Military aircraft regularly conduct missions that include low-atltitude, near-terrain flight in order to increase covertness and payload effectiveness. Civilian applications include airborne fire fighting, police surveillance, search and rescue, and helicopter emergency medical service. Several fixed-wing aircraft now employ terrain elevation maps and forward-pointed radars to achieve automated terrain following or terrain avoidance flight. Similar systems specialized to helicopters and their flight regime have not received as much attention. A helicopter guidance system relying on digitized terrain elevation maps has been developed that employs airborne navigation, mission requirements, aircraft performance limits, and radar altimeter returns to generate a valley-seeking, low-altitude trajectory between waypoints. The guidance trajectory is symbolically presented to the pilot on a helmet mounted display. This system has been flight tested to 150 ft (45.7 m) above ground level altitude at 80 kts, and is primarily limited by the ability of the pilot to perform manual detection and avoidance of unmapped hazards. In this study, a wide field of view laser radar sensor has been incorporated into this guidance system to assist the pilot in obstacle detection and avoidance, while expanding the system's operational flight envelope. The results from early flight tests of this system are presented. Low-altitude missions to 100 ft (30.5 m) altitude at 80n kts in the presence of unmapped natural and man-made obstacles were demonstrated while the pilot maintained situational awareness and tracking of the guidance trajectory. Further reductions in altitude are expected with continued flight testing.
Flight Test of a Low-Altitude Helicopter Guidance System with Obstacle Avoidance Capability
1995
10 pages
Report
No indication
English
Aeronautics , Infrared & Ultraviolet Detection , Navigation, Guidance, & Control , Air navigation , Aircraft configurations , Flight tests , Helicopters , Helmet mounted displays , Low altitude , Obstacle avoidance , Optical radar , Relief maps , Terrain following , Aircraft performance , Field of view , Flight envelopes , Mission planning , Radar detection , Radio altimeters , Trajectories
Flight Test of a Low-Altitude Helicopter Guidance System with Obstacle Avoidance Capability
British Library Conference Proceedings | 1995
|Automatic Guidance and Control for Helicopter Obstacle Avoidance
Online Contents | 1994
|Automatic Guidance and Control for Helicopter Obstacle Avoidance
Online Contents | 1995
|