The Beginning Of a New Era ...

BRAQ™ Small Unmanned Aerial System (sUAS) Platform



BRAQ™ Small Unmanned Aerial System (sUAS) Platform is a fully/semi-autonomously controlled tilt-wing tri-ducted fan multi-purpose (sky-land-sea) small Unmanned Aerial Vehicle (UAV) configured to perform ultra-safe and high-efficiency operations close to infrastructures for a range of high risk and labor-intensive industries.


BRAQ™ sUAS combines the hovering capabilities of helicopters and the operational features of fixed-wing aircraft and seaplanes. BRAQ™ sUAS utilizes advanced machine vision sensors and machine learning algorithms to detect, sense, see, avoid and make decisions. 


These capabilities and properties are ideal for solving the challenges of operating UAS’s in 

ultra-close proximity to infrastructures in industrial applications. 

BRAQ™ Medium-Altitude Long-Endurance (MALE) Unmanned Aerial Vehicle (UAV) Platform


BRAQ Medium-Altitude Long-Endurance (MALE) Unmanned Aerial Vehicle (UAV) Platform designed to demonstrate a remarkable solution to a wide variety of military and government applications. This platform is envisioned as intelligence, surveillance, and reconnaissance (ISR) platform. It is a scalable version of our advantageous Tilt-Wing Tri-Ducted Fan multi-mode (sky-land- sea) sUAV. Additionally, current-day anti-terrorist missions would make it desirable to deploy this platform in which the overall flight safety is improved and the substantial noise level from the rotors is suppressed by enclosing the rotors in ducts. These features make this platform a prime candidate for various ISR operations including those of special forces, army, and humanitarian aid responses. 


BRAQ™ Autonomous Personal Air Vehicle (APAV) Platform


BRAQ Autonomous Personal Air Vehicle (APAV) platform is designed to provide safe low-altitude and medium-short distance air transportation services. Possessing the flexibility and the best attributes of helicopters, fixed-wing aircraft and Wing-In-Ground-Effect (WIG) vehicles.


It utilizes a hybrid fuel cell / battery propulsion system to perform vertical take-off and landing (VTOL) and short take-off and landing (STOL) from anywhere. It is also capable of performing horizontal take-off and landing (HTOL), skim, boat, and cruise over water surfaces.


These capabilities and properties give this particular platform the ability to take-off from anywhere and land anywhere without the requirement of airport runways or landing pads. In other words, it will fulfill  all of the missions that helicopters, fixed-wing aircrafts, seaplanes, and hovering aircrafts currently perform.