SYNCHRONIZATION SIGNAL BLOCK (SSB) SPATIAL OVERLOADING

Organization Name

QUALCOMM Incorporated

Inventor(s)

Ran Berliner of Kfar-Aviv (IL)

Michael Levitsky of Rehovot (IL)

Assaf Touboul of Netanya (IL)

Guy Wolf of Rosh Haayin (IL)

SYNCHRONIZATION SIGNAL BLOCK (SSB) SPATIAL OVERLOADING - A simplified explanation of the abstract

This abstract first appeared for US patent application 17997214 titled 'SYNCHRONIZATION SIGNAL BLOCK (SSB) SPATIAL OVERLOADING

Simplified Explanation

The abstract describes a method of wireless communication that involves transmitting synchronization signal blocks (SSBs) using spatially separated beams. The SSBs are transmitted during a specific time slot, with multiple SSB transmissions carrying the same data as the first SSB transmission.

• The method involves transmitting SSBs using a wireless communication device.
• The first SSB transmission occurs during a specific time slot.
• Additional SSB transmissions can also occur during the same time slot.
• All SSB transmissions on the first slot carry the same data as the first SSB transmission.
• The SSB transmissions are transmitted using spatially separated beams.

Potential Applications

This technology can be applied in various wireless communication systems, including:

• Cellular networks
• Satellite communication systems
• Internet of Things (IoT) devices
• Wireless sensor networks

Problems Solved

The method addresses several challenges in wireless communication, including:

• Efficient synchronization: The use of SSBs helps in synchronizing multiple devices within a wireless network.
• Beamforming: Transmitting SSBs using spatially separated beams allows for improved signal quality and coverage.
• Data consistency: By ensuring that all SSB transmissions carry the same data, the method ensures data consistency across the network.

Benefits

The use of this method offers several benefits in wireless communication:

• Improved synchronization: The SSB transmissions aid in synchronizing devices, leading to better network performance.
• Enhanced signal quality: Transmitting SSBs using spatially separated beams improves signal strength and reduces interference.
• Increased coverage: The use of spatially separated beams allows for wider coverage area.
• Data consistency: All SSB transmissions carrying the same data ensures data integrity and consistency across the network.

Original Abstract Submitted

A method of wireless communication includes transmitting, by a wireless communication device, a first Synchronization Signal Block (SSB) transmission during a first slot. The method further includes transmitting, by the wireless communication device, at least a second SSB transmission during the first slot, the second and all other optional SSB transmissions on the first slot carry the same data as the first SSB transmission. The SSB transmissions are transmitted using spatially separated beams. Other aspects and features are also claimed and described.