增强现实技术提高国际空间站科学仪器的程序操作。

Augmented Reality Improves Procedural Work on an International Space Station Science Instrument.

机构信息

Jet Propulsion Laboratory, California Institute of Technology, Pasadena, USA.

出版信息

Hum Factors. 2019 Sep;61(6):866-878. doi: 10.1177/0018720818824464. Epub 2019 Jan 29.

DOI:10.1177/0018720818824464

PMID:30694084

Abstract

OBJECTIVE

The purpose of the current study was to determine whether an augmented reality instruction method would result in faster task completion times, lower mental workload, and fewer errors for simple tasks in an operational setting.

BACKGROUND

Prior research on procedural work that directly compared augmented reality instructions to traditional instruction methods (e.g., paper) showed that augmented reality instructions can enhance procedural work, but this was not true for simple tasks in an operational setting.

METHOD

Participants completed simple procedural tasks on spaceflight hardware using an augmented reality instruction method and a paper instruction method.

RESULTS

Our results showed that the augmented reality instruction method resulted in faster task completion times and lower levels of mental and temporal demand compared with paper instructions. When participants used the augmented reality instruction method before the paper instruction method, there was a transfer of training that improved a subsequent procedure using the paper instruction method.

CONCLUSION

An off-the-shelf augmented reality head-mounted display (HoloLens) can enhance procedural work for simple tasks in an operational setting.

APPLICATION

The ability of augmented reality to enhance procedural work for simple tasks in an operational setting can help in reducing costs and mitigating risks that could ultimately lead to accidents and critical failures.

摘要

目的

本研究旨在确定在作业环境中，增强现实指导方法是否会导致简单任务的完成时间更快、心理工作量更低、错误更少。

背景

先前关于程序工作的研究直接比较了增强现实指导与传统指导方法（例如，纸质），结果表明增强现实指导可以增强程序工作，但在作业环境中的简单任务中并非如此。

方法

参与者使用增强现实指导方法和纸质指导方法在航天硬件上完成简单的程序任务。

结果

我们的研究结果表明，与纸质指令相比，增强现实指导方法可以更快地完成任务，并且心理和时间需求更低。当参与者先使用增强现实指导方法，然后再使用纸质指导方法时，会发生培训转移，从而提高后续使用纸质指导方法的程序。

结论

现成的增强现实头戴式显示器（HoloLens）可以增强作业环境中简单任务的程序工作。

应用

增强现实增强作业环境中简单任务程序工作的能力有助于降低成本并减轻风险，从而最终避免事故和关键故障。

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增强现实技术提高国际空间站科学仪器的程序操作。

Augmented Reality Improves Procedural Work on an International Space Station Science Instrument.

机构信息

出版信息

OBJECTIVE

BACKGROUND

METHOD

RESULTS

CONCLUSION

APPLICATION

目的

背景

方法

结果

结论

应用

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