机器学习在钓鱼事件预测中的应用

Flavio Tito Peixoto Filho, Juarez Guaraci Filardo
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引用次数: 1

摘要

随着数据处理和存储能力的增强,云计算的引入以及不同系统之间更广泛的连接,数据挖掘技术和机器学习在业务改进的主要指数之间巩固了自己。即使是相当成熟的工业领域,如石油和天然气,也应该使用这些工具来实现其流程的现代化并提高其效率。适用的领域是多种多样的,从操作领域到管理领域。考虑到采用更丰富的预测模型将提供的好处是值得注意的,它取代了迄今为止仅从经验主义或在最小前提下执行的任务。在规划方面,与机器学习相结合的数据挖掘成为一些服务需求预测的重要工具。特别是那些本质上是概率性的事件。这样的分析可以跨多个输入数据实现,从而使模型能够公平地表示现实。打捞作业是具有概率发生率的油井服务的一个明确的例子。即使乍一看,它们的表现似乎是混乱的,捕捞发生率也因所进行的活动或井的规格而异。这意味着事件概率不仅取决于钻机是否正在钻井或完井,还取决于井的规格。在油井数量较多的大型石油公司中,对此类产状进行多变量预测的可能性,对服务量的合理作图和量纲划分具有重要的价值。本文展示了利用以往经验量化渔业服务需求的步骤。从输入数据的分类和预处理到选择最合适的机器学习模型,最后对得到的结果进行处理和分析,这些步骤都进行了说明。一旦定义并实现了模型,就可以快速执行每个新的分析。这代表了大量的时间节省,特别是当时间表经常发生变化时。然而,所获得的优势不仅限于性能的提升,而且还可以考虑更大种类的输入变量,因此允许用户获得更接近现实的模型,并且仍然能够不断改进和适应新的场景。不管这项工作的目的是什么,也不管需要使用多少服务,所获得的数据也是防止钓鱼的重要来源,旨在减少非生产时间(NPT)。它可以提供一个强度图,表明哪些活动应优先考虑工作。它们在钻机进度预测中仍然很有用,可以预测与捕捞事件相关的每个活动的时间。最后,无论是否涉及捕鱼活动,这项工作中使用的方法和过程一般都可用于石油工业内外的其他目的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Machine Learning Applied on Fishing Occurrence Prediction
Along the enhancement of data processing and storing capabilities, introduction of cloud computing and a broader connectivity between different systems, data mining techniques and machine learning consolidate themselves between the main exponents for business improvement. Even areas of industry considerably mature, as the oil & gas, shall handle these tools to modernize its processes and enhance their efficiency. The applicable fields are diverse, from the operational realm to management areas. It is remarkable to consider the benefits that the adoption of richer prediction models would provide, in substitution of tasks so far performed only from empiricism, or under minimal premises. Towards planning, data mining associated with machine learning turns into an important tool for some services demand prediction. Especially those at which the occurrence is essentially probabilistic. Such analysis may be implemented crossing multiple input data, allowing the model to be a fair representation of reality. Fishing occurrence is an unmistakable example of well service with probabilistic incidence. Even if, at a first glance, their manifestation seems chaotic, fishing incidence varies according the activities performed or well specifications. This means the event probability depends not only if the rig is drilling or completing, but also on well specification. In a large oil company, with a large amount of wells, the possibility of a multi-variable prediction for this kind of occurrence is very valuable for a proper mapping and dimensioning of the service amount. This present paper shows the steps of quantifying the demand for fishing services using previous experience. These steps are explained, from input data classification and pre-processing through the choice of the fittest machine learning model, and finally, the process and analysis of the obtained results. Once the model is defined and implemented, each new analysis can be performed quickly. This represents a massive time saving, especially when schedule changes happen very often. However, the advantages obtained are not only restricted to the boost in performance, but also the possibility to consider a larger assortment of input variables, and therefore allow the user to obtain a model closer to reality, and still capable of be continuously improved and adapted to new scenarios. Regardless being the purpose of this work the amount of services to hire, the obtained data are also a great source for fishing prevention, aiming to reduce nonproductive time (NPT). It can provide an intensity map, indicating the activities at which shall the efforts be prioritized. They are still useful in rig schedule forecasting, to permit predicting the amount of time for each activity regarding fishing events. Finally, regardless of referring to fishing activity, the methods and process used in this work may be, in general, used for other purposes, within or outside the oil industry.
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