Title :
Vision Aided Stabilization and the Development of a Quad-Rotor Micro UAV
Author :
Fowers, Spencer G. ; Lee, Dah-Jye ; Tippetts, Beau J. ; Lillywhite, Kirt D. ; Dennis, DAaron W. ; Archibald, James K.
Author_Institution :
Brigham Young Univ., Provo
Abstract :
Micro Unmanned Air Vehicles are well suited for a wide variety of applications in agriculture, homeland security, military, search and rescue, and surveillance. In response to these opportunities, a quad-rotor micro UAV has been developed at the Robotic Vision Lab at Brigham Young University. The quad-rotor UAV uses a custom, low-power FPGA platform to perform computationally intensive vision processing tasks on board the vehicle, eliminating the need for wireless tethers and computational support on ground stations. Drift stabilization of the UAV has been implemented using Harris feature detection and template matching running in real-time in hardware on the on-board FPGA platform, allowing the quad-rotor to maintain a stable and almost drift-free hover without human intervention.
Keywords :
aerospace computing; aerospace control; computer vision; feature extraction; field programmable gate arrays; helicopters; image matching; image sensors; microrobots; object detection; remotely operated vehicles; stability; Harris feature detection; drift stabilization; field programmable gate arrays; helicopters; image sensors; low-power FPGA platform; quad-rotor micro UAV; template matching; unmanned air vehicles; vision aided stabilization; Agriculture; Computer vision; Field programmable gate arrays; Land vehicles; Military computing; Road vehicles; Robot vision systems; Surveillance; Terrorism; Unmanned aerial vehicles;
Conference_Titel :
Computational Intelligence in Robotics and Automation, 2007. CIRA 2007. International Symposium on
Conference_Location :
Jacksonville, FI
Print_ISBN :
1-4244-0790-7
Electronic_ISBN :
1-4244-0790-7
DOI :
10.1109/CIRA.2007.382886
