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基于WT-WOA的城市快速路交通震荡吸收策略OA北大核心

Traffic Oscillation Absorption Strategy of Urban Expressway Based on WT-WOA

中文摘要英文摘要

城市道路交通瓶颈点的交通震荡是诱发交通事故、通行延误和增加能源消耗的主要原因,缓解交通震荡可以显著提升交通运行效率和安全.为精确获取交通震荡的周期,研究了基于小波变换(wavelet trans-form,WT)的交通波时频分析方法,并开发了基于鲸鱼优化算法(whale optimization algorithm,WOA)的小波参数自适应标定方法.通过构建以交通震荡起止时间的识别误差绝对值为适应度函数,采用全局搜索机制克服局部最优问题,动态优化小波变换的尺度系数与平移系数,克服了小波变换易陷入局部最优的缺点,并解决了传统交通震荡识别方法中由于判别参数在阈值上下波动,导致识别不准确或误判的问题.在此基础上,提出融合能源消耗和驾驶安全的多目标协同交通波吸收控制框架,通过建立以燃油消耗率和交通安全指标的多目标优化函数,设计基于速度引导的车辆准入控制机制,在瓶颈区域上游实施动态速度调控,通过优化部分车辆行驶速度,减少进入交通瓶颈区的车辆数量,从而加快交通震荡的消散,抑制频繁加减速导致的能源损耗和安全风险.研究结果表明:在道路瓶颈区实施交通波吸收方法后,碰撞持续时间和综合碰撞时间分别降低了73.86%和61.07%,燃油消耗降低16.15%;分析网联自动驾驶车辆渗透率变化对控制方法影响发现,能耗和安全风险随渗透率增加而减小,渗透率≥0.3时,控制方法效果显著,能耗与安全风险都显著降低.

Traffic oscillations are primary causes of traffic accidents,delays,and increased energy consumption at bottlenecks of urban road networks.Mitigating oscillations can significantly improve traffic efficiency and safety.A wavelet transform-based time-frequency analysis method is used to accurately capture the cycle of traffic oscilla-tions.Additionally,an adaptive wavelet parameter calibration method is developed based on the whale optimization algorithm(WOA).A fitness function is set up based on the absolute error in identifying the start and end times of traffic shockwaves.In further,a global search mechanism is introduced to overcome the issue of local optima,dy-namically optimizing the scale and translation coefficients of the wavelet transform.This approach addresses the common problem of wavelet transforms getting trapped in local optima,and the inaccuracies or misjudgments caused by fluctuations in the discriminative parameters around threshold values in traditional traffic oscillations identification methods.Based on this,a multi-objective collaborative traffic wave absorption control framework in-tegrating energy consumption and driving safety is proposed.A multi-objective optimization function is then investi-gated incorporating fuel consumption rate and traffic safety indicators.A speed-guided vehicle access control mecha-nism is designed with dynamic speed regulation implemented upstream of the bottleneck area.By optimizing the speed of specific vehicles,the number of vehicles entering the bottleneck is reduced,accelerating the dissipation of traffic oscillations and suppressing energy loss and safety risks caused by frequent acceleration and deceleration.The results indicate that collision duration and overall collision time decreased by 73.86%and 61.07%respectively,while fuel consumption was reduced by 16.15%,after implementing the traffic wave absorption method in the bot-tleneck area.The energy consumption and safety risks decrease as the penetration rate increases by analysis of the impact of changes in the penetration rate of connected and autonomous vehicles on the control method.When the penetration rate reaches 0.3 or higher,the control method becomes significantly more effective,with notable reduc-tions in both energy consumption and safety risks.

赵红亮;张兆磊;易可夫;吴伟;郭静

长沙理工大学交通学院 长沙 410114长沙理工大学交通学院 长沙 410114长沙理工大学交通学院 长沙 410114重庆交通大学交通运输学院 重庆 400074长沙理工大学交通学院 长沙 410114

交通工程

交通工程交通震荡小波变换交通波吸收交通仿真低碳交通

traffic engineeringtraffic oscillationswavelet transformtraffic wave absorptiontraffic simulationlow-carbon transportation

《交通信息与安全》 2025 (1)

169-180,12

国家留学基金委国际合作项目(2023-21)、湖南省重点研发计划项目(2023SK2052)、教育部人文社会科学研究项目(22YJCZH189)、长沙市科技计划项目(kh2202002)资助

10.3963/j.jssn.1674-4861.2025.01.016

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