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This article cought my eye because of the recent invention and development in the manned ornithopter flight that occured in 2010. The information in this article is well written but can be expanded on a little bit in some areas more then others. The article can also be better organized to help with the clearity and understanding of the article. The way that the article is organized helps the readers get a basic understanding of the article and the Ornithopter but it isn't till the reader gets half way through the article that things become clearer and make more sense. The article has a few gramatical errors that make the article look unreliable and unprofessional. The sources at the end of the article seem to be reliable and have good information about the ornothopter. The article also left the reader hanging in some areas telling them if they wanted more information, the should search for a certain example. It'd be better to organize the other information into the article so that readers are able to read the article and not have to continue searching in order to gather information. Overall I think this article is well written but because there are aspects that are so new, the article has alot of improvements in it that may help broden out the topic and make it easier to read. —Preceding unsigned comment added by HIST406-10109770231 ( talk • contribs) 14:02, 4 October 2010 (UTC)
Why is Icarus mentioned on this page as if he was a real person? All he is, as far as I know, is a character from Greek mythology. - J.Wallos (2/9/06)
Daedalus and Icarus are a myth. Today people ( civilian and military ) is trying to make MAV. But since many years, some researchers are working on the manned. A design powered by a human acting system. If you want to know more, just click on the (laconic) sites up there. Glad to read you.
Georg.(2/12/06)
An ornithopter is an aircraft that produces all the thrust and most of the lift by the flapping of it's wings alone. The Schmid aircraft only produced the thrust with a [relatively small] set of flapping wings. The lift was produced by a large set of fixed wings. Since the flapping wings were only used for propulsion, this aircraft can not be classified as a true ornithopter and further, this cannot be classified as the first successful flight of a manned ornithopter. These flights should be described factually for what they were....successful flights of a fixed wing aircraft that uses flapping wings instead of a propeller for propulsion. Making attention-getting false claims such as 'the first manned ornithopter' only serves to muddy the waters of history and obscure the true facts.
The reason Schmid's machine is classified as an "ornithopter" is as follows:
Real birds have a flapping front wing and a rear fixed wing. Whether you call it a tail, stabilizer, or whatever, the bird's tail does contribute a significant amount of lift. The body of a bird is shaped for producing lift also. As an ornithopter is an imitation of bird flight, I see no reason why the requirement not to use fixed lifting surfaces should be imposed.
You would be correct to point out that the fixed wing on Schmid's aircraft is much bigger than a bird's tail. However, that is just a quantitative matter. There is no logical dividing line between a bird that has 40% of its lifting surface fixed, versus Schmid's which has about 80% fixed. If a particular aircraft has 50 or 60% fixed, how would you classify that? If you draw a line anywhere, you create the ridiculous situation that two nearly identical aircraft will be differently categorized because of a 1% difference in wing surface allocation.
There is also the idea that an ornithopter must use the same surface to produce both lift and thrust. In Schmid's configuration the flappers could have been tilted to provide no lift, though more likely they did provide some lift, and really we have insufficient information to know for certain what percentage of total lift they did provide. Those of us who build ornithopters know that it is no special challenge for a flapper to produce both lift and thrust. One of the most successful and widely used flapper designs has a flat wing that is symmetrical about the horizontal plane and takes on a positive or negative camber in the up or down stroke due to aeroelastic properties. This basic flapper design produces lift just by virtue of having the correct angle relative to the motion of the aircraft. There is nothing difficult about producing both lift and thrust together, but Schmid's ornithopter does appear to have been designed to enhance the lift production of the flappers as evidenced by their cambered ribs evident in the photos.
There are a few ornithopters in which there is NO fixed wing (tandem flappers mostly) or in which the fixed wing produces a downforce instead of lift. Since neither of these configurations is met by real birds, I don't think we should insist that an ornithopter should be so constrained.
Your comment is perfectly right. Groups of researchers are working in the field of instationery air flow. This aerodynamic allows the flapping wings to create lift and thrust. The result is not assured yet. "Will be a planetary event". Georg. 03/16/06
An ornithopter is an aircraft that flies by wing-flapping. Many examples exist in nature such as birds, bats, and insects. Man-made ornithopters are usually on the same scale as these flying creatures, though some overscale, manned ornithopters have also been built.
I'm sorry, but the definition of "aircraft" (it's a machine) excludes birds, bats and insects from the definition of an ornithopter. Then "man-made" also is strange, because all machines are man-made, aren't they? These three sentences need a little tweaking. PeepP 20:21, 18 March 2006 (UTC)
I'm not the author of " aircraft " . On the other hand, I am favourable to give an exact definition, in a world dictionary, to the object flying by flapping wings, built by the man. Best regards. Georg. 21 March 2006
"Alexander Lippisch appears to have held this point of view" < at the end of the second paragraph, in Ornithopter#Aerodynamics.
VdSV9• ♫ 18:50, 10 July 2006 (UTC)
The use of the same surfaces for lift and propulsion has the fundamental advantages that drag-inducing structures are minimized while the volume of air acted on to produce thrust is maximized. [...] From general aerodynamic considerations, ornithopters appear to make more efficient use of power than rotating propeller or jet aircraft do.
Apparently, the same could be said about a helicopter. Could someopne enlighten me (and improve the article) by describing the pros and cons of an ornithopter versus a helicopter? And why an ornithopter might be favorable to a helicopter?
Can an ornithopter produce a vortex ring? -- Klaws 06:52, 11 July 2006 (UTC)
A practical ornithopter has the potential to be far more manuverable. Consider how manuverable humming birds, flys, and other insects are, simply from flapping their wings. No machine ever created is as agile as that. Potentially they can be faster than helicopters as well if they combined aspects from fixed wing aircraft. I don't see why they can't fix their wings in place and use a jet engine when they want to achieve sustained high speed flight. Malamockq 06:39, 20 February 2007 (UTC)
Regarding the July 8 2006 flight of the Delaurier ornithopter/fixed wing hybrid aircraft. It did not take off unaided, an auxiliary jet engine was mounted under the fuselage for the purpose of providing the thrust to accelerate to lift off speed in order to avoid using the flapping of the wings [thereby eliminating the severe heaving and pitching of the fuselage which has caused problems throughout the life of the aircraft]. This aircraft had auxiliary fixed wings installed sometime after 2001, it ceased to be an ornithopter and became a flapping/fixed wing hybrid aircraft instead. The July 8 2006 flight was made possible only by the use of these fixed wings and the jet engine [the jet engine is in addition to the gasoline engine which flaps the wings]. In other words, this flight was not the first sustained flight of a piloted ornithopter. This has not yet been done. This kind of sensationalist reporting in an online encyclopedia and in the media distorts the truth and will make it very difficult for future generations to find an accurate, unbiased record of ornithopter history.
The ornithopter shown in the title photograph appears quite crackpot in design and I believe it is inappropriate as the primary photograph in an article supposedly about the flight and development of working ornithopters. Perhaps it could go in a subsection, but I believe that something more plausible as a working machine should go at the top. My suggestions are Leonardo da Vinci's sketches, scale-model ornithopters shown in flight, or an image from fiction that shows a plausible machine (this could have the advantage of being obviously an ornithopter - many attempted models do not appear to be obviously flapping in still photos). Thoughts, anyone?-- EDH 07:07, 3 October 2006 (UTC)
I just wanted to explain certain points in my recent edit.
First, I personally feel that "manned" ornithopter was a suitable choice of words, but another user felt strongly about using gender-neutral language. I didn't like to say "piloted" because I didn't want it to be confused with "remotely piloted" and that seemed awkward anyway. So I chose the phrase "person-carrying" instead.
Second, Yeti Hunter wanted to convey the idea that an unmanned ornithopter is a model or small-scale representation of a larger manned aircraft. I find this approach unacceptable, because an ornithopter is a model of a bird, not a model of a larger aircraft the way scale model airplanes are. In a few cases, an unmanned small ornithopter is built as a prototype for a proposed or subsequently built manned ornithopter, but that's really not the activity most of us are engaged in. Personally I have no interest in manned flight but I am keen on imitating bird flight more closely. I think most ornithopter builders are like me. I know there are a few who are working on manned projects but even they would agree that an ornithopter is based on bird flight and is not a scale model of anything other than a bird.
I also removed the reference to DeLaurier's crash because it reflects badly on our field and DeLaurier specifically to include that information. I think it sufficiently conveys what happened to say that a 14 sec flight was made.—Preceding unsigned comment added by Chronister ( talk • contribs) 18:33, 30 October 2006
I hope you don't mind, I moved the Design Engineering article to the "external links". To me it seems DeLaurier's own report is the primary source and more suitable as a "reference". I also eliminated the "witnessed and confirmed" wording because no one is going to question DeLaurier's accomplishments. Also I feel it is unfair to earlier work. Lippisch and Schmid flights were certainly witnessed and confirmed in their time. I am actively searching for more documentation on these flights, but such information becomes scattered over time. It simply is not realistic to apply the same standard.
The article claims that 15 minute flights were The minimum requirement is at least 15 HP for an ornithopter (or normal aircraft), and that is for level flight only, and presumes perfectly friction free moving parts etc.. The sums are easily done by even novice aero-engineers. ( HOWEVER, consider "Adalbert Schmid flew a motorized, manned ornithopter at Munich-Laim. It was driven by small flapping wings mounted at the sides of the fuselage, behind a larger fixed wing. Fitted with a 3 hp Sachs motorcycle engine, it made flights up to 15 minutes in duration. Schmid later constructed a 10 hp ornithopter based on the Grunau-Baby IIa sailplane, which was flown in 1947. The second aircraft had flapping outer wing panels."
The result was: Merge -- B. Wolterding 16:08, 26 October 2007 (UTC)
I propose to merge the content of Tim-bird into here, since the notability of that article has been questioned. While the product "Tim-bird" as such exists, there are not many secondary sources about it, so the short article might be best merged here.
Please add as tim-birds, have been popular since whatever year"). If however it's a brand name, AFD.-- Yeti Hunter 07:23, 21 October 2007 (UTC)
First 4 paragraphs provide unreferenced information. Links to Sage Grouse, Gossamer Albatross, Smithsonian Institution, SRI International, Reciprocating Chemical Muscle, pterosaur, Quetzalcoatlus northropi, Robert C. Michelson do not provide reference to recent developments of ornithopters or ornithopter technology. If proper references can be provided, it would help organize this section chronologically. If there are no supportive references, perhaps the information should not be included. I'm wondering for example about the idea that someone might accomplish something in the future that might be applied in this context should be included. Rogerfgay 13:11, 24 October 2007 (UTC)
(Copied from the Science desk:) Unfortunately, the efficiency section is not very accurate. Ornithocopters are not efficient for high-speed flight, as the wing-section required for lift is miniscule already. At supersonic speeds, I believe flight would be impossible for an ornithocopter. Current aircraft are more efficient for their mass and speed than birds are. Comfort has nothing to do with why we don't build ornithocopters, otherwise why wouldn't our reconnaissance drones have flapping wings? It is in fact a "failing" of biology to evolve a species to occupy a high-speed, high-mass, high-altitude niche, because to do so would require some kind of rotary muscle that does not exist in any animal we know of. The phenomenon is similar to why our ships use propellers instead of flippers. In this case, engineering firmly wins out, as many sea animals can compete with the weight and speed of our ships. SamuelRiv ( talk) 18:31, 21 November 2007 (UTC)
"As demonstrated by birds, flapping wings offer potential advantages in maneuverability and energy savings compared with fixed-wing aircraft." — This directly implies the possiblity that birds could have developed engines over the course of evolution. ¶ dorftrottel ¶ talk ¶ 20:32, December 5, 2007
Can the picture of the bird be removed; it makes the impression that all ornithopters are based on airplane-designs, which is incorrect (Theo Van Holten has eg made a helicopter-like design called the ornicopter). I would suggest the Theo Van Holten-design as main picture as it is one of the latest and best performing ornithopters.
Are there ANY real groups devoted just to building flying Ornithopeters? Or ANY REAL FLYING HUMAN CARRYING Ornithopeters flying today Articlr did not say! Lots of research but NO flying ornithopeters now exsist?!Why??? VICTORISEDSONANDREJOHSONDDULC ( talk) 23:33, 9 December 2010 (UTC)
Whoever wrote it has no idea of what an ornithopter is. Needham said it was a "ornitophter flight", but an the man did not build a machine. He just put himself bird wings and feathers. This is out of place.-- Knight1993 ( talk) 23:22, 28 January 2011 (UTC)
Hi!
This new machine could be mentionable (since you mention the toy of WowWee): The Festo SmartBird. It was shown on the Hannover Messe 2011 in Germany. I think its very interesting and promising. Here are two links:
http://www.festo.com/cms/en_corp/11369.htm
http://www.youtube.com/watch?v=nnR8fDW3Ilo&feature=player_embedded —Preceding unsigned comment added by 188.97.112.83 ( talk) 09:43, 13 April 2011 (UTC)
An image used in this article,
File:UTIAS Ornithopter Flight.jpg, has been nominated for deletion at
Wikimedia Commons in the following category: Deletion requests October 2011
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A section consisting entirely of entries such as
contributes nothing to the article, and ought to be removed. Feezo (send a signal | watch the sky) 04:57, 30 November 2011 (UTC)
This paragraph,
implies that ornithopters can theoretically be more efficient than fixed-wing aircraft. But a few paragraphs later, the article flatly states that "Flapping wings increase drag and are not as efficient as propeller-powered aircraft."
Hopefully a qualified aerodynamicist can resolve this contradiction. 174.24.92.212 ( talk) 14:10, 16 December 2011 (UTC)
I removed the following paragraph:
I think this explanation fundamentally misunderstands Newton's Third Law. The energy of propeller thrust which is "lost" to friction in the air is absolutely necessary, and is always equal to the thrust produced whether at high or low speed. This paragraph does not say why low-speed air displacement is more efficient than high-speed, and also doesn't address the obvious potential for lower efficiency due to the need for the wing to flap upward while it is not producing thrust. Given that it has been unreferenced for over two years, I think it was time for it to go, unless someone can provide a reliable source to support this. -- Beland ( talk) 04:43, 13 September 2013 (UTC)
"if a static wing is kept at the same angle while moving up and down, it will produce no net lift or thrust."
I disagree. A curved wing displaces a different amount of air, depending on which way it's moving. E.G., a wing that is convex on top and concave on the bottom would generate lift if it were flapping straight up and down. In the same way, it could generate thrust if it were flapping at a fixed angle to the vertical.
"More recent vehicles [...] required the force of another towing vehicle in order to take off, and may not have been capable of generating sufficient thrust for sustained flight."
I'd classify something as "flying" if it's generating enough lift to stay airborne, whether or not it's also generating thrust. So I think the sentence should read "generating enough lift for sustained flight." Steve.Murgaski ( talk) 22:00, 29 September 2013 (UTC)
I would like to make some changes in the "wing design" section. First off, I don't know why there is a bunch of historical information in a section called "wing design". More importantly, some of the information is known to be false.
1. The first point I would like to revise is that Alphonse Penaud introduced the idea of a powered ornithopter in 1874. We know that Penaud flew a rubber-powered ornithopter in 1874, and this was "powered" in the sense that it was not using the muscles of the operator. However, Penaud was not the FIRST to achieve this. According to Octave Chanute's Progress in Flying Machines, Jobert already flew a similar rubber-powered ornithopter in 1871. Also, Gustav Trouve built a powered ornithopter in 1870, which was not rubber-powered. Therefore I would like to delete the claim that Penaud introduced the idea of a powered ornithopter. It could be expained better as follows: "The idea of a powered ornithopter (not using the muscles of the operator) was introduced c. 1870, with the work of Gustave Trouve, Jobert, and others. [2]" I don't think the statement about toys for children is important. It can be deleted. However, if someone wants to preserve this, it should be said "Some of these models were powered by rubber band, and found use as toys for children since the rubber band power source could not effectively scale up to the size of a manned aircraft."
2. Similarly, it is claimed that DeLaurier in 1991 made the first flight of a remotely piloted ornithopter. We know that Spencer flew a remotely-piloted ornithopter in 1961. We have videos and other references documenting this fact. So I want to delete the false statement, or replace it with a correct statement. — Preceding unsigned comment added by Nathanchronister ( talk • contribs) 16:01, 15 February 2014 (UTC)
Can the Agile Flight Project Phoenix be mentioned in article ? See http://groups.csail.mit.edu/locomotion/flight.html
KVDP ( talk) 09:39, 22 May 2014 (UTC)
In the Sci-Fi channel production of Dune, Frank Herbert's original ornithopter transportation was replaced with aircraft that had directionally tiltable wings in which were fixed propellers, used for VTOL, then for forward thrust as the short wings were tilted a bit. This same design appeared in the recent Showcase TV adaptation of Childhood's End. Do we have an article on this? I don't even know if such a vehicle is viable, but since the Dune show referred to them as ornithopters, it seems likely that some readers will come to this article looking for information on them, fictional or not. — SMcCandlish ☺ ☏ ¢ ≽ʌⱷ҅ᴥⱷʌ≼ 07:20, 20 February 2016 (UTC)
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Bat wings are fundamentally different from bird wings, and it’s not just because birds have feathers and bats don’t. Generally, when roboticists design bird-inspired or insect-inspired robots, they use rigid approximations of the wings, or perhaps a few different rigid parts flexibly interconnected. Bat wings don’t work like this at all: The underlying structure of a bat’s wing is made up of “a metamorphic musculoskeletal system that has more than 40 degrees of freedom” and includes bones that actively deform during every wing beat. The wing surface itself is an “anisotropic wing membrane skin with adjustable stiffness.” This level of complexity is what gives bats their unrivaled level of agility, according to the researchers, but it also makes bats wicked hard to turn into robots. The dominant degrees of freedom (DOFs) in the bat flight mechanism are identified and incorporated in B2’s design by means of a series of mechanical constraints. These biologically meaningful DOFs include asynchronous and mediolateral movements of the armwings and dorsoventral movements of the legs. Also, he continuous surface and elastic properties of bat skin under wing morphing are realized by an ultrathin (56 micrometers) membranous skin that covers the skeleton of the morphing wings. We have successfully achieved autonomous flight of B2 using a series of virtual constraints to control the articulated, morphing wings .
Copies directly from this site. [1] Granted, it has a citation, but wicked hard isn't an encyclopediac tone. I don't know if I should change this, reword this, delete it? Assistance required for a newbie, please.
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