Abstract

Abstract: The advent of advanced technologies has revolutionized the industrial landscape, providing new opportunities for enhancing efficiency and productivity. In this context, remote monitoring and controlling of electrical devices have emerged as a crucial aspect of industrial automation. This paper presents a comprehensive study on the design and implementation of a remote monitoring and controlling system for electrical devices in industry. By integrating sensor networks, wireless communication protocols, and cloud-based platforms, the system establishes a seamless connection between the devices and the centralized monitoring station. This allows operators and engineers to have constant access to vital data and control functionalities, regardless of their physical location. The key components of the system include intelligent sensors deployed in the industrial environment, a reliable wireless communication network for data transmission, and a cloud-based platform for data storage and analysis. The sensors collect various parameters such as voltage, current, temperature, and power consumption, providing a comprehensive overview of the electrical devices' operational status. The wireless network facilitates real-time data transmission to the cloud platform, where the data is securely stored and made available for analysis. The cloud-based platform not only offers data storage but also supports advanced analytics and visualization techniques. This enables operators to gain valuable insights into device performance, identify potential issues, and take proactive measures to optimize operations. Furthermore, the system provides remote control capabilities, allowing operators to adjust device settings, troubleshoot problems, and initiate maintenance actions, all through a user-friendly. The benefits of implementing this remote monitoring and controlling system are numerous. It enables predictive maintenance, reducing downtime and minimizing the risk of equipment failure. Real-time monitoring helps detect anomalies and abnormal behaviours, enabling timely interventions to prevent potential hazards. Additionally, remote access to device control enhances operational flexibility and reduces the need for on-site presence, leading to significant cost savings and improved overall efficiency.

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