SPLIT PROCESSING XR USING HIERARCHICAL MODULATION

Organization Name

qualcomm incorporated

Inventor(s)

Yehonatan Dallal of Kfar Saba (IL)

Guy Wolf of Rosh Haayin (IL)

Shay Landis of Hod Hasharon (IL)

Gideon Shlomo Kutz of Ramat Hasharon (IL)

SPLIT PROCESSING XR USING HIERARCHICAL MODULATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240320785 titled 'SPLIT PROCESSING XR USING HIERARCHICAL MODULATION

Simplified Explanation: The patent application describes a method for graphics processing involving hierarchical modulation and foveated rendering. This technique allows for the efficient rendering of images based on the user's gaze information.

• The first wireless device receives a hierarchical modulated image with higher and lower priority bits from a network entity.
• Gaze information is obtained from a second wireless device, indicating the user's foveal region.
• The first wireless device processes the image based on the gaze information, focusing on the lower priority bits in regions closer to the fovea.
• The processed image is then provided to the second wireless device for rendering, with higher resolution in foveal regions and lower resolution in peripheral regions.

Key Features and Innovation:

• Graphics processing involving hierarchical modulation and foveated rendering.
• Efficient rendering based on user gaze information.
• Processing of lower priority bits in regions closer to the fovea.
• Variable resolution in different regions of the image.

Potential Applications:

• Virtual reality systems
• Augmented reality applications
• Gaming consoles
• Medical imaging devices
• Remote sensing technologies

Problems Solved:

• Efficient utilization of network resources
• Improved rendering quality based on user focus
• Reduction of processing power required for rendering

Benefits:

• Enhanced user experience
• Reduced network bandwidth usage
• Optimal resource allocation
• Improved image quality based on user gaze

Commercial Applications: Potential commercial applications include:

• Virtual reality gaming systems
• Augmented reality headsets
• Medical imaging devices
• Remote sensing technologies

Questions about Graphics Processing with Hierarchical Modulation and Foveated Rendering: 1. How does hierarchical modulation improve image rendering efficiency? 2. What are the advantages of foveated rendering in graphics processing?

Frequently Updated Research: Stay updated on the latest advancements in graphics processing techniques involving hierarchical modulation and foveated rendering to ensure optimal performance and user experience.

Original Abstract Submitted

aspects are provided including one or more techniques for graphics processing involving hierarchical modulation and foveated rendering. a first wireless device obtains, from a network entity, a hierarchical modulated image including higher and lower priority bits. the first wireless device also obtains gaze information from a second wireless device indicating an associated foveal region. in response to the gaze information, the first wireless device processes a portion of the hierarchical modulated image associated with the lower priority bits using the gaze information. for example, the device decodes low priority bits in the hierarchical modulated image in regions closer to the fovea. the first wireless device subsequently provides an image including the processed portion to be rendered at the second wireless device. for example, the processed image may have a higher resolution in the regions closer to the fovea but a lower resolution in regions farther from the fovea.