DATA AND CONTROL CHANNELS IN SYNCHRONIZATION BURSTS FOR MILLIMETER WAVE NEW RADIO

Organization Name

QUALCOMM Incorporated

Inventor(s)

Jing Sun of San Diego CA (US)

Tao Luo of San Diego CA (US)

DATA AND CONTROL CHANNELS IN SYNCHRONIZATION BURSTS FOR MILLIMETER WAVE NEW RADIO - A simplified explanation of the abstract

This abstract first appeared for US patent application 18532096 titled 'DATA AND CONTROL CHANNELS IN SYNCHRONIZATION BURSTS FOR MILLIMETER WAVE NEW RADIO

Simplified Explanation: The patent application describes techniques for millimeter wave wireless communication, including synchronization slots, transmission configurations, frequency assignments, and signal transmissions to wireless nodes.

• Configuring synchronization slots for synchronization blocks
• Transmitting synchronization blocks based on configured slots
• Assigning synchronization regions and frequency portions for transmission beams
• Transmitting synchronization signals in synchronization regions
• Transmitting data signals or control information in data or control regions

Key Features and Innovation:

• Efficient synchronization of millimeter wave wireless communication
• Optimized transmission configurations for synchronization blocks
• Clear assignment of synchronization regions and frequency portions
• Effective transmission of synchronization signals and data/control information
• Enhancing communication reliability and performance in wireless networks

Potential Applications:

• 5G and beyond wireless networks
• Internet of Things (IoT) devices
• Smart city infrastructure
• Autonomous vehicles
• Industrial automation systems

Problems Solved:

• Synchronization challenges in millimeter wave wireless communication
• Data transmission efficiency in high-frequency wireless networks
• Interference mitigation in dense wireless environments
• Reliable communication for critical applications
• Scalability and flexibility in wireless network deployments

Benefits:

• Improved synchronization accuracy
• Enhanced data transmission reliability
• Reduced interference and latency
• Increased network capacity and performance
• Support for diverse wireless applications

Commercial Applications: The technology can be applied in various commercial sectors such as telecommunications, smart infrastructure development, industrial automation, autonomous vehicles, and IoT solutions. It offers opportunities for companies to enhance their wireless communication systems, improve network efficiency, and support emerging technologies.

Questions about Millimeter Wave Wireless Communication: 1. How does the synchronization slot configuration impact the efficiency of millimeter wave wireless communication? 2. What are the potential challenges in implementing synchronization regions and frequency assignments in high-frequency wireless networks?

Original Abstract Submitted

Techniques are described for millimeter wave wireless communication. One method includes configuring a synchronization slot associated with a plurality of synchronization blocks, configuring a transmission of each synchronization block of the plurality of synchronization blocks based on the configured synchronization slot, assigning a synchronization region to a first frequency portion associated with a transmission beam of each synchronization block, assigning at least one of a data region or a control region to a second frequency portion associated with the transmission beam of each synchronization block, and transmitting a synchronization signal during the synchronization region and transmitting at least one of data signal during the data region or control information during the control region to a wireless node.