Nabusha Alice

Work place: Department of Electrical Engineering, Faculty of Engineering, Technology, Applied Design and Fine Art, Kabale University, Kabale, Uganda

E-mail: alicenabusha20@gmail.com

Website: https://orcid.org/0009-0000-0900-8808

Research Interests:

Biography

Nabusha Alice is a bachelor degree holder in Electrical Engineering from Kabale University, Uganda. Her interest and focus is in electronic systems, sensors and embedded systems.

Author Articles
Industrial Monitoring System with Real-time Alerts and Automated Protection Mechanisms

By Nabusha Alice Asiimwe Julius U. I. Bature Mugisha Simon Tusiime Meron

DOI: https://doi.org/10.5815/ijem.2025.02.05, Pub. Date: 8 Apr. 2025

This work presents the design and prototyping of an Industrial Monitoring and Protection System aimed at enhancing safety and operational efficiency in industrial environments. The system integrates multiple sensors with a GSM module to monitor and respond to critical environmental parameters, such as ambient light levels, temperature, and smoke detection. A Light Dependent Resistor (LDR) is configured to detect excessive lighting levels, interfacing with a microcontroller to activate the GSM module and send alert messages when thresholds are exceeded. The temperature sensor continuously monitors ambient temperature, and upon detecting overheating, the microcontroller triggers the GSM module to notify operators. Similarly, a smoke sensor detects the presence of harmful smoke and initiates an alert through the GSM module for early fire hazard detection. These sensors are connected to the microcontroller via analog and digital input pins, with their outputs processed to enable condition-based responses. A relay switch, controlled by the microcontroller, automatically disconnects connected loads when safety thresholds are breached, preventing equipment damage and ensuring personnel safety. Real-time sensor readings and system status are displayed on an OLED screen, providing operators with comprehensive, up-to-date information on the monitored environment. The system dynamically responds to environmental conditions by triggering alerts and actions based on customizable safety thresholds for light intensity, temperature, and smoke levels. This integrated architecture ensures seamless communication between sensors, the microcontroller, and the GSM module, delivering real-time monitoring, automated protective mechanisms, and early warning capabilities. The proposed system demonstrates the feasibility of affordable and scalable solutions for industrial safety, offering immediate responses to hazardous conditions while minimizing downtime. Furthermore, its adaptable design allows for customization across different industrial environments, making it suitable for a wide range of applications.

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