METHOD FOR TRANSMITTING PHYSICAL LAYER PROTOCOL DATA UNIT, METHOD FOR TRANSMITTING TRIGGER FRAME, AND APPARATUS

Organization Name

huawei technologies co., ltd.

Inventor(s)

Jian Yu of Shenzhen (CN)

Mengshi Hu of Shenzhen (CN)

Ming Gan of Shenzhen (CN)

METHOD FOR TRANSMITTING PHYSICAL LAYER PROTOCOL DATA UNIT, METHOD FOR TRANSMITTING TRIGGER FRAME, AND APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240106589 titled 'METHOD FOR TRANSMITTING PHYSICAL LAYER PROTOCOL DATA UNIT, METHOD FOR TRANSMITTING TRIGGER FRAME, AND APPARATUS

Simplified Explanation

The technology described in this patent application relates to improving data transmission reliability for multi-user transmission in a low power indoor operation mode using Wi-Fi technologies. The method involves generating an extremely high throughput multiple user physical layer protocol data unit (EHT MU PPDU) with resource unit allocation for duplicate transmission.

• Method for improving data transmission reliability in multi-user transmission in a low power indoor operation mode:

   - Access point generates an EHT MU PPDU with resource unit allocation for duplicate transmission.
   - Sends the EHT MU PPDU to ensure data transmission reliability.

Potential Applications

This technology could be applied in various indoor settings where multiple users require high throughput data transmission, such as smart homes, offices, and public spaces.

Problems Solved

- Ensuring data transmission reliability for an extremely high throughput physical layer protocol data unit in a multi-user transmission scenario in a low power indoor operation mode. - Resolving difficulties in maintaining data transmission reliability in conventional technologies.

Benefits

- Improved data transmission reliability in multi-user scenarios. - Enhanced performance for high throughput applications in indoor environments. - Efficient resource allocation for duplicate transmission.

Potential Commercial Applications

- Smart home devices requiring high throughput data transmission. - Office networks with multiple users accessing data simultaneously. - Public Wi-Fi networks in crowded indoor spaces.

Possible Prior Art

One possible prior art could be the use of beamforming techniques to improve data transmission reliability in multi-user scenarios. Another could be the implementation of MU-MIMO technology in Wi-Fi routers to enhance throughput for multiple users.

Unanswered Questions

How does this technology compare to existing solutions for multi-user transmission in low power indoor settings?

This article does not provide a direct comparison with existing solutions in the field. Further research or a comparative analysis would be needed to evaluate the effectiveness of this technology against current methods.

What are the specific technical specifications required for implementing this method in Wi-Fi devices?

The article does not delve into the specific technical requirements or compatibility of this method with existing Wi-Fi devices. Additional information on the hardware or software modifications needed for implementation would be beneficial for understanding the practicality of this technology.

Original Abstract Submitted

the technology of this application relates to the field of wireless fidelity (wi-fi) technologies, and provides a method for transmitting a physical layer protocol data unit, a method for transmitting a trigger frame, and an apparatus, to resolve a problem that it is difficult to ensure data transmission reliability of an extremely high throughput physical layer protocol data unit (ppdu) for multi-user transmission in a low power indoor (lpi) operation mode in the conventional technology. the method includes: an access point generates an extremely high throughput multiple user physical layer protocol data unit (eht mu ppdu), where the eht mu ppdu includes a resource unit allocation subfield indicating resource unit allocation of a plurality of stations, and a resource unit corresponding to at least one of the plurality of stations is used for duplicate transmission; and sends the eht mu ppdu.