This talk will present overviews of various intelligent control technologies currently being developed and studied at the NASA Ames Research Center as applicable to Unmanned Aerial Vehicles (UAVs), Mars flyers, and to the next generation of flight controllers for manned aircraft. The approaches being examined include: (a) direct adaptive dynamic inverse controller, (b) adaptive critic-based optimal trajectory generator; (c) optimal allocation technique based on linear programming; (4) immunized maneuvering using autopilot building blocks. These approaches can utilize, but do not require, fault detection and isolation information. Piloted and unmanned simulation studies are performed to examine if the intelligent flight control techniques adequately: 1) match flying qualities of modem fly-by-wire flight controllers under nominal conditions; 2) improve performance under failure conditions when sufficient control authority is available; and 3) achieve intelligent maneuvering capabilities for unmanned vehicles. Results obtained so far will be presented and discussed.
Intelligent Control Approaches for UAVs
French-Australian Advanced Workshop on Multidisciplinary Methods and Numerical Tools for UAV Design Applications ; 2003 ; Sydney, Australia
29.05.2003
Preprint
Keine Angabe
Englisch
Concensus on development approaches for intelligent UAVS
IEEE | 2007
|Intelligent collaborative control for UAVs
Tema Archiv | 2005
|Intelligent Collaborative Control for UAVs
AIAA | 2005
|Intelligent Agenda Control of Autonomous (Simulated) UAVs
British Library Conference Proceedings | 2004
|