The tricorder app was apparently shut down because CBS claimed it infringed upon their graphical interface, not because of the name itself. The app has since been relaunched.
I think he'll be fine. You can quickly rename it with minimal fuss. Kudos to an open source project and possibly using the preexisting science setup for the medical Tricorder XPrize.
Pretty cool, but I always imagined it would be easier to build a "tricorder dock" for smartphones (with drivers for the new sensors and the necessary software/apps) - there's a lot more you could do with it, as well...
Yeah I think that trying to emulate the design of the TNG tricorder might be limiting in a way and probably isn't the best design for a mass produced version.
This guy needs to start a company and develop the idea. Even if it's just a package of easy to get sensors (as opposed to the advanced sensors in the show version) it's still cool enough to be an awesome gift for Christmas.
I think YC should proactively recruit this guy for the next round ;p
Oftentimes I find myself wondering what temperature it is outside and instinctively glancing at my watch...this seems like a great solution. I remember having a "Tricorder" program for my Palm Pilot but all it did was make Star Trek sounds, lol.
Sure, a smartphone add-on would be cool, but as the developer says, this device intended to be used by inquisitive children, not the kind of people who own smartphones.
I hope he can start producing these more efficiently soon; I wouldn't think twice before laying down a decent amount of money to have one of my own.
Most of my friends' kids all have iPod Touches. I expect that trend to continue to increase so something for the more generic handheld devices seem like they'd get into the hands of a lot more children.
Hyperspectral imaging also introduces the possibility of identifying all the objects in a scene. Terahertz waves can even "look through walls" of most material. Heck, we can do that with simple radio waves and enough computing power.[1] The only thing keeping that bench-top from being miniaturized into a handheld device are further electronic miniaturization and a phased array software antenna.
As someone with a software background, and with limited experience with hardware, I would like to know: How hard is it to actually design custom hardware like this and assemble it? How expensive is it?
From the video, the logic boards he made look really high quality. How do you get to something like that? You send your design to a company that builds it for you? Is there a minimum volume (like thousands)? Can you "print" the circuits at home with some tool that's not terribly expensive? Or is it unaccessible for a hobbist? I've only used protoboards before.
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[ 2.9 ms ] story [ 84.7 ms ] threadhttp://code.google.com/p/moonblink/wiki/Tricorder
I've missed that app. The LCARS interface was neat but just showing off the sensor capabilities to people, especially kids, was great.
And when everyone buys it, announce pentacorder.
and when everyone buys it, announce... pentacorderS. and a month later hexacorder? no, pentacorderS white. Because one is born every minute.
but it would be really useful. have used the metal detector in the android tricorder app to find metal in places where we were planning to drill.
if somebody builds them in bulk the price will come down. even an expensive version will sell to geeks, nerds and hackers.
This guy needs to start a company and develop the idea. Even if it's just a package of easy to get sensors (as opposed to the advanced sensors in the show version) it's still cool enough to be an awesome gift for Christmas.
I think YC should proactively recruit this guy for the next round ;p
Sure, a smartphone add-on would be cool, but as the developer says, this device intended to be used by inquisitive children, not the kind of people who own smartphones.
I hope he can start producing these more efficiently soon; I wouldn't think twice before laying down a decent amount of money to have one of my own.
Hyperspectral imaging also introduces the possibility of identifying all the objects in a scene. Terahertz waves can even "look through walls" of most material. Heck, we can do that with simple radio waves and enough computing power.[1] The only thing keeping that bench-top from being miniaturized into a handheld device are further electronic miniaturization and a phased array software antenna.
[1] http://web.mit.edu/newsoffice/2011/ll-seeing-through-walls-1...
From the video, the logic boards he made look really high quality. How do you get to something like that? You send your design to a company that builds it for you? Is there a minimum volume (like thousands)? Can you "print" the circuits at home with some tool that's not terribly expensive? Or is it unaccessible for a hobbist? I've only used protoboards before.
I'm really impressed with his work.