Design of a remote assistance model for truck maintenance in the mining industry

IF 1.8 Q3 ENGINEERING, INDUSTRIAL Journal of Quality in Maintenance Engineering Pub Date : 2023-11-14 DOI:10.1108/jqme-02-2023-0024
Rodolfo Canelón, Christian Carrasco, Felipe Rivera
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Abstract

Purpose It is well known in the mining industry that the increase in failures and breakdowns is due mainly to a poor maintenance policy for the equipment, in addition to the difficult access that specialized personnel have to combat the breakdown, which translates into more machine downtime. For this reason, this study aims to propose a remote assistance model for diagnosing and repairing critical breakdowns in mining industry trucks using augmented reality techniques and data analytics with a quality approach that considerably reduces response times, thus optimizing human resources. Design/methodology/approach In this work, the six-phase CRIPS-DM methodology is used. Initially, the problem of fault diagnosis in trucks used in the extraction of material in the mining industry is addressed. The authors then propose a model under study that seeks a real-time connection between a service technician attending the truck at the mine site and a specialist located at a remote location, considering the data transmission requirements and the machine's characterization. Findings It is considered that the theoretical results obtained in the development of this study are satisfactory from the business point of view since, in the first instance, it fulfills specific objectives related to the telecare process. On the other hand, from the data mining point of view, the results manage to comply with the theoretical aspects of the establishment of failure prediction models through the application of the CRISP-DM methodology. All of the above opens the possibility of developing prediction models through machine learning and establishing the best model for the objective of failure prediction. Originality/value The original contribution of this work is the proposal of the design of a remote assistance model for diagnosing and repairing critical failures in the mining industry, considering augmented reality and data analytics. Furthermore, the integration of remote assistance, the characterization of the CAEX, their maintenance information and the failure prediction models allow the establishment of a quality-based model since the database with which the learning machine will work is constantly updated.
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矿山卡车维修远程辅助模型的设计
在采矿业中,众所周知,故障和故障的增加主要是由于设备的维护政策不佳,此外,专业人员必须与故障作斗争,这意味着更多的机器停机时间。因此,本研究旨在提出一种远程辅助模型,用于诊断和修复采矿卡车的关键故障,该模型使用增强现实技术和数据分析,采用高质量的方法,大大缩短了响应时间,从而优化了人力资源。设计/方法/方法在这项工作中,使用了六阶段的CRIPS-DM方法。首先,对采矿业中用于物料提取的卡车的故障诊断问题进行了研究。然后,作者提出了一个正在研究的模型,该模型在考虑数据传输要求和机器特性的情况下,寻求在矿区现场负责卡车的服务技术人员和位于远程位置的专家之间的实时连接。研究结果认为,从商业的角度来看,在这项研究的发展中获得的理论结果是令人满意的,因为在第一个例子中,它实现了与远程医疗过程相关的具体目标。另一方面,从数据挖掘的角度来看,通过应用CRISP-DM方法,结果符合失效预测模型建立的理论方面。这些都为通过机器学习开发预测模型,建立最佳的故障预测模型提供了可能。这项工作的原始贡献是提出了一个远程辅助模型的设计,用于诊断和修复采矿业的关键故障,考虑到增强现实和数据分析。此外,远程协助、CAEX的特征、维护信息和故障预测模型的集成允许建立基于质量的模型,因为学习机器将使用的数据库不断更新。
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来源期刊
Journal of Quality in Maintenance Engineering
Journal of Quality in Maintenance Engineering Engineering-Safety, Risk, Reliability and Quality
CiteScore
4.00
自引率
13.30%
发文量
24
期刊介绍: This exciting journal looks at maintenance engineering from a positive standpoint, and clarifies its recently elevatedstatus as a highly technical, scientific, and complex field. Typical areas examined include: ■Budget and control ■Equipment management ■Maintenance information systems ■Process capability and maintenance ■Process monitoring techniques ■Reliability-based maintenance ■Replacement and life cycle costs ■TQM and maintenance
期刊最新文献
Spare parts management in industry 4.0 era: a literature review Data-driven decision-making in maintenance management and coordination throughout the asset life cycle: an empirical study Joint maintenance planning and production scheduling optimization model for green environment Identification of optimal maintenance parameters for best maintenance and service management system in the SMEs Modeling and solving the multi-objective energy-efficient production planning and scheduling with imperfect maintenance activities
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