Real time modeling of the cognitive load of an Urban Search And Rescue robot operator

The 23rd IEEE International Symposium on Robot and Human Interactive Communication Pub Date : 2014-10-20 DOI:10.1109/ROMAN.2014.6926363

T. R. Colin, N. Smets, T. Mioch, Mark Antonius Neerincx

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引用次数: 8

Abstract

Urban Search And Rescue (USAR) robots are used to find and save victims in the wake of disasters such as earthquakes or terrorist attacks. The operators of these robots are affected by high cognitive load; this hinders effective robot usage. This paper presents a cognitive task load model for real-time monitoring and, subsequently, balancing of workload on three factors that affect operator performance and mental effort: time occupied, level of information processing, and number of task switches. To test an implementation of the model, five participants drove a shape-shifting USAR robot, accumulating over 16 hours of driving time in the course of 485 USAR missions with varying objectives and difficulty. An accuracy of 69% was obtained for discrimination between low and high cognitive load; higher accuracy was measured for discrimination between extreme cognitive loads. This demonstrates that such a model can contribute, in a non-invasive manner, to estimating an operator's cognitive state. Several ways to further improve accuracy are discussed, based on additional experimental results.

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城市搜救机器人操作员认知负荷的实时建模

城市搜索和救援(USAR)机器人用于在地震或恐怖袭击等灾难发生后寻找和拯救受害者。这些机器人的操作者受到高认知负荷的影响;这阻碍了机器人的有效使用。本文提出了一个认知任务负荷模型，用于实时监测，并随后根据影响操作员绩效和精神努力的三个因素平衡工作量:占用的时间、信息处理水平和任务切换数量。为了测试模型的实现，五名参与者驾驶一个变形的USAR机器人，在485个不同目标和难度的USAR任务中积累了超过16小时的驾驶时间。低认知负荷和高认知负荷的区分准确率为69%;对于极端认知负荷的区分，测量出更高的准确性。这表明，这样的模型可以贡献，在一个非侵入性的方式，估计操作员的认知状态。根据实验结果，讨论了进一步提高精度的几种方法。

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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The 23rd IEEE International Symposium on Robot and Human Interactive Communication

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