Laser Camera Can See Around Corners 97
Hugh Pickens writes "Researchers at MIT have developed a laser camera that can 'see' around corners and take pictures of a scene not in its direct line of sight. The camera system fires extremely short bursts of light that can reflect off one object, such as the open door of a room, and then off a second object inside the room before reflecting back to the first object and being captured by the camera, after which algorithms can use the information to reconstruct the hidden scene exploiting the fact that it is possible to capture light at extremely short time scales, about one quadrillionth of a second. By continuously gathering light and computing the time and distance that each pixel has traveled, the camera creates a '3D time-image' of the scene it can't directly see. 'It's like having X-ray vision without the X-rays,' says Professor Ramesh Raskar. 'We're going around the problem rather than going through it.'"
Re:No images (Score:5, Funny)
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Re:No images (Score:5, Informative)
Try this:
http://www.bbc.co.uk/news/technology-11544037 [bbc.co.uk]
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Indeed. And based on that pic, you can see (or not - no pun intended) why there wasn't a pic in the other write-ups. As the BBC article says:
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A "looking round the corner" device is likely to be very expensive and so only useful to a few people.
Re:No images (Score:4, Funny)
Here's a related video: http://www.youtube.com/watch?v=KUFkb0d1kbU [youtube.com]
TSA can look up your trousers (Score:3, Funny)
Great, so instead of x-raying or groping travellers, maybe TSA can subtly take a few snaps up the leg of people's trousers and down the top of your t-shirt :-)
http://www.prisonplanet.com/tsa-now-putting-hands-down-fliers-pants.html [prisonplanet.com]
http://www.wired.com/threatlevel/2010/11/tsa-investigating-passenger/ [wired.com]
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+1 Scary.
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NOT Funny (Score:1)
It's like having X-ray vision without the X-rays (Score:5, Funny)
It's like having X-ray vision without the X-rays...
So it's like having vision?
Here's a link to the actual MIT site... (Score:5, Informative)
http://web.media.mit.edu/~raskar/femto/ [mit.edu]
Enough of Slashdot's SEO link farming spammy shit. Here's what you want to read, unless you like your science news dumbed down to a third grade level.
Re:Here's a link to the actual MIT site... (Score:4, Funny)
[quote]Light travels 1 foot/nanosecond(...)[/quote]
How much is that in Libraries of Congress?
Really, foots per nanosecond? I thought it was a scientific experiment.
C is exactly 299792458 ms.
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You were modded funny but you should have been modded pedantic. If you really want to be pedantic you should have pointed out that in an atmosphere or other non-vacuum medium it is slower than theoretical C. Second, one foot is a very good approximation of the speed of light and perfectly suitable to use in a non-journal science article. Seriously, if you're going to nitpick like that you really need to get a life and move out of your mother's basement.
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Continuing the pedantry a bit further, the speed of light is denoted as c, not C.
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foots is what you should wonder about
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There's nothing wrong with writing for your audience. If you see ft/ns in "Nature", feel free to flame.
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Damn /. eating my superscript. It's m/s.
Re:Here's a link to the actual MIT site... (Score:4, Funny)
"C is exactly 299792458 ms" ...which is precisely as arbitrary, if more widely accepted, than cubits per moon phase.
I swear, metric evangelism is becoming more rabid every week. Oh wait, I'm sorry, it's becoming more rabid every 2/100ths of a year.
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It's not, because the meter is defined by c, so in this particular case, it offers a precise value.
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sure would have been nice if they fixed it at 300,000,000 m/s as it would be pretty damn close to where it is now anyway and the number would be much easier to remember.
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Find a better source. The metre still hasn't been tied to anything tangible.
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Uh, yes it was, in the 17th general conference of the International Committee for Weights and Measures.
http://www.bipm.org/en/CGPM/db/17/2/ [bipm.org]
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"Distance traversed in vacuum by light in 1/299792458 of a second"
Wow, you sure proved me wrong. That's not arbitrary at ALL.
Of course, that was the definition in 1983.
Of course, in 1960 it was "Hyperfine atomic transition; 1650763.73 wavelengths ...Which isn't arbitrary.
of light from a specified transition in Krypton 86 (11th CGPM)"
"Platinum-iridium bar at melting point of ice, atmospheric pressure, supported by two rollers (7th CGPM)" (1927)
Nope, not arbitrary either.
I'm so embarrassed at my obvious igno
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C is exactly 299792458 ms.
The speed of light is 3.46982012 days?
Can you do the Kessel run in less than twelve parsecs?
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http://www.starwars.com/databank/location/kessel/?id=eu [starwars.com]
Yes it's stupid and Timothy Good is a cock. But there you go.
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Yes, that's been annoying me at work. Most of the links are firewalled off, but I can usually find a better FA with Google. With dozens or hundreds of stories written by professionals and posted on sites that can handle a slashdotting, why do these stories link to some blog that merely quotes a mainstream news source, is firewalled off in many places, and is frequently slashdotted to oblivion?
Firehosers, I'm calling on you all to turn these down. I'll bet there were half a dozen submissions of this same sto
Pics (Score:1, Funny)
or it didn't happen!
Pics or shens. (Score:1)
Rotate! (Score:1)
http://www.youtube.com/watch?v=Vxq9yj2pVWk [youtube.com]
As I see it.. (Score:1)
It would make a helluva lot more sense to just use high-intensity microwaves. Think of how Dolphins and bats see their environment. the device to see around corners would have to take various additional factors into account of course, like distance from the reflecting surface and angle of beam contact to said surface. After that, it's just a matter of painting a 3d version of the room. :|
Hmmmm... (Score:3, Interesting)
The process has to be incredibly time-sensitive in order to work, and the imaging process has to subtract ambient light in order to obtain the reflected-laser data. This ambient-light recording has to happen at a different time to when the laser is fired, so variable-light conditions or the lack of an incredibly steady camera, image object and reflective surface will make it basically impossible to render the image.
I absolutely love the concept. I just think that the nay-sayers whom Professor Raskar claims to be defeating were correct. It might not be theoretically impossible, but the practical limitations are so severe that I don't envisage them being "engineered" away - and if they are, such phenomenal engineering accomplishments would make this application appear trivial in comparison with the other things we could do.
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Once again the media takes a
Why not use sound? (sonar) (Score:2)
If it has to be incredibly time sensitive to work why not use sound (ultra-sonic waves, like bats use) instead. This should reduce the time sensitivity requirements by many orders of magnitude. It will also reduce the resolution but considering that bats can catch insects in flight probably will still be good enough to "see" someone hiding behind a door.
Or perhaps they need a coherent (laser) beam of sound? Perhaps this can be engineered around. Might also be useful underwater.
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This ambient-light recording has to happen at a different time to when the laser is fired, so variable-light conditions or the lack of an incredibly steady camera, image object and reflective surface will make it basically impossible to render the image.
Yeah but you could record the ambient light 1 ms later. Light is pretty damn fast and ambient light conditions are essentially constant.
I absolutely love the concept. I just think that the nay-sayers whom Professor Raskar claims to be defeating were correct. It might not be theoretically impossible, but the practical limitations are so severe that I don't envisage them being "engineered" away - and if they are, such phenomenal engineering accomplishments would make this application appear trivial in comparison with the other things we could do.
I wouldn't be so sceptical. The main limitations are:
1. Miniaturisation. Obviously this is just an engineering problem. A damn hard one, sure.
2. Sampling rate of the light signal. This is the one that will really determine the image quality.
The door requirement is a pretty big limitation though. I think a fibre optic camera poked around the corner might be a bit easier!
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I took a look at their supplied graphic and immediatly had a few issues with it. #1 starts with reflection one. Is the door a mirror or is is a surface that will scatter the light into all the room? Same for reflection 2. Think about reflection 2 for a moment. Remember the problem with reflection 1? Which reflection 2? Multiply for reflection 3 and you have no immage, but just a depth sounding ping return from the room with no direction information at all, thus no shape information, only the return ti
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Actually, it sounds like an alternate way of recording a holographic image. The one thing I don't see mentioned is it becomes increasingly more difficult to make this work, the less smooth and flat your reflecting surface gets. In fact, I'd be surprised if this was even feasible if you are reflecting the laser beams off anything that isn't significantly flat and smooth.
And guess what (Score:5, Insightful)
The first customer will either be the TSA or some branch of the military.
High-tech companies would invent anything that would sell to any agency vaguely related to counter-terrorism or warfare these days. If they poured a tenth of the resources they spent developing this kind of devices into finding solutions to the world's real problems, we'd all be cancer-free and solar-powered by now...
Re:And guess what (Score:4, Insightful)
...we'd all be cancer-free and solar-powered by now...
and under the reign of the Queen of England.
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Better check which banks own the Federal Reserve, buddy. Guess what? Some of them are in London.
The information is difficult to obtain but if you want a wild ride you should research the issue yourself.
hearsay (Score:5, Informative)
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Meh. BBC. Old and proven news organizations. Who needs them? This is the Internet, all we want is hearsay.
Still no good. (Score:1)
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Unless I can use it to "see" through the walls of the girls locker-room, then its not X-Ray vision
You didn't specify if the girls in the locker room should remain unaware of your watching them. Cuz if don't, a large lump hammer is enough to see through the wall, no need for X-rays...
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New Glasses and Windshields (Score:2)
Blade Runner (Score:3)
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Funny how impossibilities in science fiction become possible with time. When Star Trek came out in 1966, flat screen monitors, "communicatore", self-opening doors, talking computers, and a lot more stuff that's commonplace now was impossible then.
However, Blade Runner makes the Doctorow Mistake of setting the fiction too close to the present. It's set just ten years from now. It's doubtful this tech will be mature in ten years, and besides, you can't just feed a print into the scanner and see around corners
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Funny how impossibilities in science fiction become possible with time.
Everything from Dick eventually becomes possible.
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Ever read this 1946 Murray Leinster story? [google.com]
Another tool... (Score:2)
I love how all the researchers materials are all "Humanitarian" and indicate that this will be used to help people (fires, safety, etc...).
I give it about 15 minutes before the government gets wind of it and turns it into a tool for mass invasion of privacy and uses it somehow in this ongoing war on our freedoms.
I would be more optimistic, but their track record isn't encouraging.
And somewhere... (Score:2)
Some creep is now thinking, "now I don't have to put spycams on my shoes!"
First application: bring sun to (Score:2)
However, he said, the team initially aim to use the system to build an advanced endoscope.
"It's an easy application to target," he said. "It's a nice, dark, damp and warm environment."
If the team get good results from their trials, he said, they could have a working endoscope prototype within two years.
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Do pixels travel at the speed of light?
Depends on your refresh rate.
I wonder what it feels like to get hit by a pixel.
Depends on the resolution, and of course the refresh rate which determines velocity. Set a 24" monitor to 1x1 resolution with a 100MHz refresh rate, and it hurts like hell. Set it ag 32,700 x 27,000, not so much, unless you get hit by all of the pixels or the pixel you are hit by is at a very high refresh rate.
Are they larger or smaller than a photon?
Larger, silly, they're made of pixel dust.
Dupe research? (Score:1)
Opt-dar? (Score:1)
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And the algorithms should be applicable to radar and sonar in cluttered environments.
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Lidar. Cops use it every day except that they don't have 2D spatial resolution because they only need one dot to do a Doppler measurement and get your speed.
"Enhance that..." (Score:1, Funny)
Oh crap, CSI is real!?!
here is how it works (Score:2)
here is how this technology could be used as a forensics tool [instapunk.com]
This is clearly just range sensing with cameras... (Score:1)
It is ridiculous to call this new technology. It is just another form range sensing that is being researched in universities all over the world. Light is still just electromagnetic radiation. I am sure there are lots of other projects doing the same this as this, but since it is from the MIT Media Lab it gets the "oooo, awww.." factor.
Using the backscatter from diffuse reflection is seriously limiting.
Radar systems are brutally prone to clutter, echoes, and interference. The system is limited by range, and
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Do you know *any* new technology that is not related to an older one ? Me neither.
Ze goggles, zey do nothing! (Score:2)
TFP [mit.edu] mentions that the laser is operated at an average power of 425 mW. So I'd rather not be the guy standing round the corner getting hit in the eye with such a beam.
High speed optical scanner with low accuracy? (Score:1)
reflection (Score:2)
Different wavelength so the door looks like a mirror So why is this news?
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No, it is not in the least like looking at a mirror.
You flash the door. It travels at the speed of light. You get the reflection off the door in twice the distance to the door divided by the speed of light. After that, you open the shutter and start watching.
You then get secondary reflections off the door, as the flash which reflected into the room then reflects off objects in the room, back to the door, and reflects back to you. The intensity of the light reflecting off of the door at any point in time tel
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Old News. (Score:2)
I saw this on CSI like eight years ago.
So the CSI stuff might actually work? (Score:2)
Obligatory (Score:2)
Hmmm, I seem to remember this technology [youtube.com] from years ago...
Blade Runner (Score:1)
That scene with Deckard dissecting the photograph on his weird-ass computer and literally changing the angle and viewpoint arbitrarily always bugged me.
Now, not so much. It must have had an embedded holographic layer that took several angles.
Yeah, that's it.
See around corners? (Score:1)
I'm sure it's still a great engineering accomplishment, but I wouldn't call it seeing around corners