Zhifeng Ji scite author profile

Shear velocity is an important parameter in pre-stack seismic reservoir description. However, in the real study, the high cost of array acoustic logging leads to lacking a shear velocity curve. Thus, it is crucial to use conventional well-logging data to predict shear velocity. The shear velocity prediction methods mainly include empirical formulas and theoretical rock physics models. When using the empirical formula method, calibration should be performed to fit the local data, and its accuracy is low. When using rock physics modeling, many parameters about the pure mineral must be optimized simultaneously. We present a deep learning method to predict shear velocity from several conventional logging curves in tight sandstone of the Sichuan Basin. The XGBoost algorithm has been used to automatically select the feature curves as the model’s input after quality control and cleaning of the input data. Then, we construct a deep-feed neuro network model (DFNN) and decompose the whole model training process into detailed steps. During the training process, parallel training and testing methods were used to control the reliability of the trained model. It was found that the prediction accuracy is higher than the empirical formula and the rock physics modeling method by well validation.

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Engineering operation management technology based on network automation configuration visualization

2021

Int J Syst Assur Eng Manag

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A dynamic load balancing method for parallel rendering and physical simulation system based sort-first architecture

2011

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Zhifeng Ji

Technologcial progress and development directions of PetroChina overseas oil and gas exploration

Geological features, hydrocarbon accumulation and deep water potential of East Indian basins

A Novel Method of Deep Learning for Shear Velocity Prediction in a Tight Sandstone Reservoir

Engineering operation management technology based on network automation configuration visualization

A dynamic load balancing method for parallel rendering and physical simulation system based sort-first architecture

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