TIME GAPS FOR SEGMENT-BASED UPLINK TRANSMISSIONS IN NON-TERRESTRIAL NETWORKS

Organization Name

QUALCOMM Incorporated

Inventor(s)

Ayan Sengupta of San Diego CA (US)

Alberto Rico Alvarino of San Diego CA (US)

TIME GAPS FOR SEGMENT-BASED UPLINK TRANSMISSIONS IN NON-TERRESTRIAL NETWORKS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17810133 titled 'TIME GAPS FOR SEGMENT-BASED UPLINK TRANSMISSIONS IN NON-TERRESTRIAL NETWORKS

Simplified Explanation

The present disclosure relates to techniques for transmitting uplink signals in a non-terrestrial network (NTN). The method involves a user equipment (UE) transmitting capability information indicating whether it needs time gaps between transmission segments associated with uplink signals. Based on this information, the UE obtains configuration information that specifies the time gaps between the transmission segments. The UE then transmits the uplink signals in one or more transmission segments according to the configuration information.

• The patent application focuses on techniques for communicating segment-based pre-compensated uplink signals in a non-terrestrial network.
• The method involves a user equipment (UE) transmitting capability information to indicate if it requires time gaps between transmission segments associated with uplink signals.
• Based on the capability information, the UE obtains configuration information that configures the time gaps between the transmission segments.
• The UE then transmits the uplink signals in one or more transmission segments according to the configuration information.

Potential Applications

• Non-terrestrial networks (NTNs) can include satellite communication systems, which are used for various applications such as broadband internet access, remote sensing, and communication in remote areas.
• The techniques described in the patent application can be applied to improve the efficiency and reliability of uplink signal transmission in NTN systems.
• This technology can be beneficial in scenarios where time gaps between transmission segments are required for proper signal reception and processing.

Problems Solved

• In NTN systems, it is important to ensure that uplink signals are transmitted in a reliable and efficient manner.
• The patent application addresses the problem of determining and configuring the time gaps between transmission segments associated with uplink signals.
• By providing capability information and obtaining configuration information, the method solves the problem of efficiently transmitting uplink signals in NTN systems.

Benefits

• The techniques described in the patent application can improve the overall performance and reliability of uplink signal transmission in NTN systems.
• By allowing the UE to indicate its need for time gaps and configuring them accordingly, the method ensures proper reception and processing of uplink signals.
• This technology can lead to enhanced communication capabilities in non-terrestrial networks, enabling better connectivity and services for users.

Original Abstract Submitted

Certain aspects of the present disclosure provide techniques for communicating segment-based pre-compensated uplink signals in a non-terrestrial network. A method that may be performed the UE includes transmitting capability information indicating whether the UE needs time gaps between transmission segments associated with uplink signals to be transmitted by the UE in a non-terrestrial network (NTN), obtaining, based at least in part on the capability information, configuration information configuring the time gaps between the transmission segments associated with the uplink signals to be transmitted by the UE, and transmitting the uplink signals in one or more transmission segments based on the configuration information.