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Citation |
Jo Y, Lee S, Oh C, Suh W, Kim H. J. Korean Soc. Transp. 2022; 40(2): 245-259. |
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Vernacular Title |
교차로 차량 주행안전성 예측 기반 위험상황 검지 기술 개발 |
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Copyright |
(Copyright © 2022, Korean Society of Transportation) |
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DOI |
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PMID |
unavailable |
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Abstract |
An important technology for proactive traffic safety analytics, which is a backbone of preventing traffic crashes, is to identify hazardous situations based on vehicle interactions prediction. The purpose of this study is to develop a high-risk event detection algorithm by analyzing predicted vehicle interactions using trajectory data. Vehicle interactions were evaluated in terms of quantifying crash risks by the proposed long-short term memory based vehicle position prediction model. The vehicle position prediction model is optimized for a parameter set with superior accuracy by combining the time scale parameters and the prediction model hyperparameters. A high-risk event indicator (HEI) was then derived based on an analysis of vehicle interactions using predicted position data. The applicability of the proposed algorithm was evaluated based on trajectory data obtained from vehicle image tracking technology at an urban intersection. The prediction model developed in this study was able to predict the x-axis and y-axis vehicle positions after 1 seconds with mean absolute percentage errors of approximately 1% and 3%, respectively. In addition, the correct detection rate (CDR) was defined as a performance measure to derive the accuracy of high-risk events using the proposed HEI. Performance evaluations of the proposed algorithm show promising results for actual implementation in practice, where a CDR of up to 94% can be achieved. The infrastructure-based detection of high-risk events by predicting vehicle interactions would be useful in supporting autonomous vehicles crossing intersections safely via I2V wireless communication. Language: ko |