Huawei technologies co., ltd. (20240205662). COMMUNICATION METHOD AND APPARATUS simplified abstract
Contents
COMMUNICATION METHOD AND APPARATUS
Organization Name
Inventor(s)
Xingqing Cheng of Beijing (CN)
COMMUNICATION METHOD AND APPARATUS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240205662 titled 'COMMUNICATION METHOD AND APPARATUS
Simplified Explanation:
The method described in the abstract involves a first node sending messages on broadcast frequency hopping channels to indicate resources. A second node receives these messages, selects a resource, and sends a request message based on that resource. The first node then detects the request message on the selected resource.
Key Features and Innovation:
- First node sends messages on broadcast frequency hopping channels
- Second node receives and processes messages to send request messages
- Detection of request messages on selected resources
Potential Applications: This technology could be applied in wireless communication systems, IoT devices, and network protocols.
Problems Solved: This method helps in efficient resource allocation, reduces interference, and enhances communication reliability.
Benefits:
- Improved communication efficiency
- Enhanced network performance
- Reduced interference
Commercial Applications: Potential commercial applications include telecommunications, smart devices, and industrial automation systems.
Prior Art: Readers can explore prior art related to frequency hopping, wireless communication protocols, and resource allocation methods.
Frequently Updated Research: Stay updated on research related to frequency hopping techniques, wireless communication advancements, and network optimization strategies.
Questions about Frequency Hopping: 1. How does frequency hopping improve communication reliability? 2. What are the key advantages of using frequency hopping in wireless networks?
Original Abstract Submitted
a method includes: a first node sends a first message on at least one broadcast frequency hopping channel, where the first message indicates a first resource on a first frequency hopping channel. the first node sends a second message on the first resource, where the second message indicates a second resource, and the second resource includes at least one third resource used to carry a request message. a second node receives the first message and the second message from the first node, selects a third resource from the at least one third resource, and sends a request message based on the third resource. the first node detects the request message on the at least one third resource.
