Routing and Allocation of Resources for Next Generation Internet
Keywords:
Elastic Optical Networks, Routing, Space Division MultiplexingAbstract
The current core of the network needs increments to provide a service of high capacity, performance, and reliability. To avoid network strain, the expansion of capacity can be provided by implementing Space-Division Elastic Optical networks. However, resource management on these networks is still an open issue. This paper summarizes the scientific initiation work's contributions, which proposes four routing algorithms and resource allocation for the new generation Internet. The proposed algorithms will allow routing and allocation in networks that will carry a much larger volume of traffic than those of current optical networks.
Downloads
References
Brasileiro, I., Costa, L., e Drummond, A. (2019). A survey on crosstalk and routing, modulation selection, core and spectrum allocation in elastic optical networks.
Moura, P. M. e Da Fonseca, N. L. S. (2018). Routing, core, modulation level, and spectrum assignment based on image processing algorithms. IEEE/OSA Journal of Optical Communications and Networking, 10(12):947–958.
Moura, P. M. e Drummond, A. C. FlexGridSim: Flexible Grid Optical Network Simulator. http://www.lrc.ic.unicamp.br/FlexGridSim/. 07/05/2021.
Oliveira, H. M. e da Fonseca, N. L. (2019). Routing, spectrum and core assignment algorithms for protection of space division multiplexing elastic optical networks. Journal of Network and Computer Applications, 128:78–89.
Rodrigues, E., Cerqueira, Eduardo adn Rosário, D., e Oliveira, H. (2020a). Hybrid routing, modulation, spectrum and core allocation based on mapping scheme. Sensors, 20(21):6393.
Rodrigues, E., Cerqueira, E., Rosário, D., e Oliveira, H. (2020b). Routing, modulation, spectrum and core allocation based on mapping scheme. In 2020 IEEE Symposium on Computers and Communications (ISCC), pages 1–6.
Rodrigues, E. e Oliveira, H. (2021a). Algorithm for routing, modulation, spectrum and core allocation based on fragmentation and crosstalk. In 2021 IEEE Global Communications Conference (GLOBECOM). SUBMETIDO.
Rodrigues, E. e Oliveira, H. (2021b). Roteamento e alocação de núcleo e espectro com ciência de fragmentação e crosstalk em sdm-eons. In Anais do XXXIV Simpósio Brasileiro de Redes de Computadores e Sistemas Distribuídos. SBC. SUBMETIDO.
Ujjwal, Thangaraj, J., e Rajnish kumar (2021). Multi-path provisioning in elastic optical network with dynamic on-request optimal defragmentation strategy. Optical Switching and Networking, 41:100607.
Wan, X., Hua, N., e Zheng, X. (2012). Dynamic routing and spectrum assignment in spectrum-flexible transparent optical networks. IEEE/OSA Journal of Optical Communications and Networking, 4(8):603–613.
Xiong, Y., Ye, Y., Zhang, H., He, J., Wang, B., e Yang, K. (2020). Deep learning and hierarchical graph-assisted crosstalk-aware fragmentation avoidance strategy in space division multiplexing elastic optical networks. Opt. Express, 28(3):2758–2777.
Yin, S., Zhang, Z., Chen, Y., Ma, R., e Huang, S. (2019). A survivable xt-aware multipath strategy for sdm-eons. In 2019 Asia Communications and Photonics Conference (ACP), pages 1–3.
Yousefi, F., Ghaffarpour Rahbar, A., e Ghadesi, A. (2020). Fragmentation and time aware algorithms in spectrum and spatial assignment for space division multiplexed elastic optical networks (sdm-eon). Computer Networks, 174:107232.
