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A platform for research: civil engineering, architecture and urbanism
Generation of spectrum-compatible earthquake ground motions considering intrinsic spectral variability using Hilbert–Huang transform
Abstract A new approach is presented for generating a desired number of earthquake ground motions, which are compatible with a target seismic design spectrum for building structural design, based on a small number of actual earthquake records. This set of spectrum-compatible earthquake ground motions is generated by using Hilbert–Huang transform and solving related optimization problems. The matrix of correlation coefficients of spectral accelerations of the generated earthquake ground motions closely matches the target spectral correlation matrix predicted by the Next Generation Attenuation Project. The generation procedure preserves the non-stationary characteristics of seed actual earthquake records and ensures the intrinsic aleatory variability of real ground motions for a given scenario earthquake.
Highlights ▸ Desired numbers of motions are generated using a small number of recorded motions. ▸ Mean spectrum of the generated motions closely matches the target spectrum. ▸ The generated motions possess naturally intrinsic spectral variability.
Generation of spectrum-compatible earthquake ground motions considering intrinsic spectral variability using Hilbert–Huang transform
Abstract A new approach is presented for generating a desired number of earthquake ground motions, which are compatible with a target seismic design spectrum for building structural design, based on a small number of actual earthquake records. This set of spectrum-compatible earthquake ground motions is generated by using Hilbert–Huang transform and solving related optimization problems. The matrix of correlation coefficients of spectral accelerations of the generated earthquake ground motions closely matches the target spectral correlation matrix predicted by the Next Generation Attenuation Project. The generation procedure preserves the non-stationary characteristics of seed actual earthquake records and ensures the intrinsic aleatory variability of real ground motions for a given scenario earthquake.
Highlights ▸ Desired numbers of motions are generated using a small number of recorded motions. ▸ Mean spectrum of the generated motions closely matches the target spectrum. ▸ The generated motions possess naturally intrinsic spectral variability.
Generation of spectrum-compatible earthquake ground motions considering intrinsic spectral variability using Hilbert–Huang transform
Ni, Shun-Hao (author) / Xie, Wei-Chau (author) / Pandey, Mahesh D. (author)
Structural Safety ; 42 ; 45-53
2013-01-30
9 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2013
Analysis of earthquake ground motions using an improved Hilbert-Huang transform
| British Library Online Contents | 2008