See invisible motion, hear silent sounds. Cool? Creepy? We can't decide | Michael Rubinstein
317,568 views ・ 2014-12-23
Please double-click on the English subtitles below to play the video.
00:13
So over the past few centuries,
microscopes have revolutionized our world.
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They revealed to us a tiny world
of objects, life and structures
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that are too small for us
to see with our naked eyes.
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They are a tremendous contribution
to science and technology.
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Today I'd like to introduce you
to a new type of microscope,
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a microscope for changes.
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It doesn't use optics
like a regular microscope
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to make small objects bigger,
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but instead it uses a video camera
and image processing
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to reveal to us the tiniest motions
and color changes in objects and people,
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changes that are impossible
for us to see with our naked eyes.
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And it lets us look at our world
in a completely new way.
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So what do I mean by color changes?
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Our skin, for example,
changes its color very slightly
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when the blood flows under it.
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That change is incredibly subtle,
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which is why, when you
look at other people,
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when you look at the person
sitting next to you,
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you don't see their skin
or their face changing color.
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When we look at this video of Steve here,
it appears to us like a static picture,
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but once we look at this video
through our new, special microscope,
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suddenly we see
a completely different image.
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What you see here are small changes
in the color of Steve's skin,
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magnified 100 times
so that they become visible.
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We can actually see a human pulse.
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We can see how fast
Steve's heart is beating,
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but we can also see the actual way
that the blood flows in his face.
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And we can do that not just
to visualize the pulse,
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but also to actually
recover our heart rates,
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and measure our heart rates.
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And we can do it with regular cameras
and without touching the patients.
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So here you see the pulse and heart rate
we extracted from a neonatal baby
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from a video we took
with a regular DSLR camera,
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and the heart rate measurement we get
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is as accurate as the one you'd get
with a standard monitor in a hospital.
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And it doesn't even have to be
a video we recorded.
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We can do it essentially
with other videos as well.
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So I just took a short clip
from "Batman Begins" here
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just to show Christian Bale's pulse.
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(Laughter)
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And you know, presumably
he's wearing makeup,
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the lighting here is kind of challenging,
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but still, just from the video,
we're able to extract his pulse
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and show it quite well.
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So how do we do all that?
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We basically analyze the changes
in the light that are recorded
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at every pixel in the video over time,
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and then we crank up those changes.
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We make them bigger
so that we can see them.
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The tricky part is that those signals,
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those changes that we're after,
are extremely subtle,
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so we have to be very careful
when you try to separate them
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from noise that always exists in videos.
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So we use some clever
image processing techniques
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to get a very accurate measurement
of the color at each pixel in the video,
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and then the way the color
changes over time,
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and then we amplify those changes.
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We make them bigger to create those types
of enhanced videos, or magnified videos,
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that actually show us those changes.
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But it turns out we can do that
not just to show tiny changes in color,
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but also tiny motions,
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and that's because the light
that gets recorded in our cameras
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will change not only if the color
of the object changes,
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but also if the object moves.
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So this is my daughter
when she was about two months old.
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It's a video I recorded
about three years ago.
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And as new parents, we all want
to make sure our babies are healthy,
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that they're breathing,
that they're alive, of course.
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So I too got one of those baby monitors
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so that I could see my daughter
when she was asleep.
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And this is pretty much what you'll see
with a standard baby monitor.
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You can see the baby's sleeping, but
there's not too much information there.
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There's not too much we can see.
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Wouldn't it be better,
or more informative, or more useful,
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if instead we could look
at the view like this.
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So here I took the motions
and I magnified them 30 times,
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and then I could clearly see that my
daughter was indeed alive and breathing.
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(Laughter)
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Here is a side-by-side comparison.
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So again, in the source video,
in the original video,
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there's not too much we can see,
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but once we magnify the motions,
the breathing becomes much more visible.
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And it turns out, there's
a lot of phenomena
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we can reveal and magnify
with our new motion microscope.
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We can see how our veins and arteries
are pulsing in our bodies.
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We can see that our eyes
are constantly moving
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in this wobbly motion.
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And that's actually my eye,
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and again this video was taken
right after my daughter was born,
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so you can see I wasn't getting
too much sleep. (Laughter)
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Even when a person is sitting still,
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there's a lot of information
we can extract
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about their breathing patterns,
small facial expressions.
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Maybe we could use those motions
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to tell us something about
our thoughts or our emotions.
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We can also magnify small
mechanical movements,
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like vibrations in engines,
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that can help engineers detect
and diagnose machinery problems,
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or see how our buildings and structures
sway in the wind and react to forces.
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Those are all things that our society
knows how to measure in various ways,
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but measuring those motions is one thing,
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and actually seeing those
motions as they happen
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is a whole different thing.
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And ever since we discovered
this new technology,
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we made our code available online so that
others could use and experiment with it.
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It's very simple to use.
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It can work on your own videos.
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Our collaborators at Quanta Research
even created this nice website
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where you can upload your videos
and process them online,
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so even if you don't have any experience
in computer science or programming,
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you can still very easily experiment
with this new microscope.
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And I'd like to show you
just a couple of examples
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of what others have done with it.
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So this video was made by
a YouTube user called Tamez85.
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I don't know who that user is,
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but he, or she, used our code
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to magnify small belly
movements during pregnancy.
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It's kind of creepy.
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(Laughter)
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People have used it to magnify
pulsing veins in their hands.
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And you know it's not real science
unless you use guinea pigs,
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and apparently this guinea pig
is called Tiffany,
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and this YouTube user claims
it is the first rodent on Earth
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that was motion-magnified.
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You can also do some art with it.
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So this video was sent to me
by a design student at Yale.
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She wanted to see
if there's any difference
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in the way her classmates move.
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She made them all stand still,
and then magnified their motions.
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It's like seeing
still pictures come to life.
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And the nice thing with
all those examples
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is that we had nothing to do with them.
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We just provided this new tool,
a new way to look at the world,
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and then people find other interesting,
new and creative ways of using it.
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But we didn't stop there.
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This tool not only allows us
to look at the world in a new way,
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it also redefines what we can do
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and pushes the limits of what
we can do with our cameras.
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So as scientists, we started wondering,
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what other types of physical phenomena
produce tiny motions
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that we could now use
our cameras to measure?
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And one such phenomenon
that we focused on recently is sound.
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Sound, as we all know,
is basically changes
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in air pressure that
travel through the air.
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Those pressure waves hit objects
and they create small vibrations in them,
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which is how we hear
and how we record sound.
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But it turns out that sound
also produces visual motions.
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Those are motions
that are not visible to us
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but are visible to a camera
with the right processing.
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So here are two examples.
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This is me demonstrating
my great singing skills.
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(Singing)
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(Laughter)
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And I took a high-speed video
of my throat while I was humming.
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Again, if you stare at that video,
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there's not too much
you'll be able to see,
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but once we magnify the motions 100 times,
we can see all the motions and ripples
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in the neck that are involved
in producing the sound.
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That signal is there in that video.
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We also know that singers
can break a wine glass
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if they hit the correct note.
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So here, we're going to play a note
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that's in the resonance
frequency of that glass
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through a loudspeaker that's next to it.
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Once we play that note
and magnify the motions 250 times,
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we can very clearly see
how the glass vibrates
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and resonates in response to the sound.
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It's not something you're used
to seeing every day.
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But this made us think.
It gave us this crazy idea.
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Can we actually invert this process
and recover sound from video
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by analyzing the tiny vibrations
that sound waves create in objects,
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and essentially convert those
back into the sounds that produced them.
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In this way, we can turn
everyday objects into microphones.
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So that's exactly what we did.
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So here's an empty bag of chips
that was lying on a table,
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and we're going to turn that
bag of chips into a microphone
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by filming it with a video camera
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and analyzing the tiny motions
that sound waves create in it.
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So here's the sound
that we played in the room.
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(Music: "Mary Had a Little Lamb")
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And this is a high-speed video
we recorded of that bag of chips.
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Again it's playing.
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There's no chance you'll be able
to see anything going on in that video
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just by looking at it,
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but here's the sound we were able
to recover just by analyzing
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the tiny motions in that video.
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(Music: "Mary Had a Little Lamb")
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I call it -- Thank you.
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(Applause)
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I call it the visual microphone.
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We actually extract audio signals
from video signals.
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And just to give you a sense
of the scale of the motions here,
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a pretty loud sound will cause that bag
of chips to move less than a micrometer.
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That's one thousandth of a millimeter.
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That's how tiny the motions are
that we are now able to pull out
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just by observing how light
bounces off objects
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and gets recorded by our cameras.
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We can recover sounds
from other objects, like plants.
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(Music: "Mary Had a Little Lamb")
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And we can recover speech as well.
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So here's a person speaking in a room.
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Voice: Mary had a little lamb
whose fleece was white as snow,
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and everywhere that Mary went,
that lamb was sure to go.
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Michael Rubinstein: And here's
that speech again recovered
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just from this video
of that same bag of chips.
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Voice: Mary had a little lamb
whose fleece was white as snow,
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and everywhere that Mary went,
that lamb was sure to go.
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MR: We used "Mary Had a Little Lamb"
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because those are said to be
the first words
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that Thomas Edison spoke
into his phonograph in 1877.
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It was one of the first sound
recording devices in history.
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It basically directed the sounds
onto a diaphragm
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that vibrated a needle that essentially
engraved the sound on tinfoil
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that was wrapped around the cylinder.
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Here's a demonstration of recording and
replaying sound with Edison's phonograph.
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(Video) Voice: Testing,
testing, one two three.
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Mary had a little lamb
whose fleece was white as snow,
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and everywhere that Mary went,
the lamb was sure to go.
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Testing, testing, one two three.
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Mary had a little lamb
whose fleece was white as snow,
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and everywhere that Mary went,
the lamb was sure to go.
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MR: And now, 137 years later,
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we're able to get sound
in pretty much similar quality
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but by just watching objects
vibrate to sound with cameras,
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and we can even do that when the camera
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is 15 feet away from the object,
behind soundproof glass.
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So this is the sound that we were
able to recover in that case.
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Voice: Mary had a little lamb
whose fleece was white as snow,
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and everywhere that Mary went,
the lamb was sure to go.
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MR: And of course, surveillance is
the first application that comes to mind.
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(Laughter)
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But it might actually be useful
for other things as well.
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Maybe in the future, we'll be able
to use it, for example,
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to recover sound across space,
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because sound can't travel
in space, but light can.
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We've only just begun exploring
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other possible uses
for this new technology.
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It lets us see physical processes
that we know are there
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but that we've never been able
to see with our own eyes until now.
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This is our team.
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Everything I showed you today
is a result of a collaboration
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with this great group
of people you see here,
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and I encourage you and welcome you
to check out our website,
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try it out yourself,
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and join us in exploring
this world of tiny motions.
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Thank you.
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(Applause)
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