ODE system and hence the existence and stability of solutions of the system cannot be addressed by using standard methods such as energy-multiplier or frequency-domain. To overcome this situation, we adopt the Riesz basis methodology and show that the closed-loop system is well-posed and stable as long as the angular velocity of the disk is less than a well-defined value related to the beam. The results are illustrated through a wide set of numerical examples.",

keywords = "Riesz basis, Rotating disk-beam, direct strain control, stability, torque control",

author = "Boumediene Chentouf and Wang, {Jun Min}",

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AU - Wang, Jun Min

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N2 - This note deals with the stabilization problem of a rotating disk-beam system. The proposed feedback law consists of a nonlinear torque control exerted on the disk, whereas a direct strain control is applied at the beam with a rigid offset. As a consequence, we end up with a nondissipative nonlinear hybrid PDE-ODE system and hence the existence and stability of solutions of the system cannot be addressed by using standard methods such as energy-multiplier or frequency-domain. To overcome this situation, we adopt the Riesz basis methodology and show that the closed-loop system is well-posed and stable as long as the angular velocity of the disk is less than a well-defined value related to the beam. The results are illustrated through a wide set of numerical examples.

AB - This note deals with the stabilization problem of a rotating disk-beam system. The proposed feedback law consists of a nonlinear torque control exerted on the disk, whereas a direct strain control is applied at the beam with a rigid offset. As a consequence, we end up with a nondissipative nonlinear hybrid PDE-ODE system and hence the existence and stability of solutions of the system cannot be addressed by using standard methods such as energy-multiplier or frequency-domain. To overcome this situation, we adopt the Riesz basis methodology and show that the closed-loop system is well-posed and stable as long as the angular velocity of the disk is less than a well-defined value related to the beam. The results are illustrated through a wide set of numerical examples.

KW - Riesz basis

KW - Rotating disk-beam

KW - direct strain control

KW - stability

KW - torque control

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On the stabilization of the disk-beam system via torque and direct strain feedback controls

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ASJC Scopus subject areas

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