Survivable and impairment-aware virtual topologies for reconfigurable optical networks: A cognitive approach

机译：可重构光网络的可生存和可感知损伤的虚拟拓扑：一种认知方法

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In this paper, we present a new version of a multiobjective genetic algorithm to design virtual topologies with the aim of reducing both the energy consumption and the network congestion. Moreover, we also propose an improved version of that algorithm, by including two cognitive techniques. Unlike the original version, the new proposals design survivable virtual topologies, as they provide shared path protection thus offering fault-tolerance capability with efficient resource utilization. Moreover, the proposed methods also take into account physical impairments in order to ensure that the survivable virtual topologies fulfill Quality of Transmission requirements in any scenario without failures or with a single cable failure. Finally, a simulation study demonstrates the advantages of the use of cognition.

机译：在本文中，我们提出了一种新版本的多目标遗传算法来设计虚拟拓扑，目的是减少能耗和网络拥塞。此外，我们还通过包含两种认知技术提出了该算法的改进版本。与原始版本不同，新提议设计了可生存的虚拟拓扑，因为它们提供了共享路径保护，从而提供了具有高效资源利用能力的容错能力。此外，所提出的方法还考虑了物理损伤，以确保可生存的虚拟拓扑在任何情况下都不会出现故障或单根电缆故障的情况下满足传输质量要求。最后，模拟研究证明了使用认知的优势。

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《International Congress on Ultra Modern Telecommunications and Control Systems;ICUMT;FOAN2012;Fiber Optics in Access Network;OPNTDS 2012;Optical Networking Technologies and Data Security;International Workshop on Reliable Networks Design and Modeling;RNDM'12;International Workshop on Mobile Computing and Networking Technologies;WMCNT-2012;International Workshop on Recent Advances in Broadbandccess Networks;RABAN 2012;International Workshop on Cyber Crime;IWCC 2012;International Workshop on Cognitive and Cooperative Wireless Communication Systems;CoCoS 2012;Workshop on Emerging Technologies and Devices in Signal Processing;IW-ETDSP 2012》|2012年|p.793-799|共7页
会议地点 St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);St. Petersburg(RU);
作者
Fernandez N.; Duran R. J.; de Miguel I.; Merayo N.; Aguado J. C.; Fernandez P.; Jimenez T.; Rodriguez I.; Sanchez D.; Lorenzo R. M.; Abril E. J.; Angelou M.; Tomkos I.;
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University of Valladolid ETSI de Telecomunicació;

n Paseo de Belé;

n 15 47011 Spain;

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Cognition; QoT requirements; failure protection; multiobjective genetic algorithm; power consumption; virtual topologies;

机译：认识; QoT要求；故障保护；多目标遗传算法能量消耗;虚拟拓扑;

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专利

1. A scalable approach for survivable virtual topology routing in optical WDM networks [J] . Todimala A., Ramamurthy B. IEEE Journal on Selected Areas in Communications . 2007,第期

机译：WDM网络中可生存的虚拟拓扑路由的可扩展方法
2. Impairment-aware optical network virtualization in single-line-rate and mixed-line-rate WDM networks [J] . Peng Shuping, Nejabati Reza, Simeonidou Dimitra Optical Communications and Networking, IEEE/OSA Journal of . 2013,第4期

机译：单线速率和混合线速率WDM网络中可感知损害的光网络虚拟化
3. (Non-)Reconfigurable Virtual Topology Design Under Multihour Traffic in Optical Networks [J] . Aparicio-Pardo R., Skorin-Kapov N., Pavon-Marino P., Networking, IEEE/ACM Transactions on . 2012,第5期

机译：光网络中多小时流量下的（非）可重配置虚拟拓扑设计
4. Survivable and impairment-aware virtual topologies for reconfigurable optical networks: A cognitive approach [C] . Fernandez N., Duran R. J., de Miguel I., International Congress on Ultra Modern Telecommunications and Control Systems;Optical Networking Technologies and Data Security;Fiber Optics in Access Network;International Workshop on Reliable Networks Design and Modeling;International Workshop on Mobile Computing and Networking Technologies;International Workshop on Cyber Crime;International Workshop on Recent Advances in Broadbandccess Networks;Workshop on Emerging Technologies and Devices in Signal Processing;International Workshop on Cognitive and Cooperative Wireless Communication Systems . 2012

机译：可生存和减值感知的虚拟拓扑，用于可重新配置光网络：一种认知方法
5. Statistical capacity sharing and virtualization in survivable elastic optical networks. [D] . Khandaker, Fahim Arefin. 2016

机译：可生存的弹性光网络中的统计容量共享和虚拟化。
6. Survivability-Enhanced Virtual Network Embedding Strategy in Virtualized Wireless Sensor Networks [O] . Dapeng Wu, Zhenli Liu, Zhigang Yang, 2021

机译：生存性 - 增强虚拟网络虚拟网络嵌入策略在虚拟化无线传感器网络中
7. A Scalable Approach for Survivable Virtual Topology Routing in Optical WDM Networks [O] . Todimala Ajay, Ramamurthy Byrav 2007

机译：光学WDm网络中可生存的虚拟拓扑路由的可扩展方法
8. Evaluating the Limits of Network Topology Inference Via Virtualized Network Emulation. [R] . Rye, E. C. 2015

机译：通过虚拟网络仿真评估网络拓扑推断的局限性。

Survivable and impairment-aware virtual topologies for reconfigurable optical networks: A cognitive approach

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