Black Box: Uma Aplicação de Gerenciamento e Entrega Tolerante a Atrasos e Desconexões de Vídeos Para Veículos
Resumo
Desenvolver, testar e experimentar aplicações de rede para veículos se tornou um grande desafio para a comunidade científica, uma vez que, a maioria das aplicações são avaliadas de forma simulada. A maioria dessas aplicações são focadas no processamento de informações em tempo real. Entretanto, por questões de mobilidade, é praticamente impossível distribuir conteúdos como vídeos, por serem pesados, e assim, inviáveis em serviços como telefonia móvel, por limitações de recursos. Para superar essas limitações, é proposto uma aplicação veicular que realiza o gerenciamento da gravação de vídeos, fragmentando-os em pedaços menores e com menor qualidade para serem transmitidos em encontros entre os veículos através de uma rede oportunista até que cheguem ao seu destino, formando assim uma rede tolerante a atrasos e desconexões. Experimentos demonstraram que a aplicação conseguiu com sucesso a entrega dos vídeos ao destino através da rede criada.
Referências
Barfield, W. and Dingus, T. A. (2014). Human factors in intelligent transportation systems. Psychology Press.
Castells, M., Fernandez-Ardevol, M., Qiu, J. L., and Sey, A. (2009). Mobile communication and society: A global perspective. Mit Press.
Chen, T. M. (2011). Governments and the executive”internet kill switch”[editor’s note]. Network, IEEE, 25(2):2–3.
Dahlman, E., Parkvall, S., and Skold, J. (2013). 4G: LTE/LTE-advanced for mobile broadband. Academic press.
Deibert, R., Palfrey, J., Rohozinski, R., and Zittrain, J. (2011). Access contested: security, identity, and resistance in Asian cyberspace. MIT Press.
Dimitrakopoulos, G. and Demestichas, P. (2010). Intelligent transportation systems. Vehicular Technology Magazine, IEEE, 5(1):77–84.
Eisenman, S. B., Miluzzo, E., Lane, N. D., Peterson, R. A., Ahn, G.-S., and Campbell, A. T. (2009). Bikenet: A mobile sensing system for cyclist experience mapping. ACM Transactions on Sensor Networks (TOSN), 6(1):6.
Fall, K. (2003). A delay-tolerant network architecture for challenged internets. In Proceedings of the 2003 conference on Applications, technologies, architectures, and protocols for computer communications, pages 27–34. ACM.
Fall, K. and Farrell, S. (2008). Dtn: an architectural retrospective. Selected Areas in Communications, IEEE Journal on, 26(5):828–836.
Galati, A. (2010). Delay tolerant network. Germany: LAP Lambert Academic Publishing.
Garrocho, C. T. B., Silva, M. J., and Oliveira, R. A. R. (2015). Transparent sharing architecture of content between mobile devices in opportunistic networks. In Proceedings of the annual conference on Brazilian Symposium on Information Systems: Information Systems: A Computer Socio-Technical Perspective-Volume 1, page 48. Brazilian Computer Society.
Hull, B., Bychkovsky, V., Zhang, Y., Chen, K., Goraczko, M., Miu, A., Shih, E., Balakrishnan, H., and Madden, S. (2006). Cartel: a distributed mobile sensor computing system. In Proceedings of the 4th international conference on Embedded networked sensor systems, pages 125–138. ACM.
Ims, L. A. (2012). Broadband access networks: introduction strategies and technoeconomic evaluation. Springer Science & Business Media.
Jazayeri, A., Cai, H., Zheng, J. Y., and Tuceryan, M. (2011). Vehicle detection and tracking in car video based on motion model. Intelligent Transportation Systems, IEEE Transactions on, 12(2):583–595.
Juang, P., Oki, H., Wang, Y., Martonosi, M., Peh, L. S., and Rubenstein, D. (2002). Energy-efficient computing for wildlife tracking: Design tradeoffs and early experiences with zebranet. In ACM Sigplan Notices, volume 37, pages 96–107. ACM.
Karagiannis, G., Altintas, O., Ekici, E., Heijenk, G., Jarupan, B., Lin, K., and Weil, T. (2011). Vehicular networking: A survey and tutorial on requirements, architectures, challenges, standards and solutions. Communications Surveys & Tutorials, IEEE, 13(4):584–616.
Kaur, A. and Malhotra, J. (2015). A survey of network simulation tools. Wireless Communication, 7(6):191–194.
Lloyd, J. W. (2012). Foundations of logic programming. Springer Science & Business Media.
Ma, H., Zhao, D., and Yuan, P. (2014). Opportunities in mobile crowd sensing. Communications Magazine, IEEE, 52(8):29–35.
Noble, J. J. and Alpert, G. P. (2008). Managing accountability systems for police conduct: Internal affairs and external oversight. Waveland Press.
Pentland, A., Fletcher, R., and Hasson, A. (2004). Daknet: Rethinking connectivity in developing nations. Computer, 37(1):78–83.
Pereira, P. R., Casaca, A., Rodrigues, J. J., Soares, V. N., Triay, J., and Cervelló-Pastor, C. (2012). From delay-tolerant networks to vehicular delay-tolerant networks. Communications Surveys & Tutorials, IEEE, 14(4):1166–1182.
Rainie, L. (2010). Internet, broadband, and cell phone statistics. Pew Internet & American Life Project, 5.
Rutten, N., van Joolingen, W. R., and van der Veen, J. T. (2012). The learning effects of computer simulations in science education. Computers & Education, 58(1):136–153.
Skouloudi, C. and Karsberg, C. (2014). Annual incident reports 2014. European Union Agency for Network and Information Security (ENISA).
Vasilakos, A. V., Zhang, Y., and Spyropoulos, T. (2011). Delay tolerant networks: Protocols and applications. CRC press.
Wei, K., Liang, X., and Xu, K. (2014). A survey of social-aware routing protocols in delay tolerant networks: applications, taxonomy and design-related issues. Communications Surveys & Tutorials, IEEE, 16(1):556–578.
Castells, M., Fernandez-Ardevol, M., Qiu, J. L., and Sey, A. (2009). Mobile communication and society: A global perspective. Mit Press.
Chen, T. M. (2011). Governments and the executive”internet kill switch”[editor’s note]. Network, IEEE, 25(2):2–3.
Dahlman, E., Parkvall, S., and Skold, J. (2013). 4G: LTE/LTE-advanced for mobile broadband. Academic press.
Deibert, R., Palfrey, J., Rohozinski, R., and Zittrain, J. (2011). Access contested: security, identity, and resistance in Asian cyberspace. MIT Press.
Dimitrakopoulos, G. and Demestichas, P. (2010). Intelligent transportation systems. Vehicular Technology Magazine, IEEE, 5(1):77–84.
Eisenman, S. B., Miluzzo, E., Lane, N. D., Peterson, R. A., Ahn, G.-S., and Campbell, A. T. (2009). Bikenet: A mobile sensing system for cyclist experience mapping. ACM Transactions on Sensor Networks (TOSN), 6(1):6.
Fall, K. (2003). A delay-tolerant network architecture for challenged internets. In Proceedings of the 2003 conference on Applications, technologies, architectures, and protocols for computer communications, pages 27–34. ACM.
Fall, K. and Farrell, S. (2008). Dtn: an architectural retrospective. Selected Areas in Communications, IEEE Journal on, 26(5):828–836.
Galati, A. (2010). Delay tolerant network. Germany: LAP Lambert Academic Publishing.
Garrocho, C. T. B., Silva, M. J., and Oliveira, R. A. R. (2015). Transparent sharing architecture of content between mobile devices in opportunistic networks. In Proceedings of the annual conference on Brazilian Symposium on Information Systems: Information Systems: A Computer Socio-Technical Perspective-Volume 1, page 48. Brazilian Computer Society.
Hull, B., Bychkovsky, V., Zhang, Y., Chen, K., Goraczko, M., Miu, A., Shih, E., Balakrishnan, H., and Madden, S. (2006). Cartel: a distributed mobile sensor computing system. In Proceedings of the 4th international conference on Embedded networked sensor systems, pages 125–138. ACM.
Ims, L. A. (2012). Broadband access networks: introduction strategies and technoeconomic evaluation. Springer Science & Business Media.
Jazayeri, A., Cai, H., Zheng, J. Y., and Tuceryan, M. (2011). Vehicle detection and tracking in car video based on motion model. Intelligent Transportation Systems, IEEE Transactions on, 12(2):583–595.
Juang, P., Oki, H., Wang, Y., Martonosi, M., Peh, L. S., and Rubenstein, D. (2002). Energy-efficient computing for wildlife tracking: Design tradeoffs and early experiences with zebranet. In ACM Sigplan Notices, volume 37, pages 96–107. ACM.
Karagiannis, G., Altintas, O., Ekici, E., Heijenk, G., Jarupan, B., Lin, K., and Weil, T. (2011). Vehicular networking: A survey and tutorial on requirements, architectures, challenges, standards and solutions. Communications Surveys & Tutorials, IEEE, 13(4):584–616.
Kaur, A. and Malhotra, J. (2015). A survey of network simulation tools. Wireless Communication, 7(6):191–194.
Lloyd, J. W. (2012). Foundations of logic programming. Springer Science & Business Media.
Ma, H., Zhao, D., and Yuan, P. (2014). Opportunities in mobile crowd sensing. Communications Magazine, IEEE, 52(8):29–35.
Noble, J. J. and Alpert, G. P. (2008). Managing accountability systems for police conduct: Internal affairs and external oversight. Waveland Press.
Pentland, A., Fletcher, R., and Hasson, A. (2004). Daknet: Rethinking connectivity in developing nations. Computer, 37(1):78–83.
Pereira, P. R., Casaca, A., Rodrigues, J. J., Soares, V. N., Triay, J., and Cervelló-Pastor, C. (2012). From delay-tolerant networks to vehicular delay-tolerant networks. Communications Surveys & Tutorials, IEEE, 14(4):1166–1182.
Rainie, L. (2010). Internet, broadband, and cell phone statistics. Pew Internet & American Life Project, 5.
Rutten, N., van Joolingen, W. R., and van der Veen, J. T. (2012). The learning effects of computer simulations in science education. Computers & Education, 58(1):136–153.
Skouloudi, C. and Karsberg, C. (2014). Annual incident reports 2014. European Union Agency for Network and Information Security (ENISA).
Vasilakos, A. V., Zhang, Y., and Spyropoulos, T. (2011). Delay tolerant networks: Protocols and applications. CRC press.
Wei, K., Liang, X., and Xu, K. (2014). A survey of social-aware routing protocols in delay tolerant networks: applications, taxonomy and design-related issues. Communications Surveys & Tutorials, IEEE, 16(1):556–578.
Publicado
04/07/2016
Como Citar
GARROCHO, Charles T. B.; DA SILVA, Maurício J.; OLIVEIRA, Ricardo A. R..
Black Box: Uma Aplicação de Gerenciamento e Entrega Tolerante a Atrasos e Desconexões de Vídeos Para Veículos. In: SIMPÓSIO BRASILEIRO DE COMPUTAÇÃO UBÍQUA E PERVASIVA (SBCUP), 8. , 2016, Porto Alegre.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2016
.
p. 966-975.
ISSN 2595-6183.
DOI: https://doi.org/10.5753/sbcup.2016.9445.
