Title :
Maximizing miniature aerial vehicles
Author :
Griffiths, Stephen ; Saunders, Jeff ; Curtis, Andrew ; Barber, Blake ; Mclain, Tim ; Beard, Randy
Author_Institution :
Scientific Syst. Co., Inc., Woburn, MA
Abstract :
Despite the tremendous potential demonstrated by miniature aerial vehicles (MAV) in numerous applications, they are currently limited to operations in open air space, far away from obstacles and terrain. To broaden the range of applications for MAVs, methods to enable operation in environments of increased complexity must be developed. In this article, we presented two strategies for obstacle and terrain avoidance that provide a means for avoiding obstacles in the flight path and for staying centered in a winding corridor. Flight tests have validated the feasibility of these approaches and demonstrated promise for further refinement
Keywords :
aerospace robotics; aircraft testing; collision avoidance; military aircraft; flight path; flight tests; miniature aerial vehicles; obstacle avoidance; terrain avoidance; Aircraft; Laser radar; Microcontrollers; Monitoring; Payloads; Robot sensing systems; Robotics and automation; Surveillance; Terrorism; Unmanned aerial vehicles;
Journal_Title :
Robotics & Automation Magazine, IEEE
DOI :
10.1109/MRA.2006.1678137
