ADAPTIVE EXTENDED REALITY TRANSMISSIONS FOR ULTRA-WIDE BAND COMMUNICATIONS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Gideon Shlomo Kutz of Ramat Hasharon (IL)

Amit Bar-or Tillinger of Tel-Aviv (IL)

David Yunusov of Holon (IL)

ADAPTIVE EXTENDED REALITY TRANSMISSIONS FOR ULTRA-WIDE BAND COMMUNICATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240250714 titled 'ADAPTIVE EXTENDED REALITY TRANSMISSIONS FOR ULTRA-WIDE BAND COMMUNICATIONS

Simplified Explanation: The patent application discusses a method to improve the efficiency of using ultra-wide band frequencies for extended reality (XR) services by allowing for a fixed quantity of re-transmissions of data with varying qualities or quantities of parity bits.

• XR devices can re-transmit data with different qualities or parity bits to ensure better utilization of network resources.
• Feedback messages can indicate the success of the initial transmission, allowing for adjustments in subsequent transmissions.
• This method aims to enhance the performance of XR services in unlicensed spectrum environments.

Key Features and Innovation:

• Fixed quantity of re-transmissions for XR frames.
• Varying qualities or quantities of parity bits for re-transmissions.
• Feedback mechanism for adjusting subsequent transmissions based on initial success.

Potential Applications:

• Improved performance of XR services in unlicensed spectrum environments.
• Enhanced utilization of network resources for XR data transmission.
• Better quality of service for XR users.

Problems Solved:

• Uncertain link quality leading to sub-optimal spectrum resource utilization.
• Poor performance of XR services due to unexpected interference.
• Inefficient use of network resources for XR data transmission.

Benefits:

• More efficient use of ultra-wide band frequencies for XR services.
• Enhanced reliability and performance of XR data transmission.
• Improved user experience for XR applications.

Commercial Applications: The technology can be applied in various industries such as virtual reality gaming, augmented reality training simulations, and remote collaboration tools. It can benefit companies developing XR applications by improving the reliability and performance of their services.

Prior Art: Prior research in link adaptation procedures and feedback mechanisms for data transmission in wireless networks may be relevant to this technology. Researchers can explore existing literature on improving link quality and network resource utilization in similar contexts.

Frequently Updated Research: Researchers may be conducting studies on optimizing data transmission in unlicensed spectrum environments for XR services. Stay updated on advancements in link adaptation techniques and feedback mechanisms to enhance the efficiency of XR data transmission.

Questions about XR: 1. How does the fixed quantity of re-transmissions improve the performance of XR services? 2. What are the potential challenges in implementing varying qualities or quantities of parity bits for XR data transmission?

Original Abstract Submitted

ultra-wide band frequencies used for extended reality (xr) services operate as unlicensed spectrum, which can result in unexpected interference. although some link adaptation procedures can be used, uncertain link quality can result in sub-optimal utilization of spectrum resources, which may result in poor performance of an xr service. some aspects described herein enable use of a fixed quantity of re-transmissions of data for an xr frame, with each of the re-transmissions having different xr frame qualities or different quantities of parity bits. the xr device may transmit a feedback message indicating whether the first transmission was successful and may receive a second transmission with additional data for the xr frame. in this way, the xr device can ensure a more efficient use of network resources.