METHOD AND APPARATUS FOR LOW COMPLEXITY BEAMFORMING FEEDBACK IN WIRELESS LOCAL AREA NETWORKS

Organization Name

samsung electronics co., ltd.

Inventor(s)

Ziming He of Bamet (GB)

Fei Tong of Bassingboum (GB)

Paul Nicholas Fletcher of Cambridge (GB)

METHOD AND APPARATUS FOR LOW COMPLEXITY BEAMFORMING FEEDBACK IN WIRELESS LOCAL AREA NETWORKS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240380466 titled 'METHOD AND APPARATUS FOR LOW COMPLEXITY BEAMFORMING FEEDBACK IN WIRELESS LOCAL AREA NETWORKS

Simplified Explanation

The patent application describes a method for reducing feedback overhead in beamforming in a wireless communication system by using compressed steering matrices.

• Transmitting data between electronic devices
• Extracting compressed steering matrices from received data
• Obtaining uncompressed steering matrices using a decoder
• Transmitting data via beamforming based on the uncompressed steering matrices

Key Features and Innovation

• Reduction of feedback overhead in beamforming
• Use of compressed steering matrices for efficient data transmission
• Decoder part of an autoencoder utilized for obtaining uncompressed steering matrices
• Radio signal beamforming based on uncompressed steering matrices

Potential Applications

• Wireless communication systems
• Mobile networks
• Internet of Things (IoT) devices
• Smart home technology
• Autonomous vehicles

Problems Solved

• High feedback overhead in beamforming
• Inefficient data transmission in wireless communication systems
• Complex decoding processes for steering matrices
• Limited bandwidth utilization

Benefits

• Improved efficiency in data transmission
• Reduced feedback overhead
• Enhanced performance of wireless communication systems
• Optimal bandwidth utilization
• Enhanced signal quality in beamforming

Commercial Applications

• Telecom companies for improving network efficiency
• IoT device manufacturers for enhancing connectivity
• Autonomous vehicle companies for better communication systems
• Smart home technology companies for improved data transmission
• Military and defense for secure and efficient communication systems

Prior Art

There may be prior art related to the use of compressed steering matrices in beamforming techniques in wireless communication systems. Researchers and patent databases can be consulted to explore existing technologies in this field.

Frequently Updated Research

Researchers are constantly exploring new ways to optimize beamforming techniques in wireless communication systems. Stay updated with the latest studies and advancements in this area to leverage the most efficient technologies.

Questions about Beamforming Technology

How does compressed steering matrices help in reducing feedback overhead in beamforming?

Compressed steering matrices allow for efficient data transmission by reducing the amount of feedback required in beamforming processes. This helps in optimizing the use of resources and improving overall system performance.

What are the potential challenges in implementing compressed steering matrices in wireless communication systems?

Implementing compressed steering matrices may require specialized hardware and software components to decode and process the matrices efficiently. Ensuring compatibility with existing systems and protocols could also pose challenges in deployment.

Original Abstract Submitted

a computer-implemented method performed by a first electronic device for reducing a feedback overhead of beamforming in a wireless communication system, includes: transmitting a first data to a second electronic device; transmitting a data packet to the second electronic device; receiving a second data from the second electronic device; extracting a compressed steering matrix from the second data; obtain uncompressed steering matrix by using a decoder part of an autoencoder, based on the extracted compressed steering matrix; and transmitting, to the second electronic device, a third data via a radio signal beamformed based on the obtained uncompressed steering matrix.