20240039679. RESOURCE CONFIGURATION FOR FULL-DUPLEX COMMUNICATION simplified abstract (QUALCOMM Incorporated)

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RESOURCE CONFIGURATION FOR FULL-DUPLEX COMMUNICATION

Organization Name

QUALCOMM Incorporated

Inventor(s)

Qian Zhang of Basking Ridge NJ (US)

Yan Zhou of San Diego CA (US)

Tao Luo of San Diego CA (US)

RESOURCE CONFIGURATION FOR FULL-DUPLEX COMMUNICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240039679 titled 'RESOURCE CONFIGURATION FOR FULL-DUPLEX COMMUNICATION

Simplified Explanation

The abstract of this patent application describes a method for a user equipment (UE) to determine whether to transmit or receive on a specific sub-band during a communication period. The UE receives a resource configuration from a network entity, which indicates how sub-bands are allocated for full-duplex transmissions. Based on this information, the UE decides whether to transmit or receive on a particular sub-band. Alternatively, the resource configuration can also indicate the configuration of half-duplex and full-duplex transmissions over a period of time, allowing the UE to determine its transmission or reception based on the defined rule.

  • The patent application focuses on enabling UEs to make decisions on transmission or reception on specific sub-bands during communication periods.
  • It introduces the concept of using a resource configuration provided by a network entity to determine transmission or reception on sub-bands.
  • The resource configuration can indicate the allocation of sub-bands for full-duplex transmissions or the configuration of half-duplex and full-duplex transmissions over time.
  • The UE can make the transmission or reception decision based on the received resource configuration and a defined rule.

Potential applications of this technology:

  • Wireless communication systems: This technology can be applied in various wireless communication systems, such as cellular networks, to optimize the use of sub-bands for transmission and reception.
  • Internet of Things (IoT): The ability to efficiently determine transmission or reception on specific sub-bands can enhance the performance and reliability of IoT devices in wireless networks.
  • Industrial automation: This technology can be beneficial in industrial automation systems where reliable and efficient communication between devices is crucial.

Problems solved by this technology:

  • Efficient resource allocation: By providing UEs with a resource configuration, this technology enables efficient allocation of sub-bands for transmission and reception, optimizing the use of available resources.
  • Interference mitigation: By allowing UEs to determine transmission or reception on specific sub-bands, this technology helps mitigate interference issues and improve overall communication quality.
  • Flexibility in communication: The ability to switch between full-duplex and half-duplex transmissions based on the resource configuration provides flexibility in adapting to different communication requirements.

Benefits of this technology:

  • Improved network performance: By optimizing the allocation of sub-bands and mitigating interference, this technology can enhance the overall performance and capacity of wireless communication networks.
  • Enhanced reliability: The ability to make informed decisions on transmission or reception based on the resource configuration improves the reliability and stability of communication between UEs.
  • Flexibility and adaptability: The defined rule for determining transmission or reception allows UEs to adapt to different communication scenarios, providing flexibility in meeting diverse communication requirements.


Original Abstract Submitted

a user equipment (ue) may use a resource configuration to determine whether to transmit or receive on a particular sub-band during a given communication period (e.g., a time slot or a symbol duration). in some examples, a network entity provides a bit map to a ue where the bit map indicates how sub-bands for a given communication period are allocated for full-duplex transmissions. the ue may then determine, based on the bit map, whether to transmit or receive on a particular sub-band. in some examples, a network entity provides a resource configuration to a ue where the resource configuration indicates how half-duplex transmissions and full-duplex transmissions are configured over a period of time. in this case, the ue may be configured by a defined rule to determine, based on the resource configuration, whether to transmit or receive on a particular sub-band.

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