在基于 NFV 的 5G 核心网络中嵌入利润最大化的服务功能链

IF 6.7 2区 计算机科学 Q1 ENGINEERING, MULTIDISCIPLINARY IEEE Transactions on Network Science and Engineering Pub Date : 2024-09-12 DOI:10.1109/TNSE.2024.3454759
Zhenke Chen;He Li;Kaoru Ota;Mianxiong Dong
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引用次数: 0

摘要

网络功能虚拟化(NFV)是一项前景广阔的技术,可使 5G 网络更加灵活、更具成本效益。通过 NFV,5G 网络服务将以多个虚拟网络功能(VNF)的形式实现,这些虚拟网络功能在一般机器上运行,称为服务功能链(SFC)。最近的一项调查显示,当多个 VNF 位于同一台机器上时,就会发生共享物理资源的竞争,从而降低 VNF 的吞吐量,最终使其处理延迟比单独运行时增加 50%。然而,之前的工作未能捕捉到这一重要特征,因为它们只是将机器视为一个资源池,而没有发生任何资源争用,因此当考虑到资源争用时,它们的方法不适用于 SFC 嵌入问题。为了弥补这一差距,我们在本文中研究了竞争感知的 QoS 保证 SFC 嵌入问题,并在几个约束条件下将其表述为整数非线性编程 (INLP)。鉴于所提出的问题因复杂度高而难以解决,我们提出了一种低复杂度方法,它能在合理的时间内获得接近最优的结果。数值结果表明,与其他最先进的方法相比,所提出的方法在利润、延迟和执行时间方面都有优势。
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Profit-Maximizing Service Function Chain Embedding in NFV-Based 5G Core Networks
Network Function Virtualization (NFV) is a promising technology to make 5G networks more flexible and cost-efficient. With NFV, a 5G network service is implemented as several Virtual Network Functions (VNFs) that run on general machines, called a Service Function Chain (SFC). A recent survey has revealed that when multiple VNFs are colocated in the same machine, contention for shared physical resources will occur and hence degrade the throughput of a VNF and finally increase its processing delays by 50%, as compared to it runs in isolation. However, prior works fail to capture this important characteristic because they simply treat machines as a resource pool without any resource contention happening, making their approach inapplicable to the SFC embedding problem when resource contention is taken into consideration. To bridge that gap, in this paper, we study a contention-aware QoS-guaranteed SFC embedding problem and formulate it as an Integer Non-Linear Programming (INLP) under a couple of constraints. Given the formulated problem is challenging to solve due to high complexity, we propose a low-complexity approach, which can achieve a near-optimal result in a reasonable time. Numerical results reveal that the proposed approach has advantages in profit, delay, and execution time compared with other state-of-the-art approaches.
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来源期刊
IEEE Transactions on Network Science and Engineering
IEEE Transactions on Network Science and Engineering Engineering-Control and Systems Engineering
CiteScore
12.60
自引率
9.10%
发文量
393
期刊介绍: The proposed journal, called the IEEE Transactions on Network Science and Engineering (TNSE), is committed to timely publishing of peer-reviewed technical articles that deal with the theory and applications of network science and the interconnections among the elements in a system that form a network. In particular, the IEEE Transactions on Network Science and Engineering publishes articles on understanding, prediction, and control of structures and behaviors of networks at the fundamental level. The types of networks covered include physical or engineered networks, information networks, biological networks, semantic networks, economic networks, social networks, and ecological networks. Aimed at discovering common principles that govern network structures, network functionalities and behaviors of networks, the journal seeks articles on understanding, prediction, and control of structures and behaviors of networks. Another trans-disciplinary focus of the IEEE Transactions on Network Science and Engineering is the interactions between and co-evolution of different genres of networks.
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