Observations on the Reliability of Alternative Multiple-Mode Pushover Analysis Methods
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Abstract
Although multiple-mode pushover analysis methods have been proposed for general use in the seismic analysis of moment-resisting frames, difficulties have been encountered in their implementation with specific structures. Two alternative multiple mode methods were developed to overcome these difficulties. Estimates of four response quantities determined with the alternative methods are compared herein for a set of five buildings subjected to suites of scaled ground motions. The uneven accuracy of the estimates, relative to the range of values determined by nonlinear dynamic analysis, suggests that results obtained by both alternative methods should be regarded with caution, until such time that the scope of applicability of the methods has been clearly established.
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Acknowledgments
The writers extend their sincere appreciation to Professor Anil K. Chopra and Professor Rakesh K. Goel for their insightful contributions to modal pushover analysis. Much of the present work was stimulated by the discussions and developments that took place under the auspices of the recent ATC-55 project. This project, which focused on the use of inelastic analysis procedures for design and rehabilitation, was conducted by the Applied Technology Council with funding from the Federal Emergency Management Agency. However, the writers are solely responsible for the results and conclusions presented herein, which do not necessarily represent the views of these organizations.
References
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© 2006 ASCE.
History
Received: Oct 5, 2004
Accepted: Jun 27, 2005
Published online: Mar 1, 2006
Published in print: Mar 2006
Notes
Note. Associate Editor: Gregory A. MacRae
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