Abstract:
This report introduces a novel Waste Management System designed to revolutionize waste collection and management practices. The system integrates advanced sensor technology, including the MQ-135 gas sensor, ultrasonic sensor, GSM module, LED display, and LCD screen, all controlled by the Arduino Uno microcontroller.
The Waste Management System employs the MQ-135 gas sensor to detect harmful gases not beyond 0.5 ppm emitted from waste materials, ensuring timely interventions to mitigate environmental pollution risks. Additionally, the ultrasonic sensor accurately measures waste fill levels in trash bins not beyond 22. 5 cm, enabling optimized collection routes and resource allocation.
Wireless communication facilitated by the GSM module allows real-time data transmission to a central management platform, empowering waste management authorities to monitor and control waste collection operations remotely. The LED display and LCD screen provide intuitive visual feedback, enhancing user interaction and system usability.
By leveraging the capabilities of these components, the Waste Management System offers numerous benefits, including improved environmental sustainability, enhanced operational efficiency, and reduced costs associated with waste management. Furthermore, the system's modular design allows for scalability and adaptability to diverse waste management scenarios.
Looking ahead, integrating GIS into the system can optimize waste collection routes, leading to more efficient resource allocation and reduced fuel consumption. Additionally, incorporating sensors for specific waste types, like recyclables, can help identify optimal locations for recycling centers. This holistic approach promises more sustainable waste management systems, supporting environmental protection and resource conservation.