基于NFV的物联网系统弹性业务协调快速优化资源分配

2022 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2022-10-20 DOI:10.1109/ATC55345.2022.9943001

Tuan-Minh Pham, T. Nguyen, Xuan-Tuan-Trung Nguyen, Hoai-Nam Chu, Ngô Hồng Sơn

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引用次数: 0

摘要

网络功能虚拟化(NFV)是利用物联网(IoT)系统提供实时和高度灵活的服务创建的一种新方式。在支持nfv的物联网系统中，可以将多个以虚拟网络功能(Virtual Network functions)形式实现的物联网功能链接成一个业务功能链，快速构建定制化的物联网服务。对于物联网服务来说，能够从故障中恢复非常重要。然而，由于分布式VNF实例的协调，在NIoT系统中提供弹性物联网服务具有挑战性。本文将NIoT系统中的弹性服务协调问题表述为一个混合整数线性规划模型，即RSOd。该模型提供了最佳的资源分配，以便在NIoT系统的节点发生故障时最大限度地减少服务中断。我们还为物联网提供商所需的不同用例开发了两个修改版本的RSOd。评价结果表明，RSOd及其改进版本与以前的工作相比，在显著缩短的时间内实现了最优资源分配。结果表明，物联网提供商应该仔细选择适当的资源分配策略，因为它必须支付资源成本以尽量减少服务中断。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fast Optimal Resource Allocation for Resilient Service Coordination in an NFV- Enabled Internet-of- Things System

Network Functions Virtualization (NFV) is a new way of leveraging an Internet-of-Things (IoT) system to provide real-time and highly flexible service creation. In an NFV-enabled Internet-of-Things (NIoT) system, several IoT functions implemented as Virtual Network Functions can be linked as a service function chain to build a customized IoT service quickly. It is important for an IoT service to be able to recover from a failure. However, the supply of a resilient IoT service in an NIoT system is challenging due to the coordination of distributed VNF instances. In this paper, we formulate the problem of resilient service coordination in an NIoT system as a mixed integer linear programming model, namely RSOd. The model offers the optimal resource allocation for minimizing service disruption when a failure happens at a node of an NIoT system. We also develop two modified versions of RSOd for different use cases required by an IoT provider. The evaluation results show that RSOd and its modified versions produce the optimal resource allocation in significantly reduced time compared to previous work. The results suggest that an IoT provider should carefully select an appropriate resource allocation strategy as it has to pay a resource cost to minimize the service disruption.

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2022 International Conference on Advanced Technologies for Communications (ATC)

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