![]() And while I admire this effort, I felt it needed some rethinking in order to grow beyond what was possible with the current version. In the past two years, many community members worked on expanding the MagicMirror system allowing them to customize it to their needs. MM2 was designed to replace the original code base in the announcement, Teeuw explained why: In December 2016, Teeuw announced MagicMirror 2 under the MIT license. By October 2016, The MagPi (the official Raspberry Pi Foundation magazine) had declared Teeuw’s project a first place winner in its “50 Greatest Raspberry Pi Projects” issue. With the right know-how, the surface can even become interactive through the use of hand gestures or as a touchscreen.ĭuring the first two years after Teeuw’s posts, the GitHub repository for the project had been forked over 500 times. This information could take the form of drive times, train schedules, daily news, server loads, sports scores, or even the feed from the doorbell when someone is at the door. The MM2 project provides the software to convert what would otherwise be a normal household mirror into a valuable source of information. The recent release of MagicMirror 2 (MM2) version 2.12.0 gives us an opportunity to learn more about where the project started and where it is today. Since his post, others around the world have built these devices for their home (including myself), forming both a community and an interesting open-source project. The system consisted of a Raspberry Pi and monitor running a web browser in kiosk mode, with a web server that provided a dashboard interface - all stored in a custom-built case with a one-way mirror. In just a few simple steps, you now have your own custom smart mirror! Stay tuned for more DIY episodes inspired by the Ford F-150.Back in 2014, a Raspberry Pi enthusiast by the name of Michael Teeuw shared his build of a “magic mirror” with the world in a six-part series. Hang the mirror on the wall, plug it in, and power it up. Nail the frame onto the box to secure it into place. Set the mirrored plexiglass in place on top of the TV, and put the frame on top of the box. Use an X-Acto knife to trim off the excess film. Lay down the film and then use a squeegee to get rid of air bubbles. Peel off the backing of the film and spray down the plexiglass with water. Make sure the surface of the plexiglass is completely clean before you apply the film otherwise, dust specks will appear under the film. ![]() To create the mirror, apply the mirror film to a regular piece of plexiglass. You’ll want your smart mirror to match your decor, so paint or stain the frame accordingly. This helps your smart mirror look more like a regular mirror - and it will up the surprise factor when people realize it’s way cooler than just that. Make a picture frame to put around the outside of the TV screen. Step 3: Make a frame to go around the outside Using those dimensions, build a box that will fit the TV snugly. Familiarize yourself with the platform first, then follow this step-by-step guide. This is the most technical element of this DIY project, but don’t fear! Even if you’ve never coded before, Raspberry Pi is a great place to start. Step 1: Install the Magic Mirror software onto your Raspberry Pi
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