Extração de Parâmetros para Simulação de Redes em Aplicativos Móveis de Grande Utilização
Abstract
This paper presents an investigation into the adherence of the new transport layer protocol, QUIC, in high used mobile applications and its main network traffic characteristics. For that purpose, 9 applications each with over 1 billion downloads at Play Store were chosen. Their network traffic was captured during 5 minutes of usage through the software Wireshark. Based on the traffic characteristics obtained (delay, transferred bytes, number of transferred packets, transfer rate, packet size and IP addresses involved in the communication), parameters were extracted, which can be useful to simulate these aplications in network simulators, such as the ns-3.
References
Bhat, D., Rizk, A., and Zink, M. (2017). Not so QUIC: A Performance Study of DASH In Anais do NOSSDAV’17: 27th Workshop on Network and Operating over QUIC. Systems Support for Digital Audio and Video, páginas 13–18.
Bulgarella, F., Cociglio, M., Fioccola, G., Marchetto, G., and Sisto, R. (2019). PerforIn Anais do ANRW ’19: Applied mance Measurements of QUIC Communications. Networking Research Workshop, páginas 8–14.
Choi, J., Jung, C., Yeom, I., and Kim, Y. (2017). Streaming Service Enhancement on QUIC Protocol. In Anais do ICOMP’17: International Conference on Internet Computing, páginas 24–27.
Chromium (2013). Experimenting with QUIC. https://blog.chromium.org/2013/06/experimenting-with-quic.html. Último acesso em 28 de Junho de 2021.
Couto, Y., Camarinha, D., and Batista, D. M. (2018). nsQUIC: Uma Extensão para Simulação do Protocolo QUIC no NS-3. In Anais do Salão de Ferramentas do SBRC 2018.
Daigavhane, M. U. and Chawhan, M. (2018). Congestion Control Algorithm for TCP in Wireless Network. In Anais da RAIT’18: 4th International Conference on Recent Advances in Information Technology, páginas 1–4.
Iyengar, J. and Thomson, M. (2021). QUIC: A UDP-Based Multiplexed and Secure Transport. RFC 9000, RFC Editor.
Palmer, M., Krüger, T., Chandrasekaran, B., and Feldmann, A. (2018). The QUIC Fix In Anais do EPIQ’18: Workshop on the Evolution, for Optimal Video Streaming. Performance, and Interoperability of QUIC, páginas 43–49.
Postel, J. (1981). Transmission Control Protocol. STD 7, RFC Editor.
Qian, F., Wang, Z., Gerber, A., Mao, Z. M., Sen, S., and Spatscheck, O. (2011). ProIn Anais filing Resource Usage for Mobile Applications: a Cross-Layer Approach. do MobiSys ’11: 9th International Conference on Mobile systems, Applications, and Services, páginas 321–334.
Rüth, J., Poese, I., Dietzel, C., and Hohlfeld, O. (2018). A First Look at QUIC in the Wild. In Anais do PAM’18: Passive and Active Measurement.
Szabó, G., Rácz, S., Bezzera, D., Nogueira, I., and Sadok, D. (2016). Media QoE enhancement With QUIC. In Anais dos 2016 IEEE Conference on Computer Communications Workshops, páginas 219–220.
Bulgarella, F., Cociglio, M., Fioccola, G., Marchetto, G., and Sisto, R. (2019). PerforIn Anais do ANRW ’19: Applied mance Measurements of QUIC Communications. Networking Research Workshop, páginas 8–14.
Choi, J., Jung, C., Yeom, I., and Kim, Y. (2017). Streaming Service Enhancement on QUIC Protocol. In Anais do ICOMP’17: International Conference on Internet Computing, páginas 24–27.
Chromium (2013). Experimenting with QUIC. https://blog.chromium.org/2013/06/experimenting-with-quic.html. Último acesso em 28 de Junho de 2021.
Couto, Y., Camarinha, D., and Batista, D. M. (2018). nsQUIC: Uma Extensão para Simulação do Protocolo QUIC no NS-3. In Anais do Salão de Ferramentas do SBRC 2018.
Daigavhane, M. U. and Chawhan, M. (2018). Congestion Control Algorithm for TCP in Wireless Network. In Anais da RAIT’18: 4th International Conference on Recent Advances in Information Technology, páginas 1–4.
Iyengar, J. and Thomson, M. (2021). QUIC: A UDP-Based Multiplexed and Secure Transport. RFC 9000, RFC Editor.
Palmer, M., Krüger, T., Chandrasekaran, B., and Feldmann, A. (2018). The QUIC Fix In Anais do EPIQ’18: Workshop on the Evolution, for Optimal Video Streaming. Performance, and Interoperability of QUIC, páginas 43–49.
Postel, J. (1981). Transmission Control Protocol. STD 7, RFC Editor.
Qian, F., Wang, Z., Gerber, A., Mao, Z. M., Sen, S., and Spatscheck, O. (2011). ProIn Anais filing Resource Usage for Mobile Applications: a Cross-Layer Approach. do MobiSys ’11: 9th International Conference on Mobile systems, Applications, and Services, páginas 321–334.
Rüth, J., Poese, I., Dietzel, C., and Hohlfeld, O. (2018). A First Look at QUIC in the Wild. In Anais do PAM’18: Passive and Active Measurement.
Szabó, G., Rácz, S., Bezzera, D., Nogueira, I., and Sadok, D. (2016). Media QoE enhancement With QUIC. In Anais dos 2016 IEEE Conference on Computer Communications Workshops, páginas 219–220.
Published
2021-08-16
How to Cite
CARDOZO, Renê Eduardo Pereira; BATISTA, Daniel Macêdo.
Extração de Parâmetros para Simulação de Redes em Aplicativos Móveis de Grande Utilização. In: WORKSHOP ON SCIENTIFIC INITIATION AND GRADUATION - BRAZILIAN SYMPOSIUM ON COMPUTER NETWORKS AND DISTRIBUTED SYSTEMS (SBRC), 39. , 2021, Uberlândia.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2021
.
p. 233-240.
ISSN 2177-9384.
DOI: https://doi.org/10.5753/sbrc_estendido.2021.17176.
