Google's Project Tango Headed To International Space Station 22
itwbennett (1594911) writes "A pair of Google's Project Tango phones, the prototype smartphone packed with sensors so it can learn and sense the world around it, is heading to the International Space Station on the upcoming Orbital 2 mission where they will be used to help develop autonomous flying robots. Work on the robots is already going on at NASA's Ames Research Center in Silicon Valley, and this week the space agency let a small group of reporters visit its lab and see some of the research."
phonetics (Score:1)
Skynet (Score:4, Funny)
...the prototype smartphone packed with sensors so it can learn and sense the world around it
Skynet becomes self aware in 3 2 1...
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My curiosity (Score:1)
What will be the effect on the accelerometer (0 gravity) and GPS. I assume that it also senses its current velocity and current position. Having data of 0 velocity but changing position (I assume that the ISS' velocity is not the same with the GPS satellites) would definitely f*ck-up the computation.
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An accelerometer doesn't measure speed but acceleration, if it was moving on earth at a perfectly constant pace (and perfectly smoothly) the accelerometer would likewise not measure anything, right?
If it measures acceleration, then whether at rest or undergoing smooth, constant motion, it should measure an acceleration of 9.8m/s straight down.
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No. Acceleration is change in velocity. That's what it is measuring. If velocity is not changing, acceleration = 0.
No experiment can distinguish between gravity and uniform acceleration, so if acceleration is what it's measuring, it can't possibly tell the difference between 9.8m/s^2 of acceleration and Earth-normal gravity. Indeed, just as Special Relatively is based on the fact that rest and uniform motion are the same thing, General Relativity is based on the fact that gravity and acceleration are the same thing. If you are sitting still on Earth's surface, you are undergoing 9.8m/s^2 of gravitational acceleration.
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Sorry for the vague construction of my sentence/thoughts in my head. The accelerometer that I am referring to is the one that is being used in phones. The ones that tell up from down. Yeah I was scratching my head when I first found out that that piece of hardware in smartphones is not called (I assumed) gyroscope. The velocity and current position problem is for the GPS satellites and given that it senses it surroundings. If this device is measuring the surrounding environment, detects that it is 1 meter f
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At first I was thinking the same about the GPS but then I searched for their height. The ISS is orbiting at 370km while GPS satellites are at 20,000km.
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NASA already has plenty of Robots (Score:2)
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The thing cost $150 billion dollars, and in terms of research it's produced... what, exactly? For that, we could have doubled the National Science Foundation's funding levels for ten years, and created 30 robotic probes like the Mars Curiosity mission, and done some real science. The sooner we kill of
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The thing cost $150 billion dollars, and in terms of research it's produced... what, exactly?
Here [nasa.gov]'s a bunch, as of 2008. But if you prefer the "Top 10" approach, check here [nasa.gov].
The thing is, real science is being done on ISS. But let's be honest--real science is pretty boring except for those people who have the knowledge to understand it ("Dark matter? Salmonella? Who cares?!"). So most poo-poo it (TLDR, etc) while we look at the pretty pictures from Mars and go, "Oooh! Real science!"
Driving around on Mars is cool. Seeing evidence of water on Mars is interesting. But I'm not sure I'd call it
Not so fast . . . (Score:1)
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