混合收费站ETC与MTC车道通行能力研究
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摘要
基于对混合收费站交通流的分析,结合车头间距、制动过程及ETC车道折减系数的影响,确定ETC车道通行能力的计算方法。采用M/G/K排队论模型对MTC车道的通行能力进行分析,并确定混合收费站总通行能力的计算方法。建立Vissim仿真模型得到不同车道组合情况下的混合收费站通行能力仿真结果,对比仿真模型和理论模型并验证两者的吻合度。最后对6车道混合收费站进行仿真,得到在不同ETC使用率情况下的通行能力,提出了ETC车道最优的配置数量。研究确定了混合收费站通行能力的计算方法,并为配置ETC车道提供了参考依据。
Based on the analysis of the traffic flow of the composite toll station,the calculation method of the ETC lane capacity is determined by the influence of the head spacing,the braking process and the ETC lane reduction coefficient.The M/G/K queue theory model is used to analyze the MTC lane capacity and the calculation method of the total capacity of the composite toll station is determined.The Vissim simulation model is established to obtain the simulation results of the mixed toll station capacity under different lane combinations.The simulation model and theory model are compared and the coincidence degree is verified.Finally,the composite toll station of six lanes is simulated to obtain the traffic capacity under different ETC use ratio,and the optimal number of ETC lanes is proposed.The study determines the calculation method of the traffic capacity of the composite toll station and provides the reference for the configuration of the ETC lane.
Based on the analysis of the traffic flow of the composite toll station,the calculation method of the ETC lane capacity is determined by the influence of the head spacing,the braking process and the ETC lane reduction coefficient.The M/G/K queue theory model is used to analyze the MTC lane capacity and the calculation method of the total capacity of the composite toll station is determined.The Vissim simulation model is established to obtain the simulation results of the mixed toll station capacity under different lane combinations.The simulation model and theory model are compared and the coincidence degree is verified.Finally,the composite toll station of six lanes is simulated to obtain the traffic capacity under different ETC use ratio,and the optimal number of ETC lanes is proposed.The study determines the calculation method of the traffic capacity of the composite toll station and provides the reference for the configuration of the ETC lane.
引文
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[2]Boronico J S,Siegel P H.Capacity planning for toll roadways incorporating consumer wait time costs[J].Transportation Research Part A:Policy and Practice,1998,32(4):297-310.
[3]Izuhara K,Matsui H,Fujita M,et al.Theoretical Study on Optimal Combination of Gates for Electronic Toll Collection System[C].8th World Congress on Intelligent Transport Systems,Sydney,2001.
[4]张晨琛,王艳辉,贾利民.ETC系统对收费站服务水平的影响研究[J].交通运输系统工程与信息,2013,13(2):147-152.
[5]程俊龙.ETC通道通行能力与服务水平确定方法研究[J].公路交通科技,2014,31(6):133-137.
[6]周刚,常成利.高速公路收费站通行能力研究[J].公路交通科技,2001,18(3):56-59.
[7]丁创新,曾应昆.高等级公路收费站通行能力分析[J].昆明理工大学学报:理工版,2005,30(6):90-93.
[8]刘斌,潘红,路小波.ETC车道数对收费站服务水平的影响仿真研究[J].公路交通科技,2008,25(1):120-123.
[9]邓卫,吴海翔,王炜.公路收费口通行能力研究[J].中国公路学报,2000,13(2):87-90.
[10]廖固.高速公路收费站通行能力分析[J].公路工程,2010,35(3):153-155.
[11]李剑,刘力力,胡宾,等.基于仿真的高速公路混合收费站通行能力确定方法[J].公路,2012,(7):183-187.
[12]何民.交通流跟驰模型研究[D].北京:北京工业大学,2000.
[13]徐吉谦,陈学武.交通工程总论[M].北京:人民交通出版社,2008.
[14]杨源,刘正东,戴连贵.高速公路收费站ETC车道通行能力分析[J].计算机与数字工程,2011,39(7):54-56.
[15]潘红.高速公路收费站ETC车道设置仿真研究[D].南京:东南大学,2005.