Apple inc. (20240331119). DYNAMIC ALLOCATION OF DYNAMIC BINS FOR VARIABLE DYNAMIC RANGE IMAGE CONTENT simplified abstract
Contents
DYNAMIC ALLOCATION OF DYNAMIC BINS FOR VARIABLE DYNAMIC RANGE IMAGE CONTENT
Organization Name
Inventor(s)
Mahesh B. Chappalli of San Jose CA (US)
Alexey Kornienko of Watford (GB)
DYNAMIC ALLOCATION OF DYNAMIC BINS FOR VARIABLE DYNAMIC RANGE IMAGE CONTENT - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240331119 titled 'DYNAMIC ALLOCATION OF DYNAMIC BINS FOR VARIABLE DYNAMIC RANGE IMAGE CONTENT
The patent application involves determining an upper boundary of brightness values in high-dynamic range image content and processing the image based on this information.
- Determining upper boundary of brightness values in high-dynamic range image content
- Determining end points of bins of histogram values based on the upper boundary
- Allocating luma values to the bins based on the end points
- Processing the high-dynamic range image content using the allocations to the bins
- Displaying the processed image data on an electronic display
Potential Applications: - High-quality image processing in photography and videography - Enhancing visual content in digital displays and screens - Improving image quality in medical imaging and scientific visualization
Problems Solved: - Optimizing the processing of high-dynamic range images for better visual output - Efficient allocation of luma values for improved image quality - Enhancing the overall viewing experience of high-dynamic range content
Benefits: - Enhanced image quality and visual appeal - Improved accuracy in processing high-dynamic range images - Better utilization of brightness values for optimal display
Commercial Applications: Title: "Advanced Image Processing Technology for Enhanced Visual Display" This technology can be used in: - Photography and videography equipment - Digital display devices and monitors - Medical imaging systems and scientific visualization tools
Questions about the technology: 1. How does this technology improve the processing of high-dynamic range images? 2. What are the potential applications of this technology in different industries?
Original Abstract Submitted
methods and systems include determining an upper boundary of brightness values of high-dynamic range image content. using the determined upper boundary, end points of bins of histogram values are determined. using the determined end points of the bins of histogram values, luma values are allocated to the bins. the high-dynamic range image content is processed based at least in part on the allocations to the bins. image data including the processed high-dynamic range image content is displayed via an electronic display.