面向主线匝道协调的深度强化学习匝道控制方法OACSCD
A Method of Deep Reinforcement Learning-based Ramp Metering for Mainline-ramp Coordination
高速公路匝道合流区是交通拥堵和事故频发的重要区域,为提升传统匝道控制算法在响应速度和控制精度方面的性能,研究了1种基于强化学习的匝道控制方法.将匝道控制问题转化为马尔可夫决策过程,使用离散信号灯相位设计动作空间提高训练效率,构建涵盖主线和匝道运行状态的状态空间和多维奖励函数.在状态感知层面添加实时交通检测机制并在动作输出时添加最小相位持续约束避免高频相位切换,同时在训练过程中使用优先经验回放提高模型性能.此外,为提升算法在复杂交通环境下的收敛速度与泛化能力,对深度网络结构进行了优化设计,引入了残差连接和层归一化,构建了轻量且高效的多层感知网络.使用微观仿真平台进行了系统性实验,验证所提方法的控制效果.结果表明:所提出的主线匝道协调的匝道控制方法相较于无控制场景系统吞吐量提升了52.67%,平均旅行时间减少了58.21%;并且在本文方法的控制下主线和匝道的通行效率显著上升.将所提出的方法部署于杭徽高速杭州西至於潜互通段入口限流工程案例中,对该路段的路网结构与交通流特征进行了完整还原.结果表明:路网在途量和主线平均速度相较于无管控场景都有所提升,并且车速波动相比无管控场景更加缓和,具备较高的工程部署潜力.
The merging area of expressway ramps is prone to traffic congestion and frequent accidents.To improve the performance of traditional ramp metering algorithms in terms of response speed and control accuracy,a ramp metering method based on reinforcement learning is studied.The ramp metering problem is formulated as a Markov decision process.The action space is designed using discrete signal phases to improve training efficiency.A state space and a multi-dimensional reward function are constructed to represent the operating states of the mainline and ramps.At the state perception level,a real time traffic detection mechanism is incorporated.To avoid high frequen-cy phase switching,a minimum phase duration constraint is imposed on action outputs.Meanwhile,prioritized expe-rience replay is used during the training process to enhance the model performance.Furthermore,the deep network structure is optimized to improve convergence speed and generalization in complex traffic environments.Residual connections and layer normalization are introduced to construct a lightweight and efficient multi-layer perception network.A microscopic simulation platform is used to conduct systematic experiments to verify the control effect of the proposed method.The results show that compared with the no-control scenario,the system throughput increased by 52.67%under the proposed mainline-ramp coordinated control.Meanwhile,the average travel time decreases by 58.21%under the proposed method.Moreover,traffic efficiency on the mainline and ramps improves significantly under the proposed method.The proposed method is deployed in the entrance traffic limiting project of the section from Hangzhou West to Yuqian Interchange on the Hangzhou-Huizhou Expressway.The road network structure and traffic flow characteristics of this section are accurately reproduced.The results indicate that network vehicle num-bers and mainline average speed increase,while speed fluctuation is more moderate.These improvements demon-strate that the proposed method has high potential for engineering deployment.
张玉杰;唐浩铜;徐倩;姚进强;熊辉;徐志刚
同济大学土木工程学院 上海 200092||浙江省交通集团技术研究总院有限责任公司 杭州 310000长安大学信息工程学院 西安 710018长安大学信息工程学院 西安 710018浙江省交通集团技术研究总院有限责任公司 杭州 310000长安大学信息工程学院 西安 710018长安大学信息工程学院 西安 710018
交通工程
交通工程匝道控制DDQN-WRTD算法深度强化学习仿真验证
traffic engineeringramp meteringDDQN-WRTD algorithmdeep reinforcement learningsimulation verification
《交通信息与安全》 2025 (6)
86-97,12
国家自然科学基金重点项目(52432013)、浙江省交通集团技术研发总院有限责任公司科技计划项目(202303)资助
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