使用智能眼镜检测电脑屏幕使用情况

Q1 Computer Science Frontiers in ICT Pub Date : 2017-05-05 DOI:10.3389/fict.2017.00008

Florian Wahl, Jakob Kasbauer, O. Amft

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引用次数: 12

摘要

使用屏幕会影响昼夜节律，导致眼睛疲劳。内置彩色光传感器的智能眼镜可以检测屏幕使用情况。我们提出了一种基于嵌入智能眼镜桥的光传感器的屏幕使用检测方法。通过计算不同屏幕和内容类型时用户眼睛的光强度，我们发现只有电脑屏幕对昼夜节律阶段有显著影响。我们的屏幕使用检测是基于颜色通道之间的比例，并使用线性支持向量机来检测屏幕使用。我们在三项研究中验证了我们的检测方法。建立了一个试验台，在受控环境中检测不同环境光源和强度下的屏幕使用情况。在实验室研究中，我们评估了不同环境光强度下的识别性能。使用与参与者无关的模型，我们实现了环境光强度低于200勒克斯的ROC AUC高于0.9。在一项典型adl的研究中，假设屏幕使用时间为30%，检测到屏幕使用的平均ROC AUC为0.83。

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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Computer Screen Use Detection Using Smart Eyeglasses

Screen use can influence the circadian phase and cause eye strain. Smart eyeglasses with an integrated colour light sensor can detect screen use. We present a screen use detection approach based on a light sensor embedded into the bridge of smart eyeglasses. By calculating the light intensity at the user’s eyes for different screens and content types we found only computer screens to have significant impact on the circadian phase. Our screen use detection is based on ratios between colour channels and used a linear support vector machine to detect screen use. We validated our detection approach in three studies. A Test bench was built to detect screen use under different ambient light sources and intensities in a controlled environment. In a Lab study, we evaluated recognition performance for different ambient light intensities. Using participant-independent models we achieved a ROC AUC above 0.9 for ambient light intensities below 200 lux. In a study of typical ADLs screen use was detected with an average ROC AUC of 0.83 assuming screen use for 30 % of the time.

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Frontiers in ICT Computer Science-Computer Networks and Communications

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