In the modern era of smart technology, efficient waste management is a significant concern, particularly in urban areas. This project introduces an innovative smart dustbin system designed to enhance hygiene, convenience, and efficiency in waste disposal. The core of the system is an ESP8266 microcontroller, which manages the entire operation and facilitates connectivity to the cloud for real-time monitoring. The smart dustbin utilizes an ultrasonic sensor to detect the presence of a person and determine the level of waste inside the bin. When a person approaches, the sensor triggers the servo motor to automatically open the lid, ensuring a touch-free experience. Once the person moves away, the lid closes, minimizing the risk of contamination and promoting better hygiene.
The smart dustbin is also equipped with a buzzer that provides auditory feedback during the lid's opening and closing operations. This feature ensures that users are aware of the dustbin's actions, enhancing the overall user experience. The ultrasonic sensor continuously monitors the waste level inside the bin. When the bin reaches its full capacity, the system sends a notification to the cloud, which can be accessed by users through a web interface. This real-time data allows users to monitor the dustbin's status remotely, ensuring timely waste disposal and preventing overflow, which can lead to unsanitary conditions.
The integration of the ESP8266 microcontroller with cloud connectivity offers significant advantages in terms of remote monitoring and management. Users can receive alerts on their devices, view the fill level of multiple dustbins in different locations, and plan waste collection schedules more effectively. This smart dustbin system not only improves the efficiency of waste management but also contributes to a cleaner and healthier environment. By leveraging modern technology, this project aims to provide a practical solution to urban waste disposal challenges and promote sustainable living practices.
Drivers who are drowsy or tired present a serious danger to other drivers on the road because they are less vigilant and are more likely to fall asleep at the wheel. The lack of an effective real-time system that can consistently identify warning signs of driver fatigue and quickly issue alarms to p...
Read more>>Traditional gate opening methods involve manual operation, often requiring users to exit their vehicles, which can be inconvenient and time-consuming. These methods are also vulnerable to security threats and lack automation capabilities. The "Smart Gate Automatic Operated based on IoT" project add...
Read more>>This research, present the operation, construction, design and fabrication of the OFF-ROAD WHEELCHAIR OF DISABLED TOURIST. In general, for access to public buildings, it is frequently necessary to adapt older buildings with features such as ramps, elevators in order to allow access by wheelchair use...
Read more>>The project aims to design and prototype a two-way communication smart meter for smart grid applications using Arduino Uno, voltage sensor, relay, power supply, regulator, PCB, buzzer, and GSM module. The proposed system will monitor the voltage level of the power line and provide real-time informat...
Read more>>This project presents the design, implementation and characterization of a hardware platform for Fuel Management System (FMS) for fuel carrying vehicles. The primary design goal is to devise a system capable of monitoring the fuel level in real time. This system is proposed for fuel carrying road ta...
Read more>>Total: RWF 0.00