MiniManager: Uma Proposta de Plataforma Web para Emulação de Redes Heterogêneas de Comunicação Móvel
Abstract
During the development of communication networks, experimentation and data analysis assists researchers and decision-makers in defining the most appropriate transmission, reception, and routing strategies. One of the methods used to reproduce the reality of communication networks is the network emulation, providing inputs for reaction and performance analysis of the system under test. However, some gaps were identified while emulating a network process. This article presents the MiniManager, an application based on Mininet-WiFi that facilitates the management and the configuration of experiments through an intuitive interface and a system capable of capturing the origin of the data resulting from the emulations.
References
Chan, M.-C., Chen, C., Huang, J.-X., Kuo, T., Yen, L.-H., and Tseng, C.-C. (2014). Opennet: A simulator for software-defined wireless local area network. pages 3332–3336.
Cruz, S. (2011). An Approach to Support The Management of Data Provenance of Scientfic Experiments. PhD thesis, Universidade Federal do Rio de Janeiro, Rio de Janeiro - RJ-Brasil.
dos Reis Fontes, R. and Rothenberg, C. E. (2019). Mininet-wifi: Plataforma de emulação para redes sem fio definidas por software. In Anais Estendidos do XXXVII Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, pages 201–208. SBC.
Fontes, R. D. R. (2018). Mininet-Wifi: Emaulation Platform For Software-Defined Wireless Networks. PhD thesis, Universidade Estadual de Campinas, Campinas-SP-Brasil.
Fontes, R. d. R. and Rothenberg, C. E. (2016). Mininet-wifi: A platform for hybrid physical-virtual software-defined wireless networking research. In Proceedings of the 2016 ACM SIGCOMM Conference, pages 607–608.
Fontes, R. R., Afzal, S., Brito, S. H., Santos, M. A., and Rothenberg, C. E. (2015). Mininet-wifi: Emulating software-defined wireless networks. In 2015 11th International Conference on Network and Service Management (CNSM), pages 384–389. IEEE.
Freire, J., Koop, D., Santos, E., and Silva, C. T. (2008). Provenance for computational tasks: A survey. Computing in Science & Engineering, 10(3):11–21.
Kreutz, D., Ramos, F. M. V., Veríssimo, P. E., Rothenberg, C. E., Azodolmolky, S., and Uhlig, S. (2015). Software-defined networking: A comprehensive survey. Proceedings of the IEEE, 103(1):14–76.
Lantz, B., Heller, B., and McKeown, N. (2010). A network in a laptop: rapid prototyping for software-defined networks. In Proceedings of the 9th ACM SIGCOMM Workshop on Hot Topics in Networks, pages 1–6.
Mancini, E. P., Soni, H., Turletti, T., Dabbous, W., and Tazaki, H. (2014). Demo abstract: realistic evaluation of kernel protocols and software defined wireless networks with dce/ns-3. In MSWiM ’14.
Mazzini, A., Stefanelli, C., Tortonesi, M., Benincasa, G., and Suri, N. (2010). Disservice: Network state monitoring and prediction for opportunistic information dissemination in tactical networks. In 2010-MILCOM 2010 MILITARY COMMUNICATIONS CONFERENCE, pages 555–560. IEEE.
Moreau, L. and Missier, P. (2013). Prov-dm: The prov data model. W3C Recommendation.
Prado Filho, H. V., Galdino, J. F., and Moura, D. F. C. (2017). Pesquisa e desenvolvimento de produtos de defesa: reflexões e fatos sobre o projeto rádio definido por software do ministério da defesa à luz do modelo de inovação em tríplice hélice. Rio de Janeiro: RMCT, 34(1):6–19.
Varga, A. and Hornig, R. (2008). An overview of the omnet++ simulation environment. In Proceedings of the 1st International Conference on Simulation Tools and Techniques for Communications, Networks and Systems Workshops, Simutools ’08, Brussels, BEL. ICST (Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering).
Zhao, Q., Brown, A. J., Kim, J. H., and Gerla, M. (2019). An integrated software-defined battlefield network testbed for tactical scenario emulation. In MILCOM 2019-2019 IEEE Military Communications Conference (MILCOM), pages 373–378. IEEE.
Cruz, S. (2011). An Approach to Support The Management of Data Provenance of Scientfic Experiments. PhD thesis, Universidade Federal do Rio de Janeiro, Rio de Janeiro - RJ-Brasil.
dos Reis Fontes, R. and Rothenberg, C. E. (2019). Mininet-wifi: Plataforma de emulação para redes sem fio definidas por software. In Anais Estendidos do XXXVII Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, pages 201–208. SBC.
Fontes, R. D. R. (2018). Mininet-Wifi: Emaulation Platform For Software-Defined Wireless Networks. PhD thesis, Universidade Estadual de Campinas, Campinas-SP-Brasil.
Fontes, R. d. R. and Rothenberg, C. E. (2016). Mininet-wifi: A platform for hybrid physical-virtual software-defined wireless networking research. In Proceedings of the 2016 ACM SIGCOMM Conference, pages 607–608.
Fontes, R. R., Afzal, S., Brito, S. H., Santos, M. A., and Rothenberg, C. E. (2015). Mininet-wifi: Emulating software-defined wireless networks. In 2015 11th International Conference on Network and Service Management (CNSM), pages 384–389. IEEE.
Freire, J., Koop, D., Santos, E., and Silva, C. T. (2008). Provenance for computational tasks: A survey. Computing in Science & Engineering, 10(3):11–21.
Kreutz, D., Ramos, F. M. V., Veríssimo, P. E., Rothenberg, C. E., Azodolmolky, S., and Uhlig, S. (2015). Software-defined networking: A comprehensive survey. Proceedings of the IEEE, 103(1):14–76.
Lantz, B., Heller, B., and McKeown, N. (2010). A network in a laptop: rapid prototyping for software-defined networks. In Proceedings of the 9th ACM SIGCOMM Workshop on Hot Topics in Networks, pages 1–6.
Mancini, E. P., Soni, H., Turletti, T., Dabbous, W., and Tazaki, H. (2014). Demo abstract: realistic evaluation of kernel protocols and software defined wireless networks with dce/ns-3. In MSWiM ’14.
Mazzini, A., Stefanelli, C., Tortonesi, M., Benincasa, G., and Suri, N. (2010). Disservice: Network state monitoring and prediction for opportunistic information dissemination in tactical networks. In 2010-MILCOM 2010 MILITARY COMMUNICATIONS CONFERENCE, pages 555–560. IEEE.
Moreau, L. and Missier, P. (2013). Prov-dm: The prov data model. W3C Recommendation.
Prado Filho, H. V., Galdino, J. F., and Moura, D. F. C. (2017). Pesquisa e desenvolvimento de produtos de defesa: reflexões e fatos sobre o projeto rádio definido por software do ministério da defesa à luz do modelo de inovação em tríplice hélice. Rio de Janeiro: RMCT, 34(1):6–19.
Varga, A. and Hornig, R. (2008). An overview of the omnet++ simulation environment. In Proceedings of the 1st International Conference on Simulation Tools and Techniques for Communications, Networks and Systems Workshops, Simutools ’08, Brussels, BEL. ICST (Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering).
Zhao, Q., Brown, A. J., Kim, J. H., and Gerla, M. (2019). An integrated software-defined battlefield network testbed for tactical scenario emulation. In MILCOM 2019-2019 IEEE Military Communications Conference (MILCOM), pages 373–378. IEEE.
Published
2022-05-23
How to Cite
DEMORI, André M.; SILVA, Renan Rodrigues Moreira Resende da; ALBUQUERQUE, Pedro Paulo Leal de; MOURA, David Fernandez Cruz; TESOLIN, Júlio César Cardoso; CAVALCANTI, Maria Cláudia Reis.
MiniManager: Uma Proposta de Plataforma Web para Emulação de Redes Heterogêneas de Comunicação Móvel. In: DEMO SESSION - BRAZILIAN SYMPOSIUM ON COMPUTER NETWORKS AND DISTRIBUTED SYSTEMS (SBRC), 40. , 2022, Fortaleza/CE.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2022
.
p. 17-24.
ISSN 2177-9384.
DOI: https://doi.org/10.5753/sbrc_estendido.2022.222437.
