Protocolo de Transporte Colaborativo para Redes de Sensores sem Fio
Resumo
Este trabalho apresenta o CTCP, um novo protocolo de transporte para redes de sensores. Ele provê confiabilidade fim-a-fim e se adapta aos diferentes tipos de aplicação através do mecanismo de variação desta confiabilidade. Seu controle e detecção de congestionamento diferencia as perdas relativas a erro de transmissão daquelas relativas ao esgotamento de buffers. É chamado colaborativo já que todos os nós detectam e atuam sobre o congestionamento e em função da responsabilidade distribuída de armazenamento. É escalável e independe das camadas de rede subjacentes. Observou-se que a recuperação distribuída de falhas aumenta a confiabilidade e que a duplicação desta responsabilidade minimiza a possibilidade de perda definitiva de mensagens.Referências
Allman, M., Paxson, V., and Stevens, W. (1999). Tcp congestion control. RFC 2581 (Proposed Standard). Updated by RFC 3390.
C. Intanagonwiwat, RC. Govindan, D. E. (2000). Direct diffusion: A scalable and robust communication paradigm for sensor networks. In In Proceedings of the Sixth Annual ACM International Conference on Mobile Computing and Networking, pages 56–67.
Iyer, Y. G., Gandham, S., and Venkatesan, S. (2005). Stcp: A generic transport layer protocol for wireless sensor networks. In Proceedings of 14th International Conference on Computer Communications and Networks, pages 449–454, Houston, TX, USA.
Kim, S., Fonseca, R., Dutta, P., Tavakoli, A., Culler, D., Levis, P., Shenker, S., and Stoica, I. (2007). Flush: a reliable bulk transport protocol for multihop wireless networks. In SenSys ’07: Proceedings of the 5th international conference on Embedded networked sensor systems, pages 351–365, New York, NY, USA. ACM.
Milner, R. (1980). A Calculus of Communicating Systems. Springer Verlag.
Nielsen, M., Plotkin, G., , and Winskel, G. (1981). Petri Nets, Event Structures and Domains, Part I, Vol. 13. Theoretical Computer Science.
Sankarasubramaniam, Y., Akan, O., and Akyildiz, I. (2003). Esrt: Event-to-sink reliable transport in wireless sensor networks. In In Proceedings of MobiHoc 03, ACM, Annapolis, Maryland, USA.
Stann, F. and Heidemann, J. (2003). Rmst: Reliable data transport in sensor networks. In Proceedings of the First International Workshop on Sensor Net Protocols and Applications, pages 102–112, Anchorage, Alaska, USA.
Vassis, D., Kormentzas, G., Rouskas, A. N., and Maglogiannis, I. (2005). The ieee 802.11g standard fo high data rate wlans. IEEE Network, 19(3):21–26.
Wan, C.-Y., Campbell, A. T., and Krishnamurthy, L. (2005). Pump-slowly, fetch-quickly (psfq): A reliable transport protocol for sensor networks. In IEEE Journal on Selected Areas in Communications, Vol. 23, No. 4, pages 862–872, Atlanta, Georgia, USA.
C. Intanagonwiwat, RC. Govindan, D. E. (2000). Direct diffusion: A scalable and robust communication paradigm for sensor networks. In In Proceedings of the Sixth Annual ACM International Conference on Mobile Computing and Networking, pages 56–67.
Iyer, Y. G., Gandham, S., and Venkatesan, S. (2005). Stcp: A generic transport layer protocol for wireless sensor networks. In Proceedings of 14th International Conference on Computer Communications and Networks, pages 449–454, Houston, TX, USA.
Kim, S., Fonseca, R., Dutta, P., Tavakoli, A., Culler, D., Levis, P., Shenker, S., and Stoica, I. (2007). Flush: a reliable bulk transport protocol for multihop wireless networks. In SenSys ’07: Proceedings of the 5th international conference on Embedded networked sensor systems, pages 351–365, New York, NY, USA. ACM.
Milner, R. (1980). A Calculus of Communicating Systems. Springer Verlag.
Nielsen, M., Plotkin, G., , and Winskel, G. (1981). Petri Nets, Event Structures and Domains, Part I, Vol. 13. Theoretical Computer Science.
Sankarasubramaniam, Y., Akan, O., and Akyildiz, I. (2003). Esrt: Event-to-sink reliable transport in wireless sensor networks. In In Proceedings of MobiHoc 03, ACM, Annapolis, Maryland, USA.
Stann, F. and Heidemann, J. (2003). Rmst: Reliable data transport in sensor networks. In Proceedings of the First International Workshop on Sensor Net Protocols and Applications, pages 102–112, Anchorage, Alaska, USA.
Vassis, D., Kormentzas, G., Rouskas, A. N., and Maglogiannis, I. (2005). The ieee 802.11g standard fo high data rate wlans. IEEE Network, 19(3):21–26.
Wan, C.-Y., Campbell, A. T., and Krishnamurthy, L. (2005). Pump-slowly, fetch-quickly (psfq): A reliable transport protocol for sensor networks. In IEEE Journal on Selected Areas in Communications, Vol. 23, No. 4, pages 862–872, Atlanta, Georgia, USA.
Publicado
27/05/2008
Como Citar
GIANCOLI, Eugênia; JABOUR, Filippe C.; PEDROZA, Aloysio de Castro Pinto.
Protocolo de Transporte Colaborativo para Redes de Sensores sem Fio. In: WORKSHOP DE TESTES E TOLERÂNCIA A FALHAS (WTF), 9. , 2008, Rio de Janeiro/RJ.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2008
.
p. 142-155.
ISSN 2595-2684.
DOI: https://doi.org/10.5753/wtf.2008.23152.
