Similar to an optical mouse USB peripheral, based on where you touch the frame, a beam interruption occurs, and the IR sensor is able to co-ordinate where you've touched. Typically IR frames have LEDs on one side of the frame and Light detectors on the opposite side. IR frames are based on light-beam interruption. Some IR frames also support multi-touch gestures on different Operating Systems, e.g., Windows and Mac this makes it useful for future projects. ![]() The IR frame uses a USB 3.0 peripheral to connect to the Raspberry Pi. In addition, the IR frame was used in order to add a touch interaction with the smart mirror. The custom-cut two way-mirror was placed directly on top of the 32″ Monitor. Hardware Assembly Smart Mirror Touchscreen – Hardware Configuration In this example, we'll use a 32″ IR Frame. Fortunately, Smart Mirror could be scaled down, and customized to your liking from small 7″ Touchscreen displays to 55″ large IR Frames. Pre-requisite: Raspberry Pi 4 (RAM 2GB+) Recommended:Ĭost: The total cost would vary based on your own specification preference. ![]() Now we got that all out the way, let's begin! ![]() You could even download the Raspbian Face Recognition Image from there. If you want more details on the Smart Mirror AI, visit our blog Smartbuilds.io. This guide provides you a good overview of how to build one. Goal: By the end of this article, you'll be able to build a Touchscreen Smart Mirror with a face recognition module to interact with. Watch Full Youtube Tutorial on How to build a Touchscreen Smart Mirror.
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