Traffic Fatalities and Urban Infrastructure: A Spatial Variability Study Using Geographically Weighted Poisson Regression Applied in Cali (Colombia)

Pacheco, Harvy Vivas; Rodríguez-Mariaca, Diego; Molina, Ciro Jaramillo; Fandiño-Losada, Andrés; Gutiérrez-Martínez, María Isabel

doi:10.3390/safety9020034

Cited by 5 publications

(3 citation statements)

References 41 publications

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“…The driver's position has changed, and current vehicles allow you to adjust the height of the steering column and adjust the vehicle seat to suit the comfort of the driver and passengers. The road infrastructure has also changed significantly [13][14][15]. In many countries around the world, highways and expressways have been expanded, forcing vehicles to move in one direction, which has resulted in a reduction in the number of frontal and side accidents in recent decades.…”

Section: Introductionmentioning

confidence: 99%

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Analysis of Head Displacement during a Frontal Collision at a Speed of 20 km/h—Experimental Studies

Frej

2023

Sustainability

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The aim of the research is to compare the head displacements of volunteers with the head displacements of the KPSIT C50 dummy, taking into account the change of vehicle seat belts. Unfortunately, sudden braking or collisions between vehicles is becoming more and more common, especially during traffic jams. There is considerable ignorance in the literature on the behavior of the human body during a low-speed collision, which motivates the development of low-speed crash test procedures in order to reduce the risk of cervical spine injuries. The tests were carried out at a teaching station designed to measure the forces in seat belts and the displacements of individual body elements (dummy or volunteer) during a low-speed crash test. The article is part of extensive research on crash tests using volunteers and KPSIT physical dummies. The study involved 150 volunteers who were divided into specific percentile groups. The article compares the head displacements of the constructed KPSIT C50 dummy with the head displacements of volunteers representing the 50th percentile group of the male population. The study conducted with volunteers was under control and was completely safe for people participating in the study. The research shows that the use of a bucket sports seat equipped with four-point or five-point seat belts significantly reduces the movement of the head during a low-speed collision. This type of vehicle seat is safer and provides a reduced risk of injury from hitting the head on the steering column in a low-speed collision when the airbag has not deployed. Moreover, research shows that standard seat belts placed in passenger vehicles allow the head to move freely forward in the event of an accident or low-speed collision. Therefore, if the speed is too low to deploy the airbag, there is a high probability that the driver and passengers will hit their heads against the cockpit of the passenger vehicle during a collision at a speed of 20 km/h.

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Section: Introductionmentioning

confidence: 99%

“…This results in the fact that despite the correct biofidelity of the dummy with the human body, dummy manufacturers do not accept the use of one dummy for several different crash tests. Moreover, the market lacks a dummy dedicated to low-speed crash tests [13,15,16].…”

Section: Introductionmentioning

confidence: 99%

Analysis of Head Displacement during a Frontal Collision at a Speed of 20 km/h—Experimental Studies

Frej

2023

Sustainability

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“…Road safety remains a critical global concern [1]. As per the Road Safety Situation Report by Road Safety for All, road accidents annually result in approximately 1.35 million deaths and 50 million injuries [2]. Disturbingly, 93% of these fatalities occur in low to middle-income countries.…”

Section: Introductionmentioning

confidence: 99%

Big Data Analytics with the Multivariate Adaptive Regression Splines to Analyze Key Factors Influencing Accident Severity in Industrial Zones of Thailand: A Study on Truck and Non-Truck Collisions

Seefong,

Wisutwattanasak,

et al. 2023

BDCC

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Machine learning currently holds a vital position in predicting collision severity. Identifying factors associated with heightened risks of injury and fatalities aids in enhancing road safety measures and management. Presently, Thailand faces considerable challenges with respect to road traffic accidents. These challenges are particularly acute in industrial zones, where they contribute to a rise in injuries and fatalities. The mixture of heavy traffic, comprising both trucks and non-trucks, significantly amplifies the risk of accidents. This situation, hence, generates profound concerns for road safety in Thailand. Consequently, discerning the factors that influence the severity of injuries and fatalities becomes pivotal for formulating effective road safety policies and measures. This study is specifically aimed at predicting the factors contributing to the severity of accidents involving truck and non-truck collisions in industrial zones. It considers a variety of aspects, including roadway characteristics, underlying assumptions of cause, crash characteristics, and weather conditions. Due to the fact that accident data is big data with specific characteristics and complexity, with the employment of machine learning in tandem with the Multi-variate Adaptive Regression Splines technique, we can make precise predictions to identify the factors influencing the severity of collision outcomes. The analysis demonstrates that various factors augment the severity of accidents involving trucks. These include darting in front of a vehicle, head-on collisions, and pedestrian collisions. Conversely, for non-truck related collisions, the significant factors that heighten severity are tailgating, running signs/signals, angle collisions, head-on collisions, overtaking collisions, pedestrian collisions, obstruction collisions, and collisions during overcast conditions. These findings illuminate the significant factors influencing the severity of accidents involving trucks and non-trucks. Such insights provide invaluable information for developing targeted road safety measures and policies, thereby contributing to the mitigation of injuries and fatalities.

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The effects of weather factors on road traffic casualties: Analysis on provincial panel data of China from 2006 to 2021

Zou,

Sun,

Lan

et al. 2024

Heliyon

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Traffic Fatalities and Urban Infrastructure: A Spatial Variability Study Using Geographically Weighted Poisson Regression Applied in Cali (Colombia)

Cited by 5 publications

References 41 publications

Analysis of Head Displacement during a Frontal Collision at a Speed of 20 km/h—Experimental Studies

Analysis of Head Displacement during a Frontal Collision at a Speed of 20 km/h—Experimental Studies

Big Data Analytics with the Multivariate Adaptive Regression Splines to Analyze Key Factors Influencing Accident Severity in Industrial Zones of Thailand: A Study on Truck and Non-Truck Collisions

The effects of weather factors on road traffic casualties: Analysis on provincial panel data of China from 2006 to 2021

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