International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395-0056 Volume: 11 Issue: 05 | May 2024
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p-ISSN: 2395-0072
IOT Based Industrial Parameters Monitoring and Control Atharv S Siddeshwarmath1, Girish Kammar V2, Omkar M K3, Prof.Vishwanath.M.Khadakbhavi4, Dr. Ashok M Hulagabali5, Dr.Rajendra M Galagali6 1234Students, Department of Mechanical Engineering S.G. Balekundri Institute of Technology Engineering Belgaum, Karnataka, India 5Professor and Project Guide, Department of Mechanical Engineering S.G. Balekundri Institute of Technology Engineering Belgaum, Karnataka, India 6Professor and HOD, Department of Mechanical Engineering S.G. Balekundri Institute of Technology Engineering Belgaum, Karnataka, India ---------------------------------------------------------------***-----------------------------------------------------------------Abstract- The integration of the Internet of Things (IoT) into industrial settings has revolutionized the monitoring and control of various parameters crucial for efficient operations. This paper presents a comprehensive IoT-based system designed to monitor and control industrial parameters such as temperature, humidity, pressure, and machinery status in real-time. Utilizing a network of sensors and microcontrollers connected through wireless communication protocols, the system collects and transmits data to a centralized cloud platform. Advanced data this is processed by machine learning and analytics algorithms. data, providing actionable insights and predictive maintenance alerts to prevent equipment failures and optimize performance.
1. Introduction
IoT-based industrial monitoring and control systems offer a revolutionary solution to these challenges by leveraging interconnected sensors, actuators, and advanced communication technologies. These systems enable real-time data collection, analysis, and response, facilitating proactive maintenance, enhanced operational efficiency, and reduced downtime. The integration of IoT with industrial processes not only ensures the seamless flow of information across different levels of operations but also empowers industries to implement predictive maintenance strategies, optimize resource utilization, and achieve higher levels of automation. This research paper explores the design, implementation, and impact of an IoT-based system for monitoring and controlling industrial parameters. By deploying a network of smart sensors and leveraging cloud computing and data analytics, the proposed system provides a comprehensive solution for real-time monitoring and management of industrial environments. The introduction of such a system is poised to address the limitations of conventional methods, providing a scalable, secure, and efficient approach to industrial automation.
The advent of the Internet of Things (IoT) has ushered in a new era of connectivity and intelligence, significantly transforming various sectors, including industrial operations. Industrial environments are characterized by complex processes that require precise monitoring and control of numerous parameters such as temperature, humidity, pressure, and machinery status.. Traditionally, these parameters have been monitored manually or through isolated automated systems, often resulting in inefficiencies, delayed responses to anomalies, and increased operational costs.
2. LITRETURE SERVEY
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The integration of IoT in industrial parameters monitoring and control has garnered significant attention in recent research, highlighting its potential to revolutionize traditional industrial processes. Several research papers have investigated different aspects of this technology,
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