La conectividad en el sector español de carga aérea2004-2014

  1. Carlos Pais Montes
  2. María Jesús Freire Seoane
  3. Fernando González Laxe
Revista:
Revista de Evaluación de Programas y Políticas Públicas

ISSN: 2340-8464

Año de publicación: 2017

Título del ejemplar: Estructura y políticas públicas en el mercado de transporte aéreo

Número: 9

Páginas: 113-138

Tipo: Artículo

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Otras publicaciones en: Revista de Evaluación de Programas y Políticas Públicas

Resumen

El segmento de las aerolíneas de carga, como demandante y usuario de servicios aeroportuarios, ha crecido en las dos últimas décadas hasta convertirse en parte fundamental de la red global de suministro en España. El objetivo de este artículo es analizar la evolución de la conectividad de este modo logístico, en el período 2004-2014, utilizando la base de datos del Observatorio para el Transporte y la Logística de España sobre posiciones aeroportuarias de carga de origen y destino. Los resultados indican que, en los mayores aeropuertos españoles (Madrid, Barcelona, Zaragoza y Vitoria), ha existido una recuperación del volumen de carga operado en los niveles pre-crisis, que no ha ido acompañada, no obstante, de una recuperación en términos de centralidad, con la excepción de Zaragoza, que es la infraestructura que muestra, actualmente, mayor resiliencia y mejores perspectivas en este aspecto.

Referencias bibliográficas

  • Abdelghany, K. F., Shah, S. S., Raina, S., & Abdelghany, A. F. (2004). A model for projecting flight delays during irregular operation conditions. Journal of Air Transport Management, 10(6), 385-394.
  • Amaruchkul, K., & Lorchirachoonkul, V. (2011). Air-cargo capacity allocation for multiple freight forwarders. Transportation Research Part E: Logistics and Transportation Review, 47(1), 30-40.
  • Barrat, A., Barthelemy, M., Pastor-Satorras, R., & Vespignani, A. (2004). The architecture of complex weighted networks. Proceedings of the National Academy of Sciences of the United States of America, 101(11), 3747-3752.
  • Biskup, M. (2011). Graph diameter in long-range percolation. Random Structures & Algorithms, 39(2), 210-227.
  • Boeing World Air Cargo Forecast. (2016). Recuperado el 16 de noviembre de 2016, de http://www.boeing.com/commercial/market/cargo-forecast/
  • Bougheas, S., Demetriades, P. O., & Morgenroth, E. L. (1999). Infrastructure, transport costs and trade. Journal of International Economics, 47(1), 169-189.
  • Bourqui, R., Gilbert, F., Sharan, U., Simonetto, P., & Zaidi, F. (2008). VAST 2008 Challenge: Social network dynamics using cell phone call patterns. In IEEE symposium on visual analytics science and technology.
  • Bowen, J. T. (2012). A spatial analysis of FedEx and UPS: hubs, spokes, and network structure. Journal of Transport Geography, 24, 419-431.
  • Cao, J. M., & Kanafani, A. (2000). The value of runway time slots for airlines. European Journal of Operational Research, 126(3), 491-500.
  • Carriere, J., & Kazman, R. (1995). Research report. interacting with huge hierarchies: beyond cone trees. In Information Visualization, 1995. Proceedings. (pp. 74- 81). IEEE.
  • Centro de Suministro (2013). El tráfico de mercancías en el aeropuerto de Vitoria. Recuperado de http://www.cadenadesuministro.es/noticias/el-trafico-demercancias-en-el-aeropuerto-de-vitoria-crece-un-76-en-agosto-y-alcanza-las2-497-toneladas/
  • Chang, Y. H., & Wang, Y. C. (2010). Significant human risk factors in aircraft maintenance technicians. Safety science, 48(1), 54-62.
  • Chen, F., Chen, Z., Wang, X., & Yuan, Z. (2008). The average path length of scale free networks. Communications in Nonlinear Science and Numerical Simulation, 13(7), 1405-1410.
  • Chi-Lok, A. Y., & Zhang, A. (2009). Effects of competition and policy changes on Chinese airport productivity: An empirical investigation. Journal of Air Transport Management, 15(4), 166-174.
  • Chow, C. K. W., & Fung, M. K. Y. (2009). Efficiencies and scope economies of Chinese airports in moving passengers and cargo. Journal of Air Transport Management, 15(6), 324-329.
  • Clancy, B., & Hoppin, D. (2006). Stead climb merger global forecast accelerating intercontinental air freight demand growth through 2010. American Shipper, 7, 64-87
  • Clerot, F. (2015). Do you have a Chu Liu Edmonds Minimum Spanning Tree for Python?. Recuperado de https://www.researchgate.net/post/Do_you_have_a_ Chu_Liu_Edmonds_Minimum_Spanning_Tree_for_Python
  • CNMC. (2014). Informe de la CNMC sobre el sector aeroportuario español: situación actual y recomendaciones de liberalización. Recuperado de https://www.cnmc. es/Portals/0/Notas %20de %20prensa/20140703_Estudio_aeroportuario_ %20integrado.pdf
  • Cook, A., Tanner, G., Williams, V., & Meise, G. (2009). Dynamic cost indexing– Managing airline delay costs. Journal of air transport management, 15(1), 26- 35.
  • Coyle, J.J., Bardi, E.J. & Langley, C.J. (2002). The management of business logistics: a supply chain perspective. Nashvile (TN): Southwestern Publishing Group.
  • Dillingham, G. L. (2005). Initiatives to reduce flight delays and enhance capacity are ongoing but challenges remain. United States Government Accountability Office
  • Ducker, M. (2006). Air cargo: enabling access to the global marketplace. XXXIII Air Cargo Forum and Exposition, TIATA, Calgary.
  • Ducruet, C., & Notteboom, T. (2012). The worldwide maritime network of container shipping: spatial structure and regional dynamics. Global Networks, 12(3), 395- 423.
  • Escalona, A. & Ramos, D. (2010). Geografía productiva y flujos internacionales: el crecimiento de la carga aérea en el aeropuerto de Zaragoza. Anales de Geografía, 30(2), 59-80.
  • Forsyth, P. (2006). Airport competition: regulatory issues and policy implications, in D. Lee (ed.). Advances in Airline Economics. Vol. 1. Competition Policy and Antitrust. Bingley (UK): Emerald Group Publishing Limited
  • Gardiner, J., Ison, S., & Humphreys, I. (2005). Factors influencing cargo airlines’ choice of airport: An international survey. Journal of Air Transport Management, 11(6), 393-399.
  • Hesse, M., & Rodrigue, J. P. (2004). The transport geography of logistics and freight distribution. Journal of transport geography, 12(3), 171-184.
  • Holten, D., & Van Wijk, J. J. (2009, June). Force-Directed Edge Bundling for Graph Visualization. In Computer graphics forum (Vol. 28, No. 3, pp. 983-990). New jersey: Blackwell Publishing Ltd.
  • Hsu, C. I., LIAO, P., YANG, L. H., & CHEN, Y. H. (2005). High-tech firms’perception and demand for air cargo logistics SERVICES. Journal of the Eastern Asia Society for Transportation Studies, 6, 2868-2880.
  • IATA Air Cargo. (2016). Recuperado el 16 de noviembre de 2016, de http://www.iata. org/whatwedo/cargo/Pages/index.aspx
  • Johns, A. (2012). What is graph density?. Recuperado de https://www.quora.com/ What-is-graph-density
  • Kruskal, J. B. (1956). On the shortest spanning subtree of a graph and the traveling salesman problem. Proceedings of the American Mathematical society, 7(1), 48-50.
  • Lambert, A., & Auber, D. (2012). Graph analysis and visualization with Tulip-Python. In EuroSciPy 2012-5th European meeting on Python in Science.
  • Lechmann, M. (2011). Economies of scale and scope and its application to the airport industry. Münster: Westfälische Wilhelms Universität
  • Lee, C., Huang, H. C., Liu, B., & Xu, Z. (2006). Development of timed Colour Petri net simulation models for air cargo terminal operations. Computers & industrial engineering, 51(1), 102-110.
  • Li, Q., Hu, J., Hu, Z., & Hao, Y. (2015). Development Strategies of the Cargo Transshipment Hub of Shanghai Pudong Airport in Free Trade Zone. In LISS 2014 (pp. 1419-1423). Berlin: Springer
  • Li, Z., Xu, M., & Shi, Y. (2015). Centrality in global shipping network basing on worldwide shipping areas. GeoJournal, 80(1), 47-60.
  • Limao, N., & Venables, A. J. (2001). Infrastructure, geographical disadvantage, transport costs, and trade. The World Bank Economic Review, 15(3), 451-479.
  • Lin, C. C., & Yen, H. C. (2007). On Balloon Drawings of Rooted Trees. J. Graph Algorithms Appl., 11(2), 431-452.
  • Lu, H. A., & Chen, C. Y. (2011). A time–space network model for unit load device stock planning in international airline services. Journal of Air Transport Management, 17(2), 94-100.
  • Martín, J. C., & Román, C. (2004). Analyzing competition for hub location in intercontinental aviation markets. Transportation Research Part E: Logistics and Transportation Review, 40(2), 135-150.
  • McDonald, R., Pereira, F., Ribarov, K., & Hajič, J. (2005, October). Non-projective dependency parsing using spanning tree algorithms. In Proceedings of the conference on Human Language Technology and Empirical Methods in Natural Language Processing (pp. 523-530). Association for Computational Linguistics.
  • Mueller, E. & Chatterji, G. (2002). Analysis of Aircraft Arrival and Departure Delay Characteristics, AIAA’s Aircraft Technology, Integration, and Operations (ATIO) 2002 Technical Forum, doi:10.2514/6.2002-5866
  • Müller, J., Kamp, V., Niemeier, H. M., Bruche, G., Herr, H., Nagel, F., & Ripsas, S. (2005). Can we learn from benchmarking studies of airports and where do we want to go from here?. Working Papers No 28, Berlin: Berlin School of Economics and Law, Institute of Management Berlin
  • Neibergeer, C. (2008). The effects of deregulation, changed customer requirements and new technology on the organisation and spatial patterns of the air freight sector in Europe. Journal of Transport Geography, 16(4), 247-256.
  • Newman, M. E. (2006). Modularity and community structure in networks. Proceedings of the national academy of sciences, 103(23), 8577-8582.
  • Ortega, F. (2016). Gen Air: carga aérea. Recuperado de http://es.slideshare.net/ camaradealava/gen-air-carga-area-francisco-ortega
  • OTLE (2016). Informe Anual 2015, Madrid.
  • OTLE (2016b). Consultas de la base de datos y mapas. Recuperado de http:// observatoriotransporte . fomento.es/OTLE/LANG_CASTELLANO/ BASEDATOS/
  • Pais-Montes, C., Freire-Seoane, M. J., & Gonzalez-Laxe, F. (2012). General cargo and containership emergent routes: A complex networks description. Transport Policy, 24, 126-140.
  • Pastor, J.H. (2014). Inditex revoluciona el aeropuerto con otro récord de mercancías. Recuperado de http://www.elperiodicodearagon.com/noticias/temadia/ inditex-revoluciona-aeropuerto-otro-record-mercancias_973556.html
  • Pejovic, T., Noland, R. B., Williams, V., & Toumi, R. (2009). A tentative analysis of the impacts of an airport closure. Journal of Air Transport Management, 15(5), 241-248.
  • Rietveld, P., & Bruinsma, F. (2012). Is transport infrastructure effective?: transport infrastructure and accessibility: impacts on the space economy. Springer Science & Business Media.
  • Rong, A. & Grunow, M. (2009). Shift design for freight handling personal at air cargo terminals. Transportation Research, part E, 45, 725-739.
  • Schaefer, L., & Millner, D. (2001). Flight delay propagation analysis with the detailed policy assessment tool. In Systems, Man, and Cybernetics, 2001 IEEE International Conference on (Vol. 2, pp. 1299-1303). IEEE.
  • Schmidberger, S., Bals, L., Hartmann, E., & Jahns, C. (2009). Ground handling services at European hub airports: development of a performance measurement system for benchmarking. International Journal of Production Economics, 117(1), 104-116.
  • Sharp, W. E., & Markham, T. (2000). Quasi-symmetry and reversible Markov sequences in sedimentary sections. Mathematical Geology, 32(5), 561-579.
  • Smyth, M. & Pearce, B. (2008). Air Travel Demand. IATA Economic Briefing, nº 9, Montreal: IATA
  • Takebayashi, M. (2011). The runway capacity constraint and airlines’ behavior: Choice of aircraft size and network design. Transportation Research Part E: Logistics and Transportation Review, 47(3), 390-400.
  • Thelle, M.H. (2012). Airport Competition in Europe. Copenhagen: Copenhagen Economics
  • van Vliet, N.S.C. (2011). Air cargo alliances: walking on a thin line: a study on the impact of air cargo alliances (tesis). Recuperada de dspace.ou.nl/ bitstream/1820/3705/1/MWNSCvVlietmei2010.pdf
  • Wong, C. K., & Wong, S. C. (2002). Lane-based optimization of traffic equilibrium settings for area traffic control. Journal of advanced transportation, 36(3), 349- 386.
  • World Bank Group. (2015). Air Transport: annual report. Recuperado de http:// pubdocs.worldbank.org/en/184421457963482031/2015-Air-TransportAnnual-Report-OFVLR-10MAR16.pdf
  • Wu, C. L. (2005). Inherent delays and operational reliability of airline schedules. Journal of Air Transport Management, 11(4), 273-282.
  • Wu, Y. (2010). A dual-response forwarding approach for containerizing air cargoes under uncertainty, based on stochastic mixed 0-1 programming. European Journal of Operational Research, 207(1), 152-164.
  • Yaman, H., Karasan, O. E., & Pinar, M. Ç. (2001). The robust spanning tree problem with interval data. Operations Research Letters, 29(1), 31-40.
  • Zhang, A., & Zhang, Y. (2002). Issues on liberalization of air cargo services in international aviation. Journal of Air Transport Management, 8(5), 275-287.
  • Zohil, J., & Prijon, M. (1999). The MED rule: the interdependence of container throughput and transhipment volumes in the Mediterranean ports. Maritime Policy & Management, 26(2), 175-193.
Fuente de los datos: Dialnet