Author:
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Gutiérrez Terán, Jesús; Maletic, Nebojsa; Camps Mur, Daniel; García Villegas, Eduard; Berberana, Ignacio; Anastasopoulos, Markos; Tzanakaki, Anna; Kalokidou, Vaia; Flegkas, Paris; Syrivelis, Dimitris; Korakis, Thanasis; Legg, Peter; Markovic, Dusan; Limperopoulos, George; Bartelt, Jens; Chaudhary, Jay Kant; Grieger, Michael; Vucic, Nikola; Zou, Jim; Grass, Eckhard
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Abstract:
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This is the pre-peer reviewed version of the following article: Gutiérrez-Terán, J., Maletic, N., Camps, D., Garcia-Villegas, E., Berberana, I., Anastasopoulos, M., Tzanakaki, A., Kalokidou, V., Flegkas, P., Syrivelis, D., Korakis, T., Legg, P., Markovic, D., Limperopoulos, G., Bartelt, J., Chaudhary, J.K., Grieger, M., Vucic, N., Zou, J., Grass, E. 5G-XHaul: a converged optical and wireless solution for 5G transport networks. "Transactions on emerging telecommunications technologies", 8 Juliol 2016, vol. 27, núm. 9, p. 1187-1195, which has been published in final form at http://onlinelibrary.wiley.com.recursos.biblioteca.upc.edu/doi/10.1002/ett.3063/epdf. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving. |
Abstract:
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The common European Information and Communications Technology sector vision for 5G is that it should leverage on the strengths of both optical and wireless technologies. In the 5G context, a wide spectra of radio access technologies—such as millimetre wave transmission, massive multiple-input multiple-output and new waveforms—demand for high capacity, highly flexible and convergent transport networks. As the requirements imposed on future 5G networks rise, so do the challenges in the transport network. Hence, 5G-XHaul proposes a converged optical and wireless transport network solution with a unified control plane based on software defined networking. This solution is able to support the flexible backhaul and fronthaul—X-Haul—options required to tackle the future challenges imposed by 5G radio access technologies. 5G-XHaul studies the trade-offs involving fully or partially converged backhaul and fronthaul functions, with the aim of maximising the associated sharing benefits, improving efficiency in resource utilisation and providing measurable benefits in terms of overall cost, scalability and sustainability |