Quad rotorcraft control: vision-based hovering and navigation
García Carrillo, Luis Rodolf
Dzul López, Alejandro Enrique
Lozano, Rogelio
Pégard, Claude
Quad Rotorcraft Control develops original control methods for the navigation and hovering flight of an autonomous mini-quad-rotor robotic helicopter. Thesemethods use an imaging system and a combination of inertial and altitude sensors to localize and guide the movement of the unmanned aerial vehicle relativeto its immediate environment. The history, classification and applications ofUAVs are introduced, followed by a description of modelling techniques for quad-rotors and the experimental platform itself. A control strategy for the improvement of attitude stabilization in quad-rotors is then proposed and tested in real-time experiments. The strategy, based on the use low-cost components and with experimentally-established robustness, avoids drift in the UAV's angular position by the addition of an internal control loop to each electronic speed controller ensuring that, during hovering flight, all four motors turn at almost the same speed. The quad-rotor's Euler angles being very close to the origin, other sensors like GPS or image-sensing equipment can be incorporated toperform autonomous positioning or trajectory-tracking tasks. Two vision-basedstrategies, each designed to deal with a specific kind of mission, are introduced and separately tested. The first stabilizes the quad-rotor over a landingpad on the ground; it extracts the 3-dimensional position using homography estimation and derives translational velocity by optical flow calculation. The second combines colour-extraction and line-detection algorithms to control the quad-rotor's 3-dimensional position and achieves forward velocity regulation during a road-following task. In order to estimate the translational-dynamical characteristics of the quad-rotor (relative position and translational velocity) as they evolve within a building or other unstructured, GPS-deprived environment, imaging, inertial.
- ISBN: 978-1-4471-4398-7
- Editorial: Springer
- Encuadernacion: Cartoné
- Fecha Publicación: 10/08/2012
- Nº Volúmenes: 1
- Idioma: Inglés