Guiyun Yan scite author profile

Different from previous researches which mostly focused on linear response control of seismically excited high-rise buildings, this study aims to control nonlinear seismic response of high-rise buildings. To this end, a semi-active control strategy, in which H∞ control algorithm is used and magneto-rheological dampers are employed for an actuator, is presented to suppress the nonlinear vibration. In this strategy, a modified Kalman–Bucy observer which is suitable for the proposed semi-active strategy is developed to obtain the state vector from the measured semi-active control force and acceleration feedback, taking into account of the effects of nonlinearity, disturbance and uncertainty of controlled system parameters by the observed nonlinear accelerations. Then, the proposed semi-active H∞ control strategy is applied to the ASCE 20-story benchmark building when subjected to earthquake excitation and compared with the other control approaches by some control criteria. It is indicated that the proposed semi-active H∞ control strategy provides much better control performances by comparison with the semi-active MPC and Clipped-LQG control approaches, and can reduce nonlinear seismic response and minimize the damage in the buildings. Besides, it enhances the reliability of the control performance when compared with the active control strategy. Thus, the proposed semi-active H∞ control strategy is suitable for suppressing the nonlinear vibration of high-rise buildings.

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Seismic Performance of Midstory Isolated Structures under Near-Field Pulse-Like Ground Motion and Limiting Deformation of Isolation Layers

Yan

Chen

2015

Shock and Vibration

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Excessive deformation of the isolation layer in midstory isolated structures may occur under strong near-field pulse-like ground motion, which would result in the overturning collapse of the superstructure. The objective of the present research is to limit excessive deformation of the isolation layer and to reduce nonlinear response of midstory isolated structures. To this end, a protective system is presented to limit deformation of the isolation layer by soft pounding. Based on the Kelvin pounding model, a mechanical model is put forward for this protective system. In addition, a new method has been proposed that synthesizes artificial near-field pulse-like ground motion by combining the real near-field nonpulse ground motion with simple equivalent pulses. Also, the impact of artificial near-field pulse-like ground motion on the nonlinear response of midstory isolated structures and the deformation of the isolation layer has been investigated. The effectiveness of the midstory isolation with the protective system has been validated. The results show that the maximum deformation of the isolation layer significantly exceeds the allowable deformation of lead-rubber bearings when subjected to near-field pulse-like ground motion, and it causes the lead-rubber bearings destruction. The proposed protective system is effective in restricting the excessive deformation of the isolation layer and reducing nonlinear responses of the isolated structure, preventing collapse of the superstructure.

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Hysteretic behavior of replaceable steel plate damper for prefabricated joint with earthquake resilience

Yan

Liu

et al. 2022

Journal of Building Engineering

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Seismic performance of prefabricated beam-to-column joint with replaceable energy-dissipating steel hinge

Zheng

Chen

Wei

et al. 2022

Bull Earthquake Eng

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I wish to submit an original paper for publication in Bulletin of Earthquake Engineering, titled "Seismic performance of prefabricated beam-to-column joint with replaceable energy-dissipating steel hinge." The paper was coauthored by Xiao-Yang Chen, Chang-Gui Wei, and Gui-Yun Yan.This study presents a novel prefabricated beam-to-column joint for frame and hysteretic tests was conduct to evaluates the seismic performance and the restorable functional characteristics of the proposed joints. We believe that our study makes a significant contribution to the literature because the proposed prefabricated joint providing advantages for precast concrete reinforced frames, such as complete assembly, damage control, and maintainability of the structure after an earthquake.

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Guiyun Yan

Semi-active model predictive control for 3rd generation benchmark problem using smart dampers

A semi-active H∞ control strategy with application to the vibration suppression of nonlinear high-rise building under earthquake excitations

Seismic Performance of Midstory Isolated Structures under Near-Field Pulse-Like Ground Motion and Limiting Deformation of Isolation Layers

Hysteretic behavior of replaceable steel plate damper for prefabricated joint with earthquake resilience

Seismic performance of prefabricated beam-to-column joint with replaceable energy-dissipating steel hinge

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