Developing a New Decision Support System to Manage Human Reliability based on HEART Method

Q2 Engineering

Journal of Optimization in Industrial Engineering Pub Date : 2019-07-21 DOI:10.22094/JOIE.2019.553983.1521

R. Jamshidi

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引用次数: 1

Abstract

Human performance and reliability monitoring have become the main issue for many industries since human error ratios cannot be mitigated to the zero level and many accidents, malfunctions, and quality defects are happening due to the human in production systems. Since the human resources implement a different range of tasks, the calculation of human error probability (HEP) is complicated, and several methods have been proposed to identify and quantify the HEP. This fact expresses the necessity of a Decision Support System (DSS) to calculate the HEP and propose optimal scenarios to increase human reliability and decrease its related cost such as quality defect and rework cost. This study develops a DSS that calculates the HEP based work specifications and proposes optimal scenarios to deal with error occurrence probability. The scenarios are provided using an AHP according to experts' opinions about the cost and time of corrective actions. The proposed DSS has been applied to a real case, and the provided results show that the proposed DSS can provide effective scenarios to deal with human error in production systems.

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基于HEART方法的人力可靠性管理决策支持系统研究

由于人因失误率无法降低到零水平，生产系统中的人为因素导致了许多事故、故障和质量缺陷，因此人因绩效和可靠性监控已成为许多行业的主要问题。由于人力资源执行的任务范围不同，因此人因失误概率（HEP）的计算很复杂，已经提出了几种方法来识别和量化HEP。这一事实表明，决策支持系统（DSS）有必要计算HEP，并提出最佳方案，以提高人员可靠性并降低其相关成本，如质量缺陷和返工成本。本研究开发了一个DSS，用于计算基于HEP的工作规范，并提出处理错误发生概率的最佳方案。根据专家对纠正措施的成本和时间的意见，使用AHP提供场景。将所提出的DSS应用于实际案例，结果表明，所提出的决策支持系统可以为处理生产系统中的人为错误提供有效的场景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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