OBSERVATION POINT SPACING EFFECT ON SUBSURFACE STRUCTURE INTERPRETATION FOR MOUNT PANDAN, EAST JAVA
Finding out gravitational field anomaly of an observation point against other observation point is one of the goals from geophysical research using gravity method, where the subsurface structure can be obtained. In its measuring, space between the observation points could affect the accuracy of g...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/46894 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Finding out gravitational field anomaly of an observation point against other
observation point is one of the goals from geophysical research using gravity
method, where the subsurface structure can be obtained. In its measuring, space
between the observation points could affect the accuracy of gravity anomaly map,
which also affects subsurface structure interpretation quality. However, the denser
the observation point also means the more the measurement point and the
measuring must be done on the field, which are actually had produced the same
subsurface structure as the actual conditions. Therefore, it is studied how much the
observation point really affects the quality of the complete Bouguer anomaly map
and the subsurface structure model. This research uses the complete Bouguer
anomaly data of Mount Pandan, East Java from earlier research. The observation
point is being sparsed by removing 52 of 104 complete Bouguer anomaly data from
the earlier research. These data will be removed without maintaining the shape of
the first anomaly map. And then, Bouguer anomaly map will be made using these
data, separate their anomaly, and finally 2.5D forward modelling could be done,
so both models from these process could be compared one another |
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