Effects of Driver Drowsiness on Driving Performance in the Context of Partial Driving Automation Requiring Hands-on-Wheel

2020 IEEE International Conference on Human-Machine Systems (ICHMS) Pub Date : 2020-09-01 DOI:10.1109/ICHMS49158.2020.9209459

Yuichi Saito, M. Itoh, T. Inagaki

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Abstract

Similar to a manual driver, a human using an automated driving system may experience drowsiness. This can be attributed not only to monotonous environments but also to reduced driver activity. Our concern is how can a system identify the driver’s state (e.g., states of low arousal and degradation of mental and physical functions) without relying on physiological indices while ensuring vehicle safety. In previous study, we have proposed a dual control theoretic approach, which attempts to simultaneously perform vehicular safety control (prevention of lane departure) as well as identification of the driver’s state. The present study applies the proposed approach to partially automated driving systems requiring hands-on driver activity. Sleepy drivers’ behaviors and the safety control actions of the applied system were observed and analyzed through the driving simulator experiment. The experimental results show that the proposed system effectively prevents lane departure in the context of partially automated driving.

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在需要手握方向盘的部分自动驾驶环境下驾驶员困倦对驾驶性能的影响

与手动驾驶类似，使用自动驾驶系统的人可能会感到困倦。这不仅可以归因于单调的环境，还可以归因于驾驶员活动的减少。我们关注的是系统如何在不依赖生理指标的情况下识别驾驶员的状态(例如，低唤醒状态和精神和身体功能退化的状态)，同时确保车辆安全。在之前的研究中，我们提出了一种双重控制理论方法，该方法试图同时进行车辆安全控制(防止车道偏离)和驾驶员状态识别。本研究将提出的方法应用于需要驾驶员亲自操作的部分自动驾驶系统。通过驾驶模拟器实验，观察和分析了困倦驾驶员的行为和应用系统的安全控制动作。实验结果表明，该系统能有效地防止部分自动驾驶情况下的车道偏离。

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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2020 IEEE International Conference on Human-Machine Systems (ICHMS)

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