Multi-Dimensional Human Workload Assessment for Supervisory Human–Machine Teams

IF 2.2 Q3 ENGINEERING, INDUSTRIAL

Journal of Cognitive Engineering and Decision Making Pub Date : 2019-05-22 DOI:10.1177/1555343419847906

Jamison Heard, J. Adams

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引用次数: 9

Abstract

Humans commanding and monitoring robots’ actions are used in various high-stress environments, such as the Predator or MQ-9 Reaper remotely piloted unmanned aerial vehicles. The presence of stress and potential costly mistakes in these environments places considerable demands and workload on the human supervisors, which can reduce task performance. Performance may be augmented by implementing an adaptive workload human–machine teaming system that is capable of adjusting based on a human’s workload state. Such a teaming system requires a human workload assessment algorithm capable of estimating workload along multiple dimensions. A multi-dimensional algorithm that estimates workload in a supervisory environment is presented. The algorithm performs well in emulated real-world environments and generalizes across similar workload conditions and populations. This algorithm is a critical component for developing an adaptive human–robot teaming system that can adapt its interactions and intelligently (re-)allocate tasks in dynamic domains.

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监督人机团队的多维人力工作量评估

人类指挥和监控机器人的动作被用于各种高压力环境，例如捕食者或MQ-9收割者遥控无人机。在这些环境中，压力和潜在的代价高昂的错误给人类主管带来了相当大的需求和工作量，这可能会降低任务绩效。可以通过实现自适应工作负载人机协作系统来增强性能，该系统能够根据人员的工作负载状态进行调整。这样的团队系统需要能够沿多个维度估计工作量的人工工作量评估算法。提出了一种在监督环境中估计工作负载的多维算法。该算法在模拟的真实世界环境中表现良好，并在类似的工作负载条件和人群中推广。该算法是开发自适应人机团队系统的关键组成部分，该系统可以调整其交互并在动态域中智能地（重新）分配任务。

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

Journal of Cognitive Engineering and Decision Making Multiple-

CiteScore

4.60

自引率

10.00%

发文量