👓 In this video, I demonstrate how to build a REAL-TIME Virtual Spectacles Try-On application using Python, OpenCV, and Computer Vision.
This project uses a live camera feed to detect facial landmarks and accurately place different spectacle frames on the user's face — just like modern AR try-on systems used by e-commerce brands.
🔥 What you’ll learn in this video:
✔️ Live face detection & landmark tracking using OpenCV
✔️ How virtual spectacles are aligned perfectly on the face
✔️ How to dynamically add new spectacle frames
✔️ Flask-based web interface for real-time try-on
✔️ Frontend carousel for selecting different frames
✔️ Complete backend & frontend code explanation
✔️ How real-world virtual try-on systems work
📌 Key Features of the App:
• Real-time camera feed
• Multiple spectacle styles
• Smooth and accurate face alignment
• Interactive and modern UI
• Easily extensible (add new frames in seconds)
💡 This project is perfect for:
✔️ Computer Vision learners
✔️ Python & OpenCV developers
✔️ Final-year / mini-project students
✔️ AR / AI enthusiasts
✔️ Resume-worthy portfolio projects
📂 Source Code:
🔗 https://github.com/jaingaurav126/Spcs...
👍 If you enjoyed this video, don’t forget to LIKE, SHARE & SUBSCRIBE for more AI, Computer Vision, and real-world Python projects!
#VirtualTryOn #ComputerVision #OpenCV #pythonprojects #VirtualTryOn
#ComputerVision
#OpenCV
#PythonProject
#AIProjects
#AugmentedReality
#FaceLandmarks
#PythonDeveloper
#FinalYearProject
#MachineLearning
#FlaskApp
#ResumeProject
On this page of the site you can watch the video online Virtual Spectacles Try-On using OpenCV & Python | Face Landmarks | Full Source Code Explained with a duration of hours minute second in good quality, which was uploaded by the user GAURAV KUMAR JAIN 05 January 2026, share the link with friends and acquaintances, this video has already been watched 65 times on youtube and it was liked by 1 viewers. Enjoy your viewing!