认知节奏:使用手机时不显眼且持续的警觉感

Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing Pub Date : 2016-09-12 DOI:10.1145/2971648.2971712

Saeed Abdullah, Elizabeth L. Murnane, M. Matthews, Matthew Kay, J. Kientz, Geri Gay, Tanzeem Choudhury

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引用次数: 91

摘要

在一天中，我们的警觉性水平会发生变化，我们的认知表现也会波动。创造能够适应这些变化的技术需要具有生态有效性的可靠测量。我们的研究是第一个使用临床验证的精神运动警觉性测试在野外收集警觉性数据的研究。我们对20名参与者进行了40天的研究，发现警觉性可以根据时间和生物钟类型波动约30%，夏令时、睡眠时间和兴奋剂摄入量也会影响警觉性。基于这些发现，我们开发了不引人注目的、持续评估警觉性的新方法。在估计响应时间时，我们的模型实现了80.64毫秒的均方根误差，这明显低于作为认知能力受损标准指标的500ms阈值。最后，我们讨论了这种警觉性的实时检测是开发对我们的生物变化敏感的系统的关键的第一步。

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Cognitive rhythms: unobtrusive and continuous sensing of alertness using a mobile phone

Throughout the day, our alertness levels change and our cognitive performance fluctuates. The creation of technology that can adapt to such variations requires reliable measurement with ecological validity. Our study is the first to collect alertness data in the wild using the clinically validated Psychomotor Vigilance Test. With 20 participants over 40 days, we find that alertness can oscillate approximately 30% depending on time and body clock type and that Daylight Savings Time, hours slept, and stimulant intake can influence alertness as well. Based on these findings, we develop novel methods for unobtrusively and continuously assessing alertness. In estimating response time, our model achieves a root-mean-square error of 80.64 milliseconds, which is significantly lower than the 500ms threshold used as a standard indicator of impaired cognitive ability. Finally, we discuss how such real-time detection of alertness is a key first step towards developing systems that are sensitive to our biological variations.

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Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing

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