北京城区交通时间可达性测度及其空间特征分析

doi:10.11821/xb201202003

地理学报 ›› 2012, Vol. 67 ›› Issue (2): 169-178.doi: 10.11821/xb201202003

北京城区交通时间可达性测度及其空间特征分析

邓羽^1,2,3, 蔡建明¹, 杨振山¹, 王昊^1,2

1. 中国科学院地理科学与资源研究所,北京 100101;
2. 中国科学院研究生院,北京 100049;
3. 哈佛大学,坎布里奇 02138

收稿日期:2011-04-19 修回日期:2011-12-29 出版日期:2012-02-20 发布日期:2012-02-20
通讯作者: 蔡建明, 博士, 研究员, 博士生导师, 中国地理学会会员(S110005242M)。主要从事城市地理研究。E-mail: caijm@igsnrr.ac.cn
基金资助:
国家自然科学基金项目(40971100); 林肯土地基金项目(CDW031810)

Measuring Time Accessibility with Its Spatial Characteristics in Urban Areas of Beijing

DENG Yu^1,2,3, CAI Jianming¹, YANG Zhenshan¹, WANG Hao^1,2

1. Institute of Geographic Sciences and Natural Resources Research, CAS, Beijing 100101, China;
2. Graduate University of Chinese Academy of Sciences, Beijing 100049, China

Received:2011-04-19 Revised:2011-12-29 Online:2012-02-20 Published:2012-02-20
Supported by:
National Natural ScienceFoundation of China, No.40971100; Funding from the Lincoln Institute of Land Policy,No.CDW031810

摘要/Abstract

摘要： 道路基础设施建设是城市运营与发展的基本环节,也是实现城乡基础设施一体化的重要途径与内容。北京市长期实行“环状+发射状”的城市路网格局,对城市基础设施建设和时间可达性产生了重要影响。尤其是近些年来,随着城市机动车保有量的快速增加,城市核心区与主要干道的交通设施负载量巨增,严重制约了城市的通勤效率,加重了人民的生活负担。为应对挑战,实现交通设施跨越式发展,北京市自2008 年以来加快了轨道交通建设步伐,以改善城市的通勤能力。本文采用一般道路设施与轨道交通(矢删数据) 结合的方法对北京城区进行了时间可达性的综合度量和其空间特征的分析。通过可达性与道路密度双重指标的运用进行区域综合分区,本文进一步揭示了北京市城区内的空间可达性特征和道路基础设施建设情况以及两者在南北城区内的空间表征差异。在综合分区的基础上,分析2008 年以来各个区域土地利用效益与区位因素的相互关系,甄别土地利用效益区位因素的区域差异性,从而对不同分区的城市建设、城市发展规划与土地资源优化配置提供科学支撑。

关键词: 可达性, 道路密度, 空间特征, 北京

Abstract: Construction of road infrastructure is a fundamental aspect of the city operation and development, as well as an important pathway and focus to realize the physical urban-rural integration. The long period implementation of "ring + radiation" road system in Beijing has brought a major impact on its urban infrastructure construction and its time accessibility. Particularly in recent years, the rapid increase of private cars in Beijing has become a greater burden to its road system, which has in turn seriously hampered the urban commuting efficiency and added the costs to people's lives. To deal with such challenges and enhance the frog-leap development of transport infrastructure, Beijing has speeded up its development pace in light railway construction since 2008, so as to improve its commuting capacity. This paper tries to measure the time accessibility and its spatial characteristics in the urban areas of Beijing by applying a combined method of vector and raster attribute data generated from major roads and rail transport infrastructure. By using a dual index of accessibility and road density, the paper further reveals the features of spatial accessibility and construction of road systems in the urban areas of the capital, as well as their different presences in the northern and southern parts of the city. The findings of this paper could provide a scientific basis for future urban planning and road system construction for Beijing Municipality.

Key words: accessibility, road density, spatial characteristics, Beijing

邓羽, 蔡建明, 杨振山, 王昊. 北京城区交通时间可达性测度及其空间特征分析[J]. 地理学报, 2012, 67(2): 169-178.

DENG Yu, CAI Jianming, YANG Zhenshan, WANG Hao. Measuring Time Accessibility with Its Spatial Characteristics in Urban Areas of Beijing[J]. Acta Geographica Sinica, 2012, 67(2): 169-178.

参考文献

[1] Li Pinghua, Lu Yuqi. Metropolitan accessibility: Literature review and research progress in the West. Urban Problems,2001, (1): 69-73. [李平华, 陆玉麒. 城市可达性研究的理论与方法评述. 城市问题, 2001, (1): 69-73.]
[2] Dupuy Gabriel, Stransky Vaclav. Cites and highway network in Europe. Journal of Transport Geography, 1996, 4(2):107-121.
[3] Li Siming, Shum Yiman. Impacts of the national trunk highway system on accessibility in China. Journal of TransportGeography, 2001, 9(1): 39-48.
[4] Linneker B, Spence N. Road transport infrastructure and regional economic development: The regional developmenteffects of the M25 London orbital motorway. Journal of Transport Geography, 1996, 4(2): 77-92.
[5] Jin Fengjun, Wang Jiao'e. Railway network expansion and spatial accessibility analysis in China: 1906-2000. ActaGeographica Sinica, 2004, 59(2): 293-302. [金凤君, 王娇娥. 20 世纪中国铁路网扩展及其空间通达性. 地理学报,2004, 59(2): 293-302.]
[6] Murayama Y. The impact of railways on accessibility in the Japanese urban system. Journal of Transport Geography,1994, 2(2): 87-101.
[7] Gutierrez J, Gonzalez R, Gomez G. The European high speed train network: Predicted effects on accessibility patterns.Journal of Transport Geography, 1996, 4(4): 227-238.
[8] Wei Lihua, Cong Yanguo. The influence of inter-cities express passenger train on spatial structure of metropolitan area:A case of Jingjintang. Economic Geography, 2004, 24(6): 834-837. [魏立华, 丛艳国. 城际快速列车对大都市区通达性空间格局的影响机制分析: 以京津塘大都市区为例. 经济地理, 2004, 24(6): 834-837.]
[9] Bowen J. Airline hubs in Southeast Asia: national economic development and nodal accessibility. Journal of TransportGeography, 2000, 8: 25-41.
[10] Jin Cheng, Lu Yuqi, Zhang Li et al. An analysis of accessibility of scenic spots based on land traffic network: A casestudy of Nanjing. Geographical Research, 2009, 28(1): 246-158. [靳诚, 陆玉麒, 张莉等. 基于路网结构的旅游景点可达性分析: 以南京市区为例. 地理研究, 2009, 28(1): 246-158.]
[11] Zhang Li, Lu Yuqi. Assessment on regional accessibility based on land transportation network: A case study of theYangtze River Delta. Acta Geographica Sinica, 2006, 61(12): 1235-1246. [张莉, 陆玉麒. 基于陆路交通网的区域可达性评价: 以长江三角洲为例. 地理学报, 2006, 61(12): 1235-1246.]
[12] Cao Xiaoshu, Yan Xiaopei. The impact of the evolution of land network on spatial structure of accessibility in thedeveloped areas: The case of Dongguan city in Guangdong Province. Geographical Research, 2003, 22(3):305-312. [曹小曙, 阎小培. 经济发达地区交通网络演化对通达性空间格局的影响: 以广东省东莞市为例. 地理研究,2003, 22(3): 305-312.]
[13] Lie Wei, Shan Chunfu. Research on accessibility calculating method of regional transportation. Technology &Economy in Areas of Communications, 2008, 10(4): 85-87. [聂伟, 邵春福. 区域交通可达性测算方法分析. 交通科技与经济, 2008, 10(4): 85-87.]
[14] Keeble D, Offord J, Walker S. Peripheral Regions in a Community of Twelve. Office for Official Publications of theEuropean Communities, Brussels/Luxembourg, 1988.
[15] Bruinsma F R, Rietveld P. Urban agglomerations in European infrastructure networks. Urban Studies, 1993, 30:919-934.
[16] Lutter H, Pütz T, Spangenberg M. Accessibility and peripherality of community regions: The role of road longdistance railway and airport networks. Brussels, Commission of the European Communities, 1992.
[17] Geertman S C M, Ritsema van Eck J R. GIS and models of accessibility potential: An application in planning.International Journal of Geographical Information Systems, 1995, 91: 67-80.
[18] Gutiérrez J, Urbano P. Accessibility in the European Union: The impact of the trans-European road network. Journalof Transport Geography, 1996, 41: 15-25.
[19] Linneker B, Spence N A. Accessibility measures compared in an analysis of the impact of the M25 London OrbitalMotorway on Britain. Environment and Planning A, 1992, 24: 1137-1154.
[20] Spence N, Linneker B. Evolution of the motorway network and changing levels of accessibility in Great Britain.Journal of Transport Geography, 1994, 2(4): 247-264.
[21] Javier Gutiérrez. Location, economic potential and daily accessibility: An analysis of the accessibility impact of thehigh-speed line Madrid-Barcelona-French border. Journal of Transport Geography, 2001, 9(4): 229-242.
[22] Jiang Haibing, Xu Jianggang, Qi Yi. The influence of Beijing-Shanghai high-speed railways on land accessibility ofregional center cities. Acta Geographica Sinica, 2010, 65(10): 1287-1298. [蒋海兵, 徐建刚, 祁毅. 京沪高铁对区域中心城市陆路可达性影响. 地理学报, 2010, 65(10): 1287-1298.]
[23] Reng Futian, Liu Xiaoming, Rong Jian et al. Traffic Engineering. Beijing: China Communications Press, 2003. [任福田, 刘小明, 荣建等. 交通工程学. 北京: 人民交通出版社, 2003.]
[24] http://jjyxfx.moc.gov.cn/ShowNews.asp?ID=287.
[25] Xu Lin, Yang Xiaokuan, Ai Shubo et al. Study the service level of the city roads in Beijing. Traffic & Transportation,2008, 5(增刊1): 43-45. [徐林, 杨孝宽, 艾树波等. 北京市城市道路服务水平分级研究, 交通设计, 2008, 5(增刊1):43-45.]
[26] Ministry of Communications of the People's Republic of China. Technical Standard of Highway Engineering of China(JTGB01-2003). 2004. [中华人民共和国交通部. 中华人民共和国公路工程技术标准(JTGB01-2003). 2004.]
[27] State Construction of China. China State Construction (GB50157-2003), 2003. [中华人民共和国建设部. 地铁设计规范(GB50157-2003), 2003]
[28] Nong Xingzhong. The choice of the highest train speed in Guangzhou Metro Line 3. Urban Mass Transit, 2003, 6(3):83-88. [农兴中. 广州地铁3 号线最高行车速度的确定. 案例研究, 2003, 6(3): 83-88.]
[29] http://www.go2map.com/.
[30] Du Debin, Xu Jiangang. An analysis on location factors affecting the spatial distribution of Shanghai land value. ActaGeographica Sinica, 1997, 52(5): 403-412. [杜德斌, 徐建刚. 影响上海市地价空间分布的区位因子分析. 地理学报,1997, 52(5): 403-412.]
[31] Northam R M. Urban Geography. New York: J. Wiley Sons, 1978.

北京城区交通时间可达性测度及其空间特征分析

Measuring Time Accessibility with Its Spatial Characteristics in Urban Areas of Beijing

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