基于关联网络切片的物联网驱动的物联网系统资源预订

IF 9.9 1区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Industrial Informatics Pub Date : 2024-12-16 DOI:10.1109/TII.2024.3475423

Xiaojing Wen;Cailian Chen;Xinping Guan;Cheng Ren;Yehan Ma;Xuemin Shen

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引用次数: 0

摘要

通过整合来自不同设备的数据来提高监测精度，联合估计在工业物联网（IIoT）中至关重要。网络切片可以通过逻辑隔离来满足设备的异构需求。然而，现有的方法往往忽略了多个切片对估计性能的相互作用，从而导致潜在的估计偏差和无效的资源成本。为了解决这个问题，我们提出了一种针对联合估计场景定制的任务时代（AoT）驱动的关联网络切片方法。具体来说，我们为联合估计设计了一个面向关联的切片架构，该架构既考虑了单个切片的异构需求，也考虑了多个切片的交互效应。我们在AoT的基础上定义了切片关联，量化了切片策略与估计性能之间的耦合关系。此外，我们开发了一种动态适应度多变量粒子群优化算法来实现关联切片。仿真结果表明，相关的切片方案在时效性和准确性之间实现了灵活的平衡。

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AoT-Driven Resource Reservation Based on Associated Network Slice for IIoT Systems

Joint estimation is crucial in the industrial Internet of Things (IIoT) by integrating data from diverse devices to improve monitoring accuracy. Network slicing can meet the heterogeneous needs of devices through logical isolation. However, existing methods often overlook the interaction of multiple slices on estimation performance, leading to potential estimation bias and ineffective resource costs. To address this, we propose an Age of Task (AoT)-driven associated network slicing method tailored for joint estimation scenarios. Specifically, we design an association-oriented slicing architecture for joint estimation that considers both the heterogeneous requirements of individual slices and the interactive effects of multiple slices. We define slice association based on the AoT to quantify the coupling relationship between slicing strategies and estimated performances. Moreover, we develop a dynamic-fitness multivariable particle swarm optimization algorithm to achieve associated slicing. Simulation results show that the associated slicing scheme achieves a flexible balance between timeliness and accuracy.

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来源期刊

IEEE Transactions on Industrial Informatics 工程技术-工程：工业

CiteScore

24.10

自引率

8.90%

发文量

1202

审稿时长

5.1 months

期刊介绍： The IEEE Transactions on Industrial Informatics is a multidisciplinary journal dedicated to publishing technical papers that connect theory with practical applications of informatics in industrial settings. It focuses on the utilization of information in intelligent, distributed, and agile industrial automation and control systems. The scope includes topics such as knowledge-based and AI-enhanced automation, intelligent computer control systems, flexible and collaborative manufacturing, industrial informatics in software-defined vehicles and robotics, computer vision, industrial cyber-physical and industrial IoT systems, real-time and networked embedded systems, security in industrial processes, industrial communications, systems interoperability, and human-machine interaction.