高速铁路对城市网络结构的影响研究——基于铁路客运班列分析被引量：180

Impact of high-speed rail on inter-city network based on the passenger train network in China, 2003-2013

导出

摘要城市网络是近年来城市与区域研究的一个新方向。基于2003-2013年间8个横截面的中国铁路客运班列数据,采用加权度中心性和社区结构模型,探讨高速铁路建设对城市等级和集聚性空间格局及演化的影响。研究表明:1基于铁路客运组织的城市等级结构呈现出位序—规模分布的特征和集聚性,且三大地带和各社区内城市也呈现出明显的位序—规模分布,随着高速铁路网络的扩展,加权度中心性的集聚性更明显,并逐步呈现出较为明显的层级结构和社区结构。2城市等级结构呈现出明显的东中西地带性、廊道效应和经济、人口的耦合性,即基于铁路客运班列的城市等级结构与基于属性数据(人口/GDP)的结果表现出较大的相似性,但也存在一定的差异。城市社区结构与中国高速铁路网络、城市群的空间分布格局基本一致。随着高速铁路的建设,东中西三大地带间城市等级的差异呈扩大态势,但各社区间城市等级的差异呈缩小态势,部分社区核心城市已形成。 The evolution of inter- city network influenced by globalization and information technology has become a hot topic in city and urban research. This study tries to explore the evolution of nodal hierarchy and communities in inter- city network based on passenger train network during the rapid development period of High- speed Railway（HSR） in China since2003. Results indicate that：（1） the evolved HSR network in China enlarged the disparities of weighted degree centrality between regions, but decreased the disparities of that between communities, and led to an increasing concentrated city hierarchy with fewer cities having high centrality value, and a growing similarity between the city hierarchies measured by the passenger train network and by city attributes（such as population and GDP）;（2） the city hierarchy measured by passenger train network followed a rank-size distribution in the national and regional levels, as well as in some communities.（3） Spatially, cities with higher hierarchy in passenger train network and larger improvement in weighted centrality indicator were mostly located in the eastern region or the areas with the distance to the nearest HSR stations below 50 km, developed economy and high population density; the cities in 2013 could be divided into 14 communities, including the communities with cities mainly located along Beijing-Shanghai, Beijing-Wuhan and Wuhan-Chengdu, Wuhan-Guangzhou, Beijing-Jiujiang,Hangzhou- Xiamen, Lanzhou- Urumqi trunk rail lines, and located in Northeast China, Shanxi Province, Inner Mongolia.（4） The evolution of communities was mostly influenced by the natural environment and administrative areas, especially by the development of HSR network.

作者焦敬娟王姣娥金凤君王涵

机构地区中国科学院地理科学与资源研究所中国科学院区域可持续发展分析与模拟重点实验室中国科学院大学

出处《地理学报》 EI CSCD 北大核心 2016年第2期265-280,共16页 Acta Geographica Sinica

基金国家自然科学基金项目(41171107 41371143)~~

关键词铁路客运班列中心性社区结构城市网络 passenger train network centrality community inter-city network

分类号 F532 [经济管理—产业经济]

引文网络
相关文献

参考文献34

1陆大道,陆大道.中国重大区域战略:三大城市群的明确定位.中国科学报,2015-03-06(2).
2Beaverstock J V, Taylor P J, Smith R G. A roster of world cities. Cities, 1999, 16(6): 445-458.
3Taylor P J, Catalano G, Walker DRF. Measurement of the world city network. Urban Studies, 2002, 39(13): 2367-2376.
4Taylor P J, WalkerD R F, Catalano G, et al. Diversity and power in the world city network. Cities, 2002, 19(4): 231-241.
5Liu X, Ben D, Taylor P J. Mapping the evolution of hierarchical and regional tendencies in the world city network, 2000- 2010. Computers, Environment and Urban Systems, 2014, 43: 51-66.
6姚永玲,董月,王韫涵.北京和首尔全球城市网络联系能级及其动力因素比较[J].经济地理,2012,32(8):36-42. 被引量：21
7马学广,李贵才.世界城市网络研究方法论[J].地理科学进展,2012,31(2):255-263. 被引量：62
8Wang J, Mo H, Wang F, et al. Exploring the network structure and nodal centrality of China's air transport network: A complex network approach. Journal of Transport Geography, 2011, 19:712-721.
9王姣娥,莫辉辉,金凤君.中国航空网络空间结构的复杂性[J].地理学报,2009,64(8):899-910. 被引量：169
10Newman M E J. Scientific collaboration networks. II. Shortest paths, weighted networks, and centrality Physical Review E, 2001, 64: 016132.