SC-V2XSim: 车路协同环境下的高速公路混合交通流联合仿真方法

SC-V2XSim: A Co-simulation Method for Highway Mixed Traffic Flow Considering V2X

  • 摘要: 基于开源微观交通仿真软件SUMO构建车路协同环境下的车辆驾驶行为模型,包括驾驶控制、驾驶建议与智慧导航3个模块及6个典型车路协同场景。结合车辆仿真软件CARLA具备高精度物理与传感器模型的优势,提出了一种面向高速公路混合交通流的协同联合仿真框架,命名为SC-V2XSim。该框架弥补了微观交通仿真不具备车路协同仿真功能、无法接入自动驾驶算法与车辆仿真不具备真实交通流模型的缺陷。选择中国浙江省沪杭甬高速公路进行了测试与验证,并模拟不同渗透率情况下的混合交通流特征。提出了一种考虑车路协同等新一代信息化技术的智慧高速服务水平评价体系,以期为智慧高速的建设与发展提供一种分析评价方法。实验结果表明,对于智慧高速而言,全息感知、数字孪生和车路协同是3个重要的影响因素。随着具备车路协同功能车辆的增加,道路平均车速也逐渐提高,在具备100%网联车辆渗透率的情况下平均车速提高达到15%。网联车辆相对于人类驾驶车辆具有更加合理的驾驶行为,所提出的考虑车路协同等新一代信息技术的智能公路服务水平评价体系能够为智慧公路的建设和发展提供一种可行的分析评价方法。

     

    Abstract:
    Objectives New technologies such as autonomous driving, intelligent networking, and V2X(vehicle-to-everything) are considered to be the key to driving changes in the future transportation system. Many studies have reached a consensus that human-driven vehicles, intelligent connected vehicles, and different levels of self-driving vehicles will coexist for a long period of time in the future. How to analyze the characteristics of the mixed traffic flow composed of these different types of vehicles is the key to rea‑lize the full promotion and application of vehicle-circuit coordination and autonomous driving technology. Simulation is an important method, but most of the existing microscopic traffic simulation tools do not have the ability to simulate the mixed traffic flow under the environment of vehicle-road cooperation.
    Methods First, we build a vehicle driving behavior model under vehicle-road collaborative environment based on SUMO, an open-source micro-traffic simulation software, including three modules of driving control, driving advice and intelligent navigation, and six typical vehicle-road collaborative scenarios. Combined with the advantages of vehicle simulation software CARLA, which has high precision physical and sensor models, a collaborative co-simulation framework for expressway mixed traffic flow is proposed and named SC-V2XSim. The framework makes up for the defects that micro-traffic simulation does not have vehicle-road co-simulation function, can not access automatic driving algorithm and vehicle simulation does not have real traffic flow model. Second, the Shanghai-Hang-Ningbo expressway in Zhejiang Province is selected for testing and verification, and the characteristics of mixed traffic flow under different permeability conditions are simulated. Finally, a new generation information technology such as vehicle-road coordination is proposed to provide an analysis and evaluation method for the construction and development of the intelligent highway.
    Results The experimental results show that holographic sensing, digital twin and V2X are three important factors for smart highway. On the other hand, with the increase of vehicles with vehicle-road collaboration function, the average road speed also gradually increases, and the average speed increases to 15% in the case of 100% V2X penetration.
    Conclusions Compared with human-driven vehicles, intelligent connected vehicles have more reasonable driving behaviors. The proposed intelligent highway service level evaluation system, which considers vehicle-road coordination and other new generation information technologies, can provide a feasible analysis and evaluation method for the construction and development of smart highway.

     

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