多层传输切片的传输 SDN 架构

IF 4 2区 计算机科学 Q1 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Pablo Armingol Robles;Oscar Gonzalez de Dios;Juan Pedro Fernandez-Palacios Gimenez;Luis M. Contreras;Liesbeth Roelens;Alejandro Muniz Da Costa;Javier Velazquez Martinez;David De La Osa Mostazo
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引用次数: 0

摘要

通过在可管理网络基础设施中实现动态资源分配和定制分区,拟议的架构推进了网络切片的概念,这对超越 5G 服务至关重要。该架构解决了在不同网络域中提供端到端(E2E)切片的难题,而技术异构性和供应商解决方案的多样性使这一难题变得更加复杂。通过引入标准化的传输网络解决方案,我们确保了无缝集成、服务请求的公平处理以及满足不同需求的能力。该架构以多层传输网络切片架构为核心,可将传输网络划分为虚拟自治网段,每个网段都为特定服务或应用量身定制。这种划分对于提供差异化和个性化的 5G 服务、优化网络性能和最大化资源应用至关重要。该架构的一个关键组成部分是传输分片控制器(TSC),它控制着传输分片的提供和生命周期管理,确保业界采用标准化方法来定义和实现分片。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transport SDN architecture for multi-layer transport slicing
The proposed architecture advances the concept of network slicing, crucial for beyond 5G services, by enabling dynamic resource allocation and customized partitioning in managed network infrastructures. This architecture addresses the challenges of provisioning end-to-end (E2E) slices across diverse network domains, which is complicated by technological heterogeneity and the variety of vendor solutions. By introducing a standardized transport network solution, we ensure seamless integration, equitable treatment of service requests, and the ability to meet diverse demands. The architecture is centered around a multi-layer transport network slicing architecture, which allows for the division of transport networks into virtual autonomous segments, each tailored for specific services or applications. This segmentation is essential for providing differentiated and personalized 5G services, optimizing network performance, and maximizing resource application. A key component of this architecture is the transport slice controller (TSC), which controls the provision and life-cycle management of transport slices, ensuring a standardized approach in the industry for the definition and realization of slices.
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来源期刊
CiteScore
9.40
自引率
16.00%
发文量
104
审稿时长
4 months
期刊介绍: The scope of the Journal includes advances in the state-of-the-art of optical networking science, technology, and engineering. Both theoretical contributions (including new techniques, concepts, analyses, and economic studies) and practical contributions (including optical networking experiments, prototypes, and new applications) are encouraged. Subareas of interest include the architecture and design of optical networks, optical network survivability and security, software-defined optical networking, elastic optical networks, data and control plane advances, network management related innovation, and optical access networks. Enabling technologies and their applications are suitable topics only if the results are shown to directly impact optical networking beyond simple point-to-point networks.
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