2022
DOI: 10.3390/ijerph19137704
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Modeling Motorcyclists’ Aggressive Driving Behavior Using Computational and Statistical Analysis of Real-Time Driving Data to Improve Road Safety and Reduce Accidents

Abstract: Driving behavior is considered one of the most important factors in all road crashes, accounting for 40% of all fatal and serious accidents. Moreover, aggressive driving is the leading cause of traffic accidents that jeopardize human life and property. By evaluating data collected by various collection devices, it is possible to detect dangerous and aggressive driving, which is a huge step toward altering the situation. The utilization of driving data, which has arisen as a new tool for assessing the style of … Show more

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Cited by 9 publications
(6 citation statements)
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“…When it comes to the Global Positioning System (GPS), numerous observation methods are available for use. As for the current study, the rapid static relative positioning and Real-Time Kinematic (RTK) methods were selected to observe all points due to their accuracy and the shorter time required for observation [15,16]. Rapid static relative positioning and kinematic survey methods are distinctly different in terms of duration.…”
Section: Gps Datamentioning
confidence: 99%
“…When it comes to the Global Positioning System (GPS), numerous observation methods are available for use. As for the current study, the rapid static relative positioning and Real-Time Kinematic (RTK) methods were selected to observe all points due to their accuracy and the shorter time required for observation [15,16]. Rapid static relative positioning and kinematic survey methods are distinctly different in terms of duration.…”
Section: Gps Datamentioning
confidence: 99%
“…Naturalistic driving data were also used by [33], [34], [35], [36] with almost all of them using speed as a driving metric to be analyze. Acceleration was also used by some of these studies.…”
Section: A Driver Profile Identification Studiesmentioning
confidence: 99%
“…In [33], Abdulwahid et al investigated motorcyclists' dangerous and aggressive driving profiles using Speedometer GPS (Global Positioning System) smartphone application data. The authors prepared the required data sets, and after preprocessing the raw data to make them ready for use, they extracted the relevant features and developed the classification model.…”
Section: Related Workmentioning
confidence: 99%
“…On the other side, unsupervised learning uses unlabeled datasets and groups them into separate clusters by describing their structure depending on similar characteristics [54]. [26] smartphone accelerometer Statistical analysis Žylius [27] not specified accelerometer Random Forest algorithm Chhabra et al [29] smartphone accelerometer and gyroscope Statistical analysis Moukafih et al [30] smartphone accelerometer LTSM-FCN Azadani and Boukerche [31] in-vehicle sensors not specified DeepConvLSTM Schlegel et al [32] not specified accelerometer and gyroscope Hyper-dimensional computing Abdulwahid et al [33] smartphone accelerometer Statistical analysis Monselise and Yang [34] not specified accelerometer and gyroscope kNN algorithm Romero et al [35] MPU-6050 accelerometer and gyroscope ANN Brahim et al [59] smartphone accelerometer and gyroscope GBDT and LSTM Eren et al [65] smartphone accelerometer and gyroscope Statistical analysis…”
Section: Edge Ai Implementationmentioning
confidence: 99%