Quantum-Assisted Joint Virtual Network Function Deployment and Maximum Flow Routing for Space Information Networks

IF 7.7 2区计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS IEEE Transactions on Mobile Computing Pub Date : 2024-09-24 DOI:10.1109/TMC.2024.3466857

Yu Zhang;Yanmin Gong;Lei Fan;Yu Wang;Zhu Han;Yuanxiong Guo

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Abstract

Network function virtualization (NFV)-enabled space information network (SIN) has emerged as a promising method to facilitate global coverage and seamless service. This paper proposes a novel NFV-enabled SIN to provide end-to-end communication and computation services for ground users. Based on the multi-functional time expanded graph (MF-TEG), we jointly optimize the user association, virtual network function (VNF) deployment, and flow routing strategy (U-VNF-R) to maximize the total processed data received by users. The original problem is a mixed-integer linear program (MILP) that is intractable for classical computers. Inspired by quantum computing techniques, we propose a hybrid quantum-classical Benders’ decomposition (HQCBD) algorithm. Specifically, we convert the master problem of the Benders’ decomposition into the quadratic unconstrained binary optimization (QUBO) model and solve it with quantum computers. To further accelerate the optimization, we also design a multi-cut strategy based on the quantum advantages in parallel computing. Numerical results demonstrate the effectiveness and efficiency of the proposed algorithm and U-VNF-R scheme.

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空间信息网络量子辅助联合虚拟网络功能部署与最大流量路由

基于网络功能虚拟化（NFV）的空间信息网络（SIN）已成为实现全球覆盖和无缝服务的一种有前景的方法。本文提出了一种新型的基于nfv的sins，为地面用户提供端到端的通信和计算服务。基于多功能时间展开图（MF-TEG），共同优化用户关联、虚拟网络功能（VNF）部署和流量路由策略（U-VNF-R），使用户接收的处理数据总量最大化。原始问题是一个经典计算机难以解决的混合整数线性规划（MILP）问题。受量子计算技术的启发，我们提出了一种混合量子-经典本德尔斯分解（HQCBD）算法。具体来说，我们将Benders分解的主问题转化为二次型无约束二进制优化（QUBO）模型，并用量子计算机进行求解。为了进一步加速优化，我们还设计了一种基于并行计算中的量子优势的多切策略。数值结果验证了该算法和U-VNF-R格式的有效性和高效性。

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来源期刊

IEEE Transactions on Mobile Computing 工程技术-电信学

CiteScore

12.90

自引率

2.50%

发文量

403

审稿时长

6.6 months

期刊介绍： IEEE Transactions on Mobile Computing addresses key technical issues related to various aspects of mobile computing. This includes (a) architectures, (b) support services, (c) algorithm/protocol design and analysis, (d) mobile environments, (e) mobile communication systems, (f) applications, and (g) emerging technologies. Topics of interest span a wide range, covering aspects like mobile networks and hosts, mobility management, multimedia, operating system support, power management, online and mobile environments, security, scalability, reliability, and emerging technologies such as wearable computers, body area networks, and wireless sensor networks. The journal serves as a comprehensive platform for advancements in mobile computing research.

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