Entomopter

Entomopter

(England), ETS Labs and others.

The name 'Entomopter' is derived from "entomo" (meaning insect as in entomology) + "pteron" meaning wing. Michelson's Entomopter is a type of "ornithopter", which is the broader term for any device intended to fly by flapping wings.

The Entomopter is propelled by a pair of flapping wings driven by a Reciprocating Chemical Muscle (RCM) which is capable of generating autonomic wing beating from a chemical energy source without an ignition source, combustion, or atmospheric oxygen. Through direct conversion, the RCM also provides small amounts of electricity for onboard systems and further provides differential lift enhancement on the wings through circulation control (Coanda effect) to achieve pitch, roll, yaw, and heave to effect steered flight.

The Entomopter performs obstacle avoidance and altimetry through the use of a frequency modulated continuous wave (FMCW) acoustic transmission created with the waste gas product from fuel decomposition within the RCM. This waste gas is also used for gas bearings (dry lubrication) of all moving parts as well as the circulation controlled "blowing" of the wings for stability control and navigation.

Terrestrial Entomopter

The Earth-bound Entomopter has a 15 to 18 cm wing span. A twin set of wings situated fore and aft of the RCM provide balanced resonant flapping to create not only lift and thrust, but full vehicle control. Wing flapping occurs a 35 Hz constant rate. This biologically inspired aerial robot is classified as a micro air vehicle (MAV) because of its size. Mission payloads are in the range of 10 grams with a full gross takeoff weight (GTOW) of 50 grams. Intended use is for covert indoor reconnaissance or operation in confined human-inaccessible spaces.

Mars Entomopter

Several NASA Research Centers have noted its unique ability to fly on the planet Mars. Fixed wing aerial Mars rovers would have to fly at over 250 mph just to stay aloft in the rarefied Mars atmosphere. This makes landing on the rocky surface almost impossible, thereby precluding sample inspection/gathering. Also, the high speed flight means that dwell time on any particular area will be difficult-- a negative feature that is compounded by the fact that turns in the thin atmosphere will require enormous radii. An Entomopter, on the other hand achieves abnormally high lift with rapidly flapping wings (in part due to the "leading edge vortex" phenomenon), and therefore allows the fuselage to move slowly in relation to the ground. In addition the RCM propulsion system is anaerobic and would function without oxidizers in the carbon dioxide Mars atmosphere.

The Reynolds number for flight on Mars is equivalent to that found at over 100,000 feet here on Earth. Nothing currently flies with any regularity at this altitude. However, the Reynolds number regime for the tiny Entomopter operating in Earth’s atmosphere is equivalent to a larger version (one meter wing span) operating in the rarefied Mars atmosphere. In addition, the gravity on Mars is only 37% that of Earth, so an Entomopter-based Mars Flyer would benefit by proportionately reduced weight, even at its increased size on Mars. An Entomopter-based Mars Flyer holds promise of not only flying slowly over the Martian landscape, but also of serving as a multimode vehicle which could land, take samples, recharge, or communicate, and then take off to continue the survey mission. It even has the potential of returning to its launch point for refueling, downloading of data, or transferring of samples. The Entomopter team led by Prof. Michelson has received NASA Institute for Advanced Concepts funding to study the configuration of an Entomopter-based Mars surveyor for upcoming Mars micromissions.

Funding and international recognition for the Entomopter project

The Entomopter project received initial internal research and development (IRAD) funding from the Georgia Institute of Technology beginning in 1996, and follow-on funding from the Defense Advanced Research Projects Agency DARPA, the Air Force Research Laboratory (AFRL) and the NASA Institute for Advanced Concepts. For endeavors related to the Entomopter, Prof. Michelson is the recipient of the "2001 Pirelli Award for the diffusion of scientific culture" given by an international Jury for the “best multimedia project coming from any educational institution in the world.” He was also awarded the first ever "Top Pirelli Prize" (€25,000) for the work deemed best from an international field of over 1000 considered.

ee also

*Insect flight
*Ornithopter

Entomopter patents

# U.S. Patent No. 6,082,671, July 4 2000, “Entomopter and Method for Using Same”
# U.S. Patent No. 6,446,909, September 10 2002, “Reciprocating Chemical Muscle (RCM) and Method for Using Same”

elected Entomopter Reports and Publications

# Michelson, R.C., "Novel Approaches to Miniature Flight Platforms," Proceedings of the Institute of Mechanical Engineers, Vol. 218 Part G: Journal of Aerospace Engineering, Special Issue Paper 2004, pp. 363-373
# Michelson, R.C., Naqvi, M.A., "Beyond Biologically-Inspired Insect Flight," von Karman Institute for Fluid Dynamics RTO/AVT Lecture Series on Low Reynolds Number Aerodynamics on Aircraft Including Applications in Emerging UAV Technology, Brussels Belgium, 24-28 November 2003
# Colozza, A., Michelson, R.C., et al, "Planetary Exploration Using Biomimetics – An Entomopter for Flight on Mars," Phase II Final Report, NASA Institute for Advanced Concepts Project NAS5-98051, October 2002
# Michelson, R.C., "The Entomopter," Neurotechnology for Biomimetic Robots, ISBN 0-262-01193-X, The MIT Press, September 2002, pp. 481 - 509, (chapter author).
# Michelson, R.C., Naqvi, M.A., "Extraterrestrial Flight (Entomopter-based Mars Surveyor)," von Karman Institute for Fluid Dynamics RTO/AVT Lecture Series on Low Reynolds Number Aerodynamics on Aircraft Including Applications in Emerging UAV Technology, Brussels Belgium, 24-28 November 2003
# Michelson, R.C., "Scaling of Biologically Inspired Aerial Robots," 5th International Workshop on Similarity Methods, Institut für Statik und Dynamik der Luft und Raumfahrtkonstruktionen, Universität Stuttgart, 4 - 5 November 2002, pp. 71 - 78
# Michelson, R.C., "Neurotechnology for Biomimetic Robots", ISBN 0-262-01193-X, The MIT Press, September 2002, pp. 481 - 509, (chapter author).

Internet references

* [http://angel-strike.com/entomopter/EntomopterProject.html Official Entomopter web site] - The biologically inspired aerial robot conceived and developed by Prof. Michelson for terrestrial intelligence and planetary surveying applications. (Retrieved 26 August 2008)
* [http://angel-strike.com/entomopter/EntomopterMarsSurveyor.mov Animation of Entomopter flight on Mars] - Movie script by Robert C. Michelson, animated and rendered by Dan Maas. (Retrieved 26 August 2008)
* [http://angel-strike.com/rcmbio/RCM/MICHELSON.bio.html Online biosketch for Robert C. Michelson] - Has many external links to Michelson's related work the Entomopter and with aerial robotics in general. (Retrieved 26 August 2008)


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