Abstract
One goal for large-scale deployment of connected and autonomous vehicles is to achieve the traffic safety benefit since connected and autonomous vehicles (CAVs) could reduce the collision risk by enhancing the driver’s situation perception ability. Previous studies have analyzed the safety impact of CAVs involved in traffic, but only few studies examined the safety benefits brought by CAVs when approaching high-collision-risk road segments such as the freeway crash hotspots. This study chooses one freeway crash hotspot in Wuhan, China, as an instance and attempts to estimate the safety benefits for differential penetration rates (PRs) of CAVs using the surrogate safety assessment model (SSAM). First, the freeway crash hotspot is identified with kernel density estimation and simulated by VISSIM. Then, the intelligent driver model (IDM) and Wiedemann 99 (a car-following model) are adopted and calibrated to control the driving behaviors of CAVs and human-driven vehicles (HVs) in this study, respectively. The impact that rather CAVs are constrained with or without managed lanes on traffic safety is also discussed, and the PR of CAVs is set from 10% to 90%. The results of this study show that when the PR of CAVs is lower than 50%, there is no significant improvement on the safety measures such as conflicts, acceleration, and velocity difference, which are extracted from the vehicle trajectory data using SSAM. When the penetration rate is over 70%, the experiment results demonstrate that the traffic flow passing the freeway hotspot is with fewer conflicts, smaller acceleration, and smaller velocity difference in the scenario where CAVs are constrained with managed lane compared with the scenario without managed lane control. The safety benefit that CAVs bring needs to be discussed. The lane management of CAVs will also lead to distinct safety impact.
Highlights
As vehicle-to-everything (V2X), vehicle sensors, on-board computers, and calculating efficiency develop, more connected and autonomous vehicles (CAVs) will be involved in traffic flow on road [1]. e development and application of technology need time; a mixed condition of CAVs and human-driven vehicles (HVs) will exist for several years [2].For the benefit of situation perception technology and quick-response driving behavior, the involvement of CAVs would help improve traffic safety levels [3]
The impact of CAVs on traffic safety with various penetration rates (PRs) of CAVs is investigated by simulation, and two experiment scenarios are set to study the traffic safety improvement of two traffic management strategies
The PR of CAVs has been changed from 10% to 90%, two traffic management strategies were designed by setting managed lanes for CAVs or not
Summary
As vehicle-to-everything (V2X), vehicle sensors, on-board computers, and calculating efficiency develop, more connected and autonomous vehicles (CAVs) will be involved in traffic flow on road [1]. For the benefit of situation perception technology and quick-response driving behavior, the involvement of CAVs would help improve traffic safety levels [3]. Some research studies indicated that the involvement of CAVs might be of benefit to traffic safety. E increase of penetration rate (PR) of CAVs would greatly improve traffic safety in the mixed flow in the way of keeping time to collision (TTC) an appropriate range [10]. Some researchers demonstrated that the mixed condition would cause interference between CAVs and HVs and negatively affect traffic safety under certain conditions [4, 14]. Some researchers demonstrated that the mixed condition would cause interference between CAVs and HVs and negatively affect traffic safety under certain conditions [4, 14]. e involvement of CAVs may lead to an increase in potential collisions with low PRs of CAVs [11]
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