✻✻✻✻✻✻✻✻▶︎ How to Use ◀︎✻✻✻✻✻✻✻✻ ☞ Generate a New Face ID Key 1. Click the ❍|Create| button. ◉ [ Position your face inside the circle and keep your head upright. Do not tilt your head ] 2. The scanner will begin automatically. Look directly at the camera and avoid rapid movements. ◉ [ The scanning process may take anywhere from a few seconds to around 30 seconds ] 3. Once the scan is complete, a Face ID save code will be generated. ◉ [ Triple-click the save code to copy it and store it somewhere safe ] ☞ Verify a Face ID Key 1. Click the ❍|Verify| button. ◉ [ Position your face inside the circle in the same way as when creating your Face ID ] 2. Look directly at the camera and remain as still as possible during the scan. ◉ [ Verification may take 20–60 seconds, as higher accuracy is required ] ☑ When the scan is complete, the verification result will be displayed on screen ☞ Tips ◉ Ensure your face is well lit. ◉ Avoid covering your eyes, nose, or mouth. ◉ Keep the camera steady. ◉ For best results, use the same camera and similar lighting conditions when creating and verifying your Face ID.
✻✻✻✻✻✻✻✻▶︎ Credits & Thanks ◀︎✻✻✻✻✻✻✻✻ ☆ Special thanks to @thecoolkid082 for creating the original save code engine used in this project! ☆ All other sprites, systems, optimizations, and the second-generation Face ID algorithm were developed by @-leopard-gamer- (myself) ✻✻✻✻✻✻✻✻▶︎ Developer Information ◀︎✻✻✻✻✻✻✻✻ ◉ Project Statistics ➣658 blocks ➣18 custom blocks ➣6 sprites ➣3 lists ➣17 variables ◉ This project is free to use in any Scratch project. If you use any part of the system, PLEASE POVIDE CREDITS to the original creators! ✻✻✻✻✻✻✻✻▶︎ Project Note ◀︎✻✻✻✻✻✻✻✻ After creating the first generation of my Face ID algorithm, I am proud to introduce Face ID Gen 2 Pro. This new version solves the major lag issues found in the original release, improves scanning speed by more than 10 times, and significantly increases accuracy by incorporating additional facial measurements and identifiable data. A large amount of time was spent researching the Face Sensing extension, experimenting with different approaches, collecting test data, and designing the algorithm before any coding even began. The goal was to create a practical biometric verification system that could run entirely inside Scratch. While this project is not intended to replace professional security systems, it demonstrates what is possible using Scratch’s built-in tools and a carefully designed facial recognition algorithm. Thank you for trying the project, and I hope it inspires you to explore advanced programming techniques in Scratch.