This computer is learning to read your mind | DIY Neuroscience, a TED series

126,453 views ・ 2018-09-15

TED


Please double-click on the English subtitles below to play the video.

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Translator: Joseph Geni Reviewer: Krystian Aparta
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Translator: Joseph Geni Reviewer: Daban Q. Jaff
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Greg Gage: Mind-reading. You've seen this in sci-fi movies:
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machines that can read our thoughts.
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However, there are devices today
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that can read the electrical activity from our brains.
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We call this the EEG.
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Is there information contained in these brainwaves?
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And if so, could we train a computer to read our thoughts?
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My buddy Nathan has been working to hack the EEG
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to build a mind-reading machine.
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[DIY Neuroscience]
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So this is how the EEG works.
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Inside your head is a brain,
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and that brain is made out of billions of neurons.
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Each of those neurons sends an electrical message to each other.
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These small messages can combine to make an electrical wave
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that we can detect on a monitor.
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Now traditionally, the EEG can tell us large-scale things,
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for example if you're asleep or if you're alert.
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But can it tell us anything else?
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Can it actually read our thoughts?
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We're going to test this,
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and we're not going to start with some complex thoughts.
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We're going to do something very simple.
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Can we interpret what someone is seeing using only their brainwaves?
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Nathan's going to begin by placing electrodes on Christy's head.
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Nathan: My life is tangled.
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(Laughter)
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GG: And then he's going to show her a bunch of pictures
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from four different categories.
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Nathan: Face, house, scenery and weird pictures.
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GG: As we show Christy hundreds of these images,
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we are also capturing the electrical waves onto Nathan's computer.
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We want to see if we can detect any visual information about the photos
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contained in the brainwaves,
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so when we're done, we're going to see if the EEG
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can tell us what kind of picture Christy is looking at,
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and if it does, each category should trigger a different brain signal.
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OK, so we collected all the raw EEG data,
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and this is what we got.
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It all looks pretty messy, so let's arrange them by picture.
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Now, still a bit too noisy to see any differences,
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but if we average the EEG across all image types
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by aligning them to when the image first appeared,
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we can remove this noise,
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and pretty soon, we can see some dominant patterns
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emerge for each category.
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Now the signals all still look pretty similar.
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Let's take a closer look.
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About a hundred milliseconds after the image comes on,
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we see a positive bump in all four cases,
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and we call this the P100, and what we think that is
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is what happens in your brain when you recognize an object.
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But damn, look at that signal for the face.
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It looks different than the others.
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There's a negative dip about 170 milliseconds
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after the image comes on.
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What could be going on here?
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Research shows that our brain has a lot of neurons that are dedicated
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to recognizing human faces,
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so this N170 spike could be all those neurons
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firing at once in the same location,
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and we can detect that in the EEG.
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So there are two takeaways here.
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One, our eyes can't really detect the differences in patterns
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without averaging out the noise,
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and two, even after removing the noise,
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our eyes can only pick up the signals associated with faces.
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So this is where we turn to machine learning.
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Now, our eyes are not very good at picking up patterns in noisy data,
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but machine learning algorithms are designed to do just that,
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so could we take a lot of pictures and a lot of data
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and feed it in and train a computer
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to be able to interpret what Christy is looking at in real time?
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We're trying to code the information that's coming out of her EEG
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in real time
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and predict what it is that her eyes are looking at.
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And if it works, what we should see
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is every time that she gets a picture of scenery,
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it should say scenery, scenery, scenery, scenery.
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A face -- face, face, face, face,
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but it's not quite working that way, is what we're discovering.
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(Laughter)
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OK.
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Director: So what's going on here? GG: We need a new career, I think.
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(Laughter)
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OK, so that was a massive failure.
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But we're still curious: How far could we push this technology?
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And we looked back at what we did.
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We noticed that the data was coming into our computer very quickly,
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without any timing of when the images came on,
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and that's the equivalent of reading a very long sentence
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without spaces between the words.
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It would be hard to read,
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but once we add the spaces, individual words appear
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and it becomes a lot more understandable.
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But what if we cheat a little bit?
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By using a sensor, we can tell the computer when the image first appears.
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That way, the brainwave stops being a continuous stream of information,
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and instead becomes individual packets of meaning.
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Also, we're going to cheat a little bit more,
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by limiting the categories to two.
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Let's see if we can do some real-time mind-reading.
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In this new experiment,
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we're going to constrict it a little bit more
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so that we know the onset of the image
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and we're going to limit the categories to "face" or "scenery."
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Nathan: Face. Correct.
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Scenery. Correct.
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GG: So right now, every time the image comes on,
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we're taking a picture of the onset of the image
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and decoding the EEG.
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It's getting correct.
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Nathan: Yes. Face. Correct.
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GG: So there is information in the EEG signal, which is cool.
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We just had to align it to the onset of the image.
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Nathan: Scenery. Correct.
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Face. Yeah.
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GG: This means there is some information there,
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so if we know at what time the picture came on,
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we can tell what type of picture it was,
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possibly, at least on average, by looking at these evoked potentials.
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Nathan: Exactly.
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GG: If you had told me at the beginning of this project this was possible,
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I would have said no way.
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I literally did not think we could do this.
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Did our mind-reading experiment really work?
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Yes, but we had to do a lot of cheating.
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It turns out you can find some interesting things in the EEG,
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for example if you're looking at someone's face,
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but it does have a lot of limitations.
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Perhaps advances in machine learning will make huge strides,
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and one day we will be able to decode what's going on in our thoughts.
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But for now, the next time a company says that they can harness your brainwaves
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to be able to control devices,
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it is your right, it is your duty to be skeptical.
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