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基于防疫常态化的驾驶员疲劳状态检测方法

黄玲 洪佩鑫 吴泽荣 刘建荣 黄子虚 崔躜

黄玲, 洪佩鑫, 吴泽荣, 刘建荣, 黄子虚, 崔躜. 基于防疫常态化的驾驶员疲劳状态检测方法[J]. 交通信息与安全, 2021, 39(4): 26-34. doi: 10.3963/j.jssn.1674-4861.2021.04.004
引用本文: 黄玲, 洪佩鑫, 吴泽荣, 刘建荣, 黄子虚, 崔躜. 基于防疫常态化的驾驶员疲劳状态检测方法[J]. 交通信息与安全, 2021, 39(4): 26-34. doi: 10.3963/j.jssn.1674-4861.2021.04.004
HUANG Ling, HONG Peixin, WU Zerong, LIU Jianrong, HUANG Zixu, CUI Zuan. A Detection Method for Drivers' Fatigue States Based on Normalization of Epidemic Prevention[J]. Journal of Transport Information and Safety, 2021, 39(4): 26-34. doi: 10.3963/j.jssn.1674-4861.2021.04.004
Citation: HUANG Ling, HONG Peixin, WU Zerong, LIU Jianrong, HUANG Zixu, CUI Zuan. A Detection Method for Drivers' Fatigue States Based on Normalization of Epidemic Prevention[J]. Journal of Transport Information and Safety, 2021, 39(4): 26-34. doi: 10.3963/j.jssn.1674-4861.2021.04.004

基于防疫常态化的驾驶员疲劳状态检测方法

doi: 10.3963/j.jssn.1674-4861.2021.04.004
基金项目: 

国家自然科学基金项目 51775565

广州市重点区域研发计划项目 202007050004

广东省教育厅项目 2020KQNCX205

详细信息
    作者简介:

    黄玲(1979—), 博士, 副教授.研究方向: 交通仿真、驾驶行为分析和智能交通.E-mail: hling@scut.edu.cn

    通讯作者:

    刘建荣(1984—), 博士, 讲师.研究方向: 出行行为选择研究.E-mail: ctjrliu@scut.edu.cn

  • 中图分类号: U491.6

A Detection Method for Drivers' Fatigue States Based on Normalization of Epidemic Prevention

  • 摘要: 疲劳驾驶检测是交通安全领域的研究分支, 而新冠疫情形势下口罩的佩戴又提出了新的挑战。为此通过基于ResNet-10的SSD模型检测驾驶员人脸, 并使用MobileNet-V2轻量级模型判断是否佩戴口罩, 测试集验证该分类器可以达到98.50%的判断精度。在未佩戴口罩的情况下采用传统图像HOG特征结合SVM分类器检测驾驶员人脸。在后续处理中利用级联回归器定位特征点和提取时间窗口内的疲劳指标, 采用二次判定对疲劳状态采取文字和声音预警, 而在清醒状态下会调整各项判断阈值。对算法在预采集的视频样本和NTHU-DDD测试集下进行测试, 验证了该框架能以18.42帧/s的总体速度实现92.65%和86.09%的检测精度。实验结果表明, 该框架应对佩戴眼镜、脸部姿态变化和光照条件差异具有强鲁棒性, 而且能够兼顾疲劳检测的口罩干扰和实时性。

     

  • 图  1  自适应疲劳检测框架

    Figure  1.  Framework of adaptive fatigue detection

    图  2  HOG特征提取示例

    Figure  2.  Examples of HOG feature extraction

    图  3  口罩分类网络结构

    Figure  3.  Structure of the mask-classifying network

    图  4  数据集部分图片

    Figure  4.  Partial image of the dataset

    图  5  不同层数的回归器预测的特征点

    Figure  5.  Feature points predicted by the regressor at different levels

    图  6  眼部区域特征点

    Figure  6.  Feature points in the eye area

    图  7  眨眼数据包抓取示例

    Figure  7.  Examples of fetching the data packet of blink

    图  8  设置基准水平值应对数值变化

    Figure  8.  Set baseline-level values responding to numerical changes

    图  9  1次打哈欠的张开率变化曲线

    Figure  9.  Variable curves of the opening rates of a yawn

    图  10  疲劳分级模型判定流程

    Figure  10.  Determining process of the hierarchy model of fatigue

    图  11  预训练口罩模型分类效果

    Figure  11.  Classification effect of the pre-training mask model

    图  12  外部条件变化下的定位效果

    Figure  12.  Positioning effects of different external conditions

    图  13  检测界面示例

    Figure  13.  The detecting interface

    表  1  测试集效果评估

    Table  1.   Evaluation of test sets

    佩戴口罩 Precision Recall F1-score
    0.98 0.99 0.99
    0.99 0.98 0.99
    下载: 导出CSV

    表  2  不同算法下的人脸检测器效果

    Table  2.   Effects of the face detector under different algorithms

    佩戴口罩 Viola-Jones HOG+SVM SSD+esNet-10
    97.68 93.27 99.98
    70.81 35.45 99.47
    下载: 导出CSV

    表  3  图像处理的效果对比

    Table  3.   Effects of different image processing

    处理类型 总时间/s
    串行 20.11
    并行 11.05
    下载: 导出CSV

    表  4  不同样本在连续窗口内的指标值

    Table  4.   Index values of different samples in contiguous windows

    窗口次序 Tb/ms lb/% Tc/ms Tr/ms 是否打哈欠
    清醒-1 216.7 9.1 86.4 130.3
    清醒-2 208.9 6.7 76.7 132.2
    疲劳-1 212.4 8.6 80.9 131.4
    疲劳-2 257.8 33.3 95.6 162.2
    下载: 导出CSV

    表  5  不同样本集的检测精度

    Table  5.   Detection accuracy of different sample sets  %

    样本集 清醒 疲劳
    佩戴口罩样本集 88.50 93.62
    NTHU-DDD测试集 81.56 90.61
    下载: 导出CSV
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  • 收稿日期:  2021-06-02

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