5GINFIRE: Enabling an NFV Based Experimentation of Vertical Industries in the 5G Context
Resumo
5G aims to provide a wireless access network that supports the requirements of different vertical markets such as automotive and smart cities. 5G oriented services use the Internet of Things (IoT) and will use the network programmability by integrating Software-defined Networking (NFV) and Network Function Virtualization (NFV). This context presents several multi-facet challenges to experiment with these services. 5GINFIRE is a 5G oriented experimental facility where different actors of the 5G ecosystem can experimentally contribute to 5G development and deployment. This work presents the 5GGINFIRE ecosystem, highlights some of its capabilities and some 5G ongoing experiments.
Palavras-chave:
5G, Software Defined Networks, Network Function Virtualization
Referências
5GINFIRE (2018). 5ginfire Experiments.
Agiwal, M., Roy, A., and Saxena, N. (2016). Next Generation 5g Wireless Networks: A Comprehensive Survey. IEEE Communications Surveys Tutorials, 18(3):1617-1655.
Elayoubi, S. E., Fallgren, M., Spapis, P., Zimmermann, G., Martín-Sacristán, D., Yang, C., Jeux, S., Agyapong, P., Campoy, L., Qi, Y., and Singh, S. (2016). 5g service requirements and operational use cases: Analysis and METIS II vision. In 2016 Euro-pean Conference on Networks and Communications (EuCNC), pages 158-162.
ETSI (2018). Open Source MANO (ETSI).
Gavras, A., Karila, A., Fdida, S., May, M., and Potts, M. (2007). Future Internet Re-search and Experimentation: The FIRE Initiative. SIGCOMM Comput. Commun. Rev., 37(3):89-92.
Gupta, A. and Jha, R. K. (2015). A Survey of 5g Network: Architecture and Emerging Technologies. IEEE Access, 3:1206-1232.
Hoban, A., Israel, A., Sepúlveda, A. T., Salguero, F. J. R., de Blas, G. G., Kashalkar, K., Ceppi, M., Shuttleworth, M., Harper, M., Marchetti, M., Velandy, R., Almagia, S., and Little, V. (2018). OSM Release Four Technical Overview.
IMDEA (2016). 5tonic.
Lema, M. A., Laya, A., Mahmoodi, T., Cuevas, M., Sachs, J., Markendahl, J., and Dohler, M. (2017). Business Case and Technology Analysis for 5g Low Latency Applications. IEEE Access, 5:5917-5935.
Zafeiropoulos, A., Gouvas, P., Fotopoulou, E., Tsiolis, G., Xirofotos, T., Bonnet, J., Car-rozzo, G., Rizou, S., Gavras, A., Barros, M. J., Costa-Perez, X., Prasad, A., Gramaglia, M., Tzanakaki, A., Simeonidou, D., Cosmas, J., Fallgren, M., Muñoz, R., and Vilalta, R. (2018). Enabling Vertical Industries Adoption of 5g Technologies: A Cartography of Evolving Solutions. In 2018 European Conference on Networks and Communica-tions (EuCNC), pages 1-9.
Agiwal, M., Roy, A., and Saxena, N. (2016). Next Generation 5g Wireless Networks: A Comprehensive Survey. IEEE Communications Surveys Tutorials, 18(3):1617-1655.
Elayoubi, S. E., Fallgren, M., Spapis, P., Zimmermann, G., Martín-Sacristán, D., Yang, C., Jeux, S., Agyapong, P., Campoy, L., Qi, Y., and Singh, S. (2016). 5g service requirements and operational use cases: Analysis and METIS II vision. In 2016 Euro-pean Conference on Networks and Communications (EuCNC), pages 158-162.
ETSI (2018). Open Source MANO (ETSI).
Gavras, A., Karila, A., Fdida, S., May, M., and Potts, M. (2007). Future Internet Re-search and Experimentation: The FIRE Initiative. SIGCOMM Comput. Commun. Rev., 37(3):89-92.
Gupta, A. and Jha, R. K. (2015). A Survey of 5g Network: Architecture and Emerging Technologies. IEEE Access, 3:1206-1232.
Hoban, A., Israel, A., Sepúlveda, A. T., Salguero, F. J. R., de Blas, G. G., Kashalkar, K., Ceppi, M., Shuttleworth, M., Harper, M., Marchetti, M., Velandy, R., Almagia, S., and Little, V. (2018). OSM Release Four Technical Overview.
IMDEA (2016). 5tonic.
Lema, M. A., Laya, A., Mahmoodi, T., Cuevas, M., Sachs, J., Markendahl, J., and Dohler, M. (2017). Business Case and Technology Analysis for 5g Low Latency Applications. IEEE Access, 5:5917-5935.
Zafeiropoulos, A., Gouvas, P., Fotopoulou, E., Tsiolis, G., Xirofotos, T., Bonnet, J., Car-rozzo, G., Rizou, S., Gavras, A., Barros, M. J., Costa-Perez, X., Prasad, A., Gramaglia, M., Tzanakaki, A., Simeonidou, D., Cosmas, J., Fallgren, M., Muñoz, R., and Vilalta, R. (2018). Enabling Vertical Industries Adoption of 5g Technologies: A Cartography of Evolving Solutions. In 2018 European Conference on Networks and Communica-tions (EuCNC), pages 1-9.
Publicado
10/05/2019
Como Citar
SILVA, Flávio; ROSA, Pedro; HRASNICA, Halid; GRAVAS, Anastasius.
5GINFIRE: Enabling an NFV Based Experimentation of Vertical Industries in the 5G Context. In: WORKSHOP DE PESQUISA EXPERIMENTAL DA INTERNET DO FUTURO (WPEIF), 10. , 2019, Gramado.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2019
.
p. 64-69.
ISSN 2595-2692.
DOI: https://doi.org/10.5753/wpeif.2019.7700.
