SEISMIC HAZARD POTENTIAL ANALYSIS IN YOGYAKARTA BASED ON HVSR CURVE ESTIMATION
In 2006, the Special Region of Yogyakarta was shaken by a destructive earthquake. The United States Geological Survey (USGS) recorded that the earthquake had a magnitude of 6,3 Mw at a depth of 12,5 km below the surface that was triggered by strike slip fault activity. The present study aims to e...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/63104 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In 2006, the Special Region of Yogyakarta was shaken by a destructive earthquake. The United
States Geological Survey (USGS) recorded that the earthquake had a magnitude of 6,3 Mw at
a depth of 12,5 km below the surface that was triggered by strike slip fault activity. The present
study aims to estimate seismic hazard potential in the Yogyakarta region. We used data
recorded from 15 seismic stations from the GFZ network in 2006 spread across Yogyakarta
Province. Then the data is analyzed to determine the H/V curve by using Geopsy software.
Horizontal to Vertical Spectral Ratio (HVSR) is one method that can be used to estimate the
dominant frequency value and amplification factor value in the subsurface layer. The
distribution of domminant frequency values is obtained in the range of 0,567-13,7 Hz and the
distribution of amplification factor values in the range of 1,17-7. The inversion process is
implemented on the H/V curve by using Dinver software to obtain the value of Vs in the
subsurface. The distribution of Vs values ranges between 157-1464 m/s and the distribution
of Vs30 between 240-600 m/s with a misfit of 0,38-0,65. Based on the soil classification to Vs30,
the Yogyakarta area is dominated by SD and SC soil types. Subsequently, the dominant
frequency, amplification factor, and Vs30 were mapped to understanding the subsurface
structure beneath the Yogyakarta region. The results of the mapping analysis indicate that
Bantul is an area with the highest potential of seismic hazard. |
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