Research Article
Implementation Of an Aircraft Ultrasonic Radar System Using Arduino
@INPROCEEDINGS{10.4108/eai.1-5-2025.2361534, author={Khalifa Al-Balushi and Nahid Nasim and Vidhya Lavanya}, title={Implementation Of an Aircraft Ultrasonic Radar System Using Arduino}, proceedings={Proceedings of the 7th MEC Student Research Conference on Artificial Intelligence and Cyber Security, MECSRC 2025, 01 May 2025, Muscat, Oman}, publisher={EAI}, proceedings_a={MECSRC}, year={2026}, month={3}, keywords={ultrasonic radar aviation safety real-time distance measurement wireless data transmission}, doi={10.4108/eai.1-5-2025.2361534} }- Khalifa Al-Balushi
Nahid Nasim
Vidhya Lavanya
Year: 2026
Implementation Of an Aircraft Ultrasonic Radar System Using Arduino
MECSRC
EAI
DOI: 10.4108/eai.1-5-2025.2361534
Abstract
This paper presents the development of an Aircraft Ultrasonic Radar System using Arduino to enhance aircraft detection, support air traffic management, and improve aviation safety. The system integrates ultrasonic sensors with the Arduino platform to generate and process ultrasonic waves, enabling real-time distance measurement of nearby aircraft. Additional components include RF transmitter and receiver modules for wireless data transfer, reducing wiring needs and improving aircraft flexibility. A DHT11 sensor is incorporated to monitor temperature and humidity, ensuring reliable performance under varying weather conditions. The coordinated interaction between sensors and Arduino forms the core of the system, offering a cost-effective alternative to traditional radar technologies. Supported by a dedicated data processing program, the system facilitates object detection and aircraft guidance across different environments. Through ongoing testing and validation, the project aims to deliver a reliable, efficient radar solution that contributes to enhanced aviation safety.
