Desenvolvimento de uma aplicação segura de sensoriamento através de redes oportunísticas
Resumo
Internet das Coisas vem tornando a Internet cada vez mais presente no cotidiano das pessoas ao permitir a integração de uma variedade de objetos físicos e dispositivos na rede. Este novo paradigma apresenta novos desafios relacionados ao projeto da arquitetura do sistema e riscos inerentes à segurança da informação. Diante disso, apresentamos uma aplicação de Internet das Coisas baseada em uma rede oportunística de comunicação, assim como os requisitos de segurança a serem avaliados1.Referências
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Amadeo, M., Campolo, C., Quevedo, J., Corujo, D., Molinaro, A., Iera, A., Aguiar, R. L., and Vasilakos, A. V. (2016). Information-centric networking for the internet of things: challenges and opportunities. IEEE Network, 30(2):92–100.
Amadeo, M. and Molinaro, A. (2011). Chanet: A content-centric architecture for ieee 802.11 manets. In 2011 International Conference on the Network of the Future, pages 122–127. IEEE.
Andrea, I., Chrysostomou, C., and Hadjichristo, G. (2015). Internet of things: Security vulnerabilities and challenges. In 2015 IEEE Symposium on Computers and Commu- nication (ISCC), pages 180–187. IEEE.
Atzori, L., Iera, A., and Morabito, G. (2010). The internet of things: A survey. Computer networks, 54(15):2787–2805.
Conti, M., Boldrini, C., Kanhere, S. S., Mingozzi, E., Pagani, E., Ruiz, P. M., and Younis, M. (2015). From manet to people-centric networking: Milestones and open research challenges. Computer Communications, 71:1–21.
Dasios, A., Gavalas, D., Pantziou, G., and Konstantopoulos, C. (2015). Hands-on Sensors, experiences in deploying cost-effective ambient-assisted living systems. 15(6):14487–14512.
de Castro Dutra, R. (2012). REDES AD HOC CENTRADAS EM INTERESSES PARA AMBIENTES MOVEIS. PhD thesis, Universidade Federal do Rio de Janeiro.
Del Campo, A., Gambi, E., Montanini, L., Perla, D., Raffaeli, L., and Spinsante, S. (2016). Mqtt in aal systems for home monitoring of people with dementia. In 2016 IEEE 27th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC), pages 1–6. IEEE.
Dutra, R. C., Moraes, H. F., and Amorim, C. L. (2012). Interest-centric mobile ad hoc networks. In Network Computing and Applications (NCA), 2012 11th IEEE Internati- onal Symposium on, pages 130–138. IEEE.
Fall, K. (2003). A delay-tolerant network architecture for challenged internets. In Proce- edings of the 2003 conference on Applications, technologies, architectures, and proto- cols for computer communications, pages 27–34. ACM.
Gonçalves, F. B., França, F. M., and de Amorim, C. L. (2016). Interest-centric vehicular ad hoc network. In 2016 IEEE 12th International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob), pages 1–10. IEEE.
Hudhajanto, R. P., Fahmi, N., Prayitno, E., et al. (2018). Real-time monitoring for envi- ronmental through wireless sensor network technology. In 2018 International Confe- rence on Applied Engineering (ICAE), pages 1–5. IEEE.
Jacobson, V., Smetters, D. K., Thornton, J. D., Plass, M. F., Briggs, N. H., and Braynard, In Proceedings of the 5th international R. L. (2009). Networking named content. conference on Emerging networking experiments and technologies, pages 1–12. ACM.
Kaur, N. and Mathur, G. (2016). Opportunistic networks: A review. IOSR Journal of Computer Engineering (IOSR-ICE), 18(2):20–26.
Koponen, T., Chawla, M., Chun, B.-G., Ermolinskiy, A., Kim, K. H., Shenker, S., and Stoica, I. (2007). A data-oriented (and beyond) network architecture. ACM SIGCOMM Computer Communication Review, 37(4):181–192.
Li, S., Zhang, Y., Raychaudhuri, D., and Ravindran, R. (2014). A comparative study of mobilityrst and ndn based icn-iot architectures. In 10th International Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness, pages 158–163. IEEE.
Montanini, L., Raffaeli, L., De Santis, A., Del Campo, A., Chiatti, C., Rascioni, G., Gambi, E., and Spinsante, S. (2016). Overnight supervision of alzheimer's disease patients in nursing homes: System development and eld trial. In 2nd International Conference on Information and Communication Technologies for Ageing Well and e- Health, ICT4AWE 2016, pages 15–25. SciTePress.
Othman, M. F. and Shazali, K. (2012). Wireless sensor network applications: A study in environment monitoring system. Procedia Engineering, 41:1204–1210.
Pelusi, L., Passarella, A., and Conti, M. (2006). Opportunistic networking: data forwar- IEEE communications Magazine, ding in disconnected mobile ad hoc networks. 44(11):134–141.
Salles, R. C. (2014). Avaliação de capacidade e consumo de energia de rede móvel ad hoc centrada em interesse. Master's thesis, Universidade Federal do Rio de Janeiro. https://www.cos.ufrj.br/index.php/pt-BR/publicacoes-pesquisa/details/15/2497.
Santos, B. P., Silva, L., Celes, C., Borges, J. B., Neto, B. S. P., Vieira, M. A. M., Vieira, L. F. M., Goussevskaia, O. N., and Loureiro, A. (2016). Internet das coisas: da teoria a prática. Minicursos SBRC-Simpósio Brasileiro de Redes de Computadores e Sistemas Distribudos.
Shkurti, L., Bajrami, X., Canhasi, E., Limani, B., Krrabaj, S., and Hulaj, A. (2017). Development of ambient environmental monitoring system through wireless sensor In 2017 6th Mediterranean network (wsn) using nodemcu and "wsn monitoring". Conference on Embedded Computing (MECO), pages 1–5. IEEE.
Subramaniyan, S., Johnson, W., and Subramaniyan, K. (2014). A distributed framework for detecting selsh nodes in manet using record-and trust-based detection (rtbd) tech- nique. EURASIP Journal on Wireless Communications and Networking, 2014(1):205.
Suo, H., Wan, J., Zou, C., and Liu, J. (2012). Security in the internet of things: a review. In 2012 international conference on computer science and electronics engineering, volume 3, pages 648–651. IEEE.
Trifunovic, S., Kouyoumdjieva, S. T., Distl, B., Pajevic, L., Karlsson, G., and Plattner, B. (2017). A decade of research in opportunistic networks: challenges, relevance, and future directions. IEEE Communications Magazine, 55(1):168–173.
Zanella, A., Bui, N., Castellani, A., Vangelista, L., and Zorzi, M. (2014). Internet of things for smart cities. IEEE Internet of Things journal, 1(1):22–32.
Amadeo, M., Campolo, C., Quevedo, J., Corujo, D., Molinaro, A., Iera, A., Aguiar, R. L., and Vasilakos, A. V. (2016). Information-centric networking for the internet of things: challenges and opportunities. IEEE Network, 30(2):92–100.
Amadeo, M. and Molinaro, A. (2011). Chanet: A content-centric architecture for ieee 802.11 manets. In 2011 International Conference on the Network of the Future, pages 122–127. IEEE.
Andrea, I., Chrysostomou, C., and Hadjichristo, G. (2015). Internet of things: Security vulnerabilities and challenges. In 2015 IEEE Symposium on Computers and Commu- nication (ISCC), pages 180–187. IEEE.
Atzori, L., Iera, A., and Morabito, G. (2010). The internet of things: A survey. Computer networks, 54(15):2787–2805.
Conti, M., Boldrini, C., Kanhere, S. S., Mingozzi, E., Pagani, E., Ruiz, P. M., and Younis, M. (2015). From manet to people-centric networking: Milestones and open research challenges. Computer Communications, 71:1–21.
Dasios, A., Gavalas, D., Pantziou, G., and Konstantopoulos, C. (2015). Hands-on Sensors, experiences in deploying cost-effective ambient-assisted living systems. 15(6):14487–14512.
de Castro Dutra, R. (2012). REDES AD HOC CENTRADAS EM INTERESSES PARA AMBIENTES MOVEIS. PhD thesis, Universidade Federal do Rio de Janeiro.
Del Campo, A., Gambi, E., Montanini, L., Perla, D., Raffaeli, L., and Spinsante, S. (2016). Mqtt in aal systems for home monitoring of people with dementia. In 2016 IEEE 27th Annual International Symposium on Personal, Indoor, and Mobile Radio Communications (PIMRC), pages 1–6. IEEE.
Dutra, R. C., Moraes, H. F., and Amorim, C. L. (2012). Interest-centric mobile ad hoc networks. In Network Computing and Applications (NCA), 2012 11th IEEE Internati- onal Symposium on, pages 130–138. IEEE.
Fall, K. (2003). A delay-tolerant network architecture for challenged internets. In Proce- edings of the 2003 conference on Applications, technologies, architectures, and proto- cols for computer communications, pages 27–34. ACM.
Gonçalves, F. B., França, F. M., and de Amorim, C. L. (2016). Interest-centric vehicular ad hoc network. In 2016 IEEE 12th International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob), pages 1–10. IEEE.
Hudhajanto, R. P., Fahmi, N., Prayitno, E., et al. (2018). Real-time monitoring for envi- ronmental through wireless sensor network technology. In 2018 International Confe- rence on Applied Engineering (ICAE), pages 1–5. IEEE.
Jacobson, V., Smetters, D. K., Thornton, J. D., Plass, M. F., Briggs, N. H., and Braynard, In Proceedings of the 5th international R. L. (2009). Networking named content. conference on Emerging networking experiments and technologies, pages 1–12. ACM.
Kaur, N. and Mathur, G. (2016). Opportunistic networks: A review. IOSR Journal of Computer Engineering (IOSR-ICE), 18(2):20–26.
Koponen, T., Chawla, M., Chun, B.-G., Ermolinskiy, A., Kim, K. H., Shenker, S., and Stoica, I. (2007). A data-oriented (and beyond) network architecture. ACM SIGCOMM Computer Communication Review, 37(4):181–192.
Li, S., Zhang, Y., Raychaudhuri, D., and Ravindran, R. (2014). A comparative study of mobilityrst and ndn based icn-iot architectures. In 10th International Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness, pages 158–163. IEEE.
Montanini, L., Raffaeli, L., De Santis, A., Del Campo, A., Chiatti, C., Rascioni, G., Gambi, E., and Spinsante, S. (2016). Overnight supervision of alzheimer's disease patients in nursing homes: System development and eld trial. In 2nd International Conference on Information and Communication Technologies for Ageing Well and e- Health, ICT4AWE 2016, pages 15–25. SciTePress.
Othman, M. F. and Shazali, K. (2012). Wireless sensor network applications: A study in environment monitoring system. Procedia Engineering, 41:1204–1210.
Pelusi, L., Passarella, A., and Conti, M. (2006). Opportunistic networking: data forwar- IEEE communications Magazine, ding in disconnected mobile ad hoc networks. 44(11):134–141.
Salles, R. C. (2014). Avaliação de capacidade e consumo de energia de rede móvel ad hoc centrada em interesse. Master's thesis, Universidade Federal do Rio de Janeiro. https://www.cos.ufrj.br/index.php/pt-BR/publicacoes-pesquisa/details/15/2497.
Santos, B. P., Silva, L., Celes, C., Borges, J. B., Neto, B. S. P., Vieira, M. A. M., Vieira, L. F. M., Goussevskaia, O. N., and Loureiro, A. (2016). Internet das coisas: da teoria a prática. Minicursos SBRC-Simpósio Brasileiro de Redes de Computadores e Sistemas Distribudos.
Shkurti, L., Bajrami, X., Canhasi, E., Limani, B., Krrabaj, S., and Hulaj, A. (2017). Development of ambient environmental monitoring system through wireless sensor In 2017 6th Mediterranean network (wsn) using nodemcu and "wsn monitoring". Conference on Embedded Computing (MECO), pages 1–5. IEEE.
Subramaniyan, S., Johnson, W., and Subramaniyan, K. (2014). A distributed framework for detecting selsh nodes in manet using record-and trust-based detection (rtbd) tech- nique. EURASIP Journal on Wireless Communications and Networking, 2014(1):205.
Suo, H., Wan, J., Zou, C., and Liu, J. (2012). Security in the internet of things: a review. In 2012 international conference on computer science and electronics engineering, volume 3, pages 648–651. IEEE.
Trifunovic, S., Kouyoumdjieva, S. T., Distl, B., Pajevic, L., Karlsson, G., and Plattner, B. (2017). A decade of research in opportunistic networks: challenges, relevance, and future directions. IEEE Communications Magazine, 55(1):168–173.
Zanella, A., Bui, N., Castellani, A., Vangelista, L., and Zorzi, M. (2014). Internet of things for smart cities. IEEE Internet of Things journal, 1(1):22–32.
Publicado
02/09/2019
Como Citar
DOS SANTOS, Lucas; NASCIMENTO, Paulo Roberto; MACHADO, Raphael; AMORIM, Claudio.
Desenvolvimento de uma aplicação segura de sensoriamento através de redes oportunísticas. In: WORKSHOP DE REGULAÇÃO, AVALIAÇÃO DA CONFORMIDADE E CERTIFICAÇÃO DE SEGURANÇA, 5. , 2019, São Paulo.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2019
.
p. 53-62.
DOI: https://doi.org/10.5753/wrac.2019.14037.