Modeling the Impact of Workload in Network Centric Supervisory Control Settings

Neurocognitive and Physiological Factors During High-Tempo Operations Pub Date : 2018-09-03 DOI:10.1201/9781315597850-4

M. Cummings, C. Nehme

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引用次数: 16

Abstract

The Department of Defense’s vision of network centric operations will likely bring about higher operator mental workload due to the large volume of incoming information. As a result, it is critical that systems designers develop predictive models of both human and system performance, such that they can determine how a proposed technology will influence not only operator workload, but also system performance. To this end, this paper introduces a discrete event simulation approach to human-system modeling that includes a quantitative relationship between workload and performance, inspired by the Yerkes-Dodson relationship. Using the concept of utilization, or operator percent busy time, as a surrogate workload measure, we demonstrate that a quantitative instantiation of an inverted-U workloadperformance curve improves discrete event simulation model predictions in a human supervisory control model of single operator control of multiple unmanned vehicles. While this work generates the first known empirical evidence of a parabolic workload-performance as a variable in a quantitative predictive human performance model, this effort is preliminary and future research implications are discussed.

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以网络为中心的监控设置中工作量影响的建模

国防部对网络中心作战的设想可能会带来更高的操作员心理工作量，因为大量的传入信息。因此，系统设计人员开发人员和系统性能的预测模型至关重要，这样他们就可以确定所提议的技术将如何影响操作人员的工作量，以及系统性能。为此，本文引入了一种离散事件模拟方法，用于人类系统建模，其中包括工作量和性能之间的定量关系，受Yerkes-Dodson关系的启发。使用利用率或操作员繁忙时间百分比的概念作为替代工作负载度量，我们证明了倒u型工作负载性能曲线的定量实例可以改善单个操作员控制多辆无人驾驶车辆的人类监督控制模型中的离散事件仿真模型预测。虽然这项工作产生了第一个已知的抛物线工作负荷性能作为定量预测人类绩效模型变量的经验证据，但这项工作是初步的，并讨论了未来的研究意义。

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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Neurocognitive and Physiological Factors During High-Tempo Operations

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