This may be of interest to you then:
It basically replicates the Arduino I/O functions on the Raspberry Pi, to make it
easy to port Arduino software to the Pi without having to think too much.
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Get a free science project every week! "http://scitoys.com/newsletter.html"On Thu, Sep 27, 2012 at 12:46 PM, Tristan Eversole <customerservice@trioptimum.com> wrote:
The critical point, which I had not realized before Simon replied, is that my choice of microcontroller does not strongly constrain my choice of sensors. If it did, that would be a powerful argument in favor of the Arduino: I can type "arduino carbon dioxide sensor" into Google, and bang, there's one on eBay. (http://www.ebay.com/itm/MG811-MG-811-CO2-Carbon-Dioxide-Sensor-Module-for-Arduino-and-other-MCUs-/120804868793 ) However, if it's not that hard to connect the aforementioned carbon dioxide sensor (for example) to a Launchpad or a Raspberry Pi or a Propellor, then the choice of microcontroller is no longer any sort of huge limiting design decision-- particularly because the microcontroller is going to be quite cheap relative to the tank, the sensors, the refrigeration system, and the brachiopods themselves.
So I really owe you guys for pointing this out.
--T.
On Sep 27, 2012, at 12:09 AM, Patrik D'haeseleer wrote:
> On Wednesday, September 26, 2012 4:26:32 PM UTC-7, John Griessen wrote:
> Taking all you've said about your own experience level, this is sounding the most
> results-getting direction yet. Does the bioboard have cost levels you can fit to your want?
>
> Actually, the BioBoard *is* an Arduino platform. And it is far from a well-developed product - it's a couple of people at Noisebridge hacking some sensors. Really cool work though - they were building their own pH and DO probes.
>
> Given Tristan's lack of experience with Linux, OS's, programming, and electronics, I still think the fastest way to get him up and running would be Arduino. He'll have his hands plenty full setting up the aquarium, rigging the sensors, etc.
>
> I'd say get to the point where you can collect all the data you need on an SD card, and switch some relays on an Arduino. Pretty much everything you've learned up to that point will translate over directly if you do decide to move to a RasPi platform.
>
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