.png)
Founded as the newest mission within the UPC Space Program, ATLAS is dedicated to developing high-performance drones while applying advanced technical aerospace knowledge. By leveraging and expanding knowledge in key areas such as aerodynamics, structural engineering, and control systems, ATLAS aims to push drone performance to its peak.
To achieve this goal, ATLAS is currently focused on two major projects: SAR and Argos. The SAR project intends to participate in the 2025 Student Air Race, a challenge that demands both innovative structural design and precise control systems integration, testing the skills and creativity of the team. Meanwhile, Argos focuses on achieving high levels of autonomy, enabling independent navigation and dynamic responses. Through Argos, ATLAS seeks to create an adimensional system that integrates with future drones, enhancing autonomous capabilities and expanding potential applications.
ATLAS goes beyond simply building drones; it’s about advancing knowledge, showcasing the team’s capabilities, and establishing a strong European presence with each project.
ARGOS PROJECT
Our autonomous drone project focuses on the development of unmanned aerial vehicles that use artificial intelligence to compete in competitions in this same field. This drone is designed to navigate independently, making real-time decisions and adapting to different environmental conditions
SAR PROJECT
The Student Air Race (SAR) is a groundbreaking competition set to make its debut in Munich in the summer of 2025.
This event aims to bring together teams from universities worldwide, creating a unique platform for the design and development of high-performance drones.
This competition marks a milestone as the first of its kind to focus on the academic and technological aspects of unmanned aerial vehicles.
The SAR offers an exceptional opportunity to showcase our skills and creativity in this cutting-edge field of technology.
MODULAR DRONE
Our modular drone is designed to be adaptable, seamlessly transitioning from a 4-motor X-class configuration to an 8-motor coaxial Hyper Drone. This flexibility allows us to delve deeper into drone technology, paving the way for groundbreaking performance enhancements in the future.
Our Team !
