Suitability Determination of Machine Learning Techniques for the Operational Quality Assessment of Geophysical Survey Results

IF 0.5 Q4 COMPUTER SCIENCE, THEORY & METHODS Applied Computer Systems Pub Date : 2020-12-01 DOI:10.2478/acss-2020-0017

Kirill Abramov, J. Grundspeņķis

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Abstract

Abstract Well logging, also known as a geophysical survey, is one of the main components of a nuclear fuel cycle. This survey follows directly after the drilling process, and the operational quality assessment of its results is a very serious problem. Any mistake in this survey can lead to the culling of the whole well. This paper examines the feasibility of applying machine learning techniques to quickly assess the well logging quality results. The studies were carried out by a reference well modelling for the selected uranium deposit of the Republic of Kazakhstan and further comparing it with the results of geophysical surveys recorded earlier. The parameters of the geophysical methods and the comparison rules for them were formulated after the reference well modelling process. The classification trees and the artificial neural networks were used during the research process and the results obtained for both methods were compared with each other. The results of this paper may be useful to the enterprises engaged in the geophysical well surveys and data processing obtained during the logging process.

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地球物理调查结果操作质量评价中机器学习技术的适用性确定

测井，又称地球物理测量，是核燃料循环的主要组成部分之一。该调查直接在钻井过程之后进行，其结果的作业质量评估是一个非常严重的问题。这次调查中的任何错误都可能导致整口井被淘汰。本文探讨了应用机器学习技术快速评价测井质量结果的可行性。这些研究是通过对哈萨克斯坦共和国选定的铀矿床进行参考井模拟进行的，并进一步将其与早先记录的地球物理调查结果进行比较。在参考井建模过程后，制定了地球物理方法的参数和比较规则。在研究过程中使用了分类树和人工神经网络，并对两种方法的结果进行了比较。本文的研究成果对从事物探井调查和测井资料处理的企业具有一定的参考价值。

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Applied Computer Systems COMPUTER SCIENCE, THEORY & METHODS-

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10.00%

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审稿时长

30 weeks