These implementations are indicators that each component is capable of handling voice commands, and providing a message that is consumableīy the UWP speech-synthesizer. Let’s have a look at the various components that our application is built on.įrom the layout above, it is clear to visualize the key components of the application. The magic mirror application strives to provide data that is all of the following:īelow is the user-interface layout. But without context, said data is meaningless. Software is simply the movement and manipulation of data. Using the built-in WIFI on the Pi 3 weĬan leverage the power of the internet to gather and share information. For this specific application, it is essential. When people throw around the acronym IoT it can mean a lot of different things. One of my favorite parts about developing the magic mirror was the fact that I could do so from the comfort of Visual Studio using the worlds most powerful programming Glenlivet 12 Year Old Scotch Whisky (not technically hardware)Ĭonsidering the total investment is still under $500 bucks, that’s not too bad! OS – Platform I was excited when Microsoft started selling the Raspberry Pi 3, Model B - I ordered one immediately.īelow is a semi-comprehensive listing of all the materials and their corresponding cost that I used for building my magic mirror. If you want to skip out from reading this post, you can checkout my project up on GitHub IEvangelist.Mirror I was thinking to myself, “I wonder if I could improve upon this”, and that was my motivation! Open Source I thought “wow” this really is a smart mirror, much to my surprise these were all just static messages (or only dynamic when accounting for the time of day). I noticed that a lot of the magic mirrors had greeting messages such as “you look handsome” or “good morning sexy” and other curiously intuitive sayings. The application is running on a small computer, in most cases a Raspberry Pi. A magic mirror is simply a two-way mirror with a monitor positioned behind it that projects through the mirror. Yup, it is official - I want a mirror like this one! - David Pine ) □□ February 4, 2016īefore continuing on, allow me to explain what a magic mirror is. Earlier this year, I stumbled upon a tweet about someone how created a magic mirror…this is the root of my inspiration. They would probably we right, and I’m okay with that. I was inspired by those who are true Innovators…some might say, “I’m standing on the shoulders of giants”. Later, I'll connect the speaker via bluetooth and set it next to the mirror or something.I am certainly not the first one to create a magic mirror, and I will not be the last either. It's not as loud or clear as the bluetooth speaker, but it will work for now. In this photo, you can also see the space where I was going to put my bluetooth speaker - I measured things (slightly) incorrectly and it won't fit, so I'm going to use the monitor's built-in speaker. This one cost me about $8, so I don't have very high hopes for it. If you can find a flush mount microphone that's good, go ahead and do that. I didn't want to drill a hole in the face of the mirror and ruin the look, although that would probably be the best location for a microphone. The microphone itself is flexible, so if it doesn't pick up sound properly I can always pull it out further and curl it around the bottom of the mirror. I put it in the bottom of the mirror where you won't see it. Next, I drilled a hole for my microphone. Eventually I want to install a power outlet behind the mirror, but for now I can be lazy and power it this way. I used my dremel and a multipurpose bit to cut a small slot at the bottom to run a power cord through. The total cost for this project (including the wood, monitor, Raspberry Pi, and mirror) was around $300-350. The box/frame houses all the components, including the microphone, and looks pretty. The Raspberry Pi is a small, credit card-sized computer that powers the whole thing, displaying the Magic Mirror interface and running Jasper, the voice-control system. I also recommend a monitor with built-in speakers, but this is optional. I recommend an LED monitor for minimal power consumption, maximum crispness, and to prevent mirror glow at night. Order the thicker mirror option (3/16") to prevent a "funhouse mirror" effect. I ordered my mirror through Tap Plastics ( this one). The two-way mirror is made of acrylic and sits flush over the monitor, allowing the graphics on the monitor to shine through while maintaining a mirror effect. The attached highly technical drawing illustrates how these components work together. There are four major components to the voice-controlled smart mirror.
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