Aerospace, Vol. 12, Pages 738: Analysis on Characteristics of Mixed Traffic Flow with Intelligent Connected Vehicles at Airport Two-Lane Curbside Based on Traffic Characteristics

Aerospace doi: 10.3390/aerospace12080738

Authors:
Xin Chang
Weiping Yang
Yao Tang
Zhe Liu
Zheng Liu

With the growing adoption of connected and autonomous vehicles (CAVs), their market penetration is expected to rise. This study investigates the mixed traffic flow dynamics of human-driven vehicles (HDVs) and connected and autonomous vehicles (CAVs) at airport terminal curbsides. A two-lane parking simulation model is developed, integrating the intelligent driver model (IDM), PATH-calibrated cooperative adaptive cruise control (CACC), and a degraded adaptive cruise control (ACC) model to capture different driving behaviors. The model accounts for varying time headways among HDV drivers based on their information acceptance levels and imposes departure constraints to enhance safety. Simulation results show that the addition of CAVs can significantly increase the average speed of vehicles and reduce the average delay time. Two metrics are inversely proportional. Specifically, as illustrated by a curbside length of 400 m and a parking demand of 1300 pcph, when the CAV penetration rate p is 10%, 30%, 50%, 70%, and 100%, respectively, compared to p = 0, the average traffic flow speed increases by 1.7%, 6.4%, 15.0%, 27.2%, and 48.7%, respectively. The average delay time decreases by 2.8%, 6.4%, 10.5%, 13.5%, and 20.0%, respectively. Meanwhile, CAVs and HAVs exhibit consistent patterns in terms of parking space utilization: the first stage (0–30% of parking spaces) showed a stable and concentrated trend; the second stage (30–70% of parking spaces) showed a slow downward trend but remained at a high level; the third stage (70–100% of parking spaces) showed a rapid decline at a steady rate.

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Xin Chang www.mdpi.com