Abstract
A network perspective has increasingly become an organizational paradigm for understanding regional spatial structures. Based on a critical overview of existing empirical models for estimating intercity networks based on firm linkages, this study extends the recently proposed regional corporate city model algorithm by proposing a new method for approximating urban networks based on the locational strategies of firms. The new method considers both regional and hierarchical network features and avoids the information loss associated with the conversion from two-mode firm-city networks to one-mode city-city networks. In addition, networks estimated by using the method proposed herein are suitable when employing social network analysis. Finally, this method is empirically validated by examining intercity firm networks formed by advanced producer services firms in China’s two largest metropolitan areas, namely the Yangtze River Delta and Pearl River Delta. The presented empirical analysis suggests two main findings. First, in contrast to conventional methods (e.g., the interlocking city network model), our new method produces regional and hierarchical urban networks that more closely resemble reality. Second, the new method allows us to use social network analysis to assess betweenness and closeness centralities. However, regardless of the model applied, the validity of any method that measures urban networks depends on the soundness of its underlying assumptions about how network actors (firms, in our case) interact.
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References
Alderson S, Beckfield J, 2004. Power and position in the world city system. American Journal of Sociology, 109(4): 811–851.
Boccaletti S, Latora V, Moreno Y et al., 2006. Complex networks: Structure and dynamics. Physics reports, 424: 175–308.
Burger M J, van der Knaap B, Wall R S, 2013. Polycentricity and the multiplexity of urban networks. European Planning Studies, doi: 10.1080/09654313.2013.771619.
Camagni R, Capello R, 2004. The City Network Paradigm: Theory and Empirical Evidence. Netherlands: Elsevier BV.
Castells M, 1996. The Rise of Network Society. Oxford: Blackwell.
Choi J H, Barnett G A, Chon B-S, 2006. Comparing world city networks: A network analysis of Internet backbone and air transport intercity linkage. Global Networks, 6(1): 81–89.
Clauset A, Moore C, Newman M, 2008. Hierarchical structure and the prediction of missing links in networks. Nature, 2008, 453: 98–101.
Derudder B, Taylor P, Hoyler M et al., 2013. Measurement and interpretation of the connectivity of Chinese cities in the world city network, 2010. Chinese Geographical Science, 23(3): 261–273.
Derudder B, Witlox F, 2005. An appraisal of the use of airline data in assessing the world city network: A research note on data. Urban Studies, 42(13): 2371–2388.
Dicken P, 2006. Global Shift: Mapping the Changing Contours of the World Economy. New York: Sage Publications.
Dicken P, Kelly P, Olds K, Yeung H, 2001. Chains and networks, territories and scales: Towards a relational framework for analyzing the global economy. Global Networks, 1(2): 89–112.
Florida R, 2005. Cities and the Creative Class. New York: Routledge.
Freeman L, 1979. Centrality in social networks: Conceptual clarification. Social Networks, 1(1): 215–239.
Friedmann J, 1986. The world city hypothesis. Development and Change, 171: 69–83.
Gregory D et al., 2009. The Dictionary of Human Geography. 5th ed. Oxford: Wiley-Blackwell.
Hall P G, Pain K, 2006. The Polycentric Metropolis: Learning from Mega-City Regions in Europe. London: Earthscan.
Hall P, 1966. The World Cities. London: Heinemann.
Henderson J, Dicken P, Martin H et al., 2002. Global production networks and the analysis of economic development. Review of International Political Economy, 9(3): 436–464.
Hennemann S, 2013. Information-rich visualization of dense geographical networks. Journal of Maps, 9(1): 68–75.
Hennemann S, Derudder B, 2014. An alternative approach to the calculation and analysis of connectivity in the world city network. Environment and Planning B, forthcoming.
Jacobs J, 1969. The Economy of Cities. New York: Vintage.
Liu X J, Derudder B, 2012. Two-mode networks and the interlocking world city network model: A reply to Neal. Geographical Analysis, 44(2): 171–173.
Liu X J, Derudder B, 2013. Analyzing urban networks through the lens of corporate networks: A critical review. Cities, 31: 430–437.
Lu X, Ma X, Li G, 2012. Spatial pattern of regional city network based on international advanced producer services’ layout in Pearl River Delta. Economic Geography, 32(4): 50–54. (in Chinese)
Massey D B, 1995. Spatial Divisions of Labor: Social Structures and the Geography of Production. New York: Routledge.
Meijers E, Burger M, 2010. Spatial structure and productivity in U.S. metropolitan areas. Environment and Planning A, 42(6): 1383–1402.
Neal Z, 2012. Structural determinism in the interlocking world city network. Geographical Analysis, 44(2): 162–170.
Newman M, 2003. The structure and function of complex networks. SIAM Rev., 45: 167–256.
Rozenblat C, 2010. Opening the black box of agglomeration economies for measuring cities’ competitiveness through international firms networks. Urban Studies, 47(13): 2841–2865.
Sassen S, 2001. Global City: New York, London, Tokyo. New Jersey: Princeton University Press.
Sheppard E, 2002. The spaces and times of globalization: Place, scale, networks, and positionality. Economic Geography, 78(3): 307–330.
Tan Y, Yang Y, Leng B et al., 2011. Urban network system in the Chengdu-Chongqing region in the perspective of advanced producer services. Progress in Geography, 30(6): 724–732. (in Chinese)
Tang Z, Zhao M, 2010. Economic globalization and transformation of urban system in the Yangtze River Delta Region: Interlocking network and value-added hierarchy. Urban Planning Forum, 187(1): 29–34. (in Chinese)
Taylor P, 2001. Specification of the world city network. Geographical Analysis, 33: 181–194.
Taylor P, 2007. Cities within spaces of flows: Theses for a materialist understanding of the external relations of cities. In: Taylor P, Derudder B, Saey P et al. Cities in Globalization: Practices, Policies and Theories. London: Routledge, 287–297.
Taylor P, Derudder B, Hoyler M et al., 2013. City-dyad analyses of China’s integration into the world city network. Urban Studies, 50(7): 1–15.
Taylor P, Hoyler M, Verbruggen R, 2010. External urban relational process: Introducing central flow theory to complement central place theory. Urban Studies, 47(13): 2803–2818.
Taylor P J, 2002. Measurement of the world city network. Urban Studies, 39(13): 2367–2376.
Taylor P J, 2004. World City Network: A Global Urban Analysis. London and New York: Routledge.
Taylor P J, 2005. New political geographies: Global civil society and global governance through world city networks. Political Geography, 24(6): 703–730.
Taylor P J, Evans D M, Pain K, 2009. The UK space economy as practiced by advanced producer service firms: Identifying two distinctive polycentric city-regional processes in contemporary Britain. International Journal of Urban and Regional Research, 33(3): 700–718.
Wall R S, Knaap G A, 2011. Sectoral differentiation and network structure within contemporary worldwide corporate networks. Economic Geography, 87(3): 267–308.
Wu K, Fang C, Zhao M et al., 2013. The intercity space of flow influenced by high-speed rail: A case study for the rail transit passenger behavior between Beijing and Tianjin. Acta Geographica Sinica, 68(2): 159–174. (in Chinese)
Zhao M, Liu Z, 2012. Research on China’s city network based on production service industry. City Planning Review, (9): 23–28, 38. (in Chinese)
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Foundation: National Natural Science Foundation of China, No.51478189; No.41401178; National Social Science Fund, 11&ZD154; State Key Laboratory of Subtropical Building Science, No.2013KB20; Fundamental Research Funds for the Central Universities, No.2013ZZ0022
Author: Zhao Miaoxi (1979–), PhD and Associate Professor, national registered urban planner, specialized in urban and regional planning.
Wu Kang (1985–), PhD and Assistant Professor, specialized in urban economic geography and planning.
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Zhao, M., Wu, K., Liu, X. et al. A novel method for approximating intercity networks: An empirical comparison for validating the city networks in two Chinese city-regions. J. Geogr. Sci. 25, 337–354 (2015). https://doi.org/10.1007/s11442-015-1172-0
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DOI: https://doi.org/10.1007/s11442-015-1172-0