Shape-Coding and Length-Coding as a Measure to Reduce the Probability of Selection Errors During the Control of Industrial Equipment

L. Steiner, R. Burgess-Limerick
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引用次数: 7

Abstract

OCCUPATIONAL APPLICATIONS Shape-coding and length-coding of control levers may have limited benefits for the prevention of selection errors during operation of roof-bolting machines and other industrial equipment. Any benefits of arbitrary shape-coding or length-coding for reducing selection errors are likely to be restricted to situations in which the arrangement of controls in relation to the participant is subsequently altered in some way, such as the operator moving from one machine to another with a different control layout. If shape-coding is employed, measures should be taken to ensure that the relationship between shape and function remains consistent across similar equipment and that the relationship between shape and function cannot be altered in error during maintenance. TECHNICAL ABSTRACT Rationale: Underground coal mining is one of the most hazardous industrial environments, and roof-bolting machine operators are the most at-risk occupation in underground coal mining. Many examples of industrial equipment, including bolting machines used in underground coal mines, are operated via a bank of levers that control different machine functions and movements. Errors in the use of these controls are a cause of serious injuries. Purpose: A recent design guideline for underground bolting equipment has specified the use of arbitrary shape-coding for principal equipment functions with the aim of reducing injuries caused by operators inadvertently operating the wrong lever (a selection error). Three experiments were conducted to provide further insight to the use of control-coding. Methods: Sixty-four individuals participated in three experiments. Each participant operated a physical simulation of a single-boom roof-bolter machine via five levers in either shape-coded, length-coded, or identical handle conditions. In two experiments, the location of the controls was changed half-way through the experiment. Selection error rate data were collected. Results: When operators are not under time pressure, their attention is not divided, and they are able to view the controls they are manipulating, any benefits of arbitrary shape-coding or length-coding for reducing selection errors are likely to be restricted to situations in which the arrangement of controls in relation to the participant is subsequently altered. Conclusions: If shape-coding is employed, measures should be taken to ensure that the relationship between shape and function remains consistent and that maintenance errors, such as reversing handle shapes, are prevented.
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形状编码和长度编码作为减少工业设备控制中选择错误概率的措施
控制杆的形状编码和长度编码在防止锚杆机和其他工业设备操作过程中的选择错误方面可能有有限的好处。任意形状编码或长度编码对于减少选择错误的任何好处都可能仅限于与参与者相关的控制安排随后以某种方式改变的情况,例如操作员使用不同的控制布局从一台机器移动到另一台机器。如果采用形状编码,应采取措施确保形状和功能之间的关系在类似设备中保持一致,并且形状和功能之间的关系不能在维护期间错误地改变。技术摘要理论基础:煤矿井下开采是最危险的工业环境之一,锚杆机作业人员是煤矿井下开采中最危险的职业。许多工业设备,包括煤矿井下使用的螺栓机,都是通过一组控制不同机器功能和运动的杠杆来操作的。使用这些控制的错误是造成严重伤害的原因。目的:最近的地下螺栓设备设计指南规定了对主要设备功能使用任意形状编码,目的是减少操作员无意中操作错误杠杆(选择错误)造成的伤害。为了进一步了解控制编码的使用,我们进行了三个实验。方法:64人参加3个实验。每个参与者通过五个杠杆操作单杆锚杆机的物理模拟,这些杠杆分别是形状编码、长度编码或相同的手柄条件。在两个实验中,控制组的位置在实验进行到一半时被改变。收集选择错误率数据。结果:当操作者没有时间压力时,他们的注意力不会分散,并且他们能够看到他们正在操作的控件,任意形状编码或长度编码的任何好处都可能限制在与参与者相关的控件的排列随后改变的情况下。结论:如果采用形状编码,应采取措施确保形状与功能之间的关系保持一致,并防止维修错误,如反转手柄形状。
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