17 SEP 2024
Manching, Germany – August 1st, 2024 – At the beginning of August, a presentation took place at the Airbus Drone Center near Manching, which marked the culmination and conclusion of an intensive research phase as part of the Bundeswehr study KITU 2 (Künstliche Intelligenz für taktische UAS; Artificial Intelligence for tactical UAS). The aim of the study was to develop innovative solutions for the AI-supported autonomous control of swarms of drones. The new technologies enable large swarms of autonomous UAS to be effectively controlled by a small number of operators, even in highly dynamic and interference-prone environments.
Airbus Defence & Space as prime contractor of the KITU2 study, in close collaboration with German drone company Quantum Systems and software company Spleenlab, has achieved a major breakthrough in autonomous swarm technology. Commissioned by the German Armed Forces in July 2023, this research aims to maximize the potential of artificial intelligence to coordinate mixed UAS swarms with different capabilities. For the first time, a specially developed mission-AI controls and coordinates the UAS systems to ensure reliable mission execution even in scenarios with radio interference or a complete failure of individual drones.
The AI was trained using advanced deep reinforcement learning methods in a highly specialized simulation environment. This approach allows the AI to refine its tactics through continuous self-optimization, leading to more efficient and precise decisions in tactical operations.
In the successful tests, the Vector and Scorpion UAS from Quantum Systems and two other multi-purpose drones from Airbus were deployed in swarm flight. The reconnaissance data from all the drones was merged in real time to form a joint situation picture and integrated into the Airbus “Fortion Joint C2” battle management system. In addition, the Vector drones demonstrated their ability to autonomously perform missions such as joint reconnaissance and target acquisition under GPS-denied conditions (GNSS denied), such as those found in Ukraine. This underlines the ability of AI to increase the resilience of UAS to interference and ensure autonomous operation even under difficult conditions.
The knowledge gained will serve as a basis for future developments to evaluate how learned behaviors from simulations can be integrated into real UAS systems. The extent to which AI-controlled behaviors are superior to traditional manual control approaches will also be investigated.
The research results from the KITU2 study are intended to support the development of autonomous systems for major Bundeswehr projects such as the Main Ground Combat System (MGCS) and the Future Combat Air System (FCAS).
We are not just interested in expanding the technological capabilities of our drones. We want to give customers and users a real advantage in real-life scenarios. Ultimately, it's about protecting soldiers and increasing safety. In the future, there will be no way around software-based and AI-supported systems for drone technology.
Quantum Systems specializes in the development, design, and production of small Unmanned Aerial Systems (sUAS). The company’s range of electric vertical take-off and landing (eVTOL) sUAS are built to maximize range and versatility and provide operators with a seamless user experience. By integrating cutting-edge software capabilities like edge computing and real-time AI-powered data processing, Quantum Systems builds next-generation UAS for security, defence, public safety, commercial and GIS operations customers across the globe.
Quantum-Systems is a global company, founded in 2015 and headquartered at Special Airport Oberpfaffenhofen, 20 km west of Munich, with business locations in the United States, Australia and Ukraine.
Claudia Steinhoff