All the laser-cut plans have been cut and assembled, and my classmate wired up the LEDs for the light-box. Rocker switches were bought for the light-box to make it aesthetically pleasing to use and the results, especially for the light-box… were astonishing!
‘Processing’ was used to draw up the data visually in all cases. The bar chart and spiral representations were manipulated with Adobe Illustrator. We would have liked
I left my classmate (Stephen Dunn) to attach one of the 20 pedometers to the heart rate monitor he was putting together. We were not able to obtain data from a group of volunteers in the end, due to time, but Stephen recorded the data of his activity over 24hours (A day per volunteer would have been spent, as there is only one Arduino). The Arduino needed
It is now the point in the module when we need to individually, or group up, and formulise a final project proposal.
In summary, me and a classmate (Stephen Dunn), are going to hook up six volunteers with a heart rate monitor and pedometer for 24 hours each. The volunteers will not know why they are wearing the device or what the data will be used for.
We (Stephen Dunn, included) created concept designs and mock ups of what we would build. From those designs we were able to judge what the outcome should look like. Then we painstakingly soldered together all the LEDs into a wire-frame; a few LEDs blew along the way, which was annoying because they had to be detached and replaced. With that built, we placed it onto a laser-cut plinth of Devon (Are names are engraved onto the platform).
Our guest lecturer gave us a talk on ECOIDS and how they are being used across Devon at the moment to capture data such as: Stretch (wind), humidity, light, water flow, etc. Each ECOIDS wirelessly relays the information back to a hub where the data is catalogued. The information can then been read in XML format through an RSS feed.
ECOIDS consist with a programmable embed circuit board which is attaced with a Xbee to wirelessly send the data to a collection hub. They are powered by solar energy and can be placed carefully in any natural environment. It provides a way for artists, scientists and engineers with a real time model of the environment to develop visualistaions, sonifications (music) and interactive projects
Much like the Flash product I and a classmate created to represent earthquake data (https://ckhatton.com/i/d), I decided to create another one to suit the assignment of a different module. The task was to create a product that would