Thanks for this posting. I can see this opening many doors in the area of robotics and learning course materials for learners. For instance, this can be used to help develop fire management training courses and many other subjects. I am still trying to get my hands around the many opportunities that this will provide in the future. I think further research is needed. But what a wonderful start and I think the future is bright in this area.
@kdwyer: Looking forward to the Pixy as well. They seemd to have been overwhelmed with the demand, delivery is now ~January
On the one hand I want it now, but on the other hand this gives me more time to learn the Arduino and build a robot test bed. (Plus that hexacopter kickstarter project I mentioned in my last Arduino blog should give me something to play with).
Also, the speed with which things are racing along these days means that all I have to do is blink, and it will be January already LOL
...check out what our colleagues at Charmed Labs and Carnegie Mellon are doing. Using an LPC microcontroller as the basis of their design, they've developed a fast vision sensor that lets you teach a system to find objects and report its findings though several simple interfaces. More about their design, Pixy, is available on their Kickstarter project page.
I pledged to thi sproject a couple of weeks ago when I first saw it. I cannot wait to receive my own Pixy vision sensor and use it as part of an Arduino robot :-)
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.