A biological approach to physical topology design for plasticity in optical networks

Inoue Koki; Arakawa Shinichi; Murata Masayuki

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A biological approach to physical topology design for plasticity in optical networks

机译：一种物理拓扑设计的生物方法，可实现光网络的可塑性

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摘要

We previously proposed a virtual network topology (VNT) control method that is adaptive to traffic changes. However, the performance of VNTs is fundamentally determined by the physical infrastructure, and the physical network therefore needs to be designed so that it is capable of utilizing the adaptiveness of the VNT control method. In this paper, we propose a design method for optical networks, e.g., wavelength division multiplexing (WDM) networks. This method is based on a biological evolution model and provides adaptability under various patterns of traffic fluctuation and traffic growth. Our method determines the set of nodes to which transceivers should be added in order to give plasticity to the designed network, where plasticity represents changeability of VNT against environmental variation. Evaluation results show that our method accommodates more patterns of traffic fluctuation with lower link utilization than ad-hoc design methods do.

机译：我们之前提出了一种虚拟网络拓扑（VNT）控制方法，该方法可适应流量变化。但是，VNT的性能从根本上取决于物理基础结构，因此需要设计物理网络，使其能够利用VNT控制方法的自适应性。在本文中，我们提出了一种用于光网络的设计方法，例如波分复用（WDM）网络。该方法基于生物演化模型，并在各种交通波动和交通增长模式下提供适应性。我们的方法确定了应添加收发器的节点集，以使设计的网络具有可塑性，其中可塑性表示VNT随环境变化的可变性。评估结果表明，与临时设计方法相比，我们的方法可以以较低的链路利用率适应更多的流量波动模式。

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来源
《Optical Switching and Networking 》 |2017年第7期| 124-132| 共9页
作者
Inoue Koki; Arakawa Shinichi; Murata Masayuki;
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作者单位

Osaka Univ, Grad Sch Informat Sci & Technol, 1-5 Yamadaoka, Suita, Osaka 5650871, Japan;

Osaka Univ, Grad Sch Informat Sci & Technol, 1-5 Yamadaoka, Suita, Osaka 5650871, Japan;

Osaka Univ, Grad Sch Informat Sci & Technol, 1-5 Yamadaoka, Suita, Osaka 5650871, Japan;

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原文格式 PDF
正文语种 eng
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关键词
Wavelength Division Multiplexing (WDM); Optical network design; VNT control based on attractor selection; Physical topology design; Plasticity;

机译：波分复用（WDM）;光网络设计;基于吸引子选择的VNT控制;物理拓扑设计;可塑性;

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专利

1. Multi-layer Virtual Topology Design in Optical Networks Under Physical Layer Impairments and Multi-hour Traffic Demand [J] . Sengezer N., Karasan E. Optical Communications and Networking, IEEE/OSA Journal of . 2012 ,第2期

机译：物理层故障和多小时流量需求下光网络中的多层虚拟拓扑设计
2. Physical topology design for all-optical networks [J] . Huan Liu, Fouad A. Tobagi Optical Switching and Networking . 2008 ,第4期

机译：全光网络的物理拓扑设计
3. On the physical and logical topology design of large-scale optical networks [J] . Yufeng Xin, Rouskas G.N., Perros H.G. Journal of Lightwave Technology . 2003 ,第4期

机译：大型光网络的物理和逻辑拓扑设计
4. Manyobjective Optimization to Design Physical Topology of Optical Networks with Undefined Node Locations [C] . Jorge C. Nascimento, Danilo R.B. Araujo, Carmelo J.A. Bastos-Filho, IEEE Congress on Evolutionary Computation . 2018

机译：具有未定义节点位置的光网络物理拓扑设计的多目标优化
5. A software framework for efficient restoration incorporating physical and virtual topology dependencies in WDM optical networks. [D] . Tak, Sung Woo. 2003

机译：用于在WDM光网络中合并物理和虚拟拓扑依赖性的高效恢复的软件框架。
6. Network topology and parameter estimation: from experimental design methods to gene regulatory network kinetics using a community based approach [O] . Pablo Meyer, Thomas Cokelaer, Deepak Chandran, 2014

机译：网络拓扑和参数估计：使用基于社区的方法从实验设计方法到基因调控网络动力学
7. Multi-layer virtual topology design in optical networks under physical layer impairments and multi-hour traffic demand [O] . Sengezer, N., Karasan, E. 2012

机译：物理层损伤和多小时流量需求下光网络中的多层虚拟拓扑设计

A biological approach to physical topology design for plasticity in optical networks

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