Abstract
This study proposes the design, implementation, and application of a new car-following data collecting method based on binocular stereo vision system. The car-following data consist of car-following distance, velocity, relative velocity and driving trajectory of a following vehicle. Specifically, triangulation principle is used to measure car-following distance. Robust locally weighted regression smoothing method is applied to automatically filter out the outliers caused by disturbance in real-world driving condition. Real-world experiments indicate that binocular cameras with 25mm focal length have advantages in traffic conditions with long car-following distance and high driving speed, and that binocular cameras with12mm focal length are suitable to measure on urban roads, where car-following distance is short and more driving conditions are needed to be observed. In 0-60m distance measuring range, it is verified that the mean absolute percentage error (MAPE) of binocular cameras with 25mm focal length is 3.2% and the MAPE of binocular cameras with 12mm focal length is 6.3%. The data collecting system helps to advance car following models due to its high accuracy and effective cost.
Highlights
Microscopic traffic flow theory, which explains the interaction between adjacent vehicles on roads, can help transportation professionals make important decisions on such topics as traffic flow management strategies and plans [1], intelligent transportation system (ITS) strategies and plans [2], [3], traffic safety studies [4]–[8], etc
In 0-60m distance measuring range, it is verified that the mean absolute percentage error (MAPE) of binocular cameras with 25mm focal length (25mm cameras) is 3.2% and the MAPE of binocular cameras with 12mm focal length (12mm cameras) is 6.3%
A leading vehicle was equipped with a GNSS RTK receiver, and a following vehicle was equipped with another GNSS RTK receiver and two pairs of binocular cameras
Summary
School of Transportation, Southeast University, Nanjing 211189, China Jiangsu Key Laboratory of Urban ITS, Southeast University, Nanjing 211189, China Jiangsu Province Collaborative Innovation Center of Modern Urban Traffic Technologies, Southeast University, Nanjing 211189, China
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