New crowdfunding campaign for a Raspberry Pi add-on – the RabbitMax Flex

Leon Anavi has just launched his first crowdfunding campaign on IndieGoGo. He wants to fund the RabbitMax Flex which is an add-on board for the Raspberry Pi. The main board is HAT-sized and hosts the following:

  • a relay
  • a buzzer
  • a button
  • an IR transmitter (IR LED)
  • an IR receiver (IR photo sensor)
  • an RGB LED
  • slots for 5 I2C sensors
  • slot for a 16×2 LCD display

It’s a bit of an odd beast but is designed to be a home for your Internet of Things projects. The I2C headers are particularly useful and you can get I2C sensors to go along with the Flex HAT as part of the campaign reward levels. Rewards start at 20 Euros and you can take a look at the campaign here.

Leon was kind enough to send me one of the early boards to take a look at. I’m halfway through writing the review at the moment, but I thought I’d post this quick blog to make sure you didn’t miss out on the Earlybirds! Definitely worth a look!

Spinach plants and Raspberry Pi used to detect bomb material

Nanosensor plants

A team from MIT has published a paper in which they describe a bomb detection experiment conducted with spinach plants. The plants, which are sensitive to the presence of “nitro-aromatics” (key components of several bomb-making substances), have carbon-nanotube-based nanoparticles embedded in their leaves that give off infra-red light. A Raspberry Pi with an IR camera is used to detect this light. You can read the full Nature Materials article here, a slightly less complicated explanation at livescience.com here and an even simpler explanation over at the BBC.

Build a chess computer via a noughts-and-crosses computer with a Raspberry Pi

Maxim has used a Raspberry Pi to create a chess computer and he’s documented the entire process.

(The game) runs from an Arduino which controls the board, connected to a Raspberry PI which runs the chess engine Stockfish and a chess rules library called Chessboard. It is completely self contained, just plug it in, press the green button and you are playing.

First of all, he helps you to understand the build concepts by getting you to manufacture a noughts-and-crosses (tic-tac-toe) board:

And then gives you the instructions you need to build the full board:

You can follow the build instructions and see photos and videos to do with the project by visiting Maxim’s website.

Virtual Forest experience powered by a Raspberry Pi

forest

Koen Hufkens is a research associate at Harvard University and his research focuses on “understanding the relation between climate (change) and seasonal variability in vegetation growth”. He’s also a maker and software developer and he has brought all these interests together to create the ‘Virtual Forest‘. The project uses a Raspberry Pi 2 to capture, via a Ricoh Theta S USB camera, a forest-scape and then deliver that picture to the Internet over an ethernet cable. You can try it out yourself here or read a lot more about the project by visiting the Virtual Forest website.

Cambridge Raspberry Jam – Saturday, 3rd December – #rjam

CamJam-4_sm

We’re pleased to announce that the next Cambridge Raspberry Jam will take place on Saturday, 3rd December at the Institute of Astronomy. We’ll have the usual mix of talks, Show & Tell, Marketplace and, of course, workshops. General tickets for the Jam are available now and tickets for workshops will be available soon. Get your tickets from Eventbrite here.

Amazing flaming art piece uses Raspberry Pi 3 to control 2000 blinkies!

'Le Attrata,' 2016. Photo by Meike Gugel

‘Le Attrata,’ 2016. Photo by Meike Gugel

A fantastic sculpture/musical instrument is currently being shown at various festivals in the United States.

Le Attrata is an innovative fire sculpture created by Therm, made up of three stainless steel moths with 12-foot wingspans, set on top of 18-foot high spires. The moths (turbine-driven blast furnaces) ignite, spark, pop, and whine, while three human musicians “play” them like instruments. Two thousand programmable LEDs are embedded in the sculpture and glow and shift, projecting incredible light patterns. These LEDs are controlled by a Raspberry Pi 3 and FadeCandy. Read more over at The Creators Project and see more photographs over at Therm’s own website. You can see a video of it in action at Burning Man 2016 below.