Title :
Visual motion sensing onboard a 50-g helicopter flying freely under complex VICON-lighting conditions
Author :
Ruffier, Franck ; Expert, Fabien
Author_Institution :
Biorobotics Dept., Aix-Marseille Univ., Marseille, France
Abstract :
In previous studies, we described how complicated tasks such as ground avoidance, terrain following, takeoff and landing can be performed using optic flow sensors mounted on a tethered flying robot called OCTAVE. In the present study, a new programmable visual motion sensor connected to a lightweight Bluetooth module was mounted on a free-flying 50-gram helicopter called TwinCoax. This small helicopter model equipped with 3 IR-reflective markers was flown in a dedicated room equipped with a VICON system to record its trajectory. The results of this study show that despite the complex, adverse lighting conditions, the optic flow measured onboard matched the ground-truth optic flow generated by the free-flying helicopter´s trajectory quite exactly.
Keywords :
Bluetooth; aircraft control; autonomous aerial vehicles; control engineering computing; image sequences; lighting; sensors; Bluetooth module; IR-reflective markers; OCTAVE; TwinCoax; complex VICON-lighting conditions; free-flying helicopter; free-flying helicopter trajectory; ground avoidance; ground-truth optic flow; landing; mass 50 g; optic flow sensors; optical altitude control system for autonomous vehicles; programmable visual motion sensor; takeoff; terrain following; tethered flying robot; visual motion sensing onboard; Lenses; Optical sensors; Robot sensing systems; Elementary motion detector (EMD); Free-flying Helicopter; Micro-aerial vehicle (MAV); Optic flow;
Conference_Titel :
Complex Medical Engineering (CME), 2012 ICME International Conference on
Conference_Location :
Kobe
Print_ISBN :
978-1-4673-1617-0
DOI :
10.1109/ICCME.2012.6275670
