首页|期刊导航|交通信息与安全|混驾环境下考虑异质速度与路径选择行为的交通配流模型

混驾环境下考虑异质速度与路径选择行为的交通配流模型OACSCD

A Traffic Assignment Model Considering Heterogeneous Speed and Route Choice Behaviors under Mixed Driving Environments

中文摘要英文摘要

为了定量评估混驾环境下网联自驾车(connected autonomous vehicle,CAV)与人驾车(human-driven vehicle,HDV)的行为异质性对路网交通系统性能的影响,构建了考虑CAV、HDV速度与路径联合选择行为异质性的交通均衡配流模型.通过考虑行驶速度与感知碰撞风险、出行时间,以及超速罚单风险三者之间的定量关系,建立基于效用理论的速度选择行为模型,解析CAV、HDV最优速度选择和限速遵从决策的行为异质性.引入路径时间剩余的概念描述出行者权衡路径时间和费用的非补偿决策,采用路径时间剩余最大化准则下的用户均衡、Logit随机用户均衡条件分别描述CAV、HDV的异质性路径选择行为,速度和路径选择行为通过路径时间剩余相互耦合.基于变分不等式理论构建等价的路网交通均衡配流模型,并设计1种启发式的双层循环迭代算法求解模型.采用Nguyen-Dupuis网络和淮南市路网对模型和算法进行验证,并对比分析不同交通管控条件下的路网总出行时间和事故风险.结果表明:随着CAV市场渗透率由20%提高至80%,路网总时间在40、50 km/h这2种限速情景下呈现增大趋势,而路网事故风险则在所有限速情景下,均呈现先增大后减小趋势;在高限速(80 km/h)下,路网总时间随CAV交通折算系数下降(0.9~0.1)而减小,但路网事故风险会增大,在低限速(40 km/h)下,CAV交通折算系数的影响则较微弱;随着路网限速值由40 km/h提高至80 km/h,路网总时间和事故风险均先减小而后稳定或增大,说明合适的限速值可以同时降低路网总时间和事故风险.

This study aims at quantitatively evaluating the impacts of travelers'heterogeneous behaviors of connect-ed autonomous vehicle(CAV)and human-driven vehicle(HDV)on road network performance.A traffic equilibri-um assignment model is proposed under mixed driving environments,which considers the heterogeneity in joint speed-route choice behaviors of CAV and HDV.Specifically,the quantitative relationship is established between driving speed and perceived crash risk,travel time and speeding ticket risk.By using the quantitative relationship,a speed choice behavior model is then formulated based on utility theory.The model could analytically characterize the behavior heterogeneity in optimal speed selection and speed limit(SL)obeying decisions of CAV and HDV.The concept of path time surplus(PTS)is introduced to characterize travelers'non-compensatory decision rules when weighing path travel time and monetary cost.The user equilibrium(UE)and Logit-based stochastic user equilibri-um(SUE)principles with PTS maximization are used to describe the heterogeneous route choice behaviors of CAV and HDV,respectively.The speed choice behavior would intertwine with the path choice behavior via the PTS.By utilizing variational inequality(VI)theory,an equivalent mixed traffic equilibrium assignment model is finally pro-posed.A heuristic double-layer loop iterative algorithm is also developed to solve the model.Nguyen-Dupuis net-work and Huainan road network are used to validate the proposed model and algorithm.The total travel time(TTT)and total accident risk(TAR)are compared and analyzed in a road network under different traffic regulation condi-tions.The results indicate that with the market penetration rate(MPR)of CAVs increasing from 20%to 80%,the TTT shows an increasing trend in both 40 km/h and 50 km/h SL scenarios.Meanwhile,the TAR would increase first and then decrease across all SL scenarios.Under a high SL scheme(80 km/h),the TTT would decrease as the CAV traffic conversion factor reduces from 0.9 to 0.1,while the TAR exhibits a rising trend.Under a low SL scheme(40 km/h),however,the influences of CAV traffic conversion factor would become very insignificant.As the SL value increases from 40 km/h to 80 km/h,both the TTT and TAR decrease initially,and then stabilize or increase.The nu-merical results demonstrate that an appropriate speed limit scheme can reduce both TTT and TAR simultaneously.

韩飞;王建;李岩;张锐;孙超;孔毅恒

长安大学运输工程学院 西安 710064东南大学交通学院 南京 211189长安大学运输工程学院 西安 710064长安大学运输工程学院 西安 710064江苏大学汽车与交通工程学院 江苏 镇江 212016长安大学运输工程学院 西安 710064

交通工程

交通工程交通配流模型变分不等式混驾环境速度-路径选择行为行为异质性

traffic engineeringtraffic assignment modelvariational inequalitymixed driving environmentsspeed-route choice behaviorsbehavior heterogeneity

《交通信息与安全》 2025 (6)

159-170,12

国家自然科学基金项目(52472340、52272316)、陕西省重点研发计划项目(2023-YBGY-138)、陕西省自然科学基金项目(2020JQ-370)、中央高校基本科研业务费专项资金项目(300102344603)资助

10.3963/j.jssn.1674-4861.2025.06.015

评论