The convergence of manned and autonomous aerial vehicles offers significant opportunities for reducing risks to human pilots while enhancing the precision, speed, and efficiency of routine operations. This integration also holds promise for improving search and rescue, firefighting, and law enforcement missions in uncertain conditions. Progress in Urban Air Mobility (UAM) through the development of Future Vertical Lift vehicles drives further synergies between manned and autonomous systems, paving the way for their expanded commercial use in urban environments.
To ensure dependable control and coordination between manned and autonomous aerial vehicles, it is essential to employ sophisticated and adaptable advanced flight control systems that can accommodate the diverse performance characteristics of both manned and autonomous vehicles. These flight control systems necessitate cutting-edge algorithms and real-time decision-making capabilities.
The integration of recent Artificial Intelligence (AI) techniques with human decision-making and planning holds promising prospects for robust solutions, thereby facilitating increased mission flexibility in the operations of both manned and autonomous aerial systems.
Project topics may cover following areas:
• Advanced Flight Control • AI pilot • Autonomous Aerial Systems • Future Vertical Lift Vehicles • Human-Machine Cooperation • Human Pilot Modeling • Teaming Manned-Unmanned / Unmanned-Unmanned • Urban Air MobilityBeschreiben Sie kurz und prägnant, worum es in diesem Kurs geht.
To ensure dependable control and coordination between manned and autonomous aerial vehicles, it is essential to employ sophisticated and adaptable advanced flight control systems that can accommodate the diverse performance characteristics of both manned and autonomous vehicles. These flight control systems necessitate cutting-edge algorithms and real-time decision-making capabilities.
The integration of recent Artificial Intelligence (AI) techniques with human decision-making and planning holds promising prospects for robust solutions, thereby facilitating increased mission flexibility in the operations of both manned and autonomous aerial systems.
Project topics may cover following areas:
• Advanced Flight Control • AI pilot • Autonomous Aerial Systems • Future Vertical Lift Vehicles • Human-Machine Cooperation • Human Pilot Modeling • Teaming Manned-Unmanned / Unmanned-Unmanned • Urban Air MobilityBeschreiben Sie kurz und prägnant, worum es in diesem Kurs geht.
- Dozent: Peter Chudý