Integrated IoT-based Smart Billing and LPG Gas Leakage Detection System for Energy Efficiency and Safety in Smart Living
Farhan Masud Foysal
Department of Electrical and Electronic Engineering, Faculty of Engineering, American International University – Bangladesh, Dhaka, Bangladesh.
Shuvra Mondal *
Department of Electrical and Electronic Engineering, Faculty of Engineering, American International University – Bangladesh, Dhaka, Bangladesh.
Tarifuzzaman Riyad
Department of Electrical and Electronic Engineering, Faculty of Engineering, American International University – Bangladesh, Dhaka, Bangladesh.
Shahin Sikder
Department of CSE, Independent University Bangladesh, Dhaka, Bangladesh.
Md Asikujjaman Rimon
Department of Physics, Cumilla University, Cumilla, Bangladesh.
Jahid Hasan
Department of Electrical and Electronic Engineering, Faculty of Engineering, American International University – Bangladesh, Dhaka, Bangladesh.
Md. Asif Amir
Department of Electrical and Electronic Engineering, Faculty of Engineering, American International University – Bangladesh, Dhaka, Bangladesh.
*Author to whom correspondence should be addressed.
Abstract
Smart resource management and safety systems are becoming essential in modern living by integrating seamlessly into everyday life, ensuring efficient energy use and proactive hazard detection. This research presents a Smart Billing Meter and LPG Gas Leakage Detection System, emphasizing cost-effectiveness while maintaining high performance, particularly for developing regions. The system offers real-time energy monitoring, dynamic billing, and remote load control, allowing users to optimize energy consumption and reduce costs effectively. The LPG gas detection module enhances safety by identifying hazardous gas levels and triggering automated responses, including exhaust fan activation and instant user alerts, ensuring timely intervention. A user-friendly interface ensures ease of interaction, while IoT integration delivers real-time data and notifications for enhanced transparency and control. The proposed system leverages advanced sensors and IoT technologies to combine energy efficiency with safety, providing a scalable and practical solution for residential and industrial applications. Beyond its technical features, this research explores the system's potential in energy conservation and hazard prevention, offering a forward-thinking approach to smart living. By aligning with global sustainability goals and addressing essential safety concerns, this system fosters a safer, more energy-efficient, and environmentally friendly future.
Keywords: Hazard, billing meter, LPG gas, monitoring, wireless sensors, GSM module, automated, low-cost