Micro air vehicle
fir.epfl.ch
^ Zufferey, J.-C. (2008). Bio-inspired Flying Robots: Experimental Synthesis of Autonomous Indoor Flyers. EPFL/CRC Press. ISBN 9781420066845. http://book.zuff.info.
^ Floreano, D. and Zufferey, J.-C. and Srinivasan, M.V. and Ellington, C., ed (2009). Flying Insects and Robots. Springer-Verlag. ISBN 978-3-540-89392-9. http://www.springer.com/computer/artificial/book/978-3-540-89392-9.
^ Cheng-Lin Chen and Fu-Yuen Hsiao*, Attitude Acquisition Using Stereo-Vision Methodology, presented as Paper VIIP 652-108 at the 2009 IASTED Conference, Cambridge, UK, Jul. 13-15, 2009
^ Sen-Huang Lin, Fu-Yuen Hsiao*, and Cheng-Lin Chen, Trajectory Control of Flapping-wing MAV Using Vision-Based Navigation, accpted to present at the 2010 American Control Conference, Baltimore, Maryland, USA, Jun. 30 – Jul. 2, 2010
^ Bug-sized spies: US develops tiny flying robots
^ Honeywell Wins FAA Approval for MAV, Flying Magazine, Vol. 135., No. 5, May 2008, p. 24
^ Benchergui, Dyna, he Year in Review: Aircraft Design, Aerospace America, December 2009, Volume 47, Number 11, American Institute of Aeronautics and Astronautics, p. 17
^ Michelson, R.C., est and Evaluation for Fully Autonomous Micro Air Vehicles, The ITEA Journal, December 2008, Volume 29, Number 4, ISSN 1054-0229 International Test and Evaluation Association, pp. 367-374
^ Weiss, Rick (2007-10-11). “Dragonfly or Insect Spy? Scientists at Work on Robobugs.”. Washington Post. http://www.washingtonpost.com/wp-dyn/content/article/2007/10/08/AR2007100801434_pf.html.
Further reading
Thomas J. Mueller (Ed.), ed (2002). Fixed and Flapping Wing Aerodynamics for Micro Air Vehicle Applications. AIAA. ISBN 1-56347-517-0. http://www.amazon.com/dp/1563475170/.
Peter Forbes, The Gecko’s Foot: How Scientists are Taking a Leaf from Nature’s Book, Harper Perennial, 2006, pp. 161-179.
External links
Research Projects
EPFL, Laboratory of Intelligent Systems (LIS): Vision-based Microflyers using optic flow to fully autonomous MAVs for low-altitude flight
ETH Zurich ASL Lab muFly project fully autonomous micro helicopter
MAVSTAR project by CMR@UNSW – Rotary-wing MAV fit within a 30 cm sphere
University of Florida Center for Micro Air Vehicle Research
Kevin D. Jones’s web site – a flapping model using Wing In Ground effect and boundary layer control at the Naval Postgraduate School
Entomopter
Miscellaneous Projects
Miniature Aerial vehicles Research
Micro Air Vehicles – Toward a New Dimension in Flight
DIY Drones
DelFly – a flapping model craft by a team of Delft University of Technology
MAV07 – The 3rd US-European Competition and Workshop on Micro Air Vehicles and the 7th European Micro Air vehicle Conference and Flight Competition web site.
MAV08 – The 1st US-Asian Demonstration and Assessment of Micro Air and Unmanned Ground Vehicle Technology.
Ornithopter website
– Attopilot User Group, Model aircraft autopilot
Commercially Available Vehicles
Skybotix – Micro Aerial Vehicles
Aeryon Scout – Micro Aerial Vehicle
AscTec Hornet – Smallest fully autonomous, GPS controlled MAV
HALO Micro Air Vehicle – Cornerstone Research Group
Categories: UAVs and drones | Surveillance | Robotics | Aircraft by typeHidden categories: Wikipedia articles needing copy edit from March 2009 | All articles needing copy edit | Articles needing cleanup from March 2009 | All pages needing cleanup | Articles needing sections from March 2009
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