控制与信息技术Issue(3):12-20,9.DOI:10.13889/j.issn.2096-5427.2024.03.002
智轨电车虚拟联挂系统架构与控制技术研究
Research on the Architecture and Control Technology of Virtual Coupling System for Autonomous-rail Rapid Trams
摘要
Abstract
Scenarios such as tidal passenger flow,instantaneous large passenger flow,and mixed operation demand an increasing number of autonomous-rail rapid trams(ART)to increase passenger capacity.However,traditional mechanical physical coupling proves too cumbersome for convenient adjustments.This paper proposes a virtual coupling concept and system architecture for autonomous-rail rapid trams as a solution.This study developed a safe braking model and collaborative control model,in addition to establishing a collaborative planning objective function and constraints.Real-time calculations of speeds,accelerations and traction/braking force percentages for the following ART were conducted under the condition of maintaining the minimum safe distance.Simulations and experiments conducted with real trams demonstrated distances between the trams of less than 5 m,arrival time differences of less than 3 s,parking time differences between the leading and following trams of less than 0.5 s,jerks of the following tram not exceeding 0.4 m/s3,as well as seamless switching between traction and braking during the operation of virtually coupled trams at 45 km/h.These results underscored the effectiveness of the proposed system in facilitating punctual,precise,comfortable and energy-efficient operation of virtually coupled trams.This research lays a solid foundation for potential future applications of virtually coupled ARTs at scale.关键词
智轨电车/虚拟联挂/最优控制/车车通信/安全制动模型/多目标控制Key words
autonomous-rail rapid tram/virtual coupling/optimal control/V2V communication/safety braking model/multi-objective control分类
交通工程引用本文复制引用
袁希文,何川,黄强,张新锐,黄瑞鹏,肖磊..智轨电车虚拟联挂系统架构与控制技术研究[J].控制与信息技术,2024,(3):12-20,9.基金项目
国家重点研发计划项目(2022YFB4300400) (2022YFB4300400)
