Control of building vibration against earthquakes

Helen Wu; Bijan Samali

Control of building vibration against earthquakes

Research output: Chapter in Book / Conference Paper › Conference Paper › peer-review

Abstract

An aseismic hybrid control system was employed to protect a five-storey benchmark-building model against strong earthquakes. The hybrid control system consists of a base isolation system (laminated rubber bearings) connected to an active control system (a tuned mass damper and an actuator). A five-storey benchmark model is developed to study the effectiveness of the hybrid control system against different ground motions: El-Centro 1940, Hachinohe 1968, Kobe 1995, and Northridge 1994 earthquakes. It was found from the numerical results, that the rubber bearing system alone can perform well against Hachinohe and Northridge ground motions, but not well enough to protect the lower floors of the model against El-Centro and Kobe ground motions. After an active control system was implemented to the rubber-isolated model, further improvements in earthquake resistance against these four earthquakes were obtained, especially against the El-Centro and Kobe. It is shown that a combined use of active and passive control systems, (referred to as hybrid control system), is more effective in reducing the building response under strong earthquakes.

Original language	English
Title of host publication	Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005
Subtitle of host publication	Acoustics in a Changing Environment
Pages	153-157
Number of pages	5
Publication status	Published - 2005
Externally published	Yes
Event	Annual Conference of the Australian Acoustical Society 2005: Acoustics in a Changing Environment, Acoustics 2005 - Busselton, WA, Australia Duration: 9 Nov 2005 → 11 Nov 2005

Publication series

Name	Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005: Acoustics in a Changing Environment

Conference

Conference	Annual Conference of the Australian Acoustical Society 2005: Acoustics in a Changing Environment, Acoustics 2005
Country/Territory	Australia
City	Busselton, WA
Period	9/11/05 → 11/11/05

Cite this

@inproceedings{ecc0ae488d88480da23713eab0b347c7,

title = "Control of building vibration against earthquakes",

abstract = "An aseismic hybrid control system was employed to protect a five-storey benchmark-building model against strong earthquakes. The hybrid control system consists of a base isolation system (laminated rubber bearings) connected to an active control system (a tuned mass damper and an actuator). A five-storey benchmark model is developed to study the effectiveness of the hybrid control system against different ground motions: El-Centro 1940, Hachinohe 1968, Kobe 1995, and Northridge 1994 earthquakes. It was found from the numerical results, that the rubber bearing system alone can perform well against Hachinohe and Northridge ground motions, but not well enough to protect the lower floors of the model against El-Centro and Kobe ground motions. After an active control system was implemented to the rubber-isolated model, further improvements in earthquake resistance against these four earthquakes were obtained, especially against the El-Centro and Kobe. It is shown that a combined use of active and passive control systems, (referred to as hybrid control system), is more effective in reducing the building response under strong earthquakes.",

author = "Helen Wu and Bijan Samali",

year = "2005",

language = "English",

isbn = "9781622762682",

series = "Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005: Acoustics in a Changing Environment",

pages = "153--157",

booktitle = "Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005",

note = "Annual Conference of the Australian Acoustical Society 2005: Acoustics in a Changing Environment, Acoustics 2005 ; Conference date: 09-11-2005 Through 11-11-2005",

}

Wu, H & Samali, B 2005, Control of building vibration against earthquakes. in Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005: Acoustics in a Changing Environment. Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005: Acoustics in a Changing Environment, pp. 153-157, Annual Conference of the Australian Acoustical Society 2005: Acoustics in a Changing Environment, Acoustics 2005, Busselton, WA, Australia, 9/11/05.

Control of building vibration against earthquakes. / Wu, Helen ; Samali, Bijan.
Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005: Acoustics in a Changing Environment. 2005. p. 153-157 (Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005: Acoustics in a Changing Environment).

Research output: Chapter in Book / Conference Paper › Conference Paper › peer-review

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AU - Samali, Bijan

PY - 2005

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N2 - An aseismic hybrid control system was employed to protect a five-storey benchmark-building model against strong earthquakes. The hybrid control system consists of a base isolation system (laminated rubber bearings) connected to an active control system (a tuned mass damper and an actuator). A five-storey benchmark model is developed to study the effectiveness of the hybrid control system against different ground motions: El-Centro 1940, Hachinohe 1968, Kobe 1995, and Northridge 1994 earthquakes. It was found from the numerical results, that the rubber bearing system alone can perform well against Hachinohe and Northridge ground motions, but not well enough to protect the lower floors of the model against El-Centro and Kobe ground motions. After an active control system was implemented to the rubber-isolated model, further improvements in earthquake resistance against these four earthquakes were obtained, especially against the El-Centro and Kobe. It is shown that a combined use of active and passive control systems, (referred to as hybrid control system), is more effective in reducing the building response under strong earthquakes.

AB - An aseismic hybrid control system was employed to protect a five-storey benchmark-building model against strong earthquakes. The hybrid control system consists of a base isolation system (laminated rubber bearings) connected to an active control system (a tuned mass damper and an actuator). A five-storey benchmark model is developed to study the effectiveness of the hybrid control system against different ground motions: El-Centro 1940, Hachinohe 1968, Kobe 1995, and Northridge 1994 earthquakes. It was found from the numerical results, that the rubber bearing system alone can perform well against Hachinohe and Northridge ground motions, but not well enough to protect the lower floors of the model against El-Centro and Kobe ground motions. After an active control system was implemented to the rubber-isolated model, further improvements in earthquake resistance against these four earthquakes were obtained, especially against the El-Centro and Kobe. It is shown that a combined use of active and passive control systems, (referred to as hybrid control system), is more effective in reducing the building response under strong earthquakes.

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T3 - Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005: Acoustics in a Changing Environment

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BT - Annual Conference of the Australian Acoustical Society 2005, Acoustics 2005

T2 - Annual Conference of the Australian Acoustical Society 2005: Acoustics in a Changing Environment, Acoustics 2005

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ER -

Control of building vibration against earthquakes

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