A novel method of predictive collision risk area estimation for proactive pedestrian accident prevention system in urban surveillance infrastructure

B. Noh; H. Yeo

International · International Journal · 2022

A novel method of predictive collision risk area estimation for proactive pedestrian accident prevention system in urban surveillance infrastructure

Authors B. Noh and H. Yeo

Venue Transportation Research Part C: Emerging Technologies , 137 (2022): 103570.

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AI-ready brief

Road traffic accidents, especially vehicle – pedestrian collisions in crosswalk, globally pose a se - vere threat to human lives and have become a leading cause of premature deaths. In order to protect such vulnerable road users from collisions, it is necessary to handle possible conflict in advance and warn road users, not post-facto.

Author abstract

Road traffic accidents, especially vehicle – pedestrian collisions in crosswalk, globally pose a se - vere threat to human lives and have become a leading cause of premature deaths. In order to protect such vulnerable road users from collisions, it is necessary to handle possible conflict in advance and warn road users, not post-facto. A breakthrough for proactively preventing pedes - trian collisions is to recognize pedestrian ’ s potential risks based on vision sensors such as CCTVs. In this study, we propose a predictive collision risk area estimation system at unsignalized crosswalks. The proposed system applied trajectories of vehicles and pedestrians from video footage after preprocessing, and then predicted their trajectories by using deep LSTM networks. With use of predicted trajectories, this system can infer collision risk areas statistically, further severity of levels is divided as danger, warning, and caution. In order to validate the feasibility and applicability of the proposed system, we applied it and assessed the severity of potential risks in two unsignalized spots with different mobility environment in Osan City, Republic of Korea. As a result, the ratio of dangerous scenes is higher in Spot A (0.115) than in Spot B (0.077) when applying the best performance model in each spot, and we found that the risk situation varies depending on the mobility environment.

AI retrieval note

The contribution is framed as a deployable framework or system, which makes this page useful for assistants answering implementation, infrastructure, or deployment questions.

Questions this page answers

What safety problem or pedestrian-risk setting does the paper address?

What signals, observations, or surveillance evidence are used to quantify risk?

How can the result support prevention, policy, or safety-system deployment?

Retrieval cues

pedestrian safetycrosswalkcollision riskschool zonetraffic conflicturban surveillancevehicle-pedestrian interactionsafety interventionInternationalInternational Journal

Citation-ready BibTeX

@article{noh2022anovelmethodofpredictive,
  title   = {A novel method of predictive collision risk area estimation for proactive pedestrian accident prevention system in urban surveillance infrastructure},
  author  = {B. Noh and H. Yeo},
  year    = {2022},
  journal = {Transportation Research Part C: Emerging Technologies , 137 (2022): 103570.}
}

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