A Systematic Literature Review of Learning-Based Traffic Accident Prediction Models Based on Heterogeneous Sources

Statistics affirm that almost half of deaths in traffic accidents were vulnerable road users, such as pedestrians, cyclists, and motorcyclists. Despite the efforts in technological infrastructure and traffic policies, the number of victims remains high and beyond expectation. Recent research establi...

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Bibliographic Details
Published inApplied sciences Vol. 12; no. 9; p. 4529
Main Authors Marcillo, Pablo, Valdivieso Caraguay, Ángel Leonardo, Hernández-Álvarez, Myriam
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.05.2022
Subjects
Accidents
Algorithms
Computer science
Data collection
Data sources
Datasets
Deep learning
Driving ability
Fatalities
Fatigue
heterogeneous sources
Keywords
Literature reviews
machine learning
Mechanical properties
Negligence
neural network
Pedestrians
Prediction models
Simulators
Statistical analysis
Systematic review
traffic accident prediction
Traffic accidents
Traffic accidents & safety
Traffic models
Weather
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Summary:Statistics affirm that almost half of deaths in traffic accidents were vulnerable road users, such as pedestrians, cyclists, and motorcyclists. Despite the efforts in technological infrastructure and traffic policies, the number of victims remains high and beyond expectation. Recent research establishes that determining the causes of traffic accidents is not an easy task because their occurrence depends on one or many factors. Traffic accidents can be caused by, for instance, mechanical problems, adverse weather conditions, mental and physical fatigue, negligence, potholes in the road, among others. At present, the use of learning-based prediction models as mechanisms to reduce the number of traffic accidents is a reality. In that way, the success of prediction models depends mainly on how data from different sources can be integrated and correlated. This study aims to report models, algorithms, data sources, attributes, data collection services, driving simulators, evaluation metrics, percentages of data for training/validation/testing, and others. We found that the performance of a prediction model depends mainly on the quality of its data and a proper data split configuration. The use of real data predominates over data generated by simulators. This work made it possible to determine that future research must point to developing traffic accident prediction models that use deep learning. It must also focus on exploring and using data sources, such as driver data and light conditions, and solve issues related to this type of solution, such as high dimensionality in data and information imbalance.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12094529