18288109. UPLINK IMPACT ON PUCCH SCELL ACTIVATION DELAY simplified abstract (Intel Corporation)
Contents
UPLINK IMPACT ON PUCCH SCELL ACTIVATION DELAY
Organization Name
Inventor(s)
Andrey Chervyakov of Nizhny Novgorod (RU)
IIYA Bolotin of Nizhny-Novgorod (RU)
UPLINK IMPACT ON PUCCH SCELL ACTIVATION DELAY - A simplified explanation of the abstract
This abstract first appeared for US patent application 18288109 titled 'UPLINK IMPACT ON PUCCH SCELL ACTIVATION DELAY
The patent application describes instructions stored in a computer-readable storage medium to configure a UE for Scell activation in a 5G NR network. The UE decodes a first MAC CE from a base station on a PDSCH, which includes a PUCCH Scell activation command. A second MAC CE is decoded, containing PL-RS configuration information. The DL activation process is performed within a pre-configured activation time, starting at the first slot of the first MAC CE reception. The availability of a PL-RS is determined based on the PL-RS configuration information. CSLRS measurements are conducted in response to the PUCCH Scell activation command, including path loss calculations within an extended time period after the DL activation process, based on the availability of the PL-RS.
- Decoding of MAC CE for Scell activation
- PL-RS configuration information in second MAC CE
- DL activation process within pre-configured time
- Determination of PL-RS availability
- CSLRS measurements post-activation process
Potential Applications: - 5G NR networks - Wireless communication systems - Mobile devices
Problems Solved: - Efficient Scell activation in 5G NR networks - Improved path loss calculations - Enhanced network performance
Benefits: - Faster Scell activation process - Accurate path loss calculations - Optimal network efficiency
Commercial Applications: Title: "Enhanced Scell Activation Technology for 5G NR Networks" This technology can be utilized in telecommunications companies, network equipment manufacturers, and mobile device companies to enhance the efficiency and performance of 5G NR networks.
Questions about Scell Activation Technology: 1. How does this technology improve network efficiency in 5G NR networks? This technology streamlines the Scell activation process, leading to faster and more accurate network configurations.
2. What are the key benefits of utilizing CSLRS measurements in response to the PUCCH Scell activation command? CSLRS measurements provide valuable data for path loss calculations, ensuring optimal network performance.
Original Abstract Submitted
A computer-readable storage medium stores instructions to configure a UE for Scell activation in a 5G NR network, and to cause the UE to perform operations including decoding a first MAC CE received from a base station on a PDSCH. The first MAC CE includes a PUCCH SCell activation command. A second MAC CE is decoded, which includes PL-RS configuration information. DL activation process is performed within a pre-configured activation time starting at a first slot of the first MAC CE reception. The availability of a PL-RS is determined based on the PL-RS configuration information. CSLRS measurements are performed in response to the PUCCH SCell activation command. The CSLRS measurements include a path loss calculation performed within an extended time period starting after the DL activation process and having a duration based on the availability of the PL-RS.
