17683225. CONFIGURATION AND PROCEDURE FOR SEARCH SPACE USED IN SMALL DATA TRANSFER OVER PRE-CONFIGURED UPLINK RESOURCES simplified abstract (QUALCOMM Incorporated)
CONFIGURATION AND PROCEDURE FOR SEARCH SPACE USED IN SMALL DATA TRANSFER OVER PRE-CONFIGURED UPLINK RESOURCES
Organization Name
Inventor(s)
Linhai He of San Diego CA (US)
CONFIGURATION AND PROCEDURE FOR SEARCH SPACE USED IN SMALL DATA TRANSFER OVER PRE-CONFIGURED UPLINK RESOURCES - A simplified explanation of the abstract
This abstract first appeared for US patent application 17683225 titled 'CONFIGURATION AND PROCEDURE FOR SEARCH SPACE USED IN SMALL DATA TRANSFER OVER PRE-CONFIGURED UPLINK RESOURCES
Simplified Explanation
The patent application describes a system involving a user equipment (UE) and a base station. Here is a simplified explanation of the abstract:
- The UE receives information from the base station about the configuration of a synchronization signal (SS) and a set of candidate downlink reference signals (DL-RSs) associated with a group of subframe-based dynamic time (CG-SDT) resources.
- The base station monitors for uplink (UL) data transmission from the UE on a CG-SDT occasion of the CG-SDT resources.
- The UE measures the reference signal received power (RSRP) of each candidate DL-RS associated with the CG-SDT resources.
- Based on the measured RSRP, the UE selects an uplink beam for transmission.
- The UE transmits the UL data to the base station using the selected uplink beam on a CG-SDT occasion.
- The UE then monitors the SS for a response from the base station to the UL data transmission.
Potential applications of this technology:
- This technology can be applied in wireless communication systems, such as 5G or future generations, to improve the efficiency and reliability of uplink data transmission.
- It can be used in various industries that rely on wireless communication, including telecommunications, IoT, and autonomous vehicles.
Problems solved by this technology:
- The system addresses the challenge of efficiently selecting an uplink beam for transmission in a CG-SDT resource environment.
- It solves the problem of optimizing the UL data transmission process by considering the RSRP of candidate DL-RSs associated with the CG-SDT resources.
Benefits of this technology:
- By selecting the most suitable uplink beam based on measured RSRP, the system improves the overall performance and reliability of uplink data transmission.
- It enhances the efficiency of communication between the UE and the base station, leading to better network capacity and user experience.
- The technology provides a more robust and reliable communication link, especially in scenarios with challenging signal conditions or high interference.
Original Abstract Submitted
A UE and a base station are disclosed. The UE may receive, from a base station, an indication of a configuration of an SS and a set of candidate DL-RSs associated with a plurality of CG-SDT resources. The base station may monitor for the UL data transmission from the UE corresponding to a CG-SDT occasion of the CG-SDT resources. The UE may measure a RSRP of each of the set of candidate DL-RSs associated with the CG-SDT resources. The UE may select an UL beam based on the measured RSRP of each of the set of candidate DL-RSs associated with the CG-SDT resources. The UE may transmit, to the base station via the selected UL beam, the UL data transmission over a CG-SDT occasion of the plurality of CG-SDT resources. The UE may monitor the SS for a response to the UL data transmission from the base station.