城市轨道交通线网布局规划理论与方法研究
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摘要
城市交通及伴随的环境、能源等已成为当今社会普遍关注的问题之一。提高公共交通吸引力,优化城市居民出行结构、走可持续发展之路是解决问题的根本途径。城市轨道交通作为国内外众多大城市客运交通运输的主体或骨干,对其城市社会经济发展起到了重要促进作用。2008年底,全国已有10座城市的轨道交通建成并运营,有8座城市已立项并正在建设,另有20座城市正在申报或筹备。预计到2050年我国城市轨道交通总里程将超过4500km,可以看到我国大规模发展城市轨道交通的时代已经来临。
城市轨道交通占用地面空间小、节能环保等优势,不但可以疏解城市交通拥挤,而且有利于改善人居环境质量、促成城市可持续发展;但由于其建设和运营投入巨大、可达性低等局限,客观上要求以审慎的原则规划和发展。线网布局规划是轨道交通线网规划中的核心内容之一,其布局方案质量将制约线网规划成果的功能适用性、运营合理性和工程可行性。在当前形势下,研究城市轨道交通线网布局规划理论和方法具有重要理论意义和实践价值。
论文依据可持续发展的思想,运用城市轨道交通、城市与城市交通规划、系统分析及运筹学、图论和复杂网络等理论方法,在广泛总结的基础上,对城市轨道交通线网布局规划中的客流需求预测、单线布局形态、线网布局形态和布局优化方法进行了研究,并对当前线网布局规划中的线路长度、环线布设等热点问题进行了探索。
论文通过分析城市轨道交通客流需求预测的问题和成因,提出了基于“情景分析”的客流需求预测方法和流程,可定性定量结合地建立并反馈目标预测环境,弥补超远期预测边界约束缺失,同时整合形成共同发展途径以保障客流预测目标实现。为提高预测基础数据质量,论文按照组团状城市核查线可围合成若干封闭区域的特点,依据极大熵原理,以核查区和路段总观测值与估算值差异最小化为目标,建立了基于核查区的OD矩阵校核模型及算法。并用2008年西安市居民出行调查数据进行了验算,结果表明该方法能减少工作量、提高数据校核精度。
论文在总结国内外城市实际运营轨道交通线路功能、运营特征与线路布局形态关系的基础上,将轨道交通单线线路布局形态归纳为直线、环线和组合型三种结构类型,并分析了各种类型的特性和分类、功能特征和设置条件。以轨道交通线路运营社会总体效益最优化为目标,分别建立了直线和环线类线路长度优化模型,并用国内实际数据进行了验算。结果表明,在通常情况下正线的最优长度在14.5-37.0km,且与客流强度成反比。
论文运用复杂网络理论方法,提出了轨道交通线网布局结构形态的四项复杂网络特征指标,并对典型的纯放射式、环形放射式和棋盘式线网的进行了试算和分析。同时,论文研究了“城市轨道交通线网整体布局优化模型”及相应的遗传算法。
Urban transport and associated environmental, energy has become one of the social issues of common concern. Improve the attractiveness of public transport, optimizing the structure of urban residents travel, take the road of sustainable development is the fundamental way to solve the problem. Rail passenger traffic as the big cities home and abroad, the main or backbone transport, socio-economic development of their city played an important role in promoting. By the end of 2008, China had 10 cities, rail transit built and operated, with eight cities has been approved and is under construction and another 20 cities are being declared or preparation.2050 the total mileage of China's urban rail transit more than 4500km. Can see large-scale development of China's urban rail transit time has come.
Occupied floor space of urban rail transportation, energy saving and environmental protection advantages, not only ease urban traffic congestion, and help to improve the quality of living environment, promote sustainable urban development; but because of its construction and operation into a huge, low accessibility limitations objectively requires the principle of prudent planning and development. Network Distribution planning is the rail transit network planning in the core content of program quality will limit its distribution network planning function of the outcome of the applicability of rational operations and engineering feasibility. In the current situation, studies the layout of urban rail transit network planning theory and methods have important theoretical and practical value.
Paper based on the idea of sustainable development, the use of urban rail transport, urban and transportation planning, systems analysis and operations research, graph theory and complex network theory approach, a broad conclusion based on the layout of urban rail transit network planning The passenger demand forecasts, in-line layout, Network Distribution patterns and layout optimization method is studied, and the current network layout of the line length, layout and other hot spots ring was explored.
Articles by analysis of urban rail transit passenger demand forecast and the causes of the problems is proposed based on "scenarios" of the passenger demand forecasting methods and processes can be combined qualitative and quantitative goals to establish and predict environmental feedback to make up for lack of ultra-long-term forecast boundary constraints, while integrating a common development objectives intended to protect the passenger flow forecasting to achieve. To improve the prediction based on data quality, paper-like according to tour around Ge Cheng Cheng Shi verification line can be characterized by a number of closed areas, based on maximum entropy principle, to verify the total area and the road between observations and estimates the minimum as the objective, the establishment of a verification-based District of OD matrix model and algorithm checking. Xi'an residents with the 2008 travel survey data were checking, the results show that the method can reduce workload, improve data accuracy check.
Paper summarizing the actual operations at home and abroad urban rail transit line functions, operating characteristics and the relationship between circuit layout pattern based on the single rail line will be divided into linear layout pattern, ring and combination-type three structurally and analyzed the various types of features and classification, functional characteristics and setting conditions. Rail transit line operations to optimize the overall effectiveness of the community as the goal line were established and the Link class line length optimization model, and the domestic real data checking. The results show that under normal circumstances the optimal line length is 14.5-37.0km, and inversely with the intensity of passenger flow. The conclusions and experiences of value close to that of the method is feasible.
Reference to complex network theory approach paper proposed rail transit network layout structure and morphology characteristics of the four indicators of complex networks, and typical of pure radial, radial, and checkerboard ring network lines had a spreadsheet and analyzed. Meanwhile, the paper studies to the "line of network optimization model for the overall arrangement and method."'and the corresponding calculation of the genetic algorithm.
城市轨道交通占用地面空间小、节能环保等优势,不但可以疏解城市交通拥挤,而且有利于改善人居环境质量、促成城市可持续发展;但由于其建设和运营投入巨大、可达性低等局限,客观上要求以审慎的原则规划和发展。线网布局规划是轨道交通线网规划中的核心内容之一,其布局方案质量将制约线网规划成果的功能适用性、运营合理性和工程可行性。在当前形势下,研究城市轨道交通线网布局规划理论和方法具有重要理论意义和实践价值。
论文依据可持续发展的思想,运用城市轨道交通、城市与城市交通规划、系统分析及运筹学、图论和复杂网络等理论方法,在广泛总结的基础上,对城市轨道交通线网布局规划中的客流需求预测、单线布局形态、线网布局形态和布局优化方法进行了研究,并对当前线网布局规划中的线路长度、环线布设等热点问题进行了探索。
论文通过分析城市轨道交通客流需求预测的问题和成因,提出了基于“情景分析”的客流需求预测方法和流程,可定性定量结合地建立并反馈目标预测环境,弥补超远期预测边界约束缺失,同时整合形成共同发展途径以保障客流预测目标实现。为提高预测基础数据质量,论文按照组团状城市核查线可围合成若干封闭区域的特点,依据极大熵原理,以核查区和路段总观测值与估算值差异最小化为目标,建立了基于核查区的OD矩阵校核模型及算法。并用2008年西安市居民出行调查数据进行了验算,结果表明该方法能减少工作量、提高数据校核精度。
论文在总结国内外城市实际运营轨道交通线路功能、运营特征与线路布局形态关系的基础上,将轨道交通单线线路布局形态归纳为直线、环线和组合型三种结构类型,并分析了各种类型的特性和分类、功能特征和设置条件。以轨道交通线路运营社会总体效益最优化为目标,分别建立了直线和环线类线路长度优化模型,并用国内实际数据进行了验算。结果表明,在通常情况下正线的最优长度在14.5-37.0km,且与客流强度成反比。
论文运用复杂网络理论方法,提出了轨道交通线网布局结构形态的四项复杂网络特征指标,并对典型的纯放射式、环形放射式和棋盘式线网的进行了试算和分析。同时,论文研究了“城市轨道交通线网整体布局优化模型”及相应的遗传算法。
Urban transport and associated environmental, energy has become one of the social issues of common concern. Improve the attractiveness of public transport, optimizing the structure of urban residents travel, take the road of sustainable development is the fundamental way to solve the problem. Rail passenger traffic as the big cities home and abroad, the main or backbone transport, socio-economic development of their city played an important role in promoting. By the end of 2008, China had 10 cities, rail transit built and operated, with eight cities has been approved and is under construction and another 20 cities are being declared or preparation.2050 the total mileage of China's urban rail transit more than 4500km. Can see large-scale development of China's urban rail transit time has come.
Occupied floor space of urban rail transportation, energy saving and environmental protection advantages, not only ease urban traffic congestion, and help to improve the quality of living environment, promote sustainable urban development; but because of its construction and operation into a huge, low accessibility limitations objectively requires the principle of prudent planning and development. Network Distribution planning is the rail transit network planning in the core content of program quality will limit its distribution network planning function of the outcome of the applicability of rational operations and engineering feasibility. In the current situation, studies the layout of urban rail transit network planning theory and methods have important theoretical and practical value.
Paper based on the idea of sustainable development, the use of urban rail transport, urban and transportation planning, systems analysis and operations research, graph theory and complex network theory approach, a broad conclusion based on the layout of urban rail transit network planning The passenger demand forecasts, in-line layout, Network Distribution patterns and layout optimization method is studied, and the current network layout of the line length, layout and other hot spots ring was explored.
Articles by analysis of urban rail transit passenger demand forecast and the causes of the problems is proposed based on "scenarios" of the passenger demand forecasting methods and processes can be combined qualitative and quantitative goals to establish and predict environmental feedback to make up for lack of ultra-long-term forecast boundary constraints, while integrating a common development objectives intended to protect the passenger flow forecasting to achieve. To improve the prediction based on data quality, paper-like according to tour around Ge Cheng Cheng Shi verification line can be characterized by a number of closed areas, based on maximum entropy principle, to verify the total area and the road between observations and estimates the minimum as the objective, the establishment of a verification-based District of OD matrix model and algorithm checking. Xi'an residents with the 2008 travel survey data were checking, the results show that the method can reduce workload, improve data accuracy check.
Paper summarizing the actual operations at home and abroad urban rail transit line functions, operating characteristics and the relationship between circuit layout pattern based on the single rail line will be divided into linear layout pattern, ring and combination-type three structurally and analyzed the various types of features and classification, functional characteristics and setting conditions. Rail transit line operations to optimize the overall effectiveness of the community as the goal line were established and the Link class line length optimization model, and the domestic real data checking. The results show that under normal circumstances the optimal line length is 14.5-37.0km, and inversely with the intensity of passenger flow. The conclusions and experiences of value close to that of the method is feasible.
Reference to complex network theory approach paper proposed rail transit network layout structure and morphology characteristics of the four indicators of complex networks, and typical of pure radial, radial, and checkerboard ring network lines had a spreadsheet and analyzed. Meanwhile, the paper studies to the "line of network optimization model for the overall arrangement and method."'and the corresponding calculation of the genetic algorithm.
引文
[1]国家统计局,中国信息报/2009年/12月/18日/第001版.http://www.zaxxb.com.cn/
[2]Wayne Attoe:Transit, Land Use &Urban Form, the University of Texas at Austin,1988.
[3]Clark, Oxley, "Strategic public transport planning in Raghdad". Urban transport in developing countries, Heraty, PTRC Education Research Services Ltd., London,224-228
[4]F. Leurent. Household Travel, Household characteristics, and Land Use:An Empirical Study from the 1994 Portland Travel Survey [J]. Transportation. Research,1999,32 (3):189-204
[5]Kwaku Agyemang. Spatial Transferability of an Ordered Response Model of Trip Generation [J]. Transportation Research,1998,32 (4):247-270
[6]Gordon W, Schultz William G. Allen. Improved Modeling of Non-Home-Base Trips [J]. Transportation Research Record,1996:23-25
[7]Richard C. M. Yam, Richard C. Whitfield, Raymond W. F. Chung. Forecasting Traffic Generation in Public Housing Estimates [J]. Journal of Transportation Engineering,2000,7:358-361
[8]J. L. Bowman, M. E. Ben-Akiva. Activity-based Disaggregate Travel Demand Model System with Activity Schedules [J]. Transportation Research Part A,2001
[9]R. L. Tobin, T. L. Friesz, Sensitivity Analysis for Equilibrium Network Flow[J]. Transportation Science. 1988,22(4):100-105
[10]Abdulaal. M. S, Leblance, L. J. Continuous equilibrium network design models[J]. Transportation Research.1979,13B:126-132
[11]SHEFFI Y. Urban transportation networks:equilibrium analysis with mathematical programming methods[M]. Englewood Cliffs:Prentice-Hall, Inc.,1985.
[12]Ortuzar J de D, Willumsen L G. Modeling transport. Second Edition. Chichester Wiley,1995:187-207
[13]Voshva, P. Application of cross-nested LOGIT model to mode choice in Tel Aviv, Israel, metropolitan area [J].Transportation Research Record,1998,1607:7-15
[14]M D.迈耶.城市交通规划[M].北京:中国建筑工业出版社,1990:20-30.
[15]Meyer. M D, Maler E J. Urban Transportation Planning [M]. London:Hutchinson,1995:5-30.
[16]Florian, M., Nguyen, S. and Ferland, J. On the combined distribution assignment of traffic. Transportation Science.1975, (9):43-53.
[17]Evans, S. Derivation and Analysis of some Models for Combining Distribution and Assignment. Transportation Research.1976, (10):37-57.
[18]Florian, M. and Nguyen, S. A Combined Trip Distribution Modal Split and Assignment Model, Transportation Research.1978, (12):241-246
[19]Florian, M. A Traffic Equilibrium Model of Travel by Car and Public Transit Modes. Transportation Science.1977,(11):166-179
[20]Aashtiani, H. Z. The Multimodal Traffic Assignment Problem. PhD dissertation, Alfred P. Sloan School of Management, MIT, Cambridge, MA.,1979:44-56
[21]Aashtiani, H. Z., Magnanti, T. L. Equilibria on a Congested Transportation Network. SIAM Journal of Algebraic and Discrete Methods.1981, (2):213-226
[22]Florian, M., Wu, J. H., He, S. A Multi-class Multi-mode Variable Demand Network Equilibrium Model with Hierarchical Logit Structures. Actas IX Congreso Chileno de Ingenieria de Transporte, Santiago Chile,1999:45-67
[23]Joaquin de cea, et al. Solving Network Equilibrium Problems on Multimodal Urban Transportation Networks with Multiple User Classes, Transport Reviews.2005,25 (3):293-317
[24]吴戈.非集计模型在轨道客流预测中的应用[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[25]R. Cervero. The Property Value Case for Transit. Developing Around Transit. Washington, D.C.:The Urban Land Institute,2004:31-52
[26]John L. Renne. Transit-Oriented Development:Measuring Benefits, Analyzing Trends, and Evaluating Policy, Rutgers State University PHD Dissertation,2005:6-15
[27]Paul Bunt, Peter Joyce. Car Ownership Patterns near Rapid Transit Stations. Canadian Institute of Transportation Engineers,1998:89-102.
[28]王忠强,高世廉.城市轨道交通路网形态分析方法[J].城市轨道交通研究,1999(1):33-36.
[29]孙壮志.城市轨道交通网络规划若干理论问题研究[J].北京:北方交通大学,2002.
[30]马超群.城市轨道交通网络规划理论与方法研究[D].西安:长安大学,2007.
[31]沈景炎.城市轨道交通线网规划的结构形态基本线形和交点计算[J].城市轨道交通研究,2008,(6):5-10.
[32]王玉萍,陈宽民,马超群.城市轨道交通网络与城市形态协调性的量化分析[J].铁道工程学报,2008,(11):11-15.
[33]陈彦光.一种交通网络的分形维数及其测算方法[J].信阳师范学院学报(自然科学版),1999(4):426-434.
[34]陈彦光,黄昆.城市形态的分形维数:理论探讨与实践教益[J].信阳师范学院学报(自然科学版),2001(1):62-67.
[35]刘继生,陈彦光.交通网络空间结构的分形维数及其测算方法探讨[J].地理学报,1999(5):471-478.
[36]Watts D J, Strogatz S H. Collective dynamics of ‘small-world’networks[J].Nature(S0028-0836),1998, 393(6684):409-410.
[37]Barabasi A L,Albert R.Emergence of scaling in random networks[J]. Science(S0036-8075),1999, 286(5439):509-512.
[38]Albert R,Barabasi A L.Statistical mechanics of complex networks[J]. Reviews Modern Physics (S0034-6861),2002,74(1):47-97.
[39]Vito Latora, Massimo March iori. Is the Boston subway a small-world network? [J]. Physica A (S0378-4371),2002,314(5):109-113.
[40]Gao Zi-you, Wu Jian-jun, Mao Bao-hua, Huang Hai-jun. Study on the Complexity of Traffic Networks and Related Problems[J]. Journal of Transportation Systems Engineering and Information Technology, 2005,5(2):79-84.
[41]Gao Zi-you, Zhao Xiao-mei, Huang Hai-jun, Mao Bao-hua. Researchon Problems Related to Complex Networks and Urban Traffic Systems[J]. Journal of Transportation Systems Engineering andInformation Technology,2006,6(3):41-47.
[42]张欣.公交网络的复杂性研究[D].大连:大连理工大学,2006.
[43]张海军.西安市公交网络静态拓扑结构及其优化探讨研究[D].西安:陕西师范大学,2008.
[44]黄霞.沿海城市公交复杂网络建模与仿真研究[D].中国海洋大学,2009.
[45]王志强,徐瑞华.基于复杂网络的轨道交通路网可靠性仿真分析[J].系统仿真学报,2009,21(20):6670-6674.
[46]王云琴.基于复杂网络理论的城市轨道交通网络连通可靠性研究[D].北京:北京交通大学,2008.
[47]Peter Newman. Transit Oriented Development:An Australian Overview. Transit Oriented Development—Making It Happen. Australia,2005
[48]Marya Morris. Creating Transit-Supportive Land Use Regulations. Chicago:American Planning Association,1996:41
[49]Lefaver S. Private Land with Public Partnerships for Transit Based Development. The Mineta Transportation Institute, San Jose State University. Report 97-1.1997:23-46
[50]Current, etc. Maximum covering/shortest path problems. Decision Science.1994,19(3):86-99
[51]王忠强,高世廉等,轨道交通路网规划若干问题探讨[J],西南交通大学学报,1999:86-99
[52]刘灿齐,周溪召,城市轨道交通网络线路规划的优化算法[J],交通与计算机,1999:86-99
[53](法)索菲图公司,上海城市规划研究院,上海市城市轨道交通系统规划方案[R],2000.4
[54]毛保华,姜帆,刘迁,等.城市轨道交通[M].北京:科学出版社,2001.
[55]徐安宁.生态城市可持续交通若干问题研究[D].南京:东南大学,2005.
[56]Lin Gan, Globalization of the automobile industry in China:dynamics and barriers in greening of theroad transportation, Energy Policy31,2003.
[57]Bryn Sadownik, Mark Jaccard, Sustainable energy and urban form in China:the relevance of community energy management, Energy Policy 2001.
[58]Carlson Daniel. Transportation corridor management:are we linking transportation and land use yet [R]. HE308 C37,1996.
[59]肖秋生,徐慰慈.城市交通规划[M].北京:人民交通出版社,1989:12-59.
[60]王炜,等.城市交通规划理论及其应用[M].南京:东南大学出版社,1998:94-357.
[61]陆化普,等.城市轨道交通规划的研究与实践[M].北京:中国水利水电出版社,2001:1-92.
[62]中华人民共和国交通运输部http//www.moc.gov.cn.
[63]聂伟.都市圈道路网络优化及其评价理论研究[D].北京:北京交通大学博士论文,2007.
[64]GB 50157-2003地铁设计规范[S].北京:中国计划出版社,2003.
[65]JB104-2008城市快速轨道交通工程项目建设标准[S].北京:中国计划出版社,2008.
[66]叶佩文.基于数据包络分析的城市轨道交通规模效率评价研究[D].北京:北京交通大学,2009.6.
[67]何宁.城市轨道交通系统规划研究[D].上海:同济大学,2000.
[68]沈景炎.城市轨道交通线网总体规划研究与评价[J].都市快轨交通,2003(5)
[69]Port R J, Thomson JM. Study of Mass Rapid Transit in Developing Countries [R]. TRL Report, UIO, 1990:2-20
[70]Tonazinis A R. Systemic Urban Mass Transit Planning for the 80's[J]. Scientific Management of Transportation Systems,1981:87-96.
[71]Harry T Dimitriou. A Developmental Approach to Urban Transport Planning [M]. Gateshead Tyne&Wear,1995:25-50.
[72]Healey P. The Role of Development Plans in the British Planning System:An Empirical Assessment [J]. Urban Law and Policy,1996,8 (1):12-27.
[73]Royal Town Planning Institute. Joint Distance Learning Diploma in Town Planning:Summary Guide [R]. London:Royal Town Planning Institute,1995:25-56.
[74]Andeerstig C, Mattsson L G. Appraising Large-scale Investments in a Metropolitan Transportation System [J]. Transportation,1992, (19):267-283.
[75]Viver J. Methods for Assessing Urban Public Transport Projects [J]. Public Transport International, 1998, (1):24-27.
[76]Pushkarev B S, Zupan J M, Cumella R S. Urban Rail in America [M]. Indiana University Press, Bloomington,1982:9-57.
[77]Takayuki Ueda, Hideo Nakamura, Eihan Shimizu. GIS Integrated System for Urban Transport and Development Planning [M].Kluwer Academic Publishers,1996:17-52.
[78]Jean V. Comparison of the External Costs of Public Transport and Cars in Urban Areas:The Case of the Greet Paris Region [J].Public Transport international.1999, (5):36-38.
[79]杨京帅.城市轨道交通线网合理规模与布局方法研究[D].成都:西南交通大学,2006..
[80]何宁,李彬.城市快速轨道的网络分析和规划[J].城市规划汇刊,1997(3):59-63.
[81]Zhang Yong,Yang Xiao-guang.Complex Network Property andReliability Simulation Analysis of Urban Street Networks[J].Journalof System Simulation(S1004-731X),2008,20(2):464-467.
[82]Jeong H, Tombor B, Albert R, et al. The large-scale organization of metabolic networks[J]. Nature (S0028-0836),2000,407 (6804):651-654.
[83]Reka Albert, Hawoong Jeong, Albert-Laszlo Barabasi. Error and attack tolerance in complex networks[J]. Nature(S0028-0836),2000,406(6794):387-482.
[84]陆锡明.我国城市轨道交通系统规划的反思[J].城市规划,2000.
[85]刘莹.城市轨道交通线网合理规模及布局评价研究[D]..哈尔滨:哈尔滨工业大学,2006.
[86]全永燊,刘小明.路在何方?——纵谈城市交通[M].北京:中国城市出版社,2002.
[87]全永燊.客流预测中的若干问题与建议[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[88]陈必壮.上海轨网客流预测的后评估[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[89]高世廉.对客流预测工作的几点建议.都市快轨交通,1997.2:
[90]沈景炎.城市轨道交通线网规划de研究与评价[R].西安:西安市地下铁道有限责任公司,2009.
[91]方礼君.城市轨道交通客流相关问题研究[D].上海:同济大学,2008.
[92]岳珍,赖茂生.国外“情景分析”方法的进展[J].情报杂志,2006(7):59-64.
[93]胡铁钧.基于情景分析法的我国“十一五”期货运需求分析[M].西安:长安大学,2004.
[94]刘灿齐.现代交通规划学.北京:人民交通出版社,2001.
[95]储金龙.城市空间形态定量分析研究(城市与区域规划研究丛书).南京:东南大学出版社,2007.
[96]毛保华,曾会欣,袁振洲.交通规划模型及其应用.北京:中国铁道出版社,1999.
[97]王玉萍.城市轨道交通与常规公交之间的竞争与合作[D].西安:长安大学硕士学位论文,2004.
[98]陈必壮,王忠强,王祥.城市轨道交通客流预测参数研究[C]//上海市城市综合交通规划研究所.中国城市交通模型研讨会论文集.上海:同济大学出版社,2007:160-164.
[99]陆化普.交通规划理论与方法[M].北京:清华大学出版社,2006:100.
[100]林红,李军.基于信息熵的居民出行空间分布变化研究[J].交通运输系统工程与信息,2007,7(5):110-114.
[101]金安.Logit模型参数估计方法研究[J].交通运输系统工程与信息,2004,4(2):71-75.
[102]高自友,四兵峰.从路段流量估计OD交通量的新算法[J].交通运输系统工程与信息,2001,2(1):30-41.
[103]王方,刘莹,张德欣等.基于居民出行调查的OD矩阵估算方法研究[C]//上海市城市综合交通规划研究所.中国城市交通模型研讨会论文集.上海:同济大学出版社,2007:160-164.
[104]全永燊,刘小明,等.北京市第三次综合交通调查——总报告报告[R].北京:北京交通发展研究中心,2007.
[105]崔洪军,陆建,朱敏清.基于居民出行时耗与出行比例关系的OD矩阵估算新方法[J].交通与计算机,2006,24(2):13-17.
[106]刘翠,陈洪仁.公交线路客流OD矩阵推算方法研究[J].城市交通,2007,5(4):81-84.
[107]陈宽民.西安市居民出行调查——扩样与校核工作报告[R].西安:长安大学,2009.
[108]林勇,蔡远利,黄永宣.高速公路动态OD矩阵估计[J].长安大学学报(自然科学版),2003,23(6):83-86.
[109]成卫,陈月明,董玉佩.考虑路段流量不确定性的OD矩阵反推算法[J].城市交通,2008,6(3):79-8].
[110]邓亚娟,陈小鸿.基于影响因素可靠度的改进OD反推算法[J].中国公路学报,2007,20(3):103-108.
[111]Caliper TransCAD User's Guide(Version 3.0). Caliper Corporation U.S.,1996
[112]Church.R.L & T.J.Clifford. Disscusion of'Environmental Optimization of Power Lines'by Economides and Sharifi. Journal of the Environmental Engineering Division, Asce (1979):438-439
[113]Travel Demand Modeling with TransCAD (Version 3.2). Caliper Corporation U.S.,1998.
[114]蔡若松,李默涵.重力模型在未来交通分布预测中的应用.丹东纺专学报,2002.6
[115]清华大学交通研究所等.大连市轨道交通路网规划.北京:清华大学交通研究所,2000.
[116]范操.交通方式划分——交通分布组合模型.南京:东南大学硕士学位论文,2002.
[117]郭凤香,熊坚,王朝英.交通分配模型研究及其应用[J].交通与计算机,2004.4
[118]过秀成,吕慎.基于合作竞争类OD联合方式划分轨道客流分配模型研究.中国公路学报,2000.4
[119]过秀成,吕慎,张瑗瑗.城市快速轨道交通客流需求分析的框架体系.都市快轨交通,2001.1
[120]李辰.交通方式划分的LOGIT模型方法.南京:河海大学硕士学位论文,2004.3
[121]刘安,王正.城市交通需求综合预测方法.系统工程,1997.3
[122]刘安,宋伟芳,杨佩昆.出行生成预测模型的研究.同济大学学报,1998.6
[123]陆化普.解析城市交通[M].北京:中国水利水电出版社,2001.
[124]马鹤龄,郭志勇.轨道交通客流预测非集聚模型应用初探.华中科技大学学报,2002.3
[125]王圆圆.西安市出行生成问题研究[D].西安:长安大学硕士学位论文,2004:24-28.
[126]牛学勤,王炜.基于最短路搜索的多路径公交客流分配模型研究[J].东南大学学报(自然科学版),2002.11
[127]吴祥云,刘灿齐.轨道交通客流量均衡分配模型与算法[J].同济大学学报(自然科学版),2004.9
[128]张晓明.城市出行生成模型的研究[D].北京:北京工业大学硕士学位论文,2000.
[129]周刚,王炜.地铁线路客流分配方法与算法研究[J].广东公路交通,2001.4
[130]刘迁.国内城市快速轨道交通客流预测的分析[J].都市快轨交通,2001.4
[131]沈景炎.城市轨道交通线网规划与客流预测[J].都市快轨交通,2007,20(1).
[132]夏安邦,王硕.定量预测引论[M].南京:东南大学出版社,2001:39-40.
[133]叶霞飞,明瑞利,李忍相.东京、首尔轨道交通客流成长规律与特征分析[J].城市交通.2008.
[134]曾忠禄,张冬梅.不确定环境下解读未来的方法:情景分析法[J].情报方法,2005,(5):14-16.
[135]陆化普,黄海军.交通规划理论研究前沿[M].北京:清华大学出版社,2007:264-281.
[136]Kottenhoff, Karl and Lindh, Christer. The Value and Effects of Introducing High Standard train and Bus Concepts in Blekinge, Sweden[J]. Transport Policy,1995,2(4):235-241.
[137]裴玉龙,盖春英.考虑收费影响的公路路段行程时间函数研究[J].中国公路学报,2003,16(1):91-94.
[138]何宇强等.高速客运专线客流分担率模型及其应用研究[J].铁道学报,2006,28(3):18-22.
[139]贺振欢,杨肇夏.Dial算法几点改进的研究[J].北方交通大学学报,2002,26(5):89-91.
[140]姚荣涵,王殿海.出行分布的信息熵模型[J].交通运输系统工程与信息,2005,5(3):116-126.
[141]马超群,王瑞,王玉萍.城市居民出行调查数据处理系统设计[J].交通与计算机,2006,24(5):35-38.
[142]万凯,成卫,陈月明.由路段流量反推OD矩阵的单层规划模型研究[J].昆明理工大学学报(理工版),2008,33(2):58-61.
[143]谭英嘉,靳文舟,郭莉.基于路段流量二阶统计量的OD矩阵估计[J].交通与计算机,2008,26(1):121-123.
[144]西安市地铁二号线客流研究报告(终稿)[Z].西安:长安大学,2005.
[145]马小毅.广州轨道交通网络客流特征及成长规律[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[146]郑猛,何继斌,孙小丽.武汉市轨道交通客流现状分析及预测研究[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[147]沈景炎.城市轨道交通客流预测的评估和抗风险设计[J].城市轨道交通研究,2002,2:26-31.
[148]Jienki Synn. SYSTEMS APPROACH TO METRO NETWORK DESIGN [D]. Pennsylvania: Pennsylvania University,2005.
[149]刘迁.城市快速轨道交通线网规划发展和存在问题[J].城市规划,2002,24(11):71-75.
[150]郑猛,陈华,佘世英,城市轨道交通环线及其应用[J].城市轨道交通研究,2008,(3):1-6.
[151]熊国平.当代中国城市形态演变[M].北京:中国建筑工业出版社,2006.
[152]沈景炎.关于城市轨道交通线路长度的研究和讨论[J].都市快轨交通,2008,21(4):5-9.
[153]金锋.城市轨道交通线路的合理长度[J].都市快轨交通,2008,21(4):1-4.
[154]雷磊,罗霞.关于城市轨道交通线路合理长度的讨论[J].都市快轨交通,2008,21(4):12-15.
[155]俞加康.结合上海原规划线网谈城轨交通线路合理长度[J].都市快轨交通,2008,21(4):10-11.
[156]沈丽萍,陈茜,李洪.城市轨道交通超长线路规划问题研究[J].城市轨道交通研究,2008,(11):37-39.
[157]李太惠.地铁路网中的线路最佳长度[J].都市快轨交通,2008,21(4):15-18.
[158]金锋.香港地下铁道路规划工作的介绍[C]//金锋.城市轨道交通论文集.北京:中国铁道出版社,2001:23-27.
[159]李晓松.对城市轨道交通可持续发展的思考[J].城市交通,2006,4(2):6-10.
[160]南京市城市交通规划研究所.南京城市快速轨道交通线网规划[Z].南京:南京市城市交通规划研究所,1999.
[161]和红星.西安市第四次城市总体规划修编[R].西安:西安市城市规划设计研究院,2004.
[162]马超群,王玉萍,陈宽民,等.基于灰色加权关联度的城市轨道线网方案评价[J].长安大学学报(自然科学版),2007,27(3):84-87.
[163]过秀成,吕慎,安宁.组团式结构城市的轨道线网合理规模[J].城市发展研究,2001,8(2):33-36.
[164]沈景炎.城市轨道交通多种制式的特征与评价大纲[J].城市轨道交通研究,2003,(5):1-6.
[165]沈景炎.城市轨道交通多种制式的特征与评价大纲(续)[J].城市轨道交通研究,2003,(6):7-16.
[166]覃(?),周和平,宗传苓.基于乘客流量概率分布的轨道车站合理间距优化模型[J].系统工程,2005,(9):50-54
[167]魏金丽.城市轨道交通线路站点布设研究[M].西安:长安大学,2006.
[168]王炜,杨新苗,陈学武,等.城市公共交通系统规划方法与管理技术[M].科学出版社,2002.
[169]陈定凤.上海地铁一号线乘客出行调查[J].交通与运输,2000(3):15-18
[170]李志.城市轨道交通的综合效益评价[D].成都:西南交通大学,2006.
[171]方万春.福州市城市轨道交通网络规划研究.[D].福建:福建农林大学,2009.
[172]曹仲明.城市轨道交通路网结构研究.[D].上海:上海铁道大学,1998.
[173]顾保南,方青青.城市轨道交通路网规划的评价指标体系研究[J].城市轨道交通研究,2000.
[174]王忠强,晏启鹏,高世廉.轨道交通路网规划技术评价[J].西南交通大学学报,1999,35(4):2-3.
[175]沈景炎.关于客流预测风险与对策的探讨[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[176]边经卫.大城市空间发展与轨道交通[M].北京:中国建筑工业出版社,2006.
[177]郑永平.城市轨道交通建设与城市可持续发展思考[C]//地下铁道新技术文集.成都:西南交通大学出版社,2003.
[178]顾保南,曹仲明.城市轨道交通路网结构研究[J].铁道学报,2000,22(增刊):28.
[179]维基百科http://zh.wikipedia.org/.
[180]张一梅.基于路网的城市轨道交通系统运输能力研究[D].北京:北京交通大学,2009.
[181]丁成日.城市空间规划——理论、方法与实践[M].北京:高等教育出版社,2007.
[182]卓健.速度·城市性·城市规划[J].城市规划,2004,28(1):89-92.
[183]王炜,徐吉谦,杨涛,等.城市交通规划理论及其应用[M].南京:东南大学出版社,1998.
[184]北京市城建设计研究院.广州城市快速轨道交通线网规划[Z].北京:北京市城建设计研究院,1997.
[185]吕慎.城市快速轨道线网布局规划研究.[D]南京:东南大学硕士学位论文,2000.
[186]叶霞飞,顾保南.城市轨道交通规划与设计.北京:中国铁道出版社,1999.
[187]陈宽民.西安城市快速轨道交通线网规划[R].西安:长安大学,2005
[188]郑明远.轨道交通时代的城市开发[M].北京:中国铁道出版社,2006.
[189]车宏安,顾基发.无标度网络及其系统科学意义.系统工程理论与实践,2004,(4):11-16.
[190]顾凯平,霍再强,侯宁,李际平.系统科学与工程导论[M].北京:中国林业出版社,2008.
[191]覃(?).轨道交通枢纽规划与设计理论研究[D].上海:同济大学,2002.
[192]李永强.城市轨道交通客流预测.成都:西南交通大学硕士学位论文,2000.9
[193]杨浩.模型与算法[M].北京:北方交通大学出版社,2002.
[194]马成良,张海军,李素平.现代试验设计优化方法及应用[M].郑州:郑州大学出版社,2007.
[195]王小平,曹立明.遗传算法——理论、应用与软件实现[M].西安:西安交通大学出版社,2002.
[2]Wayne Attoe:Transit, Land Use &Urban Form, the University of Texas at Austin,1988.
[3]Clark, Oxley, "Strategic public transport planning in Raghdad". Urban transport in developing countries, Heraty, PTRC Education Research Services Ltd., London,224-228
[4]F. Leurent. Household Travel, Household characteristics, and Land Use:An Empirical Study from the 1994 Portland Travel Survey [J]. Transportation. Research,1999,32 (3):189-204
[5]Kwaku Agyemang. Spatial Transferability of an Ordered Response Model of Trip Generation [J]. Transportation Research,1998,32 (4):247-270
[6]Gordon W, Schultz William G. Allen. Improved Modeling of Non-Home-Base Trips [J]. Transportation Research Record,1996:23-25
[7]Richard C. M. Yam, Richard C. Whitfield, Raymond W. F. Chung. Forecasting Traffic Generation in Public Housing Estimates [J]. Journal of Transportation Engineering,2000,7:358-361
[8]J. L. Bowman, M. E. Ben-Akiva. Activity-based Disaggregate Travel Demand Model System with Activity Schedules [J]. Transportation Research Part A,2001
[9]R. L. Tobin, T. L. Friesz, Sensitivity Analysis for Equilibrium Network Flow[J]. Transportation Science. 1988,22(4):100-105
[10]Abdulaal. M. S, Leblance, L. J. Continuous equilibrium network design models[J]. Transportation Research.1979,13B:126-132
[11]SHEFFI Y. Urban transportation networks:equilibrium analysis with mathematical programming methods[M]. Englewood Cliffs:Prentice-Hall, Inc.,1985.
[12]Ortuzar J de D, Willumsen L G. Modeling transport. Second Edition. Chichester Wiley,1995:187-207
[13]Voshva, P. Application of cross-nested LOGIT model to mode choice in Tel Aviv, Israel, metropolitan area [J].Transportation Research Record,1998,1607:7-15
[14]M D.迈耶.城市交通规划[M].北京:中国建筑工业出版社,1990:20-30.
[15]Meyer. M D, Maler E J. Urban Transportation Planning [M]. London:Hutchinson,1995:5-30.
[16]Florian, M., Nguyen, S. and Ferland, J. On the combined distribution assignment of traffic. Transportation Science.1975, (9):43-53.
[17]Evans, S. Derivation and Analysis of some Models for Combining Distribution and Assignment. Transportation Research.1976, (10):37-57.
[18]Florian, M. and Nguyen, S. A Combined Trip Distribution Modal Split and Assignment Model, Transportation Research.1978, (12):241-246
[19]Florian, M. A Traffic Equilibrium Model of Travel by Car and Public Transit Modes. Transportation Science.1977,(11):166-179
[20]Aashtiani, H. Z. The Multimodal Traffic Assignment Problem. PhD dissertation, Alfred P. Sloan School of Management, MIT, Cambridge, MA.,1979:44-56
[21]Aashtiani, H. Z., Magnanti, T. L. Equilibria on a Congested Transportation Network. SIAM Journal of Algebraic and Discrete Methods.1981, (2):213-226
[22]Florian, M., Wu, J. H., He, S. A Multi-class Multi-mode Variable Demand Network Equilibrium Model with Hierarchical Logit Structures. Actas IX Congreso Chileno de Ingenieria de Transporte, Santiago Chile,1999:45-67
[23]Joaquin de cea, et al. Solving Network Equilibrium Problems on Multimodal Urban Transportation Networks with Multiple User Classes, Transport Reviews.2005,25 (3):293-317
[24]吴戈.非集计模型在轨道客流预测中的应用[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[25]R. Cervero. The Property Value Case for Transit. Developing Around Transit. Washington, D.C.:The Urban Land Institute,2004:31-52
[26]John L. Renne. Transit-Oriented Development:Measuring Benefits, Analyzing Trends, and Evaluating Policy, Rutgers State University PHD Dissertation,2005:6-15
[27]Paul Bunt, Peter Joyce. Car Ownership Patterns near Rapid Transit Stations. Canadian Institute of Transportation Engineers,1998:89-102.
[28]王忠强,高世廉.城市轨道交通路网形态分析方法[J].城市轨道交通研究,1999(1):33-36.
[29]孙壮志.城市轨道交通网络规划若干理论问题研究[J].北京:北方交通大学,2002.
[30]马超群.城市轨道交通网络规划理论与方法研究[D].西安:长安大学,2007.
[31]沈景炎.城市轨道交通线网规划的结构形态基本线形和交点计算[J].城市轨道交通研究,2008,(6):5-10.
[32]王玉萍,陈宽民,马超群.城市轨道交通网络与城市形态协调性的量化分析[J].铁道工程学报,2008,(11):11-15.
[33]陈彦光.一种交通网络的分形维数及其测算方法[J].信阳师范学院学报(自然科学版),1999(4):426-434.
[34]陈彦光,黄昆.城市形态的分形维数:理论探讨与实践教益[J].信阳师范学院学报(自然科学版),2001(1):62-67.
[35]刘继生,陈彦光.交通网络空间结构的分形维数及其测算方法探讨[J].地理学报,1999(5):471-478.
[36]Watts D J, Strogatz S H. Collective dynamics of ‘small-world’networks[J].Nature(S0028-0836),1998, 393(6684):409-410.
[37]Barabasi A L,Albert R.Emergence of scaling in random networks[J]. Science(S0036-8075),1999, 286(5439):509-512.
[38]Albert R,Barabasi A L.Statistical mechanics of complex networks[J]. Reviews Modern Physics (S0034-6861),2002,74(1):47-97.
[39]Vito Latora, Massimo March iori. Is the Boston subway a small-world network? [J]. Physica A (S0378-4371),2002,314(5):109-113.
[40]Gao Zi-you, Wu Jian-jun, Mao Bao-hua, Huang Hai-jun. Study on the Complexity of Traffic Networks and Related Problems[J]. Journal of Transportation Systems Engineering and Information Technology, 2005,5(2):79-84.
[41]Gao Zi-you, Zhao Xiao-mei, Huang Hai-jun, Mao Bao-hua. Researchon Problems Related to Complex Networks and Urban Traffic Systems[J]. Journal of Transportation Systems Engineering andInformation Technology,2006,6(3):41-47.
[42]张欣.公交网络的复杂性研究[D].大连:大连理工大学,2006.
[43]张海军.西安市公交网络静态拓扑结构及其优化探讨研究[D].西安:陕西师范大学,2008.
[44]黄霞.沿海城市公交复杂网络建模与仿真研究[D].中国海洋大学,2009.
[45]王志强,徐瑞华.基于复杂网络的轨道交通路网可靠性仿真分析[J].系统仿真学报,2009,21(20):6670-6674.
[46]王云琴.基于复杂网络理论的城市轨道交通网络连通可靠性研究[D].北京:北京交通大学,2008.
[47]Peter Newman. Transit Oriented Development:An Australian Overview. Transit Oriented Development—Making It Happen. Australia,2005
[48]Marya Morris. Creating Transit-Supportive Land Use Regulations. Chicago:American Planning Association,1996:41
[49]Lefaver S. Private Land with Public Partnerships for Transit Based Development. The Mineta Transportation Institute, San Jose State University. Report 97-1.1997:23-46
[50]Current, etc. Maximum covering/shortest path problems. Decision Science.1994,19(3):86-99
[51]王忠强,高世廉等,轨道交通路网规划若干问题探讨[J],西南交通大学学报,1999:86-99
[52]刘灿齐,周溪召,城市轨道交通网络线路规划的优化算法[J],交通与计算机,1999:86-99
[53](法)索菲图公司,上海城市规划研究院,上海市城市轨道交通系统规划方案[R],2000.4
[54]毛保华,姜帆,刘迁,等.城市轨道交通[M].北京:科学出版社,2001.
[55]徐安宁.生态城市可持续交通若干问题研究[D].南京:东南大学,2005.
[56]Lin Gan, Globalization of the automobile industry in China:dynamics and barriers in greening of theroad transportation, Energy Policy31,2003.
[57]Bryn Sadownik, Mark Jaccard, Sustainable energy and urban form in China:the relevance of community energy management, Energy Policy 2001.
[58]Carlson Daniel. Transportation corridor management:are we linking transportation and land use yet [R]. HE308 C37,1996.
[59]肖秋生,徐慰慈.城市交通规划[M].北京:人民交通出版社,1989:12-59.
[60]王炜,等.城市交通规划理论及其应用[M].南京:东南大学出版社,1998:94-357.
[61]陆化普,等.城市轨道交通规划的研究与实践[M].北京:中国水利水电出版社,2001:1-92.
[62]中华人民共和国交通运输部http//www.moc.gov.cn.
[63]聂伟.都市圈道路网络优化及其评价理论研究[D].北京:北京交通大学博士论文,2007.
[64]GB 50157-2003地铁设计规范[S].北京:中国计划出版社,2003.
[65]JB104-2008城市快速轨道交通工程项目建设标准[S].北京:中国计划出版社,2008.
[66]叶佩文.基于数据包络分析的城市轨道交通规模效率评价研究[D].北京:北京交通大学,2009.6.
[67]何宁.城市轨道交通系统规划研究[D].上海:同济大学,2000.
[68]沈景炎.城市轨道交通线网总体规划研究与评价[J].都市快轨交通,2003(5)
[69]Port R J, Thomson JM. Study of Mass Rapid Transit in Developing Countries [R]. TRL Report, UIO, 1990:2-20
[70]Tonazinis A R. Systemic Urban Mass Transit Planning for the 80's[J]. Scientific Management of Transportation Systems,1981:87-96.
[71]Harry T Dimitriou. A Developmental Approach to Urban Transport Planning [M]. Gateshead Tyne&Wear,1995:25-50.
[72]Healey P. The Role of Development Plans in the British Planning System:An Empirical Assessment [J]. Urban Law and Policy,1996,8 (1):12-27.
[73]Royal Town Planning Institute. Joint Distance Learning Diploma in Town Planning:Summary Guide [R]. London:Royal Town Planning Institute,1995:25-56.
[74]Andeerstig C, Mattsson L G. Appraising Large-scale Investments in a Metropolitan Transportation System [J]. Transportation,1992, (19):267-283.
[75]Viver J. Methods for Assessing Urban Public Transport Projects [J]. Public Transport International, 1998, (1):24-27.
[76]Pushkarev B S, Zupan J M, Cumella R S. Urban Rail in America [M]. Indiana University Press, Bloomington,1982:9-57.
[77]Takayuki Ueda, Hideo Nakamura, Eihan Shimizu. GIS Integrated System for Urban Transport and Development Planning [M].Kluwer Academic Publishers,1996:17-52.
[78]Jean V. Comparison of the External Costs of Public Transport and Cars in Urban Areas:The Case of the Greet Paris Region [J].Public Transport international.1999, (5):36-38.
[79]杨京帅.城市轨道交通线网合理规模与布局方法研究[D].成都:西南交通大学,2006..
[80]何宁,李彬.城市快速轨道的网络分析和规划[J].城市规划汇刊,1997(3):59-63.
[81]Zhang Yong,Yang Xiao-guang.Complex Network Property andReliability Simulation Analysis of Urban Street Networks[J].Journalof System Simulation(S1004-731X),2008,20(2):464-467.
[82]Jeong H, Tombor B, Albert R, et al. The large-scale organization of metabolic networks[J]. Nature (S0028-0836),2000,407 (6804):651-654.
[83]Reka Albert, Hawoong Jeong, Albert-Laszlo Barabasi. Error and attack tolerance in complex networks[J]. Nature(S0028-0836),2000,406(6794):387-482.
[84]陆锡明.我国城市轨道交通系统规划的反思[J].城市规划,2000.
[85]刘莹.城市轨道交通线网合理规模及布局评价研究[D]..哈尔滨:哈尔滨工业大学,2006.
[86]全永燊,刘小明.路在何方?——纵谈城市交通[M].北京:中国城市出版社,2002.
[87]全永燊.客流预测中的若干问题与建议[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[88]陈必壮.上海轨网客流预测的后评估[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[89]高世廉.对客流预测工作的几点建议.都市快轨交通,1997.2:
[90]沈景炎.城市轨道交通线网规划de研究与评价[R].西安:西安市地下铁道有限责任公司,2009.
[91]方礼君.城市轨道交通客流相关问题研究[D].上海:同济大学,2008.
[92]岳珍,赖茂生.国外“情景分析”方法的进展[J].情报杂志,2006(7):59-64.
[93]胡铁钧.基于情景分析法的我国“十一五”期货运需求分析[M].西安:长安大学,2004.
[94]刘灿齐.现代交通规划学.北京:人民交通出版社,2001.
[95]储金龙.城市空间形态定量分析研究(城市与区域规划研究丛书).南京:东南大学出版社,2007.
[96]毛保华,曾会欣,袁振洲.交通规划模型及其应用.北京:中国铁道出版社,1999.
[97]王玉萍.城市轨道交通与常规公交之间的竞争与合作[D].西安:长安大学硕士学位论文,2004.
[98]陈必壮,王忠强,王祥.城市轨道交通客流预测参数研究[C]//上海市城市综合交通规划研究所.中国城市交通模型研讨会论文集.上海:同济大学出版社,2007:160-164.
[99]陆化普.交通规划理论与方法[M].北京:清华大学出版社,2006:100.
[100]林红,李军.基于信息熵的居民出行空间分布变化研究[J].交通运输系统工程与信息,2007,7(5):110-114.
[101]金安.Logit模型参数估计方法研究[J].交通运输系统工程与信息,2004,4(2):71-75.
[102]高自友,四兵峰.从路段流量估计OD交通量的新算法[J].交通运输系统工程与信息,2001,2(1):30-41.
[103]王方,刘莹,张德欣等.基于居民出行调查的OD矩阵估算方法研究[C]//上海市城市综合交通规划研究所.中国城市交通模型研讨会论文集.上海:同济大学出版社,2007:160-164.
[104]全永燊,刘小明,等.北京市第三次综合交通调查——总报告报告[R].北京:北京交通发展研究中心,2007.
[105]崔洪军,陆建,朱敏清.基于居民出行时耗与出行比例关系的OD矩阵估算新方法[J].交通与计算机,2006,24(2):13-17.
[106]刘翠,陈洪仁.公交线路客流OD矩阵推算方法研究[J].城市交通,2007,5(4):81-84.
[107]陈宽民.西安市居民出行调查——扩样与校核工作报告[R].西安:长安大学,2009.
[108]林勇,蔡远利,黄永宣.高速公路动态OD矩阵估计[J].长安大学学报(自然科学版),2003,23(6):83-86.
[109]成卫,陈月明,董玉佩.考虑路段流量不确定性的OD矩阵反推算法[J].城市交通,2008,6(3):79-8].
[110]邓亚娟,陈小鸿.基于影响因素可靠度的改进OD反推算法[J].中国公路学报,2007,20(3):103-108.
[111]Caliper TransCAD User's Guide(Version 3.0). Caliper Corporation U.S.,1996
[112]Church.R.L & T.J.Clifford. Disscusion of'Environmental Optimization of Power Lines'by Economides and Sharifi. Journal of the Environmental Engineering Division, Asce (1979):438-439
[113]Travel Demand Modeling with TransCAD (Version 3.2). Caliper Corporation U.S.,1998.
[114]蔡若松,李默涵.重力模型在未来交通分布预测中的应用.丹东纺专学报,2002.6
[115]清华大学交通研究所等.大连市轨道交通路网规划.北京:清华大学交通研究所,2000.
[116]范操.交通方式划分——交通分布组合模型.南京:东南大学硕士学位论文,2002.
[117]郭凤香,熊坚,王朝英.交通分配模型研究及其应用[J].交通与计算机,2004.4
[118]过秀成,吕慎.基于合作竞争类OD联合方式划分轨道客流分配模型研究.中国公路学报,2000.4
[119]过秀成,吕慎,张瑗瑗.城市快速轨道交通客流需求分析的框架体系.都市快轨交通,2001.1
[120]李辰.交通方式划分的LOGIT模型方法.南京:河海大学硕士学位论文,2004.3
[121]刘安,王正.城市交通需求综合预测方法.系统工程,1997.3
[122]刘安,宋伟芳,杨佩昆.出行生成预测模型的研究.同济大学学报,1998.6
[123]陆化普.解析城市交通[M].北京:中国水利水电出版社,2001.
[124]马鹤龄,郭志勇.轨道交通客流预测非集聚模型应用初探.华中科技大学学报,2002.3
[125]王圆圆.西安市出行生成问题研究[D].西安:长安大学硕士学位论文,2004:24-28.
[126]牛学勤,王炜.基于最短路搜索的多路径公交客流分配模型研究[J].东南大学学报(自然科学版),2002.11
[127]吴祥云,刘灿齐.轨道交通客流量均衡分配模型与算法[J].同济大学学报(自然科学版),2004.9
[128]张晓明.城市出行生成模型的研究[D].北京:北京工业大学硕士学位论文,2000.
[129]周刚,王炜.地铁线路客流分配方法与算法研究[J].广东公路交通,2001.4
[130]刘迁.国内城市快速轨道交通客流预测的分析[J].都市快轨交通,2001.4
[131]沈景炎.城市轨道交通线网规划与客流预测[J].都市快轨交通,2007,20(1).
[132]夏安邦,王硕.定量预测引论[M].南京:东南大学出版社,2001:39-40.
[133]叶霞飞,明瑞利,李忍相.东京、首尔轨道交通客流成长规律与特征分析[J].城市交通.2008.
[134]曾忠禄,张冬梅.不确定环境下解读未来的方法:情景分析法[J].情报方法,2005,(5):14-16.
[135]陆化普,黄海军.交通规划理论研究前沿[M].北京:清华大学出版社,2007:264-281.
[136]Kottenhoff, Karl and Lindh, Christer. The Value and Effects of Introducing High Standard train and Bus Concepts in Blekinge, Sweden[J]. Transport Policy,1995,2(4):235-241.
[137]裴玉龙,盖春英.考虑收费影响的公路路段行程时间函数研究[J].中国公路学报,2003,16(1):91-94.
[138]何宇强等.高速客运专线客流分担率模型及其应用研究[J].铁道学报,2006,28(3):18-22.
[139]贺振欢,杨肇夏.Dial算法几点改进的研究[J].北方交通大学学报,2002,26(5):89-91.
[140]姚荣涵,王殿海.出行分布的信息熵模型[J].交通运输系统工程与信息,2005,5(3):116-126.
[141]马超群,王瑞,王玉萍.城市居民出行调查数据处理系统设计[J].交通与计算机,2006,24(5):35-38.
[142]万凯,成卫,陈月明.由路段流量反推OD矩阵的单层规划模型研究[J].昆明理工大学学报(理工版),2008,33(2):58-61.
[143]谭英嘉,靳文舟,郭莉.基于路段流量二阶统计量的OD矩阵估计[J].交通与计算机,2008,26(1):121-123.
[144]西安市地铁二号线客流研究报告(终稿)[Z].西安:长安大学,2005.
[145]马小毅.广州轨道交通网络客流特征及成长规律[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[146]郑猛,何继斌,孙小丽.武汉市轨道交通客流现状分析及预测研究[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[147]沈景炎.城市轨道交通客流预测的评估和抗风险设计[J].城市轨道交通研究,2002,2:26-31.
[148]Jienki Synn. SYSTEMS APPROACH TO METRO NETWORK DESIGN [D]. Pennsylvania: Pennsylvania University,2005.
[149]刘迁.城市快速轨道交通线网规划发展和存在问题[J].城市规划,2002,24(11):71-75.
[150]郑猛,陈华,佘世英,城市轨道交通环线及其应用[J].城市轨道交通研究,2008,(3):1-6.
[151]熊国平.当代中国城市形态演变[M].北京:中国建筑工业出版社,2006.
[152]沈景炎.关于城市轨道交通线路长度的研究和讨论[J].都市快轨交通,2008,21(4):5-9.
[153]金锋.城市轨道交通线路的合理长度[J].都市快轨交通,2008,21(4):1-4.
[154]雷磊,罗霞.关于城市轨道交通线路合理长度的讨论[J].都市快轨交通,2008,21(4):12-15.
[155]俞加康.结合上海原规划线网谈城轨交通线路合理长度[J].都市快轨交通,2008,21(4):10-11.
[156]沈丽萍,陈茜,李洪.城市轨道交通超长线路规划问题研究[J].城市轨道交通研究,2008,(11):37-39.
[157]李太惠.地铁路网中的线路最佳长度[J].都市快轨交通,2008,21(4):15-18.
[158]金锋.香港地下铁道路规划工作的介绍[C]//金锋.城市轨道交通论文集.北京:中国铁道出版社,2001:23-27.
[159]李晓松.对城市轨道交通可持续发展的思考[J].城市交通,2006,4(2):6-10.
[160]南京市城市交通规划研究所.南京城市快速轨道交通线网规划[Z].南京:南京市城市交通规划研究所,1999.
[161]和红星.西安市第四次城市总体规划修编[R].西安:西安市城市规划设计研究院,2004.
[162]马超群,王玉萍,陈宽民,等.基于灰色加权关联度的城市轨道线网方案评价[J].长安大学学报(自然科学版),2007,27(3):84-87.
[163]过秀成,吕慎,安宁.组团式结构城市的轨道线网合理规模[J].城市发展研究,2001,8(2):33-36.
[164]沈景炎.城市轨道交通多种制式的特征与评价大纲[J].城市轨道交通研究,2003,(5):1-6.
[165]沈景炎.城市轨道交通多种制式的特征与评价大纲(续)[J].城市轨道交通研究,2003,(6):7-16.
[166]覃(?),周和平,宗传苓.基于乘客流量概率分布的轨道车站合理间距优化模型[J].系统工程,2005,(9):50-54
[167]魏金丽.城市轨道交通线路站点布设研究[M].西安:长安大学,2006.
[168]王炜,杨新苗,陈学武,等.城市公共交通系统规划方法与管理技术[M].科学出版社,2002.
[169]陈定凤.上海地铁一号线乘客出行调查[J].交通与运输,2000(3):15-18
[170]李志.城市轨道交通的综合效益评价[D].成都:西南交通大学,2006.
[171]方万春.福州市城市轨道交通网络规划研究.[D].福建:福建农林大学,2009.
[172]曹仲明.城市轨道交通路网结构研究.[D].上海:上海铁道大学,1998.
[173]顾保南,方青青.城市轨道交通路网规划的评价指标体系研究[J].城市轨道交通研究,2000.
[174]王忠强,晏启鹏,高世廉.轨道交通路网规划技术评价[J].西南交通大学学报,1999,35(4):2-3.
[175]沈景炎.关于客流预测风险与对策的探讨[C]//北京交通发展研究中心.2009提高城市轨道交通客流预测水平研讨会论文集.北京:北京交通发展研究中心,2009.
[176]边经卫.大城市空间发展与轨道交通[M].北京:中国建筑工业出版社,2006.
[177]郑永平.城市轨道交通建设与城市可持续发展思考[C]//地下铁道新技术文集.成都:西南交通大学出版社,2003.
[178]顾保南,曹仲明.城市轨道交通路网结构研究[J].铁道学报,2000,22(增刊):28.
[179]维基百科http://zh.wikipedia.org/.
[180]张一梅.基于路网的城市轨道交通系统运输能力研究[D].北京:北京交通大学,2009.
[181]丁成日.城市空间规划——理论、方法与实践[M].北京:高等教育出版社,2007.
[182]卓健.速度·城市性·城市规划[J].城市规划,2004,28(1):89-92.
[183]王炜,徐吉谦,杨涛,等.城市交通规划理论及其应用[M].南京:东南大学出版社,1998.
[184]北京市城建设计研究院.广州城市快速轨道交通线网规划[Z].北京:北京市城建设计研究院,1997.
[185]吕慎.城市快速轨道线网布局规划研究.[D]南京:东南大学硕士学位论文,2000.
[186]叶霞飞,顾保南.城市轨道交通规划与设计.北京:中国铁道出版社,1999.
[187]陈宽民.西安城市快速轨道交通线网规划[R].西安:长安大学,2005
[188]郑明远.轨道交通时代的城市开发[M].北京:中国铁道出版社,2006.
[189]车宏安,顾基发.无标度网络及其系统科学意义.系统工程理论与实践,2004,(4):11-16.
[190]顾凯平,霍再强,侯宁,李际平.系统科学与工程导论[M].北京:中国林业出版社,2008.
[191]覃(?).轨道交通枢纽规划与设计理论研究[D].上海:同济大学,2002.
[192]李永强.城市轨道交通客流预测.成都:西南交通大学硕士学位论文,2000.9
[193]杨浩.模型与算法[M].北京:北方交通大学出版社,2002.
[194]马成良,张海军,李素平.现代试验设计优化方法及应用[M].郑州:郑州大学出版社,2007.
[195]王小平,曹立明.遗传算法——理论、应用与软件实现[M].西安:西安交通大学出版社,2002.