SYNCHRONIZATION RASTER DESIGN METHOD AND APPARATUS

Organization Name

HUAWEI TECHNOLOGIES CO., LTD.

Inventor(s)

Liang Qiao of Shenzhen (CN)

Jiayin Zhang of Shanghai (CN)

SYNCHRONIZATION RASTER DESIGN METHOD AND APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18432085 titled 'SYNCHRONIZATION RASTER DESIGN METHOD AND APPARATUS

Simplified Explanation

The synchronization raster design method and apparatus provided in this patent application aim to optimize the synchronization process in a network device operating above 52.6 GHz.

• Network device determines first bandwidth above 52.6 GHz
• Configures multiple synchronization rasters in the first bandwidth according to a rule
• Places one synchronization signal block on each synchronization raster
• Improves SSB search efficiency and reduces power consumption of terminal devices

Potential Applications

This technology can be applied in high-frequency network devices, such as 5G and beyond, where efficient synchronization is crucial for optimal performance.

Problems Solved

1. Inefficient synchronization process in high-frequency network devices 2. High power consumption of terminal devices during synchronization

Benefits

1. Improved SSB search efficiency 2. Reduced power consumption of terminal devices 3. Enhanced performance of high-frequency network devices

Potential Commercial Applications

Optimizing synchronization in high-frequency network devices can benefit telecommunications companies, network equipment manufacturers, and other industries relying on efficient data transmission in the millimeter-wave spectrum.

Possible Prior Art

Prior art may include patents or research papers related to synchronization methods in high-frequency network devices, particularly focusing on optimizing SSB search efficiency and reducing power consumption during synchronization.

Unanswered Questions

How does this technology impact the overall efficiency of high-frequency network devices?

This technology improves the efficiency of synchronization processes in high-frequency network devices, leading to enhanced performance and reduced power consumption.

What are the potential challenges in implementing this synchronization raster design method in practical network devices?

Challenges may include compatibility issues with existing network infrastructure, integration with different subcarrier spacings, and ensuring seamless operation in real-world network environments.

Original Abstract Submitted

In this application, a synchronization raster design method and an apparatus are provided. The method includes: A network device determines a first bandwidth. A frequency range corresponding to the first bandwidth is above 52.6 gigahertz GHz. The network device configures a plurality of synchronization rasters in the first bandwidth according to a first rule. One synchronization signal block SSB is placed on each synchronization raster, and each synchronization raster corresponds to one global synchronization number. According to the synchronization raster design method provided in this application, an adaptive first bandwidth can be provided for different subcarrier spacings. This reduces power consumption of the terminal device and improves SSB search efficiency of the terminal device.