IMPA: Novo algoritmo para atribuição de potência de forma adaptativa em SDM-EONs
Resumo
Neste trabalho investigamos o problema ampliado PRMCSA, no qual a potência é tratada como variável de decisão. Propomos o algoritmo IMPA (Impairment-Aware Margin Power Assignment) para atribuição adaptativa de potência em SDM-EONs. O IMPA seleciona a menor potência viável que satisfaz simultaneamente margens de OSNR e crosstalk, considerando também o impacto sobre circuitos vizinhos já estabelecidos. Avaliações nas topologias NSFNet e USA demonstram que o IMPA reduz significativamente a probabilidade de bloqueio em relação aos algoritmos clássicos e adaptativos da literatura, alcançando uma redução na probabilidade de bloqueio de bitrate de pelo menos 18% na topologia NSFNet e 46,5% na topologia USA.
Referências
Fontinele, A., Santos, I., Júnior, J. L., Soares, A., Cartaxo, A., and Campelo, D. (2020). Novo algoritmo para atribuição de potência por circuito em redes Ópticas elásticas. In Anais do XXXVIII Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, pages 561–574, Porto Alegre, RS, Brasil. SBC.
Habibi, M. and Beyranvand, H. (2019). Impairment-aware manycast routing, modulation level, and spectrum assignment in elastic optical networks. IEEE/OSA Journal of Optical Communications and Networking, 11(5):179–189.
Halder, J., Acharya, T., and Bhattacharya, U. (2022). A novel rsca scheme for offline survivable sdm-eon with advance reservation. IEEE Transactions on Network and Service Management, 19(2):804–817.
Hayashi, T., Taru, T., Shimakawa, O., Sasaki, T., and Sasaoka, E. (2011). Design and fabrication of ultra-low crosstalk and low-loss multi-core fiber. Optics Express, 19:16576–16592.
Jinno, M., Takara, H., Kozicki, B., Tsukishima, Y., Sone, Y., and Matsuoka, S. (2009). Spectrum-efficient and scalable elastic optical path network: architecture, benefits, and enabling technologies. IEEE Communications Magazine, 47(11):66–73.
Klinkowski, M. and Zalewski, G. (2019). Dynamic crosstalk-aware lightpath provisioning in spectrally-spatially flexible optical networks. IEEE/OSA Journal of Optical Communications and Networking, 11(5):213–225.
Lacerda-Jr, J., Fontinele, A., Santos, I., Leão, E., Campelo, D., Monteiro, J. A., and Soares, A. (2020). Algoritmo de balanceamento inter-núcleos para redes Ópticas elásticas com multiplexação por divisão espacial. In Anais do XXXVIII Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, Rio de Janeiro, RJ, Brasil.
Lacerda-Jr, J., Morais, A., Cartaxo, A., and Soares, A. (2024a). Um novo algoritmo para mitigar crosstalk e fragmentação em redes Ópticas elásticas multi-núcleos. In Anais do XLII Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, Niterói, RJ, Brasil.
Lacerda-Jr, J. C., Cartaxo, A. V., and Soares, A. C. (2024b). Novel dynamic impairment-aware algorithm for modulation, core, and spectrum assignment in SDM-EONs. Optical Switching and Networking, 51:100763.
Liu, H., Xiong, Q., and Chen, Y. (2020). Routing core and spectrum allocation algorithm for inter-core crosstalk and energy efficiency in space division multiplexing elastic optical networks. IEEE Access, 8:70453–70464.
Lobato, F. R., Jacob, A., Rodrigues, J., Cartaxo, A. V., and Costa, J. (2019). Inter-core crosstalk aware greedy algorithm for spectrum and core assignment in space division multiplexed elastic optical networks. Optical Switching and Networking, 33:61–73.
Oliveira, H. and Fonseca, N. (2019). Proteção e roteamento multicaminho em redes ópticas elásticas com multiplexação por divisão espacial. SBC, pages 487–500.
Palkopoulou, E., Bosco, G., Carena, A., Klonidis, D., Poggiolini, P., and Tomkos, I. (2013). Nyquist-WDM-based flexible optical networks: Exploring physical layer design parameters. IEEE/OSA Journal of Lightwave Technology, 31(14):2332–2339.
Poggiolini, P. and Jiang, Y. (2017). Recent advances in the modeling of the impact of nonlinear fiber propagation effects on uncompensated coherent transmission systems. Journal of Lightwave Technology, 35(3):458–480.
Tang, F., Shen, G., and Rouskas, G. N. (2021). Crosstalk-aware shared backup path protection in multi-core fiber elastic optical networks. J. Lightwave Technol., 39(10):3025–3036.
Tode, H. and Hirota, Y. (2017). Routing, spectrum, and core and/or mode assignment on space-division multiplexing optical networks [invited]. IEEE/OSA Journal of Optical Communications and Networking, 9(1):A99–A113.
Vale, V. and Almeida, R. (2019). Power, routing, modulation level and spectrum assignment in all-optical and elastic networks. Optical Switching and Networking, 32:14 – 24.
Vale, V., Almeida, R., and Assis, K. (2022). Network-state-dependent routing and route-dependent spectrum assignment for prmlsa problem in all-optical elastic networks. Optical Switching and Networking, 43:100646.
Yaghubi-Namaad, M., Rahbar, A. G., and Alizadeh, B. (2018). Adaptive modulation and flexible resource allocation in space-division-multiplexed elastic optical networks. IEEE/OSA Journal of Optical Communications and Networking, 10(3):240–251.
Habibi, M. and Beyranvand, H. (2019). Impairment-aware manycast routing, modulation level, and spectrum assignment in elastic optical networks. IEEE/OSA Journal of Optical Communications and Networking, 11(5):179–189.
Halder, J., Acharya, T., and Bhattacharya, U. (2022). A novel rsca scheme for offline survivable sdm-eon with advance reservation. IEEE Transactions on Network and Service Management, 19(2):804–817.
Hayashi, T., Taru, T., Shimakawa, O., Sasaki, T., and Sasaoka, E. (2011). Design and fabrication of ultra-low crosstalk and low-loss multi-core fiber. Optics Express, 19:16576–16592.
Jinno, M., Takara, H., Kozicki, B., Tsukishima, Y., Sone, Y., and Matsuoka, S. (2009). Spectrum-efficient and scalable elastic optical path network: architecture, benefits, and enabling technologies. IEEE Communications Magazine, 47(11):66–73.
Klinkowski, M. and Zalewski, G. (2019). Dynamic crosstalk-aware lightpath provisioning in spectrally-spatially flexible optical networks. IEEE/OSA Journal of Optical Communications and Networking, 11(5):213–225.
Lacerda-Jr, J., Fontinele, A., Santos, I., Leão, E., Campelo, D., Monteiro, J. A., and Soares, A. (2020). Algoritmo de balanceamento inter-núcleos para redes Ópticas elásticas com multiplexação por divisão espacial. In Anais do XXXVIII Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, Rio de Janeiro, RJ, Brasil.
Lacerda-Jr, J., Morais, A., Cartaxo, A., and Soares, A. (2024a). Um novo algoritmo para mitigar crosstalk e fragmentação em redes Ópticas elásticas multi-núcleos. In Anais do XLII Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos, Niterói, RJ, Brasil.
Lacerda-Jr, J. C., Cartaxo, A. V., and Soares, A. C. (2024b). Novel dynamic impairment-aware algorithm for modulation, core, and spectrum assignment in SDM-EONs. Optical Switching and Networking, 51:100763.
Liu, H., Xiong, Q., and Chen, Y. (2020). Routing core and spectrum allocation algorithm for inter-core crosstalk and energy efficiency in space division multiplexing elastic optical networks. IEEE Access, 8:70453–70464.
Lobato, F. R., Jacob, A., Rodrigues, J., Cartaxo, A. V., and Costa, J. (2019). Inter-core crosstalk aware greedy algorithm for spectrum and core assignment in space division multiplexed elastic optical networks. Optical Switching and Networking, 33:61–73.
Oliveira, H. and Fonseca, N. (2019). Proteção e roteamento multicaminho em redes ópticas elásticas com multiplexação por divisão espacial. SBC, pages 487–500.
Palkopoulou, E., Bosco, G., Carena, A., Klonidis, D., Poggiolini, P., and Tomkos, I. (2013). Nyquist-WDM-based flexible optical networks: Exploring physical layer design parameters. IEEE/OSA Journal of Lightwave Technology, 31(14):2332–2339.
Poggiolini, P. and Jiang, Y. (2017). Recent advances in the modeling of the impact of nonlinear fiber propagation effects on uncompensated coherent transmission systems. Journal of Lightwave Technology, 35(3):458–480.
Tang, F., Shen, G., and Rouskas, G. N. (2021). Crosstalk-aware shared backup path protection in multi-core fiber elastic optical networks. J. Lightwave Technol., 39(10):3025–3036.
Tode, H. and Hirota, Y. (2017). Routing, spectrum, and core and/or mode assignment on space-division multiplexing optical networks [invited]. IEEE/OSA Journal of Optical Communications and Networking, 9(1):A99–A113.
Vale, V. and Almeida, R. (2019). Power, routing, modulation level and spectrum assignment in all-optical and elastic networks. Optical Switching and Networking, 32:14 – 24.
Vale, V., Almeida, R., and Assis, K. (2022). Network-state-dependent routing and route-dependent spectrum assignment for prmlsa problem in all-optical elastic networks. Optical Switching and Networking, 43:100646.
Yaghubi-Namaad, M., Rahbar, A. G., and Alizadeh, B. (2018). Adaptive modulation and flexible resource allocation in space-division-multiplexed elastic optical networks. IEEE/OSA Journal of Optical Communications and Networking, 10(3):240–251.
Publicado
25/05/2026
Como Citar
FRANÇA, Jordana; MORI, Uriel P.; FONTINELE, Alexandre C.; SANTOS, Iallen; SOARES, André C. B..
IMPA: Novo algoritmo para atribuição de potência de forma adaptativa em SDM-EONs. In: SIMPÓSIO BRASILEIRO DE REDES DE COMPUTADORES E SISTEMAS DISTRIBUÍDOS (SBRC), 44. , 2026, Praia do Forte/BA.
Anais [...].
Porto Alegre: Sociedade Brasileira de Computação,
2026
.
p. 842-855.
ISSN 2177-9384.
DOI: https://doi.org/10.5753/sbrc.2026.19390.
