The smart trash bin project is an innovative solution designed using modern embedded systems and advanced sensor technologies. Developed to improve hygiene and ease of use, this project allows users to open the trash bin lid without touching it, even when their hands are full or dirty. Successfully programmed and operated using the Arduino platform, this system provides a user-friendly and hygienic solution.
This groundbreaking project combines technology and user experience perfectly, creating a luggage carrier that automatically follows its user. Designed to make luggage transportation effortless, especially for elderly and disabled individuals, this vehicle saves time and energy while offering comfort. Developed using Arduino and ultrasonic sensors, the system detects obstacles and maintains a safe distance while
flawlessly following the user.
This autonomous vehicle, controlled via Bluetooth, can detect obstacles, stop, and follow lines. Designed to develop a system that can be remotely controlled and detect obstacles, the vehicle successfully meets its project goals by detecting and avoiding obstacles. This project serves as a critical step toward understanding autonomous systems and establishing a strong foundation for advanced projects.
The Pheromone Trap Project is a high-tech solution aimed at minimizing the damage caused by harmful insects to agricultural products. An AI-supported monitoring system has been developed to reduce crop losses caused by pests in agricultural fields. This system offers farmers effective and timely solutions in combating pests, increasing efficiency in agriculture.
The solar tracking system project is an innovative solution developed to improve the efficiency of solar panels. A system has been designed to automatically adjust the position of the solar panel to maximize sunlight capture, thereby increasing energy production. Using Arduino and sensors, the system optimally tracks sunlight, maximizing energy output.
This system, designed to enhance safety against natural disasters, provides early warnings by detecting earthquakes. Developed using Arduino and an MPU 6050 sensor, the system delivers early warnings with LED lights and a buzzer during or just before an earthquake, helping people evacuate to safe areas.
The sensor-based parking system automatically controls vehicle entry and exit and adjusts barriers based on parking occupancy. Developed using Arduino and sensors, this system offers safer and more efficient parking management while reducing urban traffic congestion.
Using RFID technology, this NFC-controlled door lock system was developed to create a secure and practical access control solution. Developed with an RFID card reader and Arduino, the system provides secure access control. Replacing physical keys with NFC cards enhances both security and user experience.
This project involves building an FM radio that broadcasts using an FM transmitter circuit. Successfully implemented with an FM transmitter circuit and radio receiver, the project achieves its goal of creating a functional FM broadcast system, which can also be automated with artificial intelligence.
The line-following robot project involves developing a system that detects and follows a specific path using distinct lines. A robot system suitable for use in education and industrial automation was developed, successfully following lines and completing desired tasks using Arduino and sensors.
This robot vacuum cleaner project involves creating a system that uses ultrasonic sensors to detect obstacles and clean without collisions. Developed with Arduino and sensors, the system effectively detects obstacles and performs cleaning tasks successfully.
The accelerometer-controlled car with a robot arm project was designed to explore the potential of mobile robotic systems and develop a system capable of performing various manipulation tasks. The integration of an accelerometer-controlled car and robot arm was successfully implemented, completing different manipulation tasks with precision.
The projects carried out in our center not only enable students to develop innovative and practical solutions but also offer technology-driven approaches to real-world problems. Each project has the potential to inspire further advanced studies in technology and robotics. As the Computer Technologies Robotics Application and Research Center, we take great pride in inspiring future engineers and contributing to their growth.
