Add to ORKG[[abstract]]Recently, several hybrid protective systems have been explored for applications to seismic excited bridge structures. In particular, two types of aseismic hybrid protective systems have been shown to be quite effective: rubber bearings and variable dampers (or actuators), and sliding systems. The control methods are based on the theory of variable structure system (VSS) or sliding mode control (SMC). Emphasis is placed on the direct output feedback controllers using only a few sensors. Sensivity studies are conducted to evaluate and compare the effectiveness of passive sliding isolators and hybrid protective systems for reducing the response of seismic-excited bridge structures. The advantages of each protective system are demon...
The motion of structural systems is a major challenge faced in the field of structural engineering. ...
The motion of structural systems is a major challenge faced in the field of structural engineering. ...
The control of structures to improve their performance during earthquakes was first proposed more th...
[[abstract]]Recently, several hybrid protective systems have been explored for applications to seism...
[[abstract]]Recently, several hybrid protective systems have been explored for applications to seism...
[[abstract]]Recently, several hybrid protective systems have been explored for applications to seism...
Seismic vibration due to earthquake can damage the curved bridges that are the main interconnecting ...
This paper presents an integrated passive-active (i.e. hybrid) system for seismic response control o...
Kewords: hybrid control system, µ-synthesis method, seismic response control Summary This paper pres...
The paper proposes an aseismic hybrid control system to control the response of structures subjected...
This paper presents a hybrid control strategy for seismic protection of a benchmark cable-stayed bri...
An aseismic hybrid control system was employed to protect a five-storey benchmark-building model aga...
The performance of passive hybrid control systems for the earthquake protection of a cable-stayed br...
This paper describes the application of semiactive devices for controlling the earthquake response o...
In recent years, considerable attention has been paid to research and development of structural cont...
The motion of structural systems is a major challenge faced in the field of structural engineering. ...
The motion of structural systems is a major challenge faced in the field of structural engineering. ...
The control of structures to improve their performance during earthquakes was first proposed more th...
[[abstract]]Recently, several hybrid protective systems have been explored for applications to seism...
[[abstract]]Recently, several hybrid protective systems have been explored for applications to seism...
[[abstract]]Recently, several hybrid protective systems have been explored for applications to seism...
Seismic vibration due to earthquake can damage the curved bridges that are the main interconnecting ...
This paper presents an integrated passive-active (i.e. hybrid) system for seismic response control o...
Kewords: hybrid control system, µ-synthesis method, seismic response control Summary This paper pres...
The paper proposes an aseismic hybrid control system to control the response of structures subjected...
This paper presents a hybrid control strategy for seismic protection of a benchmark cable-stayed bri...
An aseismic hybrid control system was employed to protect a five-storey benchmark-building model aga...
The performance of passive hybrid control systems for the earthquake protection of a cable-stayed br...
This paper describes the application of semiactive devices for controlling the earthquake response o...
In recent years, considerable attention has been paid to research and development of structural cont...
The motion of structural systems is a major challenge faced in the field of structural engineering. ...
The motion of structural systems is a major challenge faced in the field of structural engineering. ...
The control of structures to improve their performance during earthquakes was first proposed more th...