PHYSICAL RESOURCE BLOCK ALLOCATION ALIGNMENT

Organization Name

qualcomm incorporated

Inventor(s)

Roberto Airoldi of Helsinki (FI)

Shmuel Vagner of San Diego CA (US)

Deepak Agarwal of San Diego CA (US)

Michael Francis Garyantes of Bradley Beach NJ (US)

Abhishek Saurabh Sachidanand Sinha of San Diego CA (US)

Osama Alrabadi of Nurnberg (DE)

Jigneshkumar Shah of San Diego CA (US)

PHYSICAL RESOURCE BLOCK ALLOCATION ALIGNMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240340050 titled 'PHYSICAL RESOURCE BLOCK ALLOCATION ALIGNMENT

The abstract of this patent application describes techniques for physical resource block allocation alignment in a network system.

• Transmitting beamforming weights (BFWs) to a second network entity
• Transmitting parameters indicating misalignment between PRB allocation and logical structures
• Processing signals with beamforming applied to PRB bundles using the BFWs

Potential Applications: - Wireless communication systems - 5G networks - Internet of Things (IoT) devices

Problems Solved: - Efficient allocation of physical resources - Improved signal processing in network systems

Benefits: - Enhanced network performance - Optimal resource utilization - Reduced interference

Commercial Applications: - Telecommunications companies - Network equipment manufacturers - IoT device manufacturers

Questions about Physical Resource Block Allocation Alignment: 1. How does beamforming improve signal processing in network systems?

  Beamforming helps focus radio signals in specific directions, enhancing signal strength and quality.

2. What are the key benefits of aligning physical resource block allocation in wireless communication systems?

  Aligning PRB allocation improves network efficiency, reduces interference, and enhances overall performance.

Original Abstract Submitted

certain aspects of the present disclosure provide techniques for physical resource block allocation alignment. an example method, performed at a first network entity, includes transmitting beamforming weights (bfws) to a second network entity, each beamforming weight to be applied to a different bundle of one or more physical resource blocks (prbs), transmitting, to the second network entity, one or more parameters indicative of a misalignment between an allocation of prbs and at least one logical structure, and processing signals transmitted between the first and second network entities, with beamforming applied to prb bundles using the bfws, in accordance with the one or more parameters.