This study proposes an applicable driver identification method using machine learning algorithms with driving information. The driving data are collected by a 3-axis accelerometer, which records the lateral, longitudinal and vertical accelerations. In this research, a data transformation way is developed to extract interpretable statistics features from raw 3-axis sensor data and utilise machine learning algorithms to identify drivers. To eliminate the bias caused by the sensor installation and ensure the applicability of their approach, they present a data calibration method which proves to be necessary for a comparative test. Four basic supervised classification algorithms are used to perform on the data set for comparison. To improve classification performance, they propose a multiple classifier system, which combines the outputs of several classifiers. Experimental results based on real-world data show that the proposed algorithm is effective on solving driver identification problem. Among the four basic algorithms, random forests (RFs) algorithm has the greatest performance on accuracy, recall and precision. With the proposed multiple classifier system, a greater performance can be achieved in small number of drivers’ groups. RFs algorithm takes the lead in running speed. In their experiment, ten drivers are involved and over 5,500,000 driving records per driver are collected.
Driver identification in intelligent vehicle systems using machine learning algorithms
IET Intelligent Transport Systems ; 13 , 1 ; 40-47
2018-06-20
8 pages
Article (Journal)
Electronic Resource
English
lateral accelerations , image classification , random forests algorithm , data calibration method , intelligent transportation systems , RFs algorithm , interpretable statistics feature extraction , longitudinal accelerations , statistical analysis , supervised classification algorithms , learning (artificial intelligence) , multiple classifier system , driver identification method , traffic engineering computing , data transformation , feature extraction , raw 3-axis sensor data , vertical accelerations , sensor installation , driving data collection , machine learning algorithms , 3-axis accelerometer , intelligent vehicle systems , calibration
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