Yang, Haoran. Dobruszkes, Frédéric. Wang, Jiao’e. Dijst,  Martin.




                    •  Ma,  X.,  Timberlake,  M.F.,  2008.  Identifying  China’s  leading  world  city:  a  network
                       approach. GeoJournal 71, 19–35. doi:10.1007/s10708-008-9146-8

                    •  Meijers,  E.,  2005.  Polycentric  urban  regions  and  the  quest  for  synergy:  Is  a
                       network  of  cities  more  than  the  sum  of  the  parts?  Urban  Stud.  42,  765–781.
                       doi:10.1080/00420980500060384

                    •  Neal, Z., 2014. The devil is in the details: Differences in air traffic networks by scale,
                       species, and season. Soc. Networks 38, 63–73. doi:10.1016/j.socnet.2014.03.003

                    •  Neal, Z., 2010. Refining the Air Traffic Approach to City Networks. Urban Stud. 47,
                       2195–2215. doi:10.1177/0042098009357352

                    •  Newman,  M.E.J.,  Girvan,  M.,  2004.  Finding  and  evaluating  community  structure  in
                       networks.  Phys.  Rev.  E  -  Stat.  Nonlinear,  Soft  Matter  Phys.  69,  1–15.  doi:10.1103/
                       PhysRevE.69.026113

                    •  Ng, A.K.Y., Wang, J.J., 2012. Transport development in China. Res. Transp. Econ. 35,
                       1–2. doi:10.1016/j.retrec.2011.11.008

                    •  Pels, E., Nijkamp, P., Rietveld, P., 2003. Access to and competition between airports:
                       A case study for the San Francisco Bay area. Transp. Res. Part A Policy Pract. 37, 71–83.
                       doi:10.1016/S0965-8564(02)00007-1

                    •  Robinson, J., 2005. Urban geography: world cities, or a world of cities. Prog. Hum.
                       Geogr. 29, 757–765. doi:10.1191/0309132505ph582pr

                    •  Smith,  D.A.,  Timberlake,  M.F.,  2001.  World  City  Networks  and  Hierarchies,  1977-
                       1997: An Empirical Analysis of Global Air Travel Links. Am. Behav. Sci. 44, 1656–1678.
                       doi:10.1177/00027640121958104


                    •  Van  Nuffel,  N.,  Saey,  P.,  Derudder,  B.,  Devriendt,  L.,  Witlox,  F.,  2010.  Measuring
                       hierarchical  differentiation:  connectivity  and  dominance  in  the  European  urban
                       network. Transp. Plan. Technol. 33, 343–366. doi:10.1080/03081060.2010.494028

                    •  Wang, J., Jiao, J., Du, C., Hu, H., 2015. Competition of spatial service hinterlands
                       between highspeed rail and air transport in China: Present and future trends. J. Geogr.
                       Sci. 25, 1137– 1152. doi:10.1007/s11442-015-1224-5

                    •  Wang, J., Mo, H., Wang, F., 2014. Evolution of air transport network of China 1930–
                       2012. J. Transp. Geogr. 40, 145–158. doi:10.1016/j.jtrangeo.2014.02.002

                    •  Wang, J., Mo, H., Wang, F., Jin, F., 2011. Exploring the network structure and nodal
                       centrality of China’s air transport network: A complex network approach. J. Transp.
                       Geogr. 19, 712– 721. doi:10.1016/j.jtrangeo.2010.08.012


                    •  Wang, J.J., Xu, J., He, J., 2013. Spatial impacts of high-speed railways in China: a
                       total-traveltime approach. Environ. Plan. A 45, 2261–2280. doi:10.1068/a45289


                    •  Xiao, Y., Wang, F., Liu, Y., Wang, J., 2013. Reconstructing Gravitational Attractions
                       of Major Cities in China from Air Passenger Flow Data, 2001–2008: A Particle Swarm
                       Optimization Approach. Prof. Geogr. 65, 265–282. doi:10.1080/00330124.2012.679445



            384                                                                             360.revista de alta velocidad