RESEARCH & PROJECTS

Discover the innovative work of our members as we showcase ongoing projects focused on real-world solutions across various fields of robotics and technology. Each project is driven by a passion for technological advancement, problem-solving, and collaboration.

EV In Bangladesh

The Electric Buzz We Didn't See Coming

Electric Vehicles, EVs for short. The new cool kids on the block, flaunting their zero-emission swag while the rest of us cough through traffic jams filled with exhaust fumes. It’s like they’re whispering, “Catch up, grandpa, the future is here!”

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Distance Approximation

Using IR LED, IR Receiver Photodiode and OpAmp

This project shows a simple way to estimate an object's distance using an infrared LED and a photodiode. It works by detecting the change in reflected infrared light, allowing us to gauge how near or far the object is. An OP-AMP is set up as a comparator to control LEDs, giving a visual cue of the distance.

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Automatic Smart Toll Collection System

Using RFID, and Arduino

In this project, we'll introduce you to the RFID module and Arduino-based Automatic Smart Toll Tax Collection System. There is a great hurry these days to pay the toll fee at toll plazas.

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AUSTElevate – Transforming Student Life at AUST

AUSTElevate is the first student management app for Ahsanullah University of Science and Technology (AUST). Built with Flutter and Firebase, it unifies profiles, results, class routines, notices, real-time admin chat, a CGPA calculator, and anonymous harassment reporting in one platform. With its student-first design, AUSTElevate makes campus life smarter, safer, and more efficient.

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Bluetooth Controlled Car with LED Indicators

This project presents a Bluetooth-controlled robotic car with directional LED indicators, built using Arduino Uno, HC-05 Bluetooth module, and L298N motor driver. It demonstrates wireless communication, motor control, and real-time signaling, with LEDs providing feedback for forward and backward motion. As both an educational and practical robotics project, it introduces embedded systems, wireless communication, and actuator control. With future scalability toward drones and multifunctional robots, it serves as a strong foundation for research and hands-on learning in robotics and automation.

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Obstacle-Avoiding Autonomous Car Robot Using Arduino

This project demonstrates an Arduino-based Obstacle Avoiding Car that can detect obstacles in its path and automatically change direction to avoid collisions. The system uses an ultrasonic sensor mounted on a servo motor to scan the surroundings and a motor driver shield to control two DC motors.

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