Understanding Automation Failure

IF 2.2 Q3 ENGINEERING, INDUSTRIAL
M. Endsley
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引用次数: 0

Abstract

The implementation of automation in many domains has led to well-documented accidents and incidents, resulting from reduced situation awareness that occurs when operators are out-of-loop (OOTL), automation confusion, and automation interaction difficulties. Wickens coined the term lumberjack effect to summarize the finding that while automation works well most of the time in typical or normal situations, the performance problems that occur in novel or unexpected situations also increase the likelihood of catastrophic errors. Skraaning and Jamieson have criticized the lumberjack effect due to a study in which they failed to find it. I show that this claim is unsupported due to a number of methodological limitations in their study and conceptual errors. They also provide a model of automation failure that fails to clearly delineate the many barriers to accidents that are available, instead emphasizing the ways in which automation can fail technically and different types of human error. An alternate automation failure model is presented that provides a broader socio-technical perspective emphasizing the design features, processes, capabilities, organizational policies, and training that support people in improving system safety when automation fails.
了解自动化故障
自动化在许多领域的应用导致了大量有据可查的事故和事件,这些事故和事件是由于操作员脱离回路(OOTL)、自动化混乱和自动化交互困难而导致的情况感知能力下降造成的。Wickens 创造了 "伐木工效应 "一词来概括这一发现,即虽然自动化在典型或正常情况下大部分时间都运行良好,但在新情况或意外情况下出现的性能问题也会增加发生灾难性错误的可能性。Skraaning 和 Jamieson 曾批评伐木工效应,因为他们在一项研究中没有发现这种效应。我的研究表明,由于研究方法上的局限性和概念上的错误,这种说法是站不住脚的。他们还提供了一个自动化失效模型,但该模型未能明确划分事故发生的诸多障碍,而是强调了自动化在技术上可能失效的方式以及不同类型的人为错误。本文提出了另一种自动化失效模型,该模型提供了更广阔的社会技术视角,强调了设计特点、流程、能力、组织政策和培训,当自动化失效时,这些因素可帮助人们改善系统安全。
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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来源期刊
CiteScore
4.60
自引率
10.00%
发文量
21
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