Flowchart of the artificial bee colony algorithm.

Flowchart of the artificial bee colony algorithm.

<div><p>Porosity is a key parameter for evaluating reservoir performance, but high-precision prediction is highly challenging in complex shale reservoirs due to the strong heterogeneity of the formation and the highly nonlinear relationship between logging parameters and porosity. Tradit...

وصف كامل

محفوظ في:
التفاصيل البيبلوغرافية
المؤلف الرئيسي: Wei Su (89824) (author)
مؤلفون آخرون: Jie Gao (10266) (author), Wensheng Wu (703888) (author), Haoyu Zhang (1783690) (author)
منشور في: 2025
الموضوعات:
Molecular Biology
Ecology
Cancer
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
Mathematical Sciences not elsewhere classified
Information Systems not elsewhere classified
performing reservoir evaluations
low generalization ability
gamma ray log
evaluating reservoir performance
best predictive performance
physical models often
highly nonlinear relationship
true porosity curve
intelligent optimization algorithm
lssvm model exhibits
div >< p
optimization algorithm
comparison models
optimization model
highly consistent
highly challenging
study proposes
strong heterogeneity
significantly higher
section index
results show
r </
proposed model
prediction results
precision prediction
porosity prediction
pe ),
lssvm model
key parameter
inertia weights
hybrid model
gbdt ),
gas exploration
findings demonstrate
driven methods
determination (<
complex formations
acceleration coefficients
>< sup
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الوصف
الملخص:<div><p>Porosity is a key parameter for evaluating reservoir performance, but high-precision prediction is highly challenging in complex shale reservoirs due to the strong heterogeneity of the formation and the highly nonlinear relationship between logging parameters and porosity. Traditional prediction methods based on experience or physical models often have low generalization ability and accuracy. This study proposes a hybrid model (MABC-LSSVM) that combines a modified artificial bee colony (MABC) optimization algorithm with a least squares support vector machine (LSSVM) model. Inertia weights and acceleration coefficients are utilized to change the hyperparameters of the optimization model to achieve high-precision prediction of shale reservoir porosity using data-driven methods. The model inputs include compensating neutron log (CNL), density log (DEN), photoelectric absorption cross-section index (PE), and gamma ray log (GR) parameters. The proposed model is compared with the LSSVM, gradient boosting decision tree (GBDT), and ABC-LSSVM. The results show that the MABC-LSSVM model exhibits the best predictive performance. Its prediction results are highly consistent with the true porosity curve. The coefficient of determination (<i><i>R</i></i><sup>2</sup>) is 0.93, significantly higher than for all comparison models. The findings demonstrate the effectiveness of combining an intelligent optimization algorithm with the LSSVM model. This approach is reliable for predicting the porosity in complex formations and performing reservoir evaluations in oil and gas exploration and development.</p></div>

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