Title :
Multi-sensor navigation system for an autonomous helicopter
Author :
Dittrich, Joerg S. ; Johnson, Eric N.
Author_Institution :
Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
Autonomous unmanned aerial vehicles (UAVs) require avionics systems that enable them to maintain a stable attitude and to follow a desired flight path. This paper considers the design and development of such an avionics system that provides navigational and terrain information to the flight computer of a rotorcraft UAV. The process includes the design and testing of flight hardware and software that interprets sensor data. The paper provides an overview of a specific implementation of the approach: the GTMax testbed developed at the Georgia Institute of Technology UAV research facility. Its available payload and performance allows for a variety of onboard sensors, supports reconfiguration, and has the capability to demonstrate aggressive maneuvers under complex and changing mission scenarios.
Keywords :
aerospace simulation; aircraft communication; aircraft computers; aircraft control; aircraft navigation; aircraft testing; attitude control; helicopters; reconfigurable architectures; remotely operated vehicles; sensor fusion; GTMax testbed; UAV payload/performance; UAV reconfiguration; aggressive maneuvers; autonomous helicopter multi-sensor navigation systems; autonomous unmanned aerial vehicles; avionics systems; complex/changing mission scenarios; flight path control; onboard sensors; rotorcraft UAV flight computer navigational/terrain information; sensor data interpreting flight hardware/software; sensor fusion; stable attitude control; Aerospace electronics; Aerospace simulation; Aircraft navigation; Computational modeling; Hardware; Helicopters; Payloads; Software testing; System testing; Unmanned aerial vehicles;
Conference_Titel :
Digital Avionics Systems Conference, 2002. Proceedings. The 21st
Print_ISBN :
0-7803-7367-7
DOI :
10.1109/DASC.2002.1052941
