COMPACT MULTI-USER MIMO SCHEDULING METHOD

Organization Name

Inventor(s)

Pascal Thubert of Roquefort les Pins (FR)

COMPACT MULTI-USER MIMO SCHEDULING METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18181844 titled 'COMPACT MULTI-USER MIMO SCHEDULING METHOD

The method described in the abstract involves an access point communicating wirelessly with wireless stations to allocate resource units for data transmission.

The access point transmits a first multi-user trigger frame to identify wireless stations and allocate resource units for data transmission.
Wireless stations respond by transmitting an uplink multi-user data frame with uplink data segments concurrently transmitted in the allocated resource units.

Potential Applications: - This technology can be used in wireless communication systems to efficiently allocate resources for data transmission. - It can improve the overall performance and capacity of wireless networks by enabling concurrent data transmission from multiple stations.

Problems Solved: - Efficient resource allocation in wireless networks. - Increasing network capacity and performance.

Benefits: - Enhanced data transmission efficiency. - Improved network capacity and performance. - Better utilization of resources in wireless communication systems.

Commercial Applications: Title: Wireless Resource Allocation Technology for Enhanced Network Performance This technology can be applied in various industries such as telecommunications, IoT, and smart devices to optimize data transmission and improve network performance. It can benefit companies looking to enhance their wireless communication systems and increase overall efficiency.

Questions about Wireless Resource Allocation Technology: 1. How does this technology improve the performance of wireless networks? - This technology improves performance by efficiently allocating resources for data transmission, enabling concurrent data transmission from multiple stations. 2. What are the potential applications of this technology in different industries? - This technology can be applied in telecommunications, IoT, and smart devices to optimize data transmission and improve network performance.

Original Abstract Submitted

A method comprises: at an access point configured to communicate wirelessly with wireless stations: transmitting, to the wireless stations, a first multi-user trigger frame that identifies the wireless stations and allocates, to the wireless stations, resource units in which the wireless stations are to transmit data; and responsive to transmitting the first multi-user trigger frame, receiving, from the wireless stations, an uplink multi-user data frame that includes uplink data segments concurrently transmitted in the resource units by at least some of the wireless stations.