METHOD AND APPARATUS FOR FREQUENCY SELECTIVE BEAM MEASUREMENT AND REPORTING

Organization Name

Samsung Electronics Co., Ltd.

Inventor(s)

Dalin Zhu of Allen TX (US)

Emad Nader Farag of Flanders NJ (US)

Md. Saifur Rahman of Plano TX (US)

Eko Onggosanusi of Coppell TX (US)

METHOD AND APPARATUS FOR FREQUENCY SELECTIVE BEAM MEASUREMENT AND REPORTING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18339943 titled 'METHOD AND APPARATUS FOR FREQUENCY SELECTIVE BEAM MEASUREMENT AND REPORTING

Simplified Explanation

The patent application describes methods and apparatuses for frequency selective beam measurement and reporting (FSBMR) in a wireless communication system. The method involves operating a user equipment (UE) by receiving a configuration for a channel state information (CSI) reference signal (RS) resource and a CSI reporting setting to enable FSBMR. The method also includes receiving information indicating sets of frequency subbands for the CSI-RS resource and the CSI reporting setting. Based on this information, the method involves measuring the CSI-RS resource and determining a beam report that includes one or more beam metrics.

• The patent application focuses on improving the measurement and reporting of beam performance in a wireless communication system.
• It introduces the concept of frequency selective beam measurement and reporting (FSBMR) to enhance the accuracy and efficiency of beamforming.
• The method involves configuring the UE with specific CSI-RS resources and reporting settings to enable FSBMR.
• The UE measures the CSI-RS resource based on the received configuration and information about frequency subbands.
• The measurement results, along with the configuration and additional information, are used to determine a beam report that includes beam metrics.
• The beam report provides valuable insights into the performance of beamforming, allowing for optimization and improvement of wireless communication systems.

Potential applications of this technology:

• This technology can be applied in various wireless communication systems, including cellular networks, Wi-Fi networks, and satellite communication systems.
• It can improve the performance of beamforming techniques, leading to better signal quality, increased data rates, and improved coverage.
• FSBMR can be used in 5G and future generations of wireless networks to enhance beam management and optimize network resources.
• It can be utilized in IoT (Internet of Things) applications to improve the reliability and efficiency of wireless connectivity.

Problems solved by this technology:

• Traditional beamforming techniques may suffer from inaccuracies and inefficiencies in measuring and reporting beam performance.
• FSBMR addresses these issues by introducing frequency selective measurement and reporting, allowing for more precise evaluation of beam characteristics.
• This technology solves the problem of suboptimal beamforming by providing accurate beam metrics that can be used for optimization and improvement.

Benefits of this technology:

• FSBMR improves the accuracy and efficiency of beamforming, leading to better signal quality and increased data rates.
• It enables more effective beam management, allowing for better utilization of network resources and improved coverage.
• The technology provides valuable insights into beam performance, facilitating optimization and improvement of wireless communication systems.
• It enhances the reliability and efficiency of wireless connectivity, particularly in IoT applications.

Original Abstract Submitted

Methods and apparatuses for frequency selective beam measurement and reporting (FSBMR) in a wireless communication system. A method for operating a user equipment (UE) includes receiving a configuration for a channel state information (CSI) reference signal (RS) resource and a CSI reporting setting to enable FSBMR. The method further includes receiving first information indicating a first set of frequency subbands for the CSI-RS resource and receive second information indicating a second set of frequency subbands for the CSI reporting setting. The method further includes measuring, based on the configuration and the first information, the CSI-RS resource and determining, based on the configuration, the measurement, and the second information, a beam report including one or more beam metrics.