Titlebook: Dynamic Modeling and Boundary Control of Flexible Axially Moving System; Yu Liu,Fengjiao Liu,Wei Zhao Book 2023 The Editor(s) (if applicab

Corticosteroids

書目名稱Dynamic Modeling and Boundary Control of Flexible Axially Moving System影響因子(影響力)




書目名稱Dynamic Modeling and Boundary Control of Flexible Axially Moving System影響因子(影響力)學(xué)科排名




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書目名稱Dynamic Modeling and Boundary Control of Flexible Axially Moving System被引頻次




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書目名稱Dynamic Modeling and Boundary Control of Flexible Axially Moving System讀者反饋




書目名稱Dynamic Modeling and Boundary Control of Flexible Axially Moving System讀者反饋學(xué)科排名

深淵

PDE Modeling for the Axially Moving Structures,structure exhibits vibration in the presence of disturbances.?Since the undesirable or excessive vibration can degrade system performance, the vibration suppression has become an important research area and gained more and more attention in recent decades. In this chapter, we mainly introduce the PD

玉米棒子

Boundary Control of an Axially Moving System with High Acceleration/Deceleration,ybrid dynamic model is difficult to control due to the infinite dimensionality of the system. The most conventional approach for the control design of axially moving belt system is the?modal control approach based on truncated finite-dimensional model. But the vital disadvantage of the?modal control

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strain

Adaptive Boundary Control of an Axially Moving System with High Acceleration/Deceleration,ic uncertainty, an adaptive boundary controller is designed to suppress the vibration displacement of the system?by combining the Lyapunov theory, the adaptive control technique, and the S-curve ac-/deceleration method. With the proposed adaptive boundary control, the control-spillover phenomenon ca

RADE

Adaptive Boundary Control of an Axially Moving System with High Acceleration/Deceleration and Distual model of the belt system including the dynamics of high acceleration/deceleration and distributed disturbance is derived by utilizing the extended Hamilton’s principle.?Subsequently, by using the Lyapunov synthesis method and adaptive technique, an adaptive boundary control is developed to suppre

RADE

Boundary Control of an Axially Moving Accelerated/Decelerated Belt System, of the belt system is described by a nonhomogeneous partial differential equation and a set of ordinary differential equations with consideration of the high acceleration/deceleration and unknown spatiotemporally varying distributed disturbance.?Applying the finite-dimensional backstepping control

conference

GRAZE

Adaptive Output Feedback Boundary Control for a Class of Axially Moving System, the influence of unknown disturbances. To that end, a boundary adaptive output feedback control is presented by merging Lyapunov theory, observer backstepping technique, high-gain observers, and robust adaptive control theory to globally stabilize the vibration and compensate for the uncertainties

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