Trajectory-based conflict investigations involving two-wheelers and cars at non-signalized intersections with computer vision
Author:
Funder
National Natural Science Foundation of China
Publisher
Elsevier BV
Subject
Artificial Intelligence,Computer Science Applications,General Engineering
Reference59 articles.
1. Bicyclist’s perceived level of comfort in dense urban environments: How do ambient traffic, engineering treatments, and bicyclist characteristics relate?;Abadi;Sustainable cities and society,2018
2. Investigation of factors affecting the injury severity of single-vehicle rollover crashes: A random-effects generalized ordered probit model;Anarkooli;Accident Analysis & Prevention,2017
3. Incorporating speed in a traffic conflict severity index to estimate left turn opposed crashes at signalized intersections;Anarkooli;Transportation research record,2021
4. Ensemble and Fuzzy Kalman Filter for position estimation of an autonomous underwater vehicle based on dynamical system of AUV motion;Apriliani;Expert Systems with Applications,2017
5. Assessing safety of shared space using cyclist-pedestrian interactions and automated video conflict analysis;Beitel;Transportation Research Part D: Transport and Environment,2018
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