ONE-DIMENSIONAL MAGNETOTELLURIC INVERSION MODELLING USING BAT ALGORITHM
The magnetotelluric method is a passive geophysical method that can be used to obtain subsurface resistivity variations. Subsurface resistivity variation values can be modeled to determine the actual subsurface conditions. Magnetotelluric data modeling can be done by forward modeling and inversio...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/65773 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The magnetotelluric method is a passive geophysical method that can be used to
obtain subsurface resistivity variations. Subsurface resistivity variation values can
be modeled to determine the actual subsurface conditions. Magnetotelluric data
modeling can be done by forward modeling and inversion modeling. This study was
conducted to test the one-dimensional magnetotelluric inversion modeling method
using the Bat Algorithm algorithm developed by Xin-She Yang. Bat Algorithm is a
population-based algorithm that simulates the echolocation of micro bats to solve
mathematical problems. The one-dimensional magnetotelluric inversion modeling
using the Bat Algorithm was tested using sounding curves of types A, H, K, and Q.
The test was carried out with three-layers synthetic model parameter data with two
treatments, namely without noise and with 5% noise. Tests were also carried out by
modeling three-layer magnetotelluric data with four-layer guesses and four-layer
magnetotelluric data with three-layer guesses to test the accuracy of the onedimensional magnetotelluric inversion modeling method using the Bat Algorithm
algorithm. The results of testing the method on all types of sounding curves without
noise show an error value in the range of 0.01-0.08%. Meanwhile, testing the
method on all types of sounding curves with noise shows an error value in the range
of 4-5%. The error value obtained shows that the one-dimensional inversion
method of magnetotelluric data using the Bat Algorithm has a high level of
accuracy. This claim is supported by the success of the one-dimensional inversion
of magnetotelluric data using the Bat Algorithm in modeling three-layer
magnetotelluric data with four-layer guesses and four-layer magnetotelluric data
with three-layer guessing. |
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