CHOOSING RANDOM SELECTION OR PARTIAL SENSING FOR SIDELINK RESOURCE SELECTION

Organization Name

QUALCOMM Incorporated

Inventor(s)

Ramprasad Majjari of Nellore (IN)

Bapineedu Chowdary Gummadi of Hyderabad (IN)

CHOOSING RANDOM SELECTION OR PARTIAL SENSING FOR SIDELINK RESOURCE SELECTION - A simplified explanation of the abstract

This abstract first appeared for US patent application 17808378 titled 'CHOOSING RANDOM SELECTION OR PARTIAL SENSING FOR SIDELINK RESOURCE SELECTION

Simplified Explanation

Abstract

The abstract of this patent application describes a wireless communication system where a user equipment (UE) can select sidelink resources using random selection or partial sensing based on certain thresholds. This allows the UE to transmit on the sidelink channel using the selected resources.

• The user equipment (UE) can randomly select sidelink resources when the channel busy ratio (CBR) associated with the sidelink channel meets a certain threshold.
• Alternatively, the UE can use partial sensing to select sidelink resources when the block error ratio (BLER) associated with the sidelink channel fails to meet a certain threshold.
• The UE can then transmit on the sidelink channel using the selected resources.

Potential Applications

• This technology can be applied in various wireless communication systems, such as cellular networks or Internet of Things (IoT) networks.
• It can improve the efficiency and reliability of sidelink communication between devices in these networks.
• The random selection and partial sensing techniques can help optimize resource allocation and improve overall network performance.

Problems Solved

• The technology addresses the challenge of resource selection in wireless communication systems.
• It provides a method for the user equipment to intelligently select sidelink resources based on channel conditions, ensuring efficient and reliable communication.
• By using random selection or partial sensing, the technology helps mitigate interference and improve overall network performance.

Benefits

• Improved efficiency and reliability of sidelink communication in wireless networks.
• Optimal resource allocation based on channel conditions, leading to better network performance.
• Mitigation of interference and improved overall network efficiency.

Original Abstract Submitted

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may use random selection to select sidelink resources when a channel busy ratio (CBR) associated with a sidelink channel satisfies a CBR threshold. Alternatively, the UE may use partial sensing to select the sidelink resources when a block error ratio (BLER) associated with the sidelink channel fails to satisfy a BLER threshold. Accordingly, the UE may transmit on the sidelink channel using the sidelink resources. Numerous other aspects are provided.