کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
303873 | 512758 | 2016 | 9 صفحه PDF | دانلود رایگان |
• A new approach is presented for simulating spatially correlated accelerograms.
• The formulation extends the stochastic decomposition technique to wavelet domain.
• A complex variant of the modified Littlewood-Paley wavelet function is proposed.
• The proposed approach is illustrated by generating ensembles at four stations.
For the seismic analysis of complex or nonlinear extended structures, it is useful to generate a set of properly correlated earthquake accelerograms that are consistent with a specified seismic hazard. A new simulation approach is presented in this paper for the generation of ensembles of spatially correlated accelerograms such that the simulated motions are consistent with (i) a parent accelerogram in the sense of temporal variations in frequency content, (ii) a design spectrum in the mean sense, and (iii) with a given instantaneous coherency structure. The formulation is based on the extension of stochastic decomposition technique to wavelet domain via the method of spectral factorization. A complex variant of the modified Littlewood-Paley wavelet function is proposed for the wavelet-based representation of earthquake accelerograms, such that this explicitly brings out the phase information of the signal, besides being able to decompose it into component time-histories having energy in non-overlapping frequency bands. The proposed approach is illustrated by generating ensembles of accelerograms at four stations.
Journal: Soil Dynamics and Earthquake Engineering - Volume 87, August 2016, Pages 116–124