姓名 |
林威志(Wei-Chin
Lin) |
電子郵件信箱 |
s89116092000@yahoo.com.tw |
畢業系所 |
營建工程系碩士班(Department
and Graduate Institute of Constrction Engineering) |
畢業學位 |
碩士(Master) |
畢業時期 |
89學年第2學期 |
論文名稱(中) |
應用卡氏過濾器於結構動力參數識別 |
論文名稱(英) |
Application of
Kalman Filter to Structural Dynamic Parameter Identification |
檔案 |
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|
論文使用權限 |
校內外均一年後公開 |
論文語文/頁數 |
中文/171 |
摘要(中) |
摘 要 由於921集集大地震造成了重大的傷亡,使得建築物之耐震設計受到相當程度的重視。結構物的耐震設計必須考慮地震力作用下結構物的動力行為,而為了了解結構系統的動力行為,我們可以藉著系統識別的方法和技巧求得結構系統的動力模式及參數。 本文是利用卡氏過濾器在時間域上進行振態參數識別,以探討結構受震時的動力特性。所識別的系統分為兩種,一種是以數值模擬的方式產生,即將已知結構特性的五層扭轉耦合結構經數值模擬的方式計算其受1940年El
Centro雙向地震力作用下產生之各層樓版的反應,根據該反應再以卡氏過濾器法識別該結構之動力特性,同時也驗證該法在識別扭轉耦合結構之可行性。另一種是以實際結構的地震記錄來進行識別,由於中興大學土木環工大樓有扭轉耦合效應,因此之前所發展的識別法可應用於該樓,所以第一棟識別之實際結構是中興大學土木環工大樓,以其在921餘震所蒐集之實測地表加速度及加速度反應歷時紀錄進行系統振態參數識別;第二棟則是台北之台電大樓主樓,根據民國九十一年三月三十一日所蒐集之實測地表加速度及加速度反應歷時紀錄進行系統振態參數識別。識別各棟建築物其動力參數後,應以識別的參數估測結構之反應,將估測與實測結果作比較,以證明本文之理論與識別方法確實可應用於實際結構之系統振態參數識別。 |
摘要(英) |
ABSTRACT Due to
the great damage induced by the Chi-Chi Earthquake occurred in Taiwan on
September 21, more and more emphases have been put on the earthquake
resistant design of buildings. Dynamic behavior of buildings under
earthquakes should be considered in the process of design. In order to
realize the dynamic behavior of structural systems, we can determine the
dynamic models and parameters by system identification
techniques. The extended Kalman Filter and spectral analysis
techniques are used to identify the modal parameters in the time domain.
There are two kinds of systems to be identified, one is the artificial
system, and the other is the real building system. The artificial system
is a five-story torsionally-coupled building subjected to 1940 El Centro
bi-directional earthquake. The dynamic characteristics of this system
are identified with the aid of simulated response and the effectiveness
of the proposed extended Kalman Filter algorithm is verified. The
identification of the real building systems is performed with the aid of
real earthquake records. The first building identified is the
Civil-Environment Building of Chung-Shin University with
torsionally-coupled effect. The same algorithm applied for the
artificial system is employed here. The modal characteristics of this
building are identified with one of the recorded accelerograms obtained
from the aftershocks of Chi-Chi earthquake. The second real building
identified here is the Taiwan Electricity Main Building located in
Taipei. The recorded accelerograms used here are the data collected on
March 31, 2002. Finally, the estimated parameters enable us to predict
the structural response under seismic loading. The comparison is made
between the predicted acceleration and the measured one for each
case. |
關鍵字(中) |
系統識別 |
關鍵字(英) |
kalman |
指導教授 |
王淑娟
|