Abstract
Saturation flow rate (SFR) is a fundamental parameter to the level of service evaluation, lane capacity calculation, and signal timing plan optimization at signalized intersections. It is affected by a variety of factors including weather conditions, lane width, and the type of the driver. How to accurately estimate the SFR remains one of the most important tasks in traffic engineering. Existing studies generally rely on the field measurement method which requires a large number of people collecting data at the intersection. As a result, the method incurs a high economic cost and cannot adapt to the dynamic change of SFR. In recent years, video detectors have been widely installed at intersections which are capable of recording the time each vehicle passes the stop line, the number plate of each vehicle, and the vehicle type. This paper therefore aims to propose an automatic estimation method for the SFR based on video detector data in order to overcome the limitation of the field measurement method. A prerequisite for estimating the SFR is to recognize the saturation headway. We consider the actual vehicle headway as time series and build an auxiliary regression equation whose parameters are estimated through the ordinary least squares method. We employ the Dickey-Fuller test to verify whether the headways in the time series are saturation headways. An iterative method using quantiles is proposed to filter out abnormal data. The SFR is finally calculated using the average value of saturation headways. To demonstrate the proposed method, we conduct a case study using data from an intersection with three entrance lanes in Qujing city, Yunnan Province, China. The overall estimation process is displayed and the impacts of quantile selection and data duration on the estimation accuracy are analyzed.
Highlights
In traffic engineering domain, the saturation flow rate (SFR) of an approaching lane at the intersection is a fundamental parameter for signal timing optimization, capacity calculation, level of service evaluation, and intersection design
Video detectors can provide time headways by recording in real time the number plate and time of each vehicle crossing the stop line and the type of the vehicle. The advantages of such an automatic estimation method for the SFR using video detector data include the: (i) vehicle discharge headways during the green phase can be automatically recorded without the need for manual surveys, which reduces the economic cost; (ii) vehicle operating data under different traffic scenarios can be recorded in real time, which fulfills the real-time requirement of traffic control; (iii) the method can be applied to the entire urban road network to automatically estimate the SFR for each entrance lane under each traffic scenario
The objective of this study is to propose an automatic estimation method for the intersection SFR based on video detector data that can overcome the limitations of the field measurement method
Summary
The saturation flow rate (SFR) of an approaching lane at the intersection is a fundamental parameter for signal timing optimization, capacity calculation, level of service evaluation, and intersection design. Video detectors can provide time headways by recording in real time the number plate and time of each vehicle crossing the stop line and the type of the vehicle The advantages of such an automatic estimation method for the SFR using video detector data include the: (i) vehicle discharge headways during the green phase can be automatically recorded without the need for manual surveys, which reduces the economic cost; (ii) vehicle operating data under different traffic scenarios can be recorded in real time, which fulfills the real-time requirement of traffic control; (iii) the method can be applied to the entire urban road network to automatically estimate the SFR for each entrance lane under each traffic scenario. The objective of this study is to propose an automatic estimation method for the intersection SFR based on video detector data that can overcome the limitations of the field measurement method (i.e., high labor cost and inability to fulfill the real-time requirement of traffic control).
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