Towards addressing spectral scarcity and enhancing resource utilization in 5G networks, network slicing is a promising technology to establish end-to-end virtual networks without requiring additional infrastructure investments. By leveraging Software Defined Networks (SDN) and Network Function Virtualization (NFV), we can realize slices completely isolated and dedicated to satisfy the users' diverse Quality of Service (QoS) prerequisites and Service Level Agreements (SLAs). This paper focuses on the technical and economic challenges that emerge from the application of the network slicing architecture to real-world scenarios. We consider a market where multiple Network Providers (NPs) own the physical infrastructure and offer their resources to multiple Service Providers (SPs). Then, the SPs offer those resources as slices to their associated users. We propose a holistic iterative model for the network slicing market along with a clock auction that converges to a robust $\epsilon$-competitive equilibrium. At the end of each cycle of the market, the slices are reconfigured and the SPs aim to learn the private parameters of their users. Numerical results are provided that validate and evaluate the convergence of the clock auction and the capability of the proposed market architecture to express the incentives of the different entities of the system.
翻译:在5G网络中,网络切片是建立端到端的虚拟网络而不需要额外的基础设施投资的一个大有希望的技术,通过利用软件定义网络(SDN)和网络功能虚拟化(NFV),我们可以实现完全孤立的切片,专门满足用户不同的服务质量(QOS)先决条件和服务级协议(SLAs),本文件侧重于从将网络切片结构应用到现实世界情景中出现的技术和经济挑战。我们考虑的是多个网络提供者拥有有形基础设施并向多个服务提供者(SPs)提供资源的市场。然后,SPs将这些资源作为切片提供给其相关用户。我们提出了网络切片市场的整体迭接模式,同时提出一个与坚固的 $\ epsilon$ 竞争水平协议(SLAs) 相匹配的时钟拍卖。在市场周期结束时,切片被重新配置,SPs旨在了解用户的私人参数。提供了数字结果,以数字结果证实和评估了不同系统拍卖的架构的趋同能力。
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