Research on Fog Resource Scheduling based on Cloud-fog Collaboration Technology in the Electric Internet of Things

IF 0.5 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Youchan Zhu, Yingzi Wang, W. Liang
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引用次数: 2

Abstract

With the further development of the electric Internet of Things (eIoT), IoT devices in the distributed network generate data with different frequencies and types. Fog platform is located between the smart collected terminal and cloud platform, and the resources of fog computing are limited, which affects the delay of service processing time and response time. In this paper, an algorithm of fog resource scheduling and load balancing is proposed. First, the fog devices divide the tasks into high or low priority. Then, the fog management nodes cluster the fog nodes through the K-mean+ algorithm and implement the earliest deadline first dynamic (EDFD) task scheduling algorithm and De-REF neural network load balancing algorithm. We use tools to simulate the environment, and the results show that this method has strong advantages in -30% response time, -50% scheduling time, delay, -50% load balancing rate, and energy consumption, which provides a better guarantee for eIoT. Resource scheduling is an important factor affecting system performance. This article mainly addresses the needs of eIoT in terminal network communication delay, connection failure, and resource shortage. A new method of resource scheduling and load balancing is proposed. The evaluation was performed, and it proved that our proposed algorithm has better performance than the previous method, which brings new opportunities for the realization of eIoT.
基于云-雾协同技术的电气物联网雾资源调度研究
随着电力物联网(eIoT)的进一步发展,分布式网络中的物联网设备产生不同频率和类型的数据。雾平台位于智能采集终端和云平台之间,雾计算资源有限,影响了业务处理时间和响应时间的延迟。本文提出了一种雾资源调度和负载均衡算法。首先,雾装置将任务划分为高优先级或低优先级。然后,雾管理节点通过K-mean+算法对雾节点进行聚类,实现最早截止日期第一动态(EDFD)任务调度算法和De-REF神经网络负载均衡算法。利用工具对环境进行仿真,结果表明,该方法在-30%响应时间、-50%调度时间、延迟、-50%负载均衡率、能耗等方面具有较强的优势,为eIoT提供了较好的保障。资源调度是影响系统性能的重要因素。本文主要解决了eIoT在终端网络通信延迟、连接失败、资源短缺等方面的需求。提出了一种新的资源调度和负载均衡方法。结果表明,本文提出的算法具有更好的性能,为实现eIoT带来了新的机遇。
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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来源期刊
Advances in Electrical and Electronic Engineering
Advances in Electrical and Electronic Engineering ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
1.30
自引率
33.30%
发文量
30
审稿时长
25 weeks
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