Mechanical Butterflies? 356
MImeKillEr writes "According to an article on BBC News, two researchers from Oxford took highspeed photographs of an Admiral butterfly in a specially-designed windtunnel to study how butterflies fly. The resulting research brings insight into small-scale flight dynamics. Although the article doesn't give an ETA on this, they expect to be able to build an aircraft with a 10cm wingspan that will be either autonomous or radio controlled. This will allow them to be used in rescue missions, cave exploration and possibly even on Mars."
Don't forget... (Score:5, Insightful)
Lem (Score:1)
Of course the military! (Score:3, Funny)
Oh, right, the military! This is exactly what I thought when I read about "tiny radio controlled flying vehicles with video capture capability." I surely can't see any better uses [voyeurweb.com] for them. (Who said I do?!)
Re:Of course the military! (Score:1)
Re:Don't forget... (Score:1)
Simpsons Did It! (Score:2)
Simpsons Did It! So did Danny Dunn (Score:1)
In Danny Dunn, Invisible Boy, the professor builds a life-sized dragon fly that is flown by remote control. It had eyes and ears, and he thought of using it for exploring. Danny Dunn ends up destroying it, and the professor's notes, when the government develops an interest in using it for spying on people.
Did anybody else on Slashdot read the Danny Dunn books when they were children? His mother is the housekeeper for Professor Bullfinch, and they have all sorts of adventures that are, for the most part, scientifically possible, at least sort of. Danny Dunn and the Homework Machine featured a computer called MINIAC.
I tend to think of the Danny Dunn books as being the geek's version of the Hardy Boys or Nancy Drew, except that they're good.
My taxes (Score:2, Funny)
Re:My taxes (Score:1)
Re:My taxes (Score:1)
Could you imagine... (Score:5, Funny)
...if the MSN marketroids ever got their hands on this technology...arrgh the butterflies...they're everywhere...
Re:Could you imagine... (Score:5, Funny)
Re:Could you imagine... (Score:2)
Someone's charging room service to the company?
I can imagine... (Score:3, Funny)
Re:I can imagine... (Score:1)
In other news . . . (Score:1, Funny)
mechanical birds = ornithopters (Score:2, Informative)
but really hard to fly : planes with flapping wings
this technology is today where fixed wing tech war one century ago (ie a few hundred meters flight at 2 or 3 meters altitude)
www.ornithopter.net/
Re:mechanical birds = ornithopters (Score:5, Interesting)
What about fuel (Score:1)
I mean sure cool you can fly a littly x10 butterfly up to look in your neighbours windows but if it can only stay there for a minute, whats the point?
--
nich
Re:What about fuel (Score:3, Interesting)
Also, all this thing has to do is broadcast a live video transmission. Recording it can be done remotely, so you don't have to worry about either recovering the device, or taking up weight with memory or recording media. Simply fly in as far as the power source will allow then either recover the device later or hope the images you have are worth the cost of losing it.
Re:What about fuel (Score:1)
I think the neighbor girl might notice.
Re:What about fuel (Score:2)
Re:What about fuel (Score:2)
Re:What about fuel (Score:4, Interesting)
We can produce aeroplanes that will fly around the world without refuelling. No bird can do this.
I see no fundamental reason why we can't produce a mechanical butterfly that can operate for days without refuelling as real butterflies can achieve this. If you are really small then the energy required to keep you aloft is really small also. I've absolutely no idea how much energy a butterfly requires to keep it in the air for a day but my guess would be that it is considerably less than that contained in one drop of petrol.
the World we Live in (Score:5, Insightful)
and possibly, terrorism. and possibly Big Brother's lil Helpers, and possibly a pest to native birds who try to eat them.
What a world we live in!
Re:the World we Live in (Score:3, Insightful)
Always look on the briight siide of life. ba do ba do
Re:Evil Dictator of the week (Score:2)
So let me get this straight... (Score:5, Funny)
Good morning slashdot!
Re:So let me get this straight... (Score:2)
Finally !! (Score:2)
I heard this on NPR (Score:5, Insightful)
In other news... (Score:5, Funny)
They have responded by ordering several large nets.
Re:In other news... (Score:3, Funny)
Furthermore, said nets will be delivered by cargo vessel underneath bags of cement.
Not for a long time. (Score:1)
The butterfly has had hundreds of millions of years to develop it's flight model. It's just not as simple as 'wings shaped like this, that flap like this'. It's about the finely tuned control mechanisim (in this case, butterfly brain) that controls the speed, angle, force, curvature etc, of the wings that counts.
This reminds me of people who keep insisting Moores Law will deliver us a smart computer soon. I could wait forever, but hyper threading technology is never going to say something smart.
It also reminds me of a joke; What's the last thing that goes through a bugs mind as it hits a windshield? It's ass.
Re:Not for a long time. (Score:5, Insightful)
> millions of years to develop it's
> flight model.
So what? The lotus flower had at least as much time to develop its self-cleaning petals, but it took human scientists just a few years to develop an agent that gives any glass surface the same property just by spraying it on. It forms the same nano structures that make water drops, which take every trace of dust and dirt with them, flow off completely, or even drops of super glue.
> It's about the finely tuned control
> mechanisim (in this case, butterfly brain)
Oh look, behold the mighty powers of the butterfly brain, which is about as intelligent as my cheapo Casio watch. I don't see much problems with emulating this. By the way, most of the 'knowledge' about flying isn't in that tiny butterfly brain anyway, it's hardwired into the nervous system. The wings flap so fast that the delay of sending impulses all the way to the brain and back all the time would be too big.
Re:Not for a long time. (Score:3, Interesting)
Ok, to clarifly; I think this problem, or almost any other AI problem, _can_ be solved by this aproach, just not in a efficient way (like NP hard kind of efficient ) Intelligent behaviour arises directly out of the relationships of parts, not out of any real ability of the parts.
You say your watch is about as smart as a butterfly. Let's see it fly to Mexico and get laid.
In the end, I think you might just be able to get a Casio watch to pilot a butterfly, but it's going to take a lot more insight than some high speed photographs.
Re:Not for a long time. (Score:2, Insightful)
If you're thinking about writing algorithms (if-then-else-style) that emulate a butterfly's behaviour down to every wing-movement and fitting them into a tiny microchip: yes, that would be _very_ hard.
Of course you can't actually achieve anything with wrist-watch technology; however, there are alternatives: Self-learning algorithms, neural networks, genetic algorithms, etc. There was that
misinformed (Score:1)
The experiment was in fact a success.
Re:misinformed (Score:1)
Now, whether the butterfly was given specific goals when it was created or whether it had to come up with it's own is a different debate altogether
What's so good about evolution? (Score:5, Insightful)
What may be useful is that the process can find non-intuitive solutions to problems and there is a built in robustness to what emerges. Random variation has to have a wider tightrope to walk or any deviation from the norm would be fatal. Complex evolved systems also tend to have a built in redundancy as they grow out of similar and simpler systems which become interrelated.
Slashdotters may remember a report a year or so old about an evolving robot which developed dragonfly-like flight. Why take a pattern found in nature (photographic the butterfly) and try to work out how it works when you can evolve it directly with a learning system? If you're going to ape evolved systems it seems much more sensible (and easier) to me to ape the process rather than the result.
Re:What's so good about evolution? (Score:1, Interesting)
Re:What's so good about evolution? (Score:3, Insightful)
What's so good about evolution is, as you allude to, the robust testing mechanism. The hardest part about genetic algorithms and other forms of self-learning is defining the criterion to judge any given solution by. Evolution has that covered -- if the organism can survive and reproduce in the face of limited resources, other organisms that may think of the organism as food, adverse weather, and everything else the world can throw at a poor carbon-based mess of chemicals.
That's part of why studying the existing solution can be beneficial. Could the genetic-algorithm-based dragonfly fly in the rain? A stiff breeze? The answer could easily be no, and the only way to get it to learn that is to expose it to those elements. This naturally slows down the learning process (you can't only progressively expose it to new tests, because it could easily 'forget' how to fly when it's not raining otherwise). Okay, that may be a bad example, as I don't think offhand that dragonflies can fly in the rain... But I think you see the point.
I love genetic algorithms (mostly because it saves -me- from having to solve the problem myself
Re:Not for a long time. (Score:1, Insightful)
> millions of years to develop it's
> flight model.
So what? The lotus flower had at least as much time to develop its self-cleaning petals, but it took human scientists just a few years to develop an agent that gives any glass surface the same property just by spraying it on.
True, but the lotus flower is capable a lot more than just repelling water/dirt: it can repair the damaged surface, it can reproduce itself literally out of nothing - just water, sunlight and some minerals. Moreover it can come up with new designs if the environment changes. The list could go on.
Try to top that with a bunch of scientists and a few years of development...
Re:Not for a long time. (Score:1)
Re:Not for a long time. (Score:2)
Google Search [google.com]. How hard was that?
Re:Not for a long time. (Score:3, Insightful)
You're saying human scientists were able to do that a few years after we speciated from whatever our direct ancestor was? Wow, I missed that.
No, really, I understand -- you're saying it won't necessarily take forever, now we've thought of it, to mimic butterfly flight. Maybe.
But go take a look and see how long submarine designers have been trying to mimic the agility (and specifically, lack of drag) of dolphins in the water. Or watch the way a sparrow uses stall speed when it lands on a tree branch outside your office window. Ain't necessarily all that easy. We can't make robots that run around like a five-year-old can, and that's a mode of locomotion we know pretty well, right?
I have liatris aspera plants in my front priarie garden -- a monarch magnet -- and sometimes in August there are maybe eight butterflies dogfighting for position out there. They aren't sluggish in flight, not at all. Maybe you haven't watched a buttefly lately?
Re:Not for a long time. (Score:2)
No, but we're getting better. Check out Asimo [ananova.com] and his home page [honda.com]. (Yes, I submitted it. ;^)
Re:Not for a long time. (Score:2, Interesting)
A lot of really smart people have been working on this for a while now, and even the 'simplest' insects have us beat by a long shot.
Simply put, our robotics sucks. It takes immense processing power to have a robot that can pick up a cup of water, so long as the cup is *always* in the exact same place, the arm in the exact same start position.
Now try making your casio watch navigate all the way to Mexico using scent and light to guide it.
Anyways, insects have decentralized nervous systems compared to ours, so I think it's safe to say that it's brain "knows" about flying. You can consider the whole nervous system it's 'brain'.
I feel pretty good about this (Score:1)
I take a look at the science fiction books that I read years back and I look at now. Soon my favorite science fiction books will become not just speculation, but reality. Things like mechanical butterflies aren't something to be scoffed at like I assume some will, but something to be hailed.
I yearn for the days that these little mettalic insects can be seen fluttering in flocks towards fires or car accidents, offering those minded to it a warning of danger or peril.
I feel good right now, the technologically advanced world I want for my children could be at hand sooner than I thought.
Re:I feel pretty good about this (Score:2)
mars mission? (Score:5, Informative)
So if you have something that flies on Earth, it's still a long way to go until you get it to fly on Mars.
Re:mars mission? (Score:1)
Re:mars mission? (Score:4, Insightful)
The weight of the wings will increase with the cube of the size of the wings, meanwhile the lifting power of the wings will increase with the square of the size of the wings. It is quite concievable that by the time you get the wings large enough to lift the body in a Martian atomsphere the wings will weigh too much to lift themselves and the body as well.
Plus, just scaling the wings won't work. Any serious increase in the size of the wings will require you to increase the size of the motor, solenoid, dielectric fiber, or whatever is moving the wing.
This is not to say it can't be done. I really have no clue if it's feasable on a Mars. It's just that just scaling the wings won't work.
Re:mars mission? (Score:4, Funny)
Yeesh.
______________
Re:mars mission? (Score:3, Informative)
In an unnamed project, we had the task of building a simulator (99.9% accurate, my what fun) for flight on mars. After building the system, when the plane reached 180 knots it would begin an oscillation pattern that would eventually drive it into the ground.
We got some aerospace engineers to take a look at the problem, and they started laughing and said that was normal because we were breaking the speed of sound at that altitude/speed.
Flying on mars is much different than flying on earth for a lot of things you wouldn't directly think about. But you are right, scaling wings wouldn't do anything right there. The best way to make a plane to fly on Mars is to look into glider dynamics.
Re:mars mission? (Score:2)
Admiral butterfly? (Score:2, Funny)
Re:Admiral butterfly? (Score:1)
Re:Admiral butterfly? (Score:1)
No, it certainly would not. Especially when he would start to scream: "Developers!!! Developers!!! Developers!!! Developers!!! Developers!!! Developers!!! Developers!!! Developers!!! Developers!!! Developers!!! Bow before me as I am Admiral Butterfly!!!"
No one's posted it... Don't mod me up (or down) (Score:1)
Re:No one's posted it... Don't mod me up (or down) (Score:1)
Take a look at:
http://support.bbc.co.uk/support/
http://suppo
Jason
Quantum Butterfly (Score:1)
Mars? (Score:1)
Fear the R. A. F. (Score:2)
So is anyone else here in the States concerned that there might be a growing gap in clap and fling technology?
Mechanical weather control - at last (Score:2)
Do we now have robotic weather control ?
The butterfly effect (Score:1)
Swarms + GPS (Score:3, Insightful)
Send a massive swarm out that all broadcast back small pieces of the scene from different angles. All of the physical location data is combined with the video, a computer back at "base" assembles it all into a 3D VR world.
Then you as a participant ("butterfly tamer" ?)could control the swarm, and as you moved through VR space, the butterflies would move through physical space to try to build up the detail of image necessary for what you're looking at.
Re:Swarms + GPS - flocking behaviour links (Score:2, Informative)
Links to AI flocking behaviour resources which might be of interest....
Oxford Uni:
http://www.maths.ox.ac.uk/~sumpter/
Craig Reynolds (early boid work):
http://www.red3d.com/cwr/boids/
Manchester Uni:
http://www.eng.man.ac.uk/Aero/wjc/Research/
US Airforce:
http://www.vs.afrl.af.mil/News/99-23.h
Mars? Doubtful. (Score:1)
This definitely reminds me of the ornithopter.. (Score:3, Interesting)
Again, reality imitates (science) fiction. Nice!
smallest rc airplane (Score:3, Informative)
Re: (Score:2)
Won't see this for a while (Score:1)
The problem is, a butterfly uses quite a bit of energy (relative to its size) to keep itself aloft. Unless we have a reliable way to generate a proportional amount of energy while keeping the power source light enough, we won't be able to simulate the flight of a butterfly.
Honestly, I think we should stick to planes for a while. We've got enough trouble keeping them in the air and running on time; best not muck it up by throwing butterflies in the mix.
To Mars? (Score:2)
Ripe for acquisition (Score:2, Funny)
Probably one that makes mechanized predatory birds.
Powering mechanical butterflies (Score:2, Interesting)
Okay, so my question is how one could possibly power a mechanical butterfly. Living butterflies subsist on nectar; it's high energy, but they still need a massive daily intake. So, it seems like powering a butterfly would require a super-light-weight battery with long life and high output. Photovoltaic wings might work, but then it couldn't fly at night. Any thoughts on other sources of power? Superconducting monofilament extension cords?
And incidentally, the article says that insect wings get 10 times as much lift as airfoils. Presumably, that's for airfoils moving at the speed of insects. Has anyone found a way to test this with a butterfly moving the speed of a jet plane? I'm curious if the proportion holds true at all speeds, or if the ratio collapses as speed increases.
Re:Powering mechanical butterflies (Score:2, Interesting)
In caves? Hardly. (Score:3, Informative)
RC butterflies or RC anything-else just ain't gonna happen in a cave.
Espionage? Not with butterflies... (Score:3, Interesting)
How many times have you heard someone say, "look at the pretty horsefly on the windowsill"? Eh, never right? But we notice butterflies, because they are beautiful and elegant. In fact, of all of the insects around, I'd say butterflies are the ones most likely to be noticed, picked up, and examined because they are colorful and generally harmless. Well, that's probably the last thing you want, someone picking up your robot spy. "Hey, this butterfly has a resistor soldered to it's back..."
So the idea of making a robotic butterfly spy is probably not workable. Maybe a robotic cockroach spy..? Never mind, they'd just get stomped on sight. That might just be the real problem, trying to find an insect that wouldn't provoke interest, either positive or negative.
The RoboFly (Score:1)
Meteorological Warfare (Score:3, Funny)
If you get a large group of gigantic[1] butterflies flapping their wings on one side of the planet, can you imagine the havoc it would create on the other side of the planet. Hurricanes, Whirlwinds and Typhoons at the drop of a hat (or flap of a wing).
[1] Gigantic on the butterfly scale of things.
Danny Dunn, Invisible Boy predicted this! (Score:2)
Danny Dunn had a dragonfly made out of super light and tough plastic propelled by jets of air, and eyes that were hooked up to a helmet you put over your head. The helmet gave you a 280+/- degree view of your surroundings, and allowed you to hear what was going on in the vicinity. It was completely immersive and seamless to the user. (VR!)
Pretty cool for 50s-early 60's tech. :)
Wishful thinking (Score:1)
Or, much more likely, espionnage and assassination. Idealists.
Or... (Score:2)
Or by microsoft for advertising purposes!
Rescue missions? (Score:2)
How many butterflies does it take to pry open the door of an automobile and lift the occupant to safety? How many to put out a house fire? Or rescue a downing person swept away in a flood? Or locate an Altzheimer's patient who has wandered away from home?
That's what I thought.
It's interesting research, but lets not blow this out of proportion or set unrealistic expectations by exaggerating the usefulness of the (proposed) technology.
Anyone see T2:3D at Universal Studios Orlando? (Score:2, Interesting)
Of course, I'm also having a vision of Neal Stephenson's Diamond Age, not so much because he mentioned robot butterflies (he didn't, in fact) but just the general concept he had of nano-tech gardens.
Because... (Score:2)
This is NOT a new idea... (Score:2, Informative)
Here's a link to it: http://www.cosmiverse.com/space12030102.html [slashdot.org]
It also explains how the thin atmosphere of Mars actually works to help their design of a flapping winged robot.
My Paranoid Response (Score:3, Insightful)
Mosquito nets, repellant and bugspray will take on new meanings in the not-too-distant future.
Gee what originality... (Score:2)
Gosh, can you imagine what would happen if tens of thousands of people had small portable, self contained powered, remote, broadcastable color TV cameras...
oh wait they do [x10.com]
-Malakai
Iron Butterfly? (Score:2)
Although In-A-Gadda-Da-Vida would make for much cooler space music than Thus Spake Zarathustra.
Two words... (Score:2)
Fun stuff to look into - I seem to remember not too long ago a /. article on a MAV constructed in which they posted a white paper (in PDF format, IIRC) on the device - it was pretty small, several centimeter wingspan, used a pager motor for propulsion and custom micro-servos for control, and had an onboard wireless video camera. I remember that supposedly it could stay aloft for up to 30 minutes of flight time, and was made from dense styrofoam. The white paper was detailed enough that someone (aka - r/c flight hobbiest) could easily build such a thing from the description and pictures given.
I suggest that if you are interested in building such a thing, look into using parts from micro-RC race cars. Some people are already experimenting - I read about one guy in Japan who tried to build a micro plane from his micro-car parts by attaching them to a small balsa glider (it didn't work very well - but it was a start)...
Already patented ... (Score:2)
Actually... (Score:2)
What fascinated me was what they'd discovered about the flight patterns of butterflies. Apparently the idea of a "chaos butterfly" has another meaning. A butterfly's flight is literally random. Their wings are controlled by around 5 sets of muscles, each causing a different kind of movement, which causes their erratic flight. The thing is, the researchers can't find a pattern to it. The military was looking at butterflies because of this erratic flight pattern. It makes them nearly impossible to catch. Very good for spy-bugs.
But in all truth, the science is really awesome, but the proposed military applications are disturbing. If they have robotic bug-spies.. they could literally have eyes anywhere, and who says they'd restrict it to enemy territory? This is the war on terrorism, a war which Bush is assuming is on the home front, and I think he's already shown how far he will go to root out suspected terrorists.
Who needs spying butterflies (Score:2)
oh, I can hear it now... (Score:2)
Damn! Tell them to send another one...
Re:hard to fly on mars.. (Score:3, Informative)
.Got to get facts straightened out.
on a side note. Lets attack Mars.
Re:IN SOVIET RUSSIA (Score:1)
If you aren't careful; I'll gather a bunch of Russian jokes and net them into a GIANT Beowulf Cluster, in order to exact a fitting revenge.
Re:probably end up used for weapons (Score:1)
Re:Finally, the kaiju flick I've been waiting for. (Score:2)
Since the 90s, Mothra marrionettes have included robotics. If you watch the "making of" for GMK, you can see them build Mothra and the suits, and test the robotic Mothra and the robotic heads. Godzilla's head was especially impressive: it could roll and blink its eyes, shake its head and bare its teeth. The soft latex "skin" was moved by robotic "muscles" underneath. Also, Godzilla could breath.
Would someone kindly photograph an Atlas moth (a large Malaysian moth with the same orange stripped body as Mothra) in that gizmo and send the results to Toho? Mothra would appreciate that very much.
"It's a miracle! The sea water has once again created new life."
Moll, "Rebirth of Mothra 2"
The new "Godzilla X Mechagodzilla" will be opening in Japanese theaters on December 14th.