Title of article :
Using Image Processing in the Proposed Drowsiness Detection System Design
Author/Authors :
POURSADEGHIYAN, Mohsen Research Center in Emergency and Disaster Health - University of Social Welfare and Rehabilitation Sciences, Tehran, Iran , MAZLOUMI, Adel Dept. of Occupational Health - School of Public Health - International Campus - Tehran University of Medical Sciences, Tehran, Iran , NASL SARAJI, Gebraeil Dept. of Occupational Health - School of Public Health - International Campus - Tehran University of Medical Sciences, Tehran, Iran , Mehdi BANESHI, Mohammad Social Determinants of Health Research Center - Yasuj University of Medical Sciences, Yasuj, Iran , KHAMMAR, Alireza Dept. of Occupational Health Engineering - School of Health - Zabol University of Medical Sciences, Zabol, Iran , EBRAHIMI, Mohammad Hossein Occupational and Environmental Health Research Center - Shahroud University of Medical Sciences, Shahroud, Iran
Pages :
8
From page :
1370
To page :
1377
Abstract :
Background: Drowsiness is one of the underlying causes of driving accidents, which contribute, to many road fatalities annually. Although numerous methods have been developed to detect the level of drowsiness, tech-niques based on image processing are quicker and more accurate in comparison with the other methods. The aim of this study was to use image-processing techniques to detect the levels of drowsiness in a driving simula-tor. Methods: This study was conducted on five suburban drivers using a driving simulator based on virtual reality laboratory of Khaje-Nasir Toosi University of Technology in 2015 Tehran, Iran. The facial expressions, as well as location of the eyes, were detected by Violla-Jones algorithm. Criteria for detecting drivers’ levels of drowsi-ness by eyes tracking included eye blink duration blink frequency and PERCLOS that was used to confirm the results. Results: Eye closure duration and blink frequency have a direct ratio of drivers’ levels of drowsiness. The mean of squares of errors for data trained by the network and data into the network for testing, were 0.0623 and 0.0700, respectively. Meanwhile, the percentage of accuracy of detecting system was 93. Conclusion: The results showed several dynamic changes of the eyes during the periods of drowsiness. The present study proposes a fast and accurate method for detecting the levels of drivers’ drowsiness by considering the dynamic changes of the eyes.
Keywords :
Driver drowsiness , Facial expression , Simulation driving , Road safety
Journal title :
Astroparticle Physics
Serial Year :
2018
Record number :
2426186
Link To Document :
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