城市公交停靠站通行能力研究
|
摘要
公交车作为常规公共交通方式,具有投资少、运行灵活、覆盖面广等特点,是城市公共交通系统的主体。公交停靠站作为公交运行的节点,是公交网络中最重要的基础设施之一,也是最基本的交通瓶颈。准确分析公交停靠站的通行能力,对于合理设计公交停靠站、缓解交通压力具有重要作用。
本文从分析公交车进出停靠站过程入手,得出公交车进站、停靠、出站三个运作过程的特性,在此基础上,从公交车、停靠站、路段交通、人员四个大方面详细分析了每个因素对公交停靠站通行能力的影响。然后结合公交车停靠过程和影响因素,首先建立了公交车到达分布模型和停靠时间模型,通过分析多停靠位不同停靠位上公交车之间的相互影响,充分考虑公交车到达间隔和停靠时间的波动性,重点构建了出站时间模型。接着在停靠时间和出站时间模型的基础之上构建了公交车进站时间模型。进而结合通行能力的定义,分别建立了直线式和港湾式公交停靠站的通行能力模型。通过算例,分别计算了不同到达率下不同停靠位直线式和港湾式停靠站的通行能力。最后建立了基于VISSIM的通行能力仿真模型,得到3停靠位停靠站的通行能力,并与理论值进行了对比分析。
As the traditional transit mode, bus is the main part of transport for the advantage of lest investment, flexible operation and large coverage of network. As the nodes of bus transit, bus stop is one of the most important infrastructure in the transit network, also the bottleneck of traffic. Therefore, accurate analysis of bus stop capacity is important for rational design of bus stop to ease traffic pressure.
This paper analyses the stop process of a bus and gives the characteristics of the pull in process, parking process and outbound process, later makes a detailed analysis of how every factor affects bus stop capacity from four aspects, including bus, bus stop, road traffic and personal. Then based on the parking process and the influencing factors, arrival distribution sub-model and dwell time sub-model are established firstly. Through the analysis of the interaction between the different buses, focus on developing the out time sub-model, based on the volatility of the bus arrival and dwell time. Then in time sub-model is established based on the dwell time and out time sub-models. And then combined with the definition of capacity, linear bus stop capacity model and harbor-shaped bus stop capacity model are established.It makes an example to calculate the capacity of linear bus stop and harbor-shaped bus stop. Finally,it uses VISSIM to simulate and calibrate the simulation mode, and gets the capacity of three berths stops, then analyzes and compares the results of method with the theoretical value.
本文从分析公交车进出停靠站过程入手,得出公交车进站、停靠、出站三个运作过程的特性,在此基础上,从公交车、停靠站、路段交通、人员四个大方面详细分析了每个因素对公交停靠站通行能力的影响。然后结合公交车停靠过程和影响因素,首先建立了公交车到达分布模型和停靠时间模型,通过分析多停靠位不同停靠位上公交车之间的相互影响,充分考虑公交车到达间隔和停靠时间的波动性,重点构建了出站时间模型。接着在停靠时间和出站时间模型的基础之上构建了公交车进站时间模型。进而结合通行能力的定义,分别建立了直线式和港湾式公交停靠站的通行能力模型。通过算例,分别计算了不同到达率下不同停靠位直线式和港湾式停靠站的通行能力。最后建立了基于VISSIM的通行能力仿真模型,得到3停靠位停靠站的通行能力,并与理论值进行了对比分析。
As the traditional transit mode, bus is the main part of transport for the advantage of lest investment, flexible operation and large coverage of network. As the nodes of bus transit, bus stop is one of the most important infrastructure in the transit network, also the bottleneck of traffic. Therefore, accurate analysis of bus stop capacity is important for rational design of bus stop to ease traffic pressure.
This paper analyses the stop process of a bus and gives the characteristics of the pull in process, parking process and outbound process, later makes a detailed analysis of how every factor affects bus stop capacity from four aspects, including bus, bus stop, road traffic and personal. Then based on the parking process and the influencing factors, arrival distribution sub-model and dwell time sub-model are established firstly. Through the analysis of the interaction between the different buses, focus on developing the out time sub-model, based on the volatility of the bus arrival and dwell time. Then in time sub-model is established based on the dwell time and out time sub-models. And then combined with the definition of capacity, linear bus stop capacity model and harbor-shaped bus stop capacity model are established.It makes an example to calculate the capacity of linear bus stop and harbor-shaped bus stop. Finally,it uses VISSIM to simulate and calibrate the simulation mode, and gets the capacity of three berths stops, then analyzes and compares the results of method with the theoretical value.
引文
[1]彭国雄,莫汉康.城市公交停靠站设置常见问题及对策[J].交通运输工程学报,2001,1(3):77-80.
[2]Highway Capacity Manual[R]. TRB, National Research Council, Washington, D.C, 2000.
[3]TCRP Web Document6:Transit Capacity and Quality of Service Manual, Second Edition[R], TRB, Washington, D.C,2003.
[4]BOWMANLA, TUMQUISTMA. Service frequency, schedule reliability and passenger wait times at transit stops[J]. Transportation Research:Part A,1981,15(6):465-471.
[5]GIBSON J, BAEZA I, WILLUMSEN L. Bus-stops, congestion and congested bus--stops[J]. Traffic Engineering and Control,1989.30(6):291-302.
[6]Herbert S. Levinson, Kevin R. St. Jacques. Bus Lane Capacity Revisited[J]. Transportation Research Record,1998,161(8):189-199.
[7]Fernandez Rodrigo. On the capacity of bus transit systems[J]. Transport Reviews,2002a, 2(3):267-293.
[8]武汉市公用事业研究所.CJJ15-87,城市公共交通站、场、厂设计规范[S].1987.
[9]王炜,过秀成等.交通工程学[M].南京:东南大学出版社,2000:167-168.
[10]李娜,陈学武.公交车中途停靠站停靠能力及设计站长计算初探[J].土木工程学报.2003,36(7):72-77.
[11]何宁,马健霄,李娜.公交车站停靠能力的研究[J].城市轨道交通研究,2004(2):78-80.
[12]葛宏伟.城市公交停靠站点交通影响分析及优化技术研究[D].东南大学博士学位论文,2006:1-16.
[13]邱杨.提高公交站点停靠能力研究[D].华中科技大学硕士学位论文,2007:1-33.
[14]柏海舰,李文权.基于车流特性的路内公交站点通行能力[J].系统工程理论与实践,2009,29(10):174-179.
[15]宋路娟.基本路段路内公交停靠站通行能力模型[D].长安大学硕士学位论文,2010:1-23.
[16]伍拾煤.公交停靠站设置问题的研究[D].哈尔滨:哈尔滨工业大学硕士论文,2002:21-29.
[17]裴玉龙,张亚平.道路交通系统仿真[M].北京:人民交通出版社,2004:159.
[18]赖云波.公交浮动车到达时间实时预测研究[D].重庆大学硕士学位论文,2011:38-40.
[19]Nie X, Zhang HM. A Comparative Study of Some Macroscopic Link Models Used in Dynamic Traffic Assignment[C].Washington:TRB 2003 Annual Meeting,2003.
[20]王希.城市公交站点延误统计分析及对策研究[D].长安大学硕士学位论文,2007:4.
[21]梁玉娟.公交车停靠对城市道路交通的影响[D].广西大学硕士学位论文.2009:2.
[22]中华人民共和国建设部.GB50220-95,城市道路交通规划设计规范[S],1995.
[23]朱袢,陈学武.多线路公交停靠站点车辆延误分析与对策[J].中国市政工程,2002(2):9.
[24]杨静.多线路公交车站能力计算方法研究[D].北京交通大学博士学位论文,2010:32-40.
[25]吴叶,徐大刚.公交停靠站停靠时间特征分析[J].交通与运输.2007(2):78-80.
[26]杨树祺.道路交通常用数据手册[M].北京:中国建筑业出版社.2002.
[27]王宇.京华巡洋舰谁与争锋?一18米铰接式环保公交车驶入京城[J].交通世界.2003(1):54-56.
[28]郑志红.基于Labview的公交车舒适度检测与评价[D].南京信息工程大学硕士学位论文,2011:14.
[29]Rajbhandari R, Chien S I, Daniel J R. Estimation of bus dwell times with automatic passenger counter information[J]. Transportation Research Record:Journal of the Transportation Research Board, Transportation Research Board of the National Academics.2003(181):120-127.
[30]石红文,罗良鑫,鲍同振.公交中间站类型与规模的确定方法研究[J].交通运输系统工程与信息,2007,4(2):83-87.
[31]Highway Capacity Manual[R]. TRB, National Research Council,Washington,D.C.2000.
[32]Herbert S. Levision, Bus Lane Capacity Revised[J].Transportation Research Record.1664,1998.
[33]冯浚.快速公交通行能力研究[D].长安大学硕士学位论文,2007:7-9.
[34]曾奕林.公交停靠站站台尺寸的研究[J].交通与运输,2005(7):65-67.
[35]柴茜.公交站台能力与交通流关系模型研究[D].北京交通大学硕士论文,2009:20.
[36]汤震,郑岐.港湾式公交站合理停靠组织方法研究[J].中国市政工程.2008,4(2):86.
[37]王瑶文.多线路公交停靠泊位间距与停靠组织研究[D].长安大学硕士学位论文,2010:29.
[38]杨涛.常规城市公共交通系统规划关键技术研究[D].湖南大学硕士学位论文,2008:60.
[39]Wolfgang S.Homburger, James H.kell. Fundamentals of Traffic Engineering. University of California at Berkeley Institute of Transportation Studies,1998:11-15.
[40]胡兵.基于排队论的公共交通系统运营优化研究[D].线西安电子科技大学硕士学位论文,2009:18.
[41]盛骤,谢世千,潘承毅.概率论与数理统计[M].北京:高等教育出版社,2010:76-313.
[42]杨柳.公交站台线路容纳能力优化研究[D].长沙理工大学硕士学位论文,2011:11.
[43]《运筹学》教材编写组.运筹学[M].北京:清华大学出版社,2005.
[44]张起森,张亚平.道路通行能力分析[M].北京:人民交通出版社,2002:76-79.
[45]杨晓光,徐辉,龙科军等.公交停靠站对相邻车道通行能力的影响[J].系统工程,2008,27(8):74-79.
[46]VISSIM410 User Manual, PTV,2005.9:23-30.
[47]刘运通,石建军,熊辉.交通系统仿真技术[M].北京:人民交通出版社,2002:9.
[2]Highway Capacity Manual[R]. TRB, National Research Council, Washington, D.C, 2000.
[3]TCRP Web Document6:Transit Capacity and Quality of Service Manual, Second Edition[R], TRB, Washington, D.C,2003.
[4]BOWMANLA, TUMQUISTMA. Service frequency, schedule reliability and passenger wait times at transit stops[J]. Transportation Research:Part A,1981,15(6):465-471.
[5]GIBSON J, BAEZA I, WILLUMSEN L. Bus-stops, congestion and congested bus--stops[J]. Traffic Engineering and Control,1989.30(6):291-302.
[6]Herbert S. Levinson, Kevin R. St. Jacques. Bus Lane Capacity Revisited[J]. Transportation Research Record,1998,161(8):189-199.
[7]Fernandez Rodrigo. On the capacity of bus transit systems[J]. Transport Reviews,2002a, 2(3):267-293.
[8]武汉市公用事业研究所.CJJ15-87,城市公共交通站、场、厂设计规范[S].1987.
[9]王炜,过秀成等.交通工程学[M].南京:东南大学出版社,2000:167-168.
[10]李娜,陈学武.公交车中途停靠站停靠能力及设计站长计算初探[J].土木工程学报.2003,36(7):72-77.
[11]何宁,马健霄,李娜.公交车站停靠能力的研究[J].城市轨道交通研究,2004(2):78-80.
[12]葛宏伟.城市公交停靠站点交通影响分析及优化技术研究[D].东南大学博士学位论文,2006:1-16.
[13]邱杨.提高公交站点停靠能力研究[D].华中科技大学硕士学位论文,2007:1-33.
[14]柏海舰,李文权.基于车流特性的路内公交站点通行能力[J].系统工程理论与实践,2009,29(10):174-179.
[15]宋路娟.基本路段路内公交停靠站通行能力模型[D].长安大学硕士学位论文,2010:1-23.
[16]伍拾煤.公交停靠站设置问题的研究[D].哈尔滨:哈尔滨工业大学硕士论文,2002:21-29.
[17]裴玉龙,张亚平.道路交通系统仿真[M].北京:人民交通出版社,2004:159.
[18]赖云波.公交浮动车到达时间实时预测研究[D].重庆大学硕士学位论文,2011:38-40.
[19]Nie X, Zhang HM. A Comparative Study of Some Macroscopic Link Models Used in Dynamic Traffic Assignment[C].Washington:TRB 2003 Annual Meeting,2003.
[20]王希.城市公交站点延误统计分析及对策研究[D].长安大学硕士学位论文,2007:4.
[21]梁玉娟.公交车停靠对城市道路交通的影响[D].广西大学硕士学位论文.2009:2.
[22]中华人民共和国建设部.GB50220-95,城市道路交通规划设计规范[S],1995.
[23]朱袢,陈学武.多线路公交停靠站点车辆延误分析与对策[J].中国市政工程,2002(2):9.
[24]杨静.多线路公交车站能力计算方法研究[D].北京交通大学博士学位论文,2010:32-40.
[25]吴叶,徐大刚.公交停靠站停靠时间特征分析[J].交通与运输.2007(2):78-80.
[26]杨树祺.道路交通常用数据手册[M].北京:中国建筑业出版社.2002.
[27]王宇.京华巡洋舰谁与争锋?一18米铰接式环保公交车驶入京城[J].交通世界.2003(1):54-56.
[28]郑志红.基于Labview的公交车舒适度检测与评价[D].南京信息工程大学硕士学位论文,2011:14.
[29]Rajbhandari R, Chien S I, Daniel J R. Estimation of bus dwell times with automatic passenger counter information[J]. Transportation Research Record:Journal of the Transportation Research Board, Transportation Research Board of the National Academics.2003(181):120-127.
[30]石红文,罗良鑫,鲍同振.公交中间站类型与规模的确定方法研究[J].交通运输系统工程与信息,2007,4(2):83-87.
[31]Highway Capacity Manual[R]. TRB, National Research Council,Washington,D.C.2000.
[32]Herbert S. Levision, Bus Lane Capacity Revised[J].Transportation Research Record.1664,1998.
[33]冯浚.快速公交通行能力研究[D].长安大学硕士学位论文,2007:7-9.
[34]曾奕林.公交停靠站站台尺寸的研究[J].交通与运输,2005(7):65-67.
[35]柴茜.公交站台能力与交通流关系模型研究[D].北京交通大学硕士论文,2009:20.
[36]汤震,郑岐.港湾式公交站合理停靠组织方法研究[J].中国市政工程.2008,4(2):86.
[37]王瑶文.多线路公交停靠泊位间距与停靠组织研究[D].长安大学硕士学位论文,2010:29.
[38]杨涛.常规城市公共交通系统规划关键技术研究[D].湖南大学硕士学位论文,2008:60.
[39]Wolfgang S.Homburger, James H.kell. Fundamentals of Traffic Engineering. University of California at Berkeley Institute of Transportation Studies,1998:11-15.
[40]胡兵.基于排队论的公共交通系统运营优化研究[D].线西安电子科技大学硕士学位论文,2009:18.
[41]盛骤,谢世千,潘承毅.概率论与数理统计[M].北京:高等教育出版社,2010:76-313.
[42]杨柳.公交站台线路容纳能力优化研究[D].长沙理工大学硕士学位论文,2011:11.
[43]《运筹学》教材编写组.运筹学[M].北京:清华大学出版社,2005.
[44]张起森,张亚平.道路通行能力分析[M].北京:人民交通出版社,2002:76-79.
[45]杨晓光,徐辉,龙科军等.公交停靠站对相邻车道通行能力的影响[J].系统工程,2008,27(8):74-79.
[46]VISSIM410 User Manual, PTV,2005.9:23-30.
[47]刘运通,石建军,熊辉.交通系统仿真技术[M].北京:人民交通出版社,2002:9.