Earthquake Wave Simulation for Aseismic Check of a Structure
Details
This book is concerned with simulation of non-stationary wave for aseismic check of nonlinear structures, in which simulated earthquake, referred to as critical earthquake, causes greater response on a given nonlinear structure than that of an observed record of an actual earthquake, referred to as target. The critical earthquake is simulated in such a way that satisfies amplitude and frequency restriction conditions. Critical earthquake is simulated by three numerical methods, all followed by an application on a given structure. In the first method, the simulation is carried out by modifying power spectral density (PSD) function of target at several consecutive time intervals. The modification of PSD function is dealt with the natural period of considered structure which might be prolonged at some time interval(s). The latter two methods based on drift of specified component(s) of non-stationary PSD function, which is determined using a narrow band filter, and multi-filter function of target to the peak acceleration time of target. The specified components correspond to and around the natural frequency of considered structure.
Autorentext
Dr. Abdolhossein Fallahi has obtained his PhD degree in Earthquake Engineering in 2004 from Kanazawa University, Japan. He has worked in Azarbaijan University of Tarbiat Moallem (which recently renamed as University of Shahid Madani), in Tabriz, Iran as faculty member since 1992; and has been continuing his work after returning back from Japan.
Weitere Informationen
- Allgemeine Informationen
- GTIN 09783848487837
- Genre Elektrotechnik
- Auflage Aufl.
- Sprache Englisch
- Anzahl Seiten 204
- Größe H10mm x B220mm x T150mm
- Jahr 2012
- EAN 9783848487837
- Format Kartonierter Einband (Kt)
- ISBN 978-3-8484-8783-7
- Titel Earthquake Wave Simulation for Aseismic Check of a Structure
- Autor Abdolhossein Fallahi , Masaru Kitaura , Masakatsu Miyajima
- Untertitel Simulation of earthquake wave for a nonlinear structure considering non-stationary characteristic of earthquake motion
- Gewicht 287g
- Herausgeber LAP Lambert Academic Publishing