17442204. SYSTEM AND METHODS FOR MULTI-PHYSICAL UPLINK SHARED CHANNEL (PUSCH) CONFIGURED GRANT simplified abstract (Apple Inc.)

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SYSTEM AND METHODS FOR MULTI-PHYSICAL UPLINK SHARED CHANNEL (PUSCH) CONFIGURED GRANT

Organization Name

Apple Inc.

Inventor(s)

Chunhai Yao of Beijing (CN)

Chunxuan Ye of San Diego CA (US)

Seyed Ali Akbar Fakoorian of San Diego CA (US)

Haitong Sun of Cupertino CA (US)

Hong He of San Jose CA (US)

Huaning Niu of San Jose CA (US)

Weidong Yang of San Diego CA (US)

Yushu Zhang of Beijing (CN)

Dawei Zhang of Saratoga CA (US)

Sigen Ye of Whitehouse Station NJ (US)

Oghenekome Oteri of San Diego CA (US)

SYSTEM AND METHODS FOR MULTI-PHYSICAL UPLINK SHARED CHANNEL (PUSCH) CONFIGURED GRANT - A simplified explanation of the abstract

This abstract first appeared for US patent application 17442204 titled 'SYSTEM AND METHODS FOR MULTI-PHYSICAL UPLINK SHARED CHANNEL (PUSCH) CONFIGURED GRANT

Simplified Explanation

The abstract describes a patent application for a user equipment (UE) with a transceiver for wireless communication with a base station and a processor. The processor determines configured grant (CG) transport blocks (TBs) and dynamic grant (DG) TBs for uplink transmissions, identifies overlapping CG and DG TBs, and prioritizes the transmissions based on their levels.

  • The user equipment (UE) includes a transceiver for wireless communication with a base station.
  • The processor in the UE determines configured grant (CG) transport blocks (TBs) and dynamic grant (DG) TBs for uplink transmissions.
  • The processor identifies overlapping CG and DG TBs and prioritizes the transmissions based on their priority levels.
  • The UE transmits a first DG uplink transmission corresponding to the prioritized DG TB.

Potential Applications

This technology can be applied in:

  • Wireless communication systems
  • Mobile devices
  • Internet of Things (IoT) devices

Problems Solved

This technology solves the following problems:

  • Efficient management of uplink transmissions
  • Prioritization of conflicting transmission blocks

Benefits

The benefits of this technology include:

  • Improved transmission efficiency
  • Enhanced quality of service
  • Optimal resource utilization

Potential Commercial Applications

Potential commercial applications of this technology include:

  • Telecommunications companies
  • Mobile device manufacturers
  • IoT device manufacturers

Possible Prior Art

One possible prior art for this technology could be:

  • Patent US20180269478A1 - Method and apparatus for uplink transmission scheduling in wireless communication systems

Unanswered Questions

How does this technology impact battery life in mobile devices?

The article does not address the potential impact of this technology on the battery life of mobile devices. Implementing additional processing for prioritizing transmissions may affect power consumption.

What are the implications of this technology on network congestion?

The article does not discuss how this technology may impact network congestion. Prioritizing certain uplink transmissions could potentially alleviate congestion in wireless networks, but further analysis is needed.


Original Abstract Submitted

Aspects are described for a user equipment (UE) comprising a transceiver configured to enable wireless communication with a base station and a processor communicatively coupled to the transceiver. The processor is configured to determine one or more configured grant (CG) transport blocks (TBs) of one or more CG uplink transmissions and determine one or more dynamic grant (DG) TBs of one or more DG uplink transmissions. The processor is further configured to determine that a first CG TB of the one or more CG TBs overlaps with a first DG TB of the one or more DG TBs in time and determine that a priority level of the first CG TB is lower than a priority level of the DG TB. The processor is further configured to determine that the priority level of the first CG TB is lower than the priority level of the first DG TB and transmit, in the first DG TB, a first DG uplink transmission corresponding to the first DG TB.