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On energy efficient survivable multipath based approaches in Space Division Multiplexing Elastic Optical Network: Crosstalk-aware and Fragmentation-aware
In this paper, we have proposed two energy-efficient heuristics: (i) CMDE-RSCA (crosstalk-aware), and (ii) FMDE-RSCA (fragmentation-aware) to address the issues of inter-core crosstalk, and fragmentation within the core respectively- to ensure quality transmission of the optical signal for dynamic t...
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| Published in: | IEEE access 2020-01, Vol.8, p.1-1 |
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| creator | Paira, Smita Halder, Joy Chatterjee, Monish Bhattacharya, Uma |
| description | In this paper, we have proposed two energy-efficient heuristics: (i) CMDE-RSCA (crosstalk-aware), and (ii) FMDE-RSCA (fragmentation-aware) to address the issues of inter-core crosstalk, and fragmentation within the core respectively- to ensure quality transmission of the optical signal for dynamic traffic in space division multiplexing elastic optical network (SDM-EON), while maintaining survivability of the network against single link failure. These heuristics based on multipath based survivability are compared with three existing survivable approaches based on p-cycles and shared path in terms of bandwidth blocking, energy consumption, crosstalk, and fragmentation. Both these algorithms outperform all three existing heuristics in terms of all parameters. In between CMDE-RSCA and FMDE-RSCA, CMDE-RSCA leads to consume lesser energy, whereas FMDE-RSCA produces lesser bandwidth blocking. |
| doi_str_mv | 10.1109/ACCESS.2020.2979487 |
| format | article |
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These heuristics based on multipath based survivability are compared with three existing survivable approaches based on p-cycles and shared path in terms of bandwidth blocking, energy consumption, crosstalk, and fragmentation. Both these algorithms outperform all three existing heuristics in terms of all parameters. 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These heuristics based on multipath based survivability are compared with three existing survivable approaches based on p-cycles and shared path in terms of bandwidth blocking, energy consumption, crosstalk, and fragmentation. Both these algorithms outperform all three existing heuristics in terms of all parameters. 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| subjects | Algorithms Bandwidth Bandwidths Cross-talk Crosstalk Energy consumption Fragmentation Heuristic Multicore processing Multipath based survivability Multiplexing Optical communication Optical fiber networks Resource management Routing SDM-EON Spectral fragmentation Survivability |
| title | On energy efficient survivable multipath based approaches in Space Division Multiplexing Elastic Optical Network: Crosstalk-aware and Fragmentation-aware |
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