WIRELESS COMMUNICATION METHOD, Non-AP STA, AND AP

Organization Name

GUANGDONG OPPO MOBILE TELECOMMUNICATIONS CORP., LTD.

Inventor(s)

Liuming Lu of Dongguan (CN)

Lei Huang of Singapore (SG)

Chaoming Luo of Dongguan (CN)

WIRELESS COMMUNICATION METHOD, Non-AP STA, AND AP - A simplified explanation of the abstract

This abstract first appeared for US patent application 18600519 titled 'WIRELESS COMMUNICATION METHOD, Non-AP STA, AND AP

Simplified Explanation:

This patent application describes a wireless communication method involving a non-access point station (Non-AP STA) and an access point (AP). The method allows the Non-AP STA to determine when to access the channel during restricted target wake time (r-TWT) service periods using different parameters based on specific information.

• The method involves the Non-AP STA deciding to access the channel during r-TWT service periods using a first enhanced distributed channel access (EDCA) parameter based on certain information.
• The Non-AP STA also determines when to access the channel outside of r-TWT service periods using a second EDCA parameter, also based on the provided information.
• The information includes details such as the types of r-TWT service periods, the role of the Non-AP STA, and whether the Non-AP STA is currently in a scheduled or non-scheduled r-TWT service period.

Key Features and Innovation:

• Wireless communication method for Non-AP STA and AP.
• Utilization of different EDCA parameters for channel access during r-TWT service periods.
• Information-based decision-making for channel access timing.

Potential Applications:

This technology can be applied in various wireless communication systems where efficient channel access scheduling is crucial, such as IoT networks, smart home devices, and industrial automation systems.

Problems Solved:

This technology addresses the challenge of optimizing channel access timing for Non-AP STAs during restricted target wake time service periods, improving overall network performance and efficiency.

Benefits:

• Enhanced channel access efficiency.
• Improved network performance.
• Better utilization of resources.

Commercial Applications:

Optimized channel access scheduling in IoT networks can lead to more reliable and efficient communication, benefiting industries such as smart home automation, industrial IoT, and healthcare monitoring systems.

Questions about Wireless Communication Technology:

1. How does the use of different EDCA parameters improve channel access efficiency during r-TWT service periods? 2. What are the potential implications of this technology for IoT networks and industrial automation systems?

Original Abstract Submitted

A wireless communication method, a non-access point station (Non-AP STA), and an access point (AP) are provided. The method includes: determining, by a non-access point station (Non-AP STA), to perform channel access in one or more restricted target wake time (r-TWT) service periods by using a first enhanced distributed channel access (EDCA) parameter, according to first information; and/or, determining, by the Non-AP STA, to perform channel access outside the one or more r-TWT service periods by using a second EDCA parameter, according to the first information; wherein the first information comprises at least one of: types of the one or more r-TWT service period, being a trigger-enable service period or a non-trigger-enable service period; a role of the Non-AP STA, being one of a r-TWT scheduled station and a r-TWT non-scheduled station; and whether the Non-AP STA is currently in a scheduled or non-scheduled r-TWT service period.