17884664. DYNAMIC PER-BEAM SYNCHRONIZATION SIGNAL PERIODICITY simplified abstract (QUALCOMM Incorporated)
Contents
DYNAMIC PER-BEAM SYNCHRONIZATION SIGNAL PERIODICITY
Organization Name
Inventor(s)
Yehonatan Dallal of Kfar Saba (IL)
Idan Michael Horn of Hod Hasharon (IL)
Shay Landis of Hod Hasharon (IL)
Amit Bar-or Tillinger of Tel-Aviv (IL)
DYNAMIC PER-BEAM SYNCHRONIZATION SIGNAL PERIODICITY - A simplified explanation of the abstract
This abstract first appeared for US patent application 17884664 titled 'DYNAMIC PER-BEAM SYNCHRONIZATION SIGNAL PERIODICITY
Simplified Explanation
The patent application describes methods, systems, and devices for wireless communications, specifically focusing on per-beam synchronization signal block (SSB) periodicity configurations within a wireless communications network.
- A network entity can transmit a first SSB associated with a cell using a first beam, which includes a broadcast channel indicating a first periodicity for transmission of the first SSB.
- The network entity can also transmit a second SSB associated with the same cell using a second beam, which includes a broadcast channel indicating a different second periodicity for transmission of the second SSB.
Potential Applications:
- 5G and future wireless communication networks
- Beamforming technology in wireless communications
Problems Solved:
- Efficient synchronization and signal transmission in wireless networks
- Optimization of network resources and bandwidth utilization
Benefits:
- Improved network performance and reliability
- Enhanced coverage and capacity in wireless communication systems
- Better support for high-speed data transmission and low-latency applications
Original Abstract Submitted
Methods, systems, and devices for wireless communications are described. In some implementations, a wireless communications network may support per-beam synchronization signal block (SSB) periodicity configurations. A network entity may transmit, using a first beam, a first SSB associated with a cell supported by the network entity. The first SSB may include a first broadcast channel that indicates a first periodicity for transmission of the first SSB associated using the first beam. In addition, the network entity may transmit, using a second beam, a second SSB associated with the cell supported by the network entity. The second SSB may include a second broadcast channel that indicates a second periodicity for transmission of the second SSB associated with the cell using the second beam. In such cases, the second periodicity may be different from the first periodicity.