Modeling and Analyzing the Accidents Severity due to the Lack of Attention to the Front in Corona Pandemic Restrictions using Logistic Regression

Document Type : Original Article

Authors

Department of Civil Engineering, Islamic Azad University, Tehran North Branch

Abstract

Traffic accidents are one of the main causes of death in the world and the resulting damages have an important effect on the economy of any country that the need to identify factors affecting accidents that lead to a reduction in the frequency or severity of accidents is understandable. Since the outbreak of Covid-19, travel restriction policies have been widely adopted by cities around the world that it played a profound role in changing the shape of urban travel patterns. One of the factors that influenced traffic behavior in recent years was the epidemic of Corona disease in the world. Therefore, new driving rules and regulations were established for urban and suburban traffic, and traffic behaviors were affected by those rules. It is possible to investigate the effect of each factor on the severity of accidents by using accident severity models according to the effective parameters. In this article, urban accidents due to lack of attention during the corona epidemic were analyzed using logistic regression and information related to intra-urban accidents in Rasht city. The final model shows that the independent variables of working day, at-fault male drivers over 60 years of age, front-to-front collision and the at-fault vehicle Pride increase the probability of a fatal or injury accident compared to a damage accident. Variables with negative coefficients (6:00 a.m. to 9:00 p.m., dry road surface conditions, clear weather, and daylight conditions) reduce the probability of fatal or injury accidents compared to damage accidents.

Keywords

References

  1. . J. Li, Z. Zhao, “Impact of COVID-19 Travel-Restriction Policies on Road Traffic Accident Patterns with Emphasis on Cyclists: A Case Study of New York City” Accident Analysis & Prevention, Vol. 167, 2022.

    1. Ò. Saladié, E. Bustamante, A. Gutiérrez, “COVID-19 Lockdown and Reduction of Traffic Accidents in Tarragona Province, Spain” Transportation Research Interdisciplinary Perspectives, Vol. 8, 2020.
    2. Md. E. Shaik, S. Ahmed, an Overview of the Impact of COVID-19 on Road Traffic Safety and Travel Behavior. Transportation Engineering, Vol. 9, September 2022.
    3. I. Bargegol, M. Kiomarsi, “Investigating Parameters Affecting Motorcyclist Injury Accidents on Urban Roads” Guilan Police Science Journal, 13th row, 2015. (In Persian)
    4. I. Brgegol, M. Somesaraei, “Statistical Analysis of Inner-City Accidents Based on Vehicle Type Using Logistic Model”, Master's Thesis, Road and Transportation, Gilan University, 2015. (In Persian)
    5. P. Gribe, Accident Prediction Models for Urban Roads, Accident analysis & Prediction, Vol. 35, no. 2, pp. 273- 285, 2003.
    6. X. Yan, E. Radwan, M A. Aty, Characteristics of Rear- End Accident at Signalized Intersection Using Multiple Logistic Regression Model, Accident analysis & Prevention, Vol. 37, 2005, pp. 983- 995, 2005.
    7. V. Najafi Moghaddam Gilani, S. M. Hosseinian, M. Ghasedi, M. Nikookar, “Data-Driven Urban Traffic Accident Analysis and Prediction Using Logit and Machine Learning-Based Pattern Recognition Models”, Mathematical problems in engineering, Article ID 9974219, 2021.
    8. H. Bhuiyan, J. Ara, K. Md. Hasib, Md. I. H. Sourav, F. B. Karim, C. Sik-Lanyi, G. Governatori, A. Rakotonirainy, S. Yasmin “Crash Severity Analysis and Risk Factors Identification Based on an Alternate Data Source: a Case Study of Developing Country”, Scientific Reports, Vol. 12, Article number: 21243, 2022.
    9. I. Bargegol, M. Nazeri, V. Najafi Moghaddam Gilani, “Modeling of urban accidents using logistic regression”, the first national conference on road and transportation engineering Guilan University, 2017. (In Persian)

     

     

Send comment about this article
CAPTCHA Image

Files

Share

How to cite

Statistics