A cyber process control system based on pattern recognition and cloud computing

Gestão & Produção Pub Date : 1900-01-01 DOI:10.1590/1806-9649-2022v29e5221

Amr Mohamed Ali, S. Yacout, E. Rabeih, Y. Shaban

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Abstract

Abstract: This paper presents a novel simulation model of the Cyber Process Control System (CPCS) by combining pattern recognition and Cloud Computing (CC). This paper's originality arises from its aim to build a cloud computing platform for autonomous machines, and the exploration of manufacturing data to generate interpretable patterns to be used in process control decision making. The combining of Cloud technology and machine learning brings production to Industry 4.0. The proposed system is tested using data Carbon Fiber Reinforced Polymer (CFRP) routing process. The little information available about the manufacturing process of this type of material and the interaction between the production steps makes the manufacturing process quite difficult. This system generates interpretable rules of controllable operating parameters sent to the controller to keep the machining process within the limits of the specifications. The second step is activated during the drifting conditions in the machining step. Also, the simulation of the machining process is illustrated to generate the relations between input and output variables of the machining process. The findings of the corrective actions are illustrated and the interaction between the two industrial steps is simulated. Finally, current and future CPCS and CC applications in Industry 4.0 are discussed.

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基于模式识别和云计算的网络过程控制系统

摘要:本文提出了一种结合模式识别和云计算的网络过程控制系统(CPCS)仿真模型。本文的独创性在于其旨在为自主机器构建云计算平台，并探索制造数据以生成可解释的模式，用于过程控制决策。云技术和机器学习的结合将生产带入工业4.0。采用数据碳纤维增强聚合物(CFRP)布线工艺对该系统进行了测试。关于这种材料的制造过程和生产步骤之间的相互作用的信息很少，这使得制造过程相当困难。该系统生成可解释的可控制操作参数规则，发送给控制器，使加工过程保持在规范的范围内。第二步是在加工步骤的漂移条件下启动的。并对加工过程进行了仿真，得到了加工过程输入和输出变量之间的关系。说明了纠正措施的结果，并模拟了两个工业步骤之间的相互作用。最后，讨论了当前和未来的CPCS和CC在工业4.0中的应用。

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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Gestão & Produção

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