DEEP LEARNING APLICATION FOR GUIDING SEQUENCE BOUNDARY PICKING USING 2-D CONVOLUTIONAL NEURAL NETWORK ARCHITECTURE, CASE STUDY: âBAGALVABALâ FIELD, KUTAI BASIN
Deep learning has experienced advancements in recent years for processing large-scale data from various disciplines. It possesses a high level of effectiveness, thereby enhancing quality and reducing the required time compared to previous conventional processes. This phenomenon opens up the pote...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/79184 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Deep learning has experienced advancements in recent years for
processing large-scale data from various disciplines. It possesses a
high level of effectiveness, thereby enhancing quality and reducing the
required time compared to previous conventional processes. This
phenomenon opens up the potential for utilizing deep learning in the
exploration of oil and gas resources in Indonesia using seismic
methods. Seismic data typically entails a substantial volume of
information, thus deep learning can assist in the interpretation of such
data.This research aims to investigate the application of the 2-D
Convolutional Neural Network (2-D CNN) architecture in sequence
boundary picking to assess its effectiveness in the Kutai Basin context.
This study covers four types of architectural models whose number of
layers increases with each model. It was found that the model with 5
convolution layers and 4 max pooling layers obtained the smallest
RMSE value at 71.7536 ms with confidence level until xline 4872, it was
also known that the use of too many layers would reduce the quality of
prediction due to overfitting. The prediction results of sequence
boundaries using 2-D CNN architecture showed good results without
cutting the sequence boundaries marked by discontinuities such as
onlap, downlap, and erosional truncation although there were
shortcomings such inconsistencies in the prediction results concerning
the continuity with well markers |
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