Lock isolated on background with Generative AI Circuit Diagram
Lock isolated on background with Generative AI Circuit Diagram This project implements a face recognition door lock system using the ESP32-CAM module. The system operates in two modes: Active Mode: Automatically recognizes faces and unlocks the door when an authorized face is detected.; Admin Mode: Provides a web interface for enrolling new faces, managing stored faces, and monitoring the camera stream.; The system utilizes neural networks for face Face Recognition API provides the /face-recognition endpoint for classifying people in images. Check out the face-recognition repository for instructions on how to generate the Face Recognition API. This is the core part of the Smart Lock and it's the hardest part to get right. I'll come back to this later in the post.
Hey Guys, In this video I'm making a Face Recognition Door Lock using Huskylens. So let's get started :)What is HuskyLens: HuskyLens is an easy-to-use AI mac Build an AI-powered face recognition system using Raspberry Pi! Learn about AI face detection, Python programming, and real-world applications in this fun project. Ever wondered how your phone unlocks with just a glance or how security systems recognize faces instantly? Face recognition technology is everywhere—from airports to smartphones! With the power of AI and a dash of DIY ingenuity, you can transform your humble abode into a smart and secure fortress. In the world of automation, the concept of a traditional lock and key is evolving. The future is knocking, and it's doing so with a face recognition technology that can turn your home into a smart, secure sanctuary.
How To Make Face Recognition Door Lock (Ep 03) Circuit Diagram
Paraphrased: For this project, we shall need Raspberry Pi 3, a solenoid lock, and Raspberry Pi Camera to ensure that the door lock system is powered by face recognition. Earlier, we tried to learn how to set up a solenoid lock with Raspberry Pi and various other projects using Pi cameras such as Web Controlled Raspberry Pi Surveillance Robot
The GPIO pins of the Raspberry Pi can give an output of 3.3V but the solenoid lock requires 7-12V to operate. Because of this, we will need to use an external power source and relay to operate the lock. Connect the VCC and GND of the relay module to 5V and GND of Raspberry Pi. Place is 1 class detected from the Artificial Intelligence palette. Now, to make the Tobi say that the face Matched and we are welcome to the house, place a pair of say and speak block and write Face matched! Welcome to the house! In both the spaces given. You can make Tobi say your name too if you want to. Now, to make the Door open.
