Identification of Karst Cavities from 2D Seismic Wave Impedance Images Based on Gradient-Boosting Decision Trees Algorithms (GBDT): Case of Ordovician Fracture-Vuggy Carbonate Reservoir, Tahe Oilfield, Tarim Basin, China

The precise characterization of geological bodies in fracture-vuggy carbonates is challenging due to their high complexity and heterogeneous distribution. This study aims to present the hybrid of Visual Geometry Group 16 (VGG-16) pre-trained by Gradient-Boosting Decision Tree (GBDT) models as a nove...

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Published inEnergies (Basel) Vol. 16; no. 2; p. 643
Main Authors Kouassi, Allou Koffi Franck, Pan, Lin, Wang, Xiao, Wang, Zhangheng, Mulashani, Alvin K., James, Faulo, Shaame, Mbarouk, Hussain, Altaf, Hussain, Hadi, Nyakilla, Edwin E.
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.01.2023
Subjects
Accuracy
Algorithms
Carbonates
Caves
Cavities
Classification
Datasets
Decision trees
Enhanced oil recovery
fracture-vuggy carbonate reservoir
Geology
gradient-boosting decision trees (GBDT)
Hydrocarbons
Impedance
Karst
karst cavities
Machine learning
Multilayer perceptrons
Neural networks
Oil and gas fields
Oil fields
Ordovician
Reservoirs
Seismic waves
Software
Tahe oilfield
Uncertainty
Visual Geometry Group 16 pre-trained (VGG-16)
China
Tarim Basin
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Summary:The precise characterization of geological bodies in fracture-vuggy carbonates is challenging due to their high complexity and heterogeneous distribution. This study aims to present the hybrid of Visual Geometry Group 16 (VGG-16) pre-trained by Gradient-Boosting Decision Tree (GBDT) models as a novel approach for predicting and generating karst cavities with high accuracy on various scales based on uncertainty assessment from a small dataset. Seismic wave impedance images were used as input data. Their manual interpretation was used to build GBDT classifiers for Light Gradient-Boosting Machine (LightGBM) and Unbiased Boosting with Categorical Features (CatBoost) for predicting the karst cavities and unconformities. The results show that the LightGBM was the best GBDT classifier, which performed excellently in karst cavity interpretation, giving an F1-score between 0.87 and 0.94 and a micro-G-Mean ranging from 0.92 to 0.96. Furthermore, the LightGBM performed better in cave prediction than Linear Regression (LR) and Multilayer Perceptron (MLP). The prediction of karst cavities according to the LightGBM model was performed well according to the uncertainty quantification. Therefore, the hybrid VGG16 and GBDT algorithms can be implemented as an improved approach for efficiently identifying geological features within similar reservoirs worldwide.
ISSN:1996-1073
1996-1073
DOI:10.3390/en16020643