Data-centric Networking with Parallel and Distributed Architecture Performs Performance Analysis to Protect Critical Infrastructure in the Future Power System Network Based on IoT

IF 0.5 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Parallel Processing Letters Pub Date : 2023-04-17 DOI:10.1142/s0129626423400054

Linjiang Xie, Feilu Hang, W. Guo, Zhenhong Zhang, Hanruo Li

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引用次数: 0

Abstract

Modern information and communication technologies are being incorporated into traditional power grid systems to create the smart grid of the real world. The newly provided information flow and intrinsic creation, transport, storage, and the use of electricity are all facilitated by the energy transfer, especially as the complete deployment of the Internet of Things in the power grid, also known as the power Internet of Things (PIoT). These new 5G technologies and the value generated by novel services and market processes can all be used to maximize the value of scarce resources like energy. This paper develops a framework for a cyber-physical power system based on IoT (CPPS-IoT). Automobiles, aircraft, defense, factory equipment, wellness equipment, industrial control, connected cars, and other sectors and industries are all benefiting from the fast growth of CPS technology. A smart electric grid is created when dispersed sources of energy and electrical infrastructure are linked together to provide global exchange of information, sensible decision, including true flexible control using the CPPS. Cyber-physical systems have great benefits because they combine IoT with physical processes and mediate how humans interact with the natural environment. Cyber-physical systems use sensor networks and embedded computers to keep tabs on and manipulate the physical world around them. They include built-in feedback loops that enable the environment to trigger their communication, control, or processing. The proposed method makes systems safer and more efficient, decreasing the cost of developing and running these systems. The accuracy is 89%, and the proposed method’s error rate is 48%.

查看原文本刊更多论文

基于物联网的未来电力系统网络中以数据为中心的并行和分布式架构网络进行性能分析，以保护关键基础设施

现代信息和通信技术正被纳入传统电网系统，以创建现实世界的智能电网。新提供的信息流和内在的创造、运输、储存和电力使用都是由能源转移促进的，特别是随着物联网在电网中的全面部署，也被称为电力物联网（PIoT）。这些新的5G技术以及新服务和市场流程产生的价值都可以用来最大限度地提高能源等稀缺资源的价值。本文开发了一个基于物联网的网络物理电力系统框架（CPPS-IoT）。汽车、飞机、国防、工厂设备、健康设备、工业控制、联网汽车和其他行业都受益于CPS技术的快速增长。当分散的能源和电力基础设施连接在一起，提供全球信息交换、明智的决策，包括使用CPPS的真正灵活控制时，就会创建智能电网。网络物理系统具有巨大的好处，因为它们将物联网与物理过程相结合，并调解人类如何与自然环境互动。网络物理系统使用传感器网络和嵌入式计算机来监视和操纵周围的物理世界。它们包括内置的反馈回路，使环境能够触发它们的通信、控制或处理。所提出的方法使系统更安全、更高效，降低了开发和运行这些系统的成本。该方法的准确率为89%，误差率为48%。

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

Parallel Processing Letters COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-

CiteScore

0.90

自引率

25.00%

发文量

期刊介绍： Parallel Processing Letters (PPL) aims to rapidly disseminate results on a worldwide basis in the field of parallel processing in the form of short papers. It fills the need for an information vehicle which can convey recent achievements and further the exchange of scientific information in the field. This journal has a wide scope and topics covered included: - design and analysis of parallel and distributed algorithms - theory of parallel computation - parallel programming languages - parallel programming environments - parallel architectures and VLSI circuits