基于面部几何特征及手部运动特征的驾驶员疲劳检测

doi:10.3901/JME.2019.02.018

机械工程学报 ›› 2019, Vol. 55 ›› Issue (2): 18-26.doi: 10.3901/JME.2019.02.018

基于面部几何特征及手部运动特征的驾驶员疲劳检测

刘明周, 蒋倩男, 扈静

合肥工业大学机械工程学院合肥 230009

收稿日期:2017-09-13 修回日期:2018-06-19 出版日期:2019-01-20 发布日期:2019-01-20
通讯作者: 蒋倩男(通信作者),女,1992年出生,博士研究生。主要研究方向为人-机-环境工程学和机器视觉。E-mail:1191758741@qq.com
作者简介:刘明周,男,1968年出生,博士,教授,博士研究生导师。主要研究方向为人-机-环境工程学、制造过程监测、控制与管理以及工业工程系统理论、分析及决策方法。E-mail:liumingzhou0551@163.com;扈静,女,1976年出生,博士,教授,硕士研究生导师。主要研究方向为人-机-环境工程学和制造过程监测与控制。E-mail:52868648@qq.com
基金资助:
国家自然科学基金资助项目（51375134）

Based on Facial Geometric Features and Hand Motion Characteristics Driver Fatigue Detection

LIU Mingzhou, JIANG Qiannan, HU Jing

School of Mechanical and Automotive Engineering, Hefei University of Technology, Hefei 230009

Received:2017-09-13 Revised:2018-06-19 Online:2019-01-20 Published:2019-01-20

摘要/Abstract

摘要： 驾驶员疲劳驾驶是造成交通事故的主要原因之一，为解决该问题，提出一种新的基于机器视觉的驾驶员疲劳状态检测方法。根据驾驶员视频图像特点，采用基于肤色检测的Adaboost算法提取面部以及手部的感兴趣区域（Regions of interest，ROIs）。基于尺度不变特征变换（Scale invariant feature transform，SIFT）特征点匹配获取眼、嘴以及手部的SIFT特征点，据此得出面部以及手部特征参数。将Perclos、MClosed、Phdown以及SA 4个特征参数作为模型输入，疲劳度等级作为模型输出，建立三层BP神经网络模型，并应用贝叶斯正则化并结合动量梯度下降法较好地解决了传统BP人工神经网络训练高精度和预测低精度的过拟合现象。试验数据表明，该方法能够克服光照、背景、角度以及个体差异的影响，且疲劳检测的正确识别率达到99.64%。

关键词: BP人工神经网络, SIFT特征点匹配, 肤色检测, 机器视觉, 驾驶疲劳

Abstract: Fatigue driving is one of the major causes of traffic accidents. In order to solve the problem, a new method based on machine vision for driver fatigue detection is proposed. According to the characteristics of the driver's video image, the regions of interest (ROIs) of face and hand are extracted by the Adaboost algorithm based on skin color detection. Based on SIFT (scale invariant feature transform) feature points matching, the SIFT feature points of the eye, mouth and hand are extracted, and the facial and hand feature parameters are obtained. The 4 characteristic parameters of Perclos, MClosed, Phdown and SA are used as model inputs, and the fatigue grade is used as model output. Three layer BP neural network model is established. The Bayesian regularization and the momentum gradient descent method are used to solve the overfitting phenomena of the traditional BP neural network training with high accuracy and low prediction accuracy. The experimental data show that the method can overcome the influence of illumination, background, angle and individual difference, and the correct recognition rate of fatigue detection is 99.64%.

Key words: BP artificial neural network, driving fatigue, machine vision, SIFT feature point matching, skin color detection

中图分类号:

TP391

刘明周, 蒋倩男, 扈静. 基于面部几何特征及手部运动特征的驾驶员疲劳检测[J]. 机械工程学报, 2019, 55(2): 18-26.

LIU Mingzhou, JIANG Qiannan, HU Jing. Based on Facial Geometric Features and Hand Motion Characteristics Driver Fatigue Detection[J]. Journal of Mechanical Engineering, 2019, 55(2): 18-26.

参考文献

[1] WEI C S,WANG Y T,LIN C T,et al. Toward drowsiness detection using non-hair-bearing eeg-based brain- computer interfaces[J]. IEEE Trans. Neural Syst. Rehabil Eng.,2018,26(2):400-406.
[2] KHUNPISUTH O,CHOTCHINASRI T,KOSCHAKOSAI V,et al. Driver drowsiness detection using eye-closeness detection[C]//International Conference on Signal-Image Technology & Internet-Based Systems. IEEE,November 26-29,2017,Las Palmas de Gran Canaria,Spain,2017:661-668.
[3] KOH S,BO R C,LEE J I,et al. Driver drowsiness detection via PPG biosignals by using multimodal head support[C]//International Conference on Control,Decision and Information Technologies,April 10-13,2017,Thessaloniki,Greece,2017:0383-0388.
[4] LIN C T,CHEN Y C,WU R C,et al. Assessment of driver's driving performance and alertness using EEG-based fuzzy neural networks[C]//IEEE International Symposium on Circuits and Systems. IEEE,May 15-18,2005,Rio de Janeiro,Brazil,2005,1:152-155.
[5] HAYASHI K,ISHIHARA K,HASHIMOTO H,et al. Individualized drowsiness detection during driving by pulse wave analysis with neural network[J]. Intelligent Transport Systems,2005. Proceedings. IEEE,2005:901-906.
[6] TAKEI Y,FURUKAWA Y. Estimate of driver's fatigue through steering motion[C]//2005 IEEE International Conference on Systems,Man and Cybernetics,October 6-9,2005,Bari,Italy,2005,2(10-12):1765-1770
[7] POMERLEAU D,JOCHEM T. Rapidly Adapting machine vision for automated vehicle steering[J]. IEEE Expert,1996,11(2):19-27.
[8] WANG Rongben,LI Guo,TONG Bing liang,et al. Monitoring mouth movement for driver fatigue or distraction with one camera[C]//The International IEEE Conference on Intelligent Transportation Systems,November 4-7,2004 Maui,Hawaii,USA,2004:314-319.
[9] PAUL V,MICHAEL J. Robust real-time face detection[J]. International Journal of Computer Vision,2004,57(2):137-154.
[10] GUO L,GE P S,ZHANG M H,et al. Pedestrian detection for intelligent transportation systems combining AdaBoost algorithm and support vector machine[J]. Expert Systems with Applications,2012,39(4):4274-4286.
[11] LOWE D G. Distinctive image features from scale- invariant keypoints[J]. International Journal of Computer Vision,2004,60(2):91-110.
[12] LI B,YU S,LU Q. An improved K-nearest-neighbor algorithm for text categorization[J]. Expert Systems with Applications An International Journal,2012,39(1):1503- 1509.
[13] DINGES D F,GRACE R. PERCLOS:A valid psychophysiological measure of alertness as assessed by psychomotor vigilance,FHWAMCRT-99-010[R]. Wash- ington,DC,Federal. Highway Administration,1998.
[14] PETER G,KURT K,VERA K,et al. Circadian and wake-dependent modulation of fastest and slowest reaction times during the psychomot or vigilance lask[J]. Physiology&Behavior,2004,80:695-701.
[15] NEYAMADPOUR A,TAIB S,ABDULLAH W A T W. Using artificial neural networks to invert 2D DC resistivity imaging data for high resistivity contrast regions:A MATLAB application[J]. Computers & Geosciences,2009,35(11):2268-2274
[16] ORON-GILAD T,RONEN A. Road characteristics and driver fatigue:A simulator study[J]. Traffic Injury Prevention,2007,8(3):281-289.

基于面部几何特征及手部运动特征的驾驶员疲劳检测

Based on Facial Geometric Features and Hand Motion Characteristics Driver Fatigue Detection

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 10

编辑推荐

Metrics

本文评价

[1]	杨扬, 肖晓晓, 南卓江, 刘娜, 李小毛, 彭艳. 刚-柔耦合仿生手指设计及运动学特性[J]. 机械工程学报, 2019, 55(11): 105-113.
[2]	单忠德, 张飞, 任永新, 张静, 聂军刚. 基于机器视觉铸件布氏硬度在线检测技术研究^*[J]. 机械工程学报, 2017, 53(1): 157-164.
[3]	郝永平, 王永杰, 董福禄, 路超. 平板类微小零件装配控制策略与软件架构研究[J]. 机械工程学报, 2015, 51(4): 193-198.
[4]	王耀南;吴成中;张辉;葛继;周博文;赵科. 医药输液视觉检测机器人关键技术综述[J]. , 2013, 49(7): 130-140.
[5]	张壮雅;张海光;万福平;刘媛媛;胡庆夕. 面向真空注型技术的双组分材料混合脱泡方法[J]. , 2013, 49(23): 28-35.
[6]	刘震;张广军;魏振忠. 基于双平面靶标的多视觉传感器现场全局校准[J]. , 2009, 45(7): 228-232.
[7]	刘震;张广军;魏振忠. 基于一维靶标的多摄像机现场全局校准[J]. , 2009, 45(4): 161-165.
[8]	张宏伟;张国雄;刘书桂;裘祖荣;于复生. 零件轮廓测量机安全监测系统的设计[J]. , 2006, 42(2): 212-215.
[9]	王荣本;储江伟;冯炎;游峰;纪寿文. 一种视觉导航的实用型AGV设计[J]. , 2002, 38(11): 135-138.
[10]	罗振璧;郑力;汪劲松;张伯鹏;潘尚峰;唐晓红. 机器视觉在尺寸在线检测中的应用[J]. , 1994, 30(6): 47-52.