Using the Marginal Spectrum Method to Extract Spherical Free Oscillation of Strong Earthquakes

The research on earth free oscillation has become one of important methods to detect the internal structure of earth. This paper uses the marginal spectrum method based on Hilbert Huang transform for the first time, and the Tonghe station's borehole strain data without removing solid tide, then...

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Bibliographic Details
Published inInternational Conference on Measuring Technology and Mechatronics Automation (Print) pp. 803 - 806
Main Authors Li Jiye, Wu Xiaojun, Wang Qiang, Hu Binsheng, Ren Jianhui, Zhang Yanji, Sun Pengyu, Sun Qiang, Wu Haibo
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.01.2014
Subjects
Data mining
Earth
Earthquakes
free oscillation
Hilbert Huang transform
Oscillators
the marginal spectrum
the strong earthquakes
Time-frequency analysis
Transforms
Vibrations
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Summary:The research on earth free oscillation has become one of important methods to detect the internal structure of earth. This paper uses the marginal spectrum method based on Hilbert Huang transform for the first time, and the Tonghe station's borehole strain data without removing solid tide, then we extracted spherical free oscillation mode that are motivated by Wenchuan M8.0 earthquake, Chile M8.8 earthquake and the east coast of Honshu of Japan M9.0 earthquake, the results are very close to the PREM mode. Among which, the Wenchuan earthquake is tested 24 spherical fundamental frequency modes, the Chile and Japan earthquakes are both 76, which consist of 0 S 0 and 0 S 2 ~ 0 S 76 . The marginal spectrum method can effectively extract the earth free oscillation because of these strong earthquakes' mode have spectrum divided phenomenon.
ISSN:2157-1473
DOI:10.1109/ICMTMA.2014.198