Protocolos Eficientes para Comunicação V2V em Redes Veiculares de Dados Nomeados
Resumo
Este resumo estendido apresenta uma visão geral das principais contribuições da pesquisa de mestrado. O trabalho tem como objetivo desenvolver protocolos eficientes para comunicação V2V em VNDN, com o intuito de garantir alta taxa de entrega de conteúdo e reduzir o broadcast storm durante o processo de descoberta de cache. Os protocolos propostos foram avaliados e comparados com protocolos existentes na literatura por meio de simulações computacionais. Os resultados das simulações mostram que os protocolos propostos possuem um bom desempenho em três pontos chaves:(i) taxa de cache hit; (ii) taxa de entrega de conteúdo e (iii) transmissão de pacotes de interesse.
Referências
Al-Omaisi, H., Sundararajan, E. A., and Abdullah, N. F. (2019). Towards vanet-ndn: A framework for an efficient data dissemination design scheme. In 2019 International Conference on Electrical Engineering and Informatics (ICEEI), pages 412–417.
Amadeo, M., Campolo, C., and Molinaro, A. (2016). Information-centric networking for connected vehicles: a survey and future perspectives. IEEE Communications Magazine, 54(2):98–104.
Burhan, M. and Rehman, R. A. (2020). Bsms: A reliable interest forwarding protocol for ndn based vanets. In 2020 3rd International Conference on Advancements in Computational Sciences (ICACS), pages 1–6.
Coutinho, R. W. L., Boukerche, A., and Loureiro, A. A. F. (2018). Design guidelines for information-centric connected and autonomous vehicles. IEEE Communications Magazine, pages 85–91.
Duarte, J. M., Braun, T., and Villas, L. A. (2019). Mobivndn: A distributed framework to support mobility in vehicular named-data networking. Ad Hoc Networks, 82:77 – 90.
Durga, C. V., Chakravarthy, G., and Alekya, B. (2018). Efficient data dissemination in vanets: Urban scenario. In 2018 International Conference on Inventive Research in Computing Applications (ICIRCA), pages 891–896.
Fang, C., Yao, H., Wang, Z., Wu, W., Jin, X., and Yu, F. R. (2018). A survey of mobile information-centric networking: Research issues and challenges. Communications Surveys Tutorials, 20.
Khelifi, H., Luo, S., Nour, B., Moungla, H., Faheem, Y., Hussain, R., and Ksentini, A. (2020). Named data networking in vehicular ad hoc networks: State-of-the-art and challenges. IEEE Communications Surveys Tutorials, 22(1):320–351.
Kumar, N., Chaudhry, R., Kaiwartya, O., Kumar, N., and Ahmed, S. H. (2020). Green computing in software defined social internet of vehicles. IEEE Transactions on Intelligent Transportation Systems, pages 1–10.
Li, D., Song, T., and Yang, Y. (2020). Content retrieval based on prediction and network coding in vehicular named data networking. IEEE Access, 8:125576–125591.
Lopes, L. H. S., Mini, R. A. F., and Cunha, F. (2019). A v2x approach for data dissemination in vehicular ad hoc networks. In 2019 IEEE Symposium on Computers and Communications (ISCC), pages 1–6.
Nour, B., Sharif, K., Li, F., Khelifi, H., and Moungla, H. (2018). Nncp: A named data network control protocol for iot applications. In 2018 IEEE CSCN, pages 1–6.
Rondon, L. B., da Costa, J. B. D., Filho, G. P. R., Rosário, D., and Villas, L. A. (2020). Degree centrality-based caching discovery protocol for vehicular named-data networks. In 2020 IEEE 91st Vehicular Technology Conference (VTC2020-Spring), pages 1–5.
Rondon, L. B., da Costa, J. B. D., Rocha Filho, G. P., and Villas, L. A. (2019). A distance and position-based caching discovery protocol for vehicular named-data networks. In 2019 IEEE 11th Latin-American Conference on Communications (LATINCOM), pages 1–6. IEEE.
Rondon, L. B., Immich, R., P Rocha Filho, G., Venâncio Neto, A., Leone Maciel Peixoto, M., and Villas, L. A. (2020a). Towards improved vehicular information-centric networks by efficient caching discovery. Vehicles, 2(3):453–467.
Rondon, L. B., Maziero, L. P., Rocha Filho, G. P., Neto, A. V., Peixoto, M. M. L., and Villas, L. A. (2020b). Protocolo baseado em geometria computacional para descoberta de cache em redes veiculares de dados nomeados.
Shabnam, F. and Jamalipour, A. (2020). An efficient coordinator selection method for geo-routing protocol in vehicular network. In 2020 IEEE 91st Vehicular Technology Conference (VTC2020-Spring), pages 1–5.
Shah, S. S., Malik, A. W., Rahman, A. U., Iqbal, S., and Khan, S. U. (2019). Time barrierbased emergency message dissemination in vehicular ad-hoc networks. IEEE Access, 7:16494–16503.
Sharma, S., Chahal, M., and Harit, S. (2019). Transmission rate-based congestion control in vehicular ad hoc networks. In 2019 Amity International Conference on Artificial Intelligence (AICAI), pages 303–307.
Wang, Y., Liu, H., Huang, L., and Stankovic, J. (2016). Efficient and proactive v2v information diffusion using named data networking. In 2016 IEEE/ACM 24th IWQoS, pages 1–10.
Amadeo, M., Campolo, C., and Molinaro, A. (2016). Information-centric networking for connected vehicles: a survey and future perspectives. IEEE Communications Magazine, 54(2):98–104.
Burhan, M. and Rehman, R. A. (2020). Bsms: A reliable interest forwarding protocol for ndn based vanets. In 2020 3rd International Conference on Advancements in Computational Sciences (ICACS), pages 1–6.
Coutinho, R. W. L., Boukerche, A., and Loureiro, A. A. F. (2018). Design guidelines for information-centric connected and autonomous vehicles. IEEE Communications Magazine, pages 85–91.
Duarte, J. M., Braun, T., and Villas, L. A. (2019). Mobivndn: A distributed framework to support mobility in vehicular named-data networking. Ad Hoc Networks, 82:77 – 90.
Durga, C. V., Chakravarthy, G., and Alekya, B. (2018). Efficient data dissemination in vanets: Urban scenario. In 2018 International Conference on Inventive Research in Computing Applications (ICIRCA), pages 891–896.
Fang, C., Yao, H., Wang, Z., Wu, W., Jin, X., and Yu, F. R. (2018). A survey of mobile information-centric networking: Research issues and challenges. Communications Surveys Tutorials, 20.
Khelifi, H., Luo, S., Nour, B., Moungla, H., Faheem, Y., Hussain, R., and Ksentini, A. (2020). Named data networking in vehicular ad hoc networks: State-of-the-art and challenges. IEEE Communications Surveys Tutorials, 22(1):320–351.
Kumar, N., Chaudhry, R., Kaiwartya, O., Kumar, N., and Ahmed, S. H. (2020). Green computing in software defined social internet of vehicles. IEEE Transactions on Intelligent Transportation Systems, pages 1–10.
Li, D., Song, T., and Yang, Y. (2020). Content retrieval based on prediction and network coding in vehicular named data networking. IEEE Access, 8:125576–125591.
Lopes, L. H. S., Mini, R. A. F., and Cunha, F. (2019). A v2x approach for data dissemination in vehicular ad hoc networks. In 2019 IEEE Symposium on Computers and Communications (ISCC), pages 1–6.
Nour, B., Sharif, K., Li, F., Khelifi, H., and Moungla, H. (2018). Nncp: A named data network control protocol for iot applications. In 2018 IEEE CSCN, pages 1–6.
Rondon, L. B., da Costa, J. B. D., Filho, G. P. R., Rosário, D., and Villas, L. A. (2020). Degree centrality-based caching discovery protocol for vehicular named-data networks. In 2020 IEEE 91st Vehicular Technology Conference (VTC2020-Spring), pages 1–5.
Rondon, L. B., da Costa, J. B. D., Rocha Filho, G. P., and Villas, L. A. (2019). A distance and position-based caching discovery protocol for vehicular named-data networks. In 2019 IEEE 11th Latin-American Conference on Communications (LATINCOM), pages 1–6. IEEE.
Rondon, L. B., Immich, R., P Rocha Filho, G., Venâncio Neto, A., Leone Maciel Peixoto, M., and Villas, L. A. (2020a). Towards improved vehicular information-centric networks by efficient caching discovery. Vehicles, 2(3):453–467.
Rondon, L. B., Maziero, L. P., Rocha Filho, G. P., Neto, A. V., Peixoto, M. M. L., and Villas, L. A. (2020b). Protocolo baseado em geometria computacional para descoberta de cache em redes veiculares de dados nomeados.
Shabnam, F. and Jamalipour, A. (2020). An efficient coordinator selection method for geo-routing protocol in vehicular network. In 2020 IEEE 91st Vehicular Technology Conference (VTC2020-Spring), pages 1–5.
Shah, S. S., Malik, A. W., Rahman, A. U., Iqbal, S., and Khan, S. U. (2019). Time barrierbased emergency message dissemination in vehicular ad-hoc networks. IEEE Access, 7:16494–16503.
Sharma, S., Chahal, M., and Harit, S. (2019). Transmission rate-based congestion control in vehicular ad hoc networks. In 2019 Amity International Conference on Artificial Intelligence (AICAI), pages 303–307.
Wang, Y., Liu, H., Huang, L., and Stankovic, J. (2016). Efficient and proactive v2v information diffusion using named data networking. In 2016 IEEE/ACM 24th IWQoS, pages 1–10.
Publicado
16/08/2021
Como Citar
RONDON, Lucas B.; ROCHA-FILHO, Geraldo P.; VILLAS, Leandro A..
Protocolos Eficientes para Comunicação V2V em Redes Veiculares de Dados Nomeados. In: CONCURSO DE TESES E DISSERTAÇÕES - SIMPÓSIO BRASILEIRO DE REDES DE COMPUTADORES E SISTEMAS DISTRIBUÍDOS (SBRC), 39. , 2021, Uberlândia.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2021
.
p. 177-184.
ISSN 2177-9384.
DOI: https://doi.org/10.5753/sbrc_estendido.2021.17169.
