SIDELINK SYNCHRONIZATION SIGNAL BLOCK REPETITION IN WIDEBAND COMMUNICATIONS

Organization Name

qualcomm incorporated

Inventor(s)

Chih-Hao Liu of San Diego CA (US)

Giovanni Chisci of San Diego CA (US)

Jing Sun of San Diego CA (US)

Xiaoxia Zhang of San Diego CA (US)

Peter Gaal of San Diego CA (US)

SIDELINK SYNCHRONIZATION SIGNAL BLOCK REPETITION IN WIDEBAND COMMUNICATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240340823 titled 'SIDELINK SYNCHRONIZATION SIGNAL BLOCK REPETITION IN WIDEBAND COMMUNICATIONS

Simplified Explanation: The patent application describes a method of wireless communication involving the transmission of synchronization blocks in different subsets of a bandwidth to facilitate communication between user equipment.

• The method involves transmitting a first sidelink synchronization block (S-SSB) with a specific sequence shift and identifier to a second user equipment in a subset of the bandwidth.
• Additional S-SSBs with different sequence shifts or identifiers are then transmitted in other subsets of the bandwidth to enhance communication.
• This approach allows for efficient and reliable wireless communication between user equipment in a wireless network.

Key Features and Innovation:

• Transmission of multiple S-SSBs with varying sequence shifts and identifiers.
• Facilitation of communication between user equipment in different subsets of a bandwidth.
• Improved efficiency and reliability of wireless communication systems.

Potential Applications:

• 5G and beyond wireless communication systems.
• Internet of Things (IoT) devices.
• Smart city infrastructure.
• Industrial automation.
• Public safety communication networks.

Problems Solved:

• Enhancing synchronization and communication reliability in wireless networks.
• Improving efficiency in transmitting data between user equipment.
• Facilitating seamless connectivity in complex wireless environments.

Benefits:

• Enhanced communication reliability.
• Improved efficiency in wireless data transmission.
• Seamless connectivity for user equipment in diverse environments.

Commercial Applications: Wireless communication equipment manufacturers can utilize this technology to develop more reliable and efficient wireless communication systems for various industries, including telecommunications, IoT, smart cities, industrial automation, and public safety.

Questions about Wireless Communication Systems: 1. How does the transmission of multiple S-SSBs with different sequence shifts improve wireless communication reliability? 2. What are the potential challenges in implementing this method of wireless communication in real-world scenarios?

Original Abstract Submitted

wireless communications systems, apparatuses, and methods are provided. a method of wireless communication performed by a first user equipment (ue) includes transmitting, to a second ue, a first sidelink synchronization block (s-ssb) in a first subset of a bandwidth, wherein the first s-ssb comprises a first sequence shift and a first identifier associated with the first ue and transmitting, to the second ue, one or more additional s-ssbs in one or more additional subsets of the bandwidth, wherein the one or more additional s-ssbs comprises at least one of a second sequence shift different from the first sequence shift or a second identifier associated with the first ue different from the first identifier associated with the first ue.