<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "Enhancing Channelized Feature Interpretability Using Deep Learning Predictive Modeling"^^ . "Automating geobodies using insufficient labeled training data as input for structural prediction may result in missing important features and a possibility of overfitting, leading to low accuracy. We adopt a deep learning (DL) predictive modeling scheme to alleviate detection of channelized features based on classified seismic attributes (X) and different ground truth scenarios (y), to imitate actual human interpreters� tasks. In this approach, diverse augmentation method was applied to increase the accuracy of the model after we were satisfied with the refined annotated ground truth dataset. We evaluated the effect of dropout as a training regularizer and facies� spatial representation towards optimized prediction results, apart from conventional hyperparameter tuning. From our findings, increasing batch size helps speedup training speed and improve performance stability. Finally, we demonstrate that the designed Convolutional Neural Network (CNN) is capable of learning channelized variation from complex deepwater settings in a fluvial-dominated depositional environment while producing outstanding mean Intersection of Union (IoU) (95) despite utilizing 6.4 from the overall dataset and avoiding overfitting possibilities. © 2022 by the authors."^^ . "2022" . . "12" . "18" . . "MDPI"^^ . . . "Applied Sciences (Switzerland)"^^ . . . "20763417" . . . . . . . . . . . . . . . . . . . "S."^^ . "Mad Sahad"^^ . "S. Mad Sahad"^^ . . "Jr."^^ . "Jones"^^ . "Jr. Jones"^^ . . "M."^^ . "Sajid"^^ . "M. Sajid"^^ . . "A.H."^^ . "Abdul Latiff"^^ . "A.H. Abdul Latiff"^^ . . "N.W."^^ . "Tan"^^ . "N.W. Tan"^^ . . . . . "HTML Summary of #16402 \n\nEnhancing Channelized Feature Interpretability Using Deep Learning Predictive Modeling\n\n" . "text/html" . .