基于 CRF 的驾驶员意图在线识别

doi:10.16638/j.cnki.1671-7988.2023.02.010

汽车实用技术 ›› 2022, Vol. 48 ›› Issue (2): 51-61.DOI: 10.16638/j.cnki.1671-7988.2023.02.010

• 智能网联汽车 • 上一篇

基于 CRF 的驾驶员意图在线识别

李雪涵，陈焕明*，华航

青岛大学机电工程学院

出版日期:2023-01-30 发布日期:2023-01-30
通讯作者: 陈焕明
作者简介:李雪涵（1997—），男，硕士研究生，研究方向为驾驶意图识别，E-mail:2020025576@qdu.edu.cn。通信作者：陈焕明（1986—），男，博士，讲师，研究方向为车辆系统动力学仿真与控制，E-mail:qdchm@qdu.edu.cn。

Online Driver Intention Recognition Based on CRF

LI Xuehan, CHEN Huanming* , HUA Hang

College of Mechanical and Electrical Engineering

Online:2023-01-30 Published:2023-01-30
Contact: CHEN Huanming

摘要/Abstract

摘要： 为提升驾驶辅助系统决策准确率，文章建立一种基于条件随机场（CRF）的驾驶员意图在线识别系统，为驾驶辅助系统提供重要参考。文章采用深度标签分布学习（DLDL）识别驾驶员的头部姿态判断其观察目标，在驾驶模拟器上创建实验场景，采集驾驶员操作数据，按照操作划分并输入至 CRF 进行训练，识别驾驶员的换道意图。通过实验对比，识别率在 96% 以上，能够在 5 s 前识别驾驶员的换道意图。在此基础上实现在线识别，满足实际应用要求。

关键词: 深度标签分布学习；头部姿态；条件随机场；驾驶意图在线识别

Abstract: In order to improve the decision-making accuracy of driving assistance system, this paper establishes an online driver intention recognition system based on conditional random field (CRF), which provides an important reference for driving assistance system. In this paper, deep label distribution learning (DLDL) is used to recognize the head posture of drivers to judge their observation targets. Experimental scenes are created on the driving simulator. The driver operation data are collected, divided according to the operation and input to CRF for training, and drivers' intention to change lanes is recognized. Through experimental comparison, the recognition rate is above 96%, and the driver's lane change intention can be recognized before 5 s. On this basis, online recognition is realized to meet the practical application requirements.

Key words: Deep label distribution learning; Head posture; Conditional random field; Online driver intention recognition

李雪涵. 基于 CRF 的驾驶员意图在线识别[J]. 汽车实用技术, 2022, 48(2): 51-61.

LI Xuehan. Online Driver Intention Recognition Based on CRF[J]. Automobile Applied Technology, 2022, 48(2): 51-61.

参考文献

[ 1 ] MA W, WU Z. Vehicle Motion Prediction Algorithm with Driving Intention Classification[J].Applied Sciences,2022,12(15):7443. [ 2 ] ZHANG H,FU R.A Hybrid Approach for Turning Intention Prediction Based on Time Series Forecasting and Deep Learning[J].Sensors,2020,20(17):4887. [ 3 ] SHANGGUAN Q, FU T, WANG J, et al. A Proactive Lane-changing Risk Prediction Framework Considering Driving Intention Recognition and Different Lane-changing Patterns[J].Accident Analysis & Prevention,2022,164:106500. [ 4 ] DAVID R, S?FFKER D. Effect of Environmental and Eye-tracking Information: an Artificial Neural Network-based State Machine Approach for Human Driver Intention Recognition[C]//2022 IEEE Conference on Cognitive and Computational Aspects of Situation Management.Piscataway:IEEE,2022:16-22. [ 5 ] HAO H T, HAN T, HAN S S. Study on Shift Strategy for Dual Clutch Transmission Based on Driving Intention[C]//2021 5th CAA International Conference on Vehicular Control and Intelligence. Piscataway: IEEE, 2021: 1-5. [ 6 ] LI M, WANG W, LIU Z, et al. Driver Behavior and Intention Recognition Based on Wavelet Denoising and Bayesian Theory[J]. Sustainability, 2022,14(11): 6901. [ 7 ] SONG R. Driver Intention Prediction Using Modeladded Bayesian Network[J].Proceedings of the Institution of Mechanical Engineers,2021,235(5):1236- 1244. [ 8 ] XIE G, GAO H, HUANG B, et al. A Driving Behavior Awareness Model Based on a Dynamic Bayesian Network and Distributed Genetic Algorithm[J]. International Journal of Computational Intelligence Systems,2018,11(1):469-482. [ 9 ] FENG Y, YAN X. Support Vector Machine Based Lane-changing Behavior Recognition and Lateral Trajectory Prediction[J].Computational Intelligence and Neuroscience,2022:3632333. [10] DIANGE Y, CHANGWEI H, MAN L, et al. Vehicle Steering and Lane-changing Behavior Recognition Based on a Support Vector Machine[J].Journal of Tsinghua University (Science and Technology), 2015, 55(10):1093-1097. [11] LI T,CHEN L,WANG Y.Autonomous Driving Behavior Prediction Method Based on Improved Hidden Markov Model[C]//2022 IEEE 25th International Conference on Computer Supported Cooperative Work in Design. Piscataway:IEEE, 2022:758-762. [12] LIU Q,XU S,LU C,et al.Early Recognition of Driving Intention for Lane Change Based on Recurrent Hidden Semi-markov Model[J].IEEE Transactions on Vehicular Technology,2020,69(10):10545-10557. [13] 刘志强,吴雪刚,倪捷,等.基于 HMM 和 SVM 级联算法的驾驶意图识别[J].汽车工程,2018,40(7):858-864. [14] 宋晓琳,曾艳兵,曹昊天,等.基于长短期记忆网络的换道意图识别方法[J].中国公路学报,2021,34(11):236- 245. [15] ZHOU D, LIU H, MA H, et al. Driving Behavior Prediction Considering Cognitive Prior and Driving Context[J].IEEE Transactions on Intelligent Transportation Systems, 2020, 22(5): 2669-2678.[16] WEN Y, ZHANG X, WANG F, et al. Predicting Driver Lane Change Intent Using HCRF[C]//2015 IEEE International Conference on Vehicular Electronics and Safety. Piscataway:IEEE, 2015: 64-68. [17] BORGHI G, FABBRI M, VEZZANI R, et al. Face-from-depth for Head Pose Estimation on Depth Images[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence,2018,42(3):596-609. [18] LUO C, ZHANG J, YU J, et al. Real-time Head Pose Estimation and Face Modeling from a Depth Image[J]. IEEE Transactions on Multimedia,2019,21(10):2473- 2481. [19] LIU L, KE Z, HUO J, et al. Head Pose Estimation through Keypoints Matching between Reconstructed 3D Face Model and 2D Image[J].Sensors,2021,21(5): 1841. [20] GUPTA A, THAKKAR K, GANDHI V, et al. Nose, Eyes and Ears:Head Pose Estimation by Locating Facial Keypoints[C]//2019 IEEE International Conference on Acoustics, Speech and Signal Processing. Piscataway:IEEE,2019:1977-1981. [21] AHN B, CHOI D G, PARK J, et al. Real-time Head Pose Estimation Using Multi-task Deep Neural Network[J].Robotics and Autonomous Systems,2018, 103:1-12. [22] SINGH T, MOHADIKAR M, GITE S, et al. Attention Span Prediction Using Head-pose Estimation with Deep Neural Networks[J].IEEE Access,2021,9: 142632-142643. [23] HU Z, XING Y, LV C, et al. Deep Convolutional Neural Network-based Bernoulli Heatmap for Head Pose Estimation[J].Neurocomputing,2021,436:198-209. [24] PATACCHIOLA M, CANGELOSI A. Head Pose Estimation in the Wild Using Convolutional Neural Networks and Adaptive Gradient Methods[J]. Pattern Recognition,2017,71:132-143. [25] GAO B B, XING C, XIE C W, et al. Deep Label Distribution Learning with Label Ambiguity[J]. IEEE Transactions on Image Processing,2017,26(6):2825- 2838. [26] LAFFERTY J, MCCALLUM A, PEREIRA F C N. Conditional random fields: Probabilistic Models for segmenting and Labeling Sequence Data[J]. the 18th International Conference on Machine Learning 2001. San Diego:ICML,2001:282-289.

基于 CRF 的驾驶员意图在线识别

Online Driver Intention Recognition Based on CRF

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