WAVEGUIDE CORRECTION

Organization Name

meta platforms technologies, llc

Inventor(s)

Edward Buckley of High Peak (GB)

Christopher Francis Reidy of Bellevue WA (US)

WAVEGUIDE CORRECTION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240233614 titled 'WAVEGUIDE CORRECTION

Simplified Explanation: The patent application describes a computing system that corrects chrominance errors in images displayed on a screen using correction factors based on chrominance components.

• The computing system accesses an image and correction factors to correct chrominance errors.
• Correction factors are determined based on chrominance components in an opponent color space.
• The system adjusts pixel values of the image using the correction factors.
• The corrected image is then displayed on the screen through a waveguide.

Key Features and Innovation:

• Correction of chrominance errors in images displayed on a screen.
• Use of correction factors based on chrominance components in an opponent color space.
• Adjustment of pixel values to improve image quality.
• Display of corrected images through a waveguide.

Potential Applications:

• Display technology for improved image quality.
• Virtual reality and augmented reality applications.
• Medical imaging for accurate color representation.
• Gaming displays for enhanced visual experience.

Problems Solved:

• Corrects chrominance errors in displayed images.
• Improves color accuracy and image quality.
• Enhances visual experience for users.
• Addresses issues with color representation in digital displays.

Benefits:

• Improved image quality and color accuracy.
• Enhanced visual experience for users.
• Accurate color representation in various applications.
• Better performance of display technology.

Commercial Applications: The technology can be used in:

• High-end displays for gaming and entertainment.
• Medical imaging devices for accurate color representation.
• Virtual and augmented reality headsets for immersive experiences.
• Professional displays for color-critical applications.

Questions about the Technology: 1. How does the system determine the correction factors based on chrominance components? 2. What are the specific benefits of using correction factors in an opponent color space?

Frequently Updated Research: Stay updated on advancements in display technology, color correction algorithms, and image processing techniques for improved visual quality and color accuracy.

Original Abstract Submitted

in one embodiment, a computing system may access an image to be displayed on a display through a waveguide. the system may access an array of correction factors for pixel values of the image. the array of correction factors, once applied to the pixel values of the image, may correct a chrominance error associated with the image. the array of correction factors may be determined based at least on two chrominance components corresponding to a transmission character of the waveguide in an opponent color space. the system may adjust the pixel values of the image based on the array of correction factors. the system may output the image with the adjusted pixel values to the display through the waveguide.