Permeability prediction of petroleum reservoirs using stochastic gradient boosting regression

A Subasi, MF El-Amin, T Darwich… - Journal of Ambient …, 2022 - Springer
Journal of Ambient Intelligence and Humanized Computing, 2022Springer
Reservoir permeability is a crucial parameter for reservoir characterization and the
estimation of current and future production from hydrocarbon reservoirs. Permeability can be
conventionally estimated from traditional approaches such as core analysis and well-test
data, which are time-consuming and expensive. Many scientists tried to estimate
permeability from nuclear magnetic resonance (NMR) logs utilizing complex mathematical
equations that may achieve imprecise approximation of the permeability values. Gradient …
Abstract
Reservoir permeability is a crucial parameter for reservoir characterization and the estimation of current and future production from hydrocarbon reservoirs. Permeability can be conventionally estimated from traditional approaches such as core analysis and well-test data, which are time-consuming and expensive. Many scientists tried to estimate permeability from nuclear magnetic resonance (NMR) logs utilizing complex mathematical equations that may achieve imprecise approximation of the permeability values. Gradient boosting generates additive regression models by successively fitting a straightforward base learner to present pseudo-residuals using least squares at every iteration. The execution speed and accuracy of gradient boosting can be considerably enhanced by applying randomization process. Besides, the randomization process improves robustness against over fitting of the base learner. So, the novelty of the current study is the development of a Stochastic Gradient Boosting (SGB) regression model to predict the permeability of petroleum reservoirs based on well logs. Besides benchmark machine learning techniques are used to predict reservoir permeability from well logs. The correlation coefficient (R), relative absolute error (RAE), mean-absolute error (MAE), root mean-squared error (RMSE), and root relative squared error (RRSE) are utilized to check the overall fitting between measured permeability versus predicted ones. It is found that Stochastic Gradient Boosting model achieved overall better performance than the other models.
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