Vivo mobile communication co., ltd. (20240349256). Method and Apparatus for Determining Time-Frequency Resource for MSG1 Repeated-Transmission, and Terminal simplified abstract
Method and Apparatus for Determining Time-Frequency Resource for MSG1 Repeated-Transmission, and Terminal
Organization Name
vivo mobile communication co., ltd.
Inventor(s)
Method and Apparatus for Determining Time-Frequency Resource for MSG1 Repeated-Transmission, and Terminal - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240349256 titled 'Method and Apparatus for Determining Time-Frequency Resource for MSG1 Repeated-Transmission, and Terminal
Simplified Explanation:
This patent application describes a method and apparatus for determining a time-frequency resource for repeated transmission of a specific message (MSG1) in a communication network. The terminal receives configuration information for the repeated transmission and then determines the appropriate time-frequency resource based on this information.
- The terminal receives a first message from the network-side device containing configuration information for the repeated transmission of MSG1.
- Based on this configuration information, the terminal determines a suitable time-frequency resource for the repeated transmission.
- The determination of the time-frequency resource includes deciding whether to perform the repeated transmission, selecting a physical random access channel (PRACH) resource, and determining a frequency hopping parameter for the transmission.
Key Features and Innovation:
- Method and apparatus for determining time-frequency resource for repeated transmission of a specific message.
- Utilizes configuration information to make informed decisions about the transmission.
- Includes determining whether to perform the repeated transmission, selecting PRACH resource, and setting frequency hopping parameters.
Potential Applications:
This technology can be applied in various communication networks where repeated transmission of specific messages is required. It can enhance the efficiency and reliability of message delivery in wireless communication systems.
Problems Solved:
- Efficient allocation of time-frequency resources for repeated transmission.
- Improved reliability and performance of message delivery.
- Enhanced communication network efficiency.
Benefits:
- Optimal utilization of resources.
- Enhanced reliability of message transmission.
- Improved overall performance of communication networks.
Commercial Applications:
Potential commercial applications include telecommunications companies, IoT networks, and other wireless communication systems looking to optimize their message transmission processes.
Prior Art:
Prior art related to this technology may include patents or research papers on resource allocation in wireless communication systems, frequency hopping techniques, and random access channel protocols.
Frequently Updated Research:
Researchers in the field of wireless communication systems may be conducting studies on resource allocation algorithms, optimization techniques for message transmission, and advancements in frequency hopping technologies.
Questions about Time-Frequency Resource Determination for Repeated Transmission:
1. How does the determination of time-frequency resources impact the overall performance of communication networks? 2. What are the key factors considered when selecting a physical random access channel (PRACH) resource for repeated transmission?
Original Abstract Submitted
a method and apparatus for determining a time-frequency resource for msg1 repeated-transmission includes receiving, by a terminal, a first message sent by a network-side device. the first message carries first configuration information of msg1 repeated-transmission; determining, by the terminal, a first time-frequency resource for the msg1 repeated-transmission based on the first configuration information. the determining a first time-frequency resource for the msg1 repeated-transmission includes at least one of the following determining whether to perform the msg1 repeated-transmission; determining a physical random access channel (prach) resource for the msg1 repeated-transmission; or determining a frequency hopping parameter of the msg1 repeated-transmission.