Abstract

"The object of this research is the interaction model between measuring transducers and computing systems, particularly focusing on its application within the framework of Industrial Internet of Things (IIoT) and Cloud technologies. The imperative driving this study is the increasing demand for precise and efficient data acquisition, protection and processing in various industrial sectors. The research aims to address this need by elucidating an interaction model that optimizes measuring computing systems through IIoT and Cloud technologies. As a result of our research, a comprehensive interaction model that encompasses the entire data flow process was established. This model integrates data acquisition, analytics, real-time communication protocols, and secure data transmission methodologies. It offers a structured framework for acquiring, transmitting, and analyzing data with high accuracy and efficiency. The significance of our results lies in their capacity to resolve critical challenges in data acquisition and processing of the electrical power data, as well as monitoring and protection against electrical faults. These results hold practical value under diverse industrial conditions, including manufacturing, energy production and energy distribution. Keywords: relay protection, open architecture, encryption, data processing, data visualization, internet of things "

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