NASA Teams To Build Gyroscopes 1,000X More Sensitive Than Current Systems 91
coondoggie writes "NASA today said it would work with a team of researchers on a three-year, $1.8 project to build gyroscope systems that are more than 1,000 times as sensitive as those in use today. The Fast Light Optical Gyroscope project will marry researchers from NASA's Marshall Space Flight Center; the US Army Aviation and Missile Research, Development and Engineering Center and Northwestern University to develop gyroscopes that could find their way into complex spacecraft, aircraft, commercial vehicles or ships in the future."
1.8 (Score:5, Funny)
Re:1.8 (Score:5, Funny)
hey man, $1.8 goes a long way in China.
Re:1.8 (Score:4, Interesting)
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I'd mod you up if you had said Russia, seeing as we now pay them ~63 million per astronaut we send.
Which is well cheaper than using the Space Shuttle. I assume at least this is the ticket for a round trip, to and from the surface of the earth.
The Shuttle, with the philosophy of having a re-usable and thus cost effective vehicle, cost about $450 mln per launch according to Wikipedia, and could carry a maximum of eight astronauts, though usually less. One pilot and one commander to fly the thing who also have to bring it down leaves up to six astronauts that can be exchanged with crew on the ISS, or 75 mln
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Shuttle cost $209 billion over it's life, 134 missions. $1.6 billion per flight.
http://www.space.com/12166-space-shuttle-program-cost-promises-209-billion.html [space.com]
So more like $200 million per Astronaut on Shuttle.
Russia sells flights to ISS for ~$50 million (Sarah Brightman), though used to be cheaper ($20 million for Mark Shuttleworth).
SpaceX is targeting $20 million per person for its Dragon Capsule
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Thanks for the correction. And it proves my point even more so... $1.6 bln per flight, wow...
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Not so fast - $209B in 2010 $? Really? Where's the original cost statements? NASA's own site says $450M per launch, but that probably doesn't include amortized R&D costs, so I'd imagine it's higher if you include that. Then again, should we also include the X program? It was the precursor research for the shuttle after all. What about the Apollo program itself? It provided LOX engine research. There's also the solid rocket fuel for the boosters. Etc etc etc. An easily inflated number without backing dat
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It's also cheaper to buy a Ford Focus rather than a Dodge Ram. But only an idiot would make the choice between them solely on the basis of cost, you get what you pay for.
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I'd mod you up if you had said Russia, seeing as we now pay them ~63 million per astronaut we send.
With this new budget cuts, that would be only 6.3 cents.
Re:1.8 (Score:5, Funny)
A 1.8 dollar project. Man. NASA must really love those budget cuts
The "team of researchers" is actually a bunch of grad students -- they'll have money left over when the project is completed.
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Heck, that won't even cover a 6-pack of Coors. There goes your grad students!
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Good God man....that won't even pay for the pizza, much less the Mountain Dew!
Pizza and Mountain Dew? Grad students are so spoiled these days...
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Bah, they'll blow it all on popcorn. Popcorn.....and revenge!
I wonder how their children will turn out... (Score:4, Funny)
Re:I wonder how their children will turn out... (Score:5, Funny)
I wonder how their children will turn out...
They'll be fine. They'll have a stable environment.
Re:1.8 (Score:4, Funny)
An article that's full of spin :)
And cheap, too (Score:2)
$1.80 for a super sensitive gyroscope. I like your style NASA!
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Here's $5.. I'll take two. Keep the change!
That's some salary (Score:2)
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so you make more than 60c per year. great.
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He means, the value of his work. That's probably better than most Americans.
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If he's a Gen. Y'er with student debt and he's netting 60c per year, he's not doing too bad.
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Light that travels faster than the speed of light (Score:2)
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We can call it Light Type-R!
XD
*$1.8 million contract (Score:5, Informative)
I think they should focus on cheaper space pens*
*(I kid, I kid!)
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http://en.wikipedia.org/wiki/Ring_laser_gyroscope
http://en.wikipedia.org/wiki/Fibre_optic_gyroscope
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On the other hand, why is this not a Navy project? I thought that guroscopes were crucial to stealth submarine navigation. I doubt that they spend less than 2 millions on improving this already...
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Maybe those gyros are now good enough for navigating subs through the vast expanses of our oceans, but not good enough to navigate space craft to nearby cosmic neighbours or to accurately point space telescopes to nearby objects?
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If you really don't have any other sensors maybe... but of course it never hurts to have more accuracy.
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Of course, you are correct. Assuming of course, that pretty much everything else is equal or better. Unless there is a critical problem to avoid, or a specific need which is not currently possible, then improved accuracy may be worse if you consider it from the perspective of changing what works.
I've run into issues like this with systems I've designed (for the DoD). I accidentally let slip that a performance boost was possible. Well, of course a few months down the line I was expected to include that a
Re:*$1.8 million contract (Score:5, Informative)
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Commercially available [honeywell.com].
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According to NASA's site, the contract is $1.8 million - just in case you thought NASA might be able to spend $1.8 billion
I thought due to budget cuts they could only spend $1.80
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Well my subconscious reading did fill in a "b" in that gap, not an "m". Which of course has to do with the word "NASA" that appeared in the same sentence. It's hard to believe those guys even can enter such small numbers in their budget application forms!
complex spacecraft, aircraft, commercial vehicles (Score:1, Insightful)
Spacecraft, aircraft, commercial vehicles... (Score:5, Insightful)
And... missiles. Don't forget the missiles. In fact, let's just be clear here. This is for missiles. Spacecraft will be damned lucky to get any of these, and aircraft aren't getting them at all, nevermind unspecified "commercial vehicles." Missiles and drones will get these and nothing else. NASA will have to beg for an intentionally crippled version in order to get gear that isn't classified, for use on spacecraft.
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This tech is useful in everything from game controllers to rockets. John Carmack was just talking about he re-used his Armidello rocket code in head tracking controller software. I hope this also trickles down.
https://www.youtube.com/watch?v=wt-iVFxgFWk [youtube.com]
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Indeed. My first thought was how this would help make inertial guidance systems better. Autopilots and such. But you bring up a good point about it being good for devices where you want to detect very small amounts of motion.
ICBMs don't actually need better gyros today - their destructive power renders the margin of error moot.
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Our current generation ICBMS are already capable of hitting within 50 meters of the programmed target. When Cheyenne Mountain was built, it was built to withstand close nuclear detonation from missiles where detonating within a kilometer was more the expected accuracy.
We can hit Cheyenne Mountain style facilities directly enough to destroy them already. That's without getting into fancy stuff like the nuclear deep penetrators we have locked up somewhere.
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No these will be useful in conventional bombs/missiles. If you have 1 meter accuracy then the explosive force can be less, so the civilian casualties can be less so there are less embarrassing images to show on TV.
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I was thinking it would be more likely to be used in drone-launched flechette missiles. If it reduces the number of non-targeted "suspected militants" killed then maybe it's a good thing.
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I'm not sure such a system, despite the improved targeting, would pass Geneva Convention scrutiny.
Though you have a point about improving the accuracy of smaller munitions, assuming the gyroscope ends up being small, cheap, and sturdy enough.
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Probably not so much in game controllers. These aren't MEMS devices. They're large heavy mechanical things. They're neither small nor light enough to cram into a controller or a phone. The smallest thing mentioned in the article is a "tabletop" gravitational wave detector.
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Re:Spacecraft, aircraft, commercial vehicles... (Score:4, Insightful)
If this was just for missiles, you wouldn't hear about it. Indeed, it would have gone to a no-bid contract in a brown paper bag in the dead of night behind the dumpster at the McDonalds around the corner from Textron, Lockheed, or Raytheon.
There are a *lot* of civilian applications for a sensitive gyroscope.
--
BMO
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Probably not. The target accuracy is still inferior to the performance of a top end (ICBM/SLBM grade) gyro.
NASA already pretty much uses top level guidance systems, so... better adjust that tinfoil. Besides which, it's generally the guidance system itself that's classified,
Actually, no (Score:2)
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Gravity Probe B had what i believe is at least a comparable spec of gyroscope:
http://einstein.stanford.edu/TECH/technology1.html [stanford.edu]
"The SQUID magnetometers are so sensitive that a field change of only one quantum—equivalent to 5 x 10-14 gauss (1/10,000,000,000,000th of the Earth's magnetic field) and corresponding to a gyro tilt of 0.1 milliarcsecond (3x10-8 degrees)—is detectable. "
Fast, Light, Cheap (Score:2)
Pick any two....
At $1.80... (Score:2)
maybe amd (Score:2)
Will start making these next year.
JPL for the win (Score:1)
Here's $2 (Score:2)
Build me a few more, kthanks.
Crap article (Score:5, Informative)
Crap article, from a crap blog, copied from a press release [nasa.gov]. It's so Slashdot.
Here's the actual paper on the research. [northwestern.edu] The physics is interesting. It's a way to make optical gyros better. Currently, good fiber-optic gyros have drift rates around 1 degree per hour. Ring laser gyros can do better, and mechanical gyros still beat the optical systems on long-term drift. This proposal is to develop a way to get a few more orders of magnitude less drift out of optical gyros.
Low-end MEMS gyros have drift rates of several degrees per minute, but there's steady progress, and degrees-per-hour MEMS gyros now exist.
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The physics is interesting.
For the value of "interesting" in "Hay guyz, why don't we just stuff Newton's prism into an interferometer to increase its precision, and do a lot of irrelevant calculations!"
(to be honest, using an inclined surface of a prism to vary the direction of the beams would be an improvement on what they are doing, however calibration will be very difficult)
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You got a source for that assertion?
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One could add up the discrepancies over a long trip and see if they even out, or if they drift you further and further.
Still, GPS is used for direct positioning, and not for dead reckoning, which is guessing where you are based on speed and acceleration and turn, which is what more accurate gyros are all about.
Gps + dead reckoning + map matching.
GPS for high speed craft, COCOM restrictions (Score:2)
... GPS software also generates wrong results under acceleration to discourage DIY missile systems ...
You got a source for that assertion?
There's an International Trafficking in Arms Regulation [fas.org] which designates as weapons GPS systems "designed for producing navigation results above 60,000 feet altitude and at 1,000 knots velocity or greater" (i.e. for ICBMs) or "Designed or modified for use with unmanned air vehicle systems capable of delivering at least a 500 kg payload to a range of at least 300 km" (i.e. for cruise missiles). The second one is kind of pointless, since there's no way the GPS system can tell. The first one, though, is impl [netins.net]
Correction (Score:1)
"to develop gyroscopes that could find their way into bombs and missiles in the future."
FTFY.
Yeah But (Score:2)
missiles/drones/satellites (Score:1)
Just the initial estimated price... (Score:2)
So a nifty new gyro for $1.80? Must just be the initial cost estimate.
After they get into the details I'm sure that cost will go up by a lot....