Detection and Evaluation of Driver Distraction Using Machine Learning and Fuzzy Logic

In addition to vehicle control, drivers often perform secondary tasks that impede driving. Reduction of driver distraction is an important challenge for the safety of intelligent transportation systems. In this paper, a methodology for the detection and evaluation of driver distraction while perform...

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Bibliographic Details
Published in:IEEE transactions on intelligent transportation systems 2019-06, Vol.20 (6), p.2048-2059
Main Authors: Aksjonov, Andrei, Nedoma, Pavel, Vodovozov, Valery, Petlenkov, Eduard, Herrmann, Martin
Format: Article
Language:English
Subjects:
Algorithms
Artificial intelligence
Artificial neural networks
Automobile industry
Drivers
Euclidean distance
Fuzzy logic
fuzzy neural networks
Intelligent transportation systems
Lane keeping
Machine learning
Machine learning algorithms
prediction method
Road maintenance
Subsystems
Support vector machines
Task analysis
Telematics
Vehicle dynamics
vehicle safety
Vehicles
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Summary:In addition to vehicle control, drivers often perform secondary tasks that impede driving. Reduction of driver distraction is an important challenge for the safety of intelligent transportation systems. In this paper, a methodology for the detection and evaluation of driver distraction while performing secondary tasks is described and an appropriate hardware and a software environment is offered and studied. The system includes a model of normal driving, a subsystem for measuring the errors from the secondary tasks, and a module for total distraction evaluation. A new machine learning algorithm defines driver performance in lane keeping and speed maintenance on a specific road segment. To recognize the errors, a method is proposed, which compares normal driving parameters with ones obtained while conducting a secondary task. To evaluate distraction, an effective fuzzy logic algorithm is used. To verify the proposed approach, a case study with driver-in-the-loop experiments was carried out, in which participants performed the secondary task, namely chatting on a cell phone. The results presented in this research confirm its capability to detect and to precisely measure a level of abnormal driver performance.
ISSN:1524-9050
1558-0016
DOI:10.1109/TITS.2018.2857222