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  • Drones are awesome, but they could be even better.

  • Like, they're kind of hopeless in smoke or fog.

  • And they're just sobig.

  • I want a drone that fits on my finger like a bug!

  • That kind of thing is exactly why engineers have been turning to nature to perfect drone tech.

  • After all, animals have been flying for more than 300 million years, so they've got a bit of a head start on us.

  • And we can learn a lot from them about navigation, miniaturization, and even the best color to be for optimal flight.

  • It's not hard to imagine a situation where it might be helpful for a drone to have an idea what's around it.

  • Like, imagine if a drone could find its way through smoke-filled rooms in a burning building.

  • It could help emergency workers save lives by scanning areas where people might be trapped.

  • But smoke makes it pretty hard to see anything because the small particles bounce visible light all over the place.

  • And it's not just smoke.

  • Fog, snow, dustany time you have lots of light-scattering particles, it can be pretty tricky to see where you're going.

  • Even some radar gets stumped.

  • So to help drones navigate these conditions, scientists are studying animals whoseewith more than their eyes.

  • Echolocators like bats map their environment based on how long it takes a sound to echo back after they make it.

  • Sound is a pressure wave, so it mainly moves through the air around particles instead of getting bounced.

  • But while a couple of scientists have made drones based on bats, bats are pretty hard to mimic.

  • They're smaller and more maneuverable than a lot of today's drones,

  • and bats have evolved a ton of really specialized structures in their brains and bodies that are great for

  • echolocation but aren't easy to recreate.

  • So another team of scientists looked at oilbirds instead.

  • These South American birds use echolocation to find their way around caves,

  • but they're bigger than bats and their echolocation isn't quite so sophisticated.

  • Plus, they use their talents more sparingly.

  • When there's a lot of light, they mostly use their eyes.

  • Then, when it gets darker, they switch to their ears more and more.

  • And that kind of switching between systems is exactly what you'd want in an autonomous drone.

  • But it'll probably be a little while before any oilbird-inspired drones hit the market.

  • Researchers still need to figure out how the birds' brains combine all this information

  • to create a single picture of the world, because that's what drones will need to do

  • before we can let them fly by ear.

  • Now, one of the upsides to oilbirds is that they're already about the same size as modern drones.

  • But one of the big goals of drone tech is to go small.

  • Problem is, really small drones can't fly the same way that big ones do

  • Because physics.

  • Today's drones mainly have fixed wings like planes, or spinning blades like helicopters.

  • But once fixed wings and blades get down around a few centimeters long or less, they stop generating the lift needed to stay airborne.

  • Air just doesn't really glide around small things like it does big ones.

  • Instead, it piles up, and little random differences in pressure from one place to another push objects around

  • destroying any lift they get from moving through the air in the first place.

  • But we know that small things can fly because insects exist.

  • And researchers are learning from them how to miniaturize.

  • Insects don't use rotary blades for wings, for example.

  • And their wings don't stay still, either.

  • They're constantly flapping during flight, and the smaller they are, the more they flap.

  • Flapping wings are just better for flying at small sizes where flying depends on pushing

  • against the air instead of gliding through it.

  • So engineers have built little, flappy drones modelled after little, flappy insects.

  • They're still working on efficient batteries for something so tiny,

  • and they're still trying to make their little mechanical insects as stable as actual insects are.

  • But they imagine a future where tiny drones can do things like precision-pollinate crops.

  • We could try to train bees to do that, of course, but it turns out they don't always listen when we tell them what to do.

  • And who can blame them when they look so cool in those classic black and yellow outfits.

  • Though, bees do come in different colors. And so can drones.

  • And it turns out that different colors don't just make your drone look coolstudies on

  • animals suggest they might actually help it fly.

  • Right now, you can split drones into two broad color groups: Black ones and not-black ones.

  • But they should probably all be black.

  • You see, a lot of animals have what's called countershading.

  • They're light on the bottom because it makes them look more like what's above,

  • and they're dark on the top because it makes them look more like what's below.

  • Or, so everyone thought.

  • But experiments with models of birds, dolphins, and orcas have all found that darker backs may be more than camouflage.

  • Both in air and water, they seem to let the animals move with less drag because of how dark colors absorb and radiate heat.

  • They heat up faster from sunlight and transfer that heat to what's around them, which

  • makes the air or water they're in thinner and easier to move through.

  • So if you want a drone that uses as little energy as possible to fly,

  • you should get one that's the color we all instinctively know is the coolest: black.

  • Also, if someone ever says you wear too much black, just tell them you want to be more aerodynamic.

  • And the next time you see a tiny, black, screaming drone flapping its wings above your head,

  • you'll know which human and non-human animals you have to thank for the technological marvel.

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研究動物如何幫助我們製造更好的無人機? (How Studying Animals Is Helping Us Make Better Drones)

  • 16 1
    林宜悉 發佈於 2021 年 01 月 14 日
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