VIDEO IMAGE STABILIZATION

Organization Name

apple inc.

Inventor(s)

Simon Fortin-deschenes of Santa Clara CA (US)

Anthony Ghannoum of Montreal (CA)

VIDEO IMAGE STABILIZATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240340537 titled 'VIDEO IMAGE STABILIZATION

The patent application aims to reduce or eliminate camera motion blur during video capture by moving camera components to compensate for the motion.

• Moving camera components during each frame exposure to compensate for motion
• Moving camera components back in the other direction between frame exposures
• Blur reduction techniques for live feed video environments

Potential Applications: - Video recording devices - Live streaming platforms - Security cameras

Problems Solved: - Camera motion blur during video capture - Maintaining clear and stable video footage

Benefits: - Improved video quality - Enhanced user experience - Increased accuracy in video analysis

Commercial Applications: Title: Advanced Image Stabilization Technology for Video Cameras This technology can be used in various industries such as filmmaking, sports broadcasting, and surveillance systems to ensure high-quality, stable video footage.

Questions about Camera Motion Blur Reduction: 1. How does the technology compensate for camera motion blur during video capture?

  - The technology involves moving camera components to counteract the motion and maintain clear video footage.

2. What are the potential benefits of implementing blur reduction techniques in live feed video environments?

  - The benefits include improved video quality, enhanced user experience, and increased accuracy in video analysis.

Original Abstract Submitted

various implementations disclosed herein reduce or eliminate camera motion blur during video capture by moving camera components to compensate for the motion. this may involve, for example, moving a camera component during each frame exposure to compensate for the motion (i.e., during image stabilization periods) and moving the camera component back in the other direction between the frame exposures (i.e., during re-initialization periods). the blur reduction techniques disclosed herein may be used in a live feed video environment in which one or more electronic devices simultaneously capture video via camera components and display the video as a live feed on a display.