What I really do like about the camera being there is the integration that I’ve configured so that I can see through the mirror from within the Home app. This would also allow for a better camera – i’m using the noIR camera because the plain raspberry pi camera can’t see much through the extra filter of the two way glass. If I’d do it again, I’d hide the mirror in the frame. I think it’s okay, but some folk don’t like the aesthetic. ![]() This means that the monitor doesn’t fill the entire space behind the mirror – I’ve justified it left within the frame. The camera is cool, but I chose to put it behind the glass to make it “invisible”. See my previous article about network booting configuration, from an OSX machine. The Camera-ffmpeg driver works like a charm. Note that I originally tried the version of homebridge using the plain pi camera platform for homebridge and only received kernel panics for my trouble. I’ve installed homebridge in order to look through the mirror, following David Crook’s guide “ Adding a Webcam to Homekit Using a Raspberry Pi 3“. MMM-Facial-Recognition-OCV3 (in progress). ![]() The total energy draw of the mirror is around 24 watts, which works out at $39 per year if it’s running non-stop. ![]() The total hardware cost is around $650, if I factor in miscellaneous cables (HDMI, power supply, bits and bobs). I measured the frame and bought the two way mirror after I’d got the frame, of course! The glass came from Two Way Mirrors, who were great: well packed and quickly made. For the frame, I found a nice, right-sized mirror (including large sides so that I could hide a lot of components inside), and just knocked out the glass to put in two-way mirror.
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