Sensitivity Analysis and Feature Selection for Drilling-Oriented Models

Author:

Tariq Sofia1,Dan Sui1

Affiliation:

1. University of Stavanger Department of Energy and Petroleum Engineering, , Stavanger 4068 , Norway

Abstract

Abstract Data-driven models have risen in popularity during the past 10 years, which increase the effectiveness and durability of systems without necessitating a lot of human involvement. Despite all of their advantages, they remain the limitations in terms of model interpretation, data selection, and model evaluation. Sensitivity analysis (SA) is a powerful tool to decipher behaviors of data-driven models to analyze the correlations among inputs and outputs of models, and quantify the severity of inputs’ influence on outputs to effectively interpret these black-box models. Feature selection (FS) is a preprocessing approach used in data-driven modeling to select the crucial parameters as inputs fed to models. For the most of the existing works, the FS is well used to select inputs through the analysis on the drilling data correlations, while SA is seldom employed for data-driven model evaluation and interpretation in drilling applications. Data-driven rate of penetration (ROP) models have consistently outperformed many conventional ROP models, most likely as a result of their strong data analysis capabilities, capacity to learn from data in order to recognize data patterns, and effective policies for making logical decisions automatically. A data-driven ROP model was developed from a benchmarking field drilling dataset in this work. Following the ROP modelling, sensitivity analysis methods were employed to identify the input variables that had the greatest influence on ROP estimations. The FS techniques and the sensitivity analysis were combined during the data preprocessing to identify the most important aspects for modelling. The outcomes demonstrate that using the robust sensitivity analysis techniques to overcome the limits of machine learning models allows for the best interpretation and understanding of the produced data-driven models.

Publisher

ASME International

Subject

Geochemistry and Petrology,Mechanical Engineering,Energy Engineering and Power Technology,Fuel Technology,Renewable Energy, Sustainability and the Environment

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