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Physical Layer-Aware Routing, Spectrum, and Core Allocation in Spectrally-Spatially Flexible Optical Networks with Multicore Fibers

机译：具有多芯光纤的光谱空间灵活的光网络中的物理层感知路由，频谱和核心分配

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In this work, efficient routing, spectrum, and core allocation (RSCA) techniques are proposed for spatial division multiplexed (SDM) elastic optical networks (EONs) utilizing multicore fibers (MCFs). These techniques provide efficient resource utilization with minimal computational complexity, while also taking into consideration physical layer effects. Initially, a crosstalk- aware approach is presented that accounts for the crosstalk effects in the network that can have detrimental impact on the connections established in the network. This approach is subsequently enhanced with a feedback-based procedure that takes into account all physical layer impairments, aiming to minimize the number of connections that cannot be established in the network due to quality-of-transmission (QoT) considerations.

机译：在这项工作中，为利用多芯光纤（MCF）的空分复用（SDM）弹性光网络（EON）提出了有效的路由，频谱和核心分配（RSCA）技术。这些技术以最小的计算复杂度提供了有效的资源利用，同时还考虑了物理层的影响。最初，提出了一种了解串扰的方法，该方法考虑了网络中可能对网络中建立的连接产生不利影响的串扰效应。随后，该方法通过考虑所有物理层损害的基于反馈的过程进行了增强，旨在最小化由于传输质量（QoT）的考虑而无法在网络中建立的连接数。

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《IEEE International Conference on Communications》|2018年|1-6|共6页
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Giannis Savva; Georgios Ellinas; Behnam Shariati; Ioannis Tomkos;
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Crosstalk; Resource management; Routing; Multicore processing; Frequency modulation;

机译：串扰;资源管理;路由;多核处理;频率调制;

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专利

1. On-demand spectrum and core allocation for reducing crosstalk in multicore fibers in elastic optical networks [J] . Fujii Shohei, Hirota Yusuke, Tode Hideki, Optical Communications and Networking, IEEE/OSA Journal of . 2014,第12期

机译：按需频谱和纤芯分配，可减少弹性光网络中多纤芯光纤的串扰
2. Crosstalk-aware routing, spectrum, and core assignment in space-division multiplexing optical networks with multicore fibers [J] . Yao Qiuyan, Yang Hui, Xiao Hongyun, Optical engineering . 2017,第6期

机译：具有多芯光纤的空分复用光网络中的串扰感知路由，频谱和核心分配
3. Crosstalk-aware routing, spectrum, and core assignment in space-division multiplexing networks with bidirectional multicore fibers [J] . Yidong Chen, Shan Yin, Shijia Guo, Optical engineering . 2019,第11期

机译：具有双向多核光纤的空分复用网络中的串扰感知路由，频谱和核心分配
4. Physical Layer-Aware Routing, Spectrum, and Core Allocation in Spectrally-Spatially Flexible Optical Networks with Multicore Fibers [C] . Giannis Savva, Georgios Ellinas, Behnam Shariati, IEEE International Conference on Communications . 2018

机译：具有多芯纤维的光谱空间柔性光网络中的物理层感知路由，频谱和核心分配
5. Flexible Spectrum Resource Allocation in Elastic Optical Networks [D] . Fan, Zheyu. 2016

机译：弹性光网络中灵活的频谱资源分配
6. Discrimination of Temperature and Strain in Brillouin Optical Time Domain Analysis Using a Multicore Optical Fiber [O] . Mohamed A. S. Zaghloul, Mohan Wang, Giovanni Milione, 2018

机译：使用多芯光纤的布里渊光时域分析中温度和应变的区分
7. Network coding-based routing and spectrum allocation in elastic optical networks for enhanced physical layer security [O] . Giannis Savva, Konstantinos Manousakis, Georgios Ellinas 2020

机译：弹性光网络中的基于网络编码的路由和频谱分配，用于增强物理层安全性

Physical Layer-Aware Routing, Spectrum, and Core Allocation in Spectrally-Spatially Flexible Optical Networks with Multicore Fibers

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