SUBBAND-BASED REPORTING FOR CONCURRENT BEAM PAIR LINKS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Mohammed Ali Mohammed Hirzallah of San Marcos CA (US)

Arumugam Chendamarai Kannan of San Diego CA (US)

Srinivas Yerramalli of San Diego CA (US)

Xiaoxia Zhang of San Diego CA (US)

SUBBAND-BASED REPORTING FOR CONCURRENT BEAM PAIR LINKS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18557546 titled 'SUBBAND-BASED REPORTING FOR CONCURRENT BEAM PAIR LINKS

Simplified Explanation

The patent application describes methods, systems, and devices for wireless communication that enable concurrent beam pair link (BPL) measurement and reporting on a subband basis. This allows for efficient selection of BPLs for multi-panel and multi-beam operation.

• Base station configures user equipment (UE) to measure wideband reference signals for different BPLs.
• UE performs measurements at a subband level for each BPL and reports signal qualities for various BPL combinations.
• Measurements include different transmit and receive beam combinations over multiple antenna panels.
• Information reported by UE supports selection of BPLs for multi-panel and multi-beam operation.
• Enables efficient and effective wireless communication in complex environments.

Potential Applications

The technology can be applied in various industries and scenarios, including:

• 5G and beyond wireless communication systems
• IoT devices requiring reliable and high-speed connectivity
• Smart city infrastructure for efficient data transmission
• Industrial automation for seamless communication between machines
• Public safety networks for reliable and fast data transfer

Problems Solved

The technology addresses the following issues:

• Efficient selection of beam pair links for optimal wireless communication.
• Improved signal quality reporting for different BPL combinations.
• Enhanced performance in multi-panel and multi-beam operations.
• Streamlined communication in complex wireless environments.
• Facilitates seamless connectivity in diverse applications.

Benefits

The technology offers the following benefits:

• Enhanced reliability and speed in wireless communication.
• Optimal selection of beam pair links for improved performance.
• Efficient utilization of resources in multi-panel and multi-beam setups.
• Seamless connectivity in challenging wireless environments.
• Enhanced user experience in various wireless communication scenarios.

Commercial Applications

• The technology can be utilized in telecommunications companies to enhance network performance.
• IoT device manufacturers can integrate the technology for improved connectivity.
• Smart city developers can use the technology for efficient data transmission.
• Industrial automation companies can benefit from seamless communication between machines.
• Public safety organizations can improve their network reliability with this technology.

Questions about the Technology

How does this technology improve wireless communication efficiency?

The technology enables the selection of optimal beam pair links for improved performance and seamless connectivity in complex wireless environments.

What are the potential applications of this technology beyond wireless communication?

This technology can be applied in various industries such as IoT, smart city infrastructure, industrial automation, and public safety networks for efficient data transmission and seamless connectivity.

Original Abstract Submitted

Methods, systems, and devices for wireless communication are described to support concurrent beam pair link (BPL) measurement and reporting on a subband basis. A base station may configure a user equipment (UE) to measure one or more wideband reference signals transmitted by the base station for each of a set of BPLs, for joint BPL selection, and the UE may receive the wideband reference signals. The UE may perform measurements for each of the set BPLs at a subband level and may report signal qualities for the different BPL combinations at a subband level. For example, the UE may measure different combinations of transmit beams and receive beams (e.g., may measure different BPLs) over multiple antenna panels, on a per-subband basis. The UE may report information based on the measurements that may support selection of BPLs for multi-panel and multi-beam operation for one or more subbands.