TECHNIQUES FOR DETERMINING COMMUNICATION PARAMETERS FOR BEAM SWITCHING

Organization Name

qualcomm incorporated

Inventor(s)

Fang Yuan of Beijing (CN)

Yan Zhou of San Diego CA (US)

Tianyang Bai of Mountain View CA (US)

Tao Luo of San Diego CA (US)

TECHNIQUES FOR DETERMINING COMMUNICATION PARAMETERS FOR BEAM SWITCHING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240204851 titled 'TECHNIQUES FOR DETERMINING COMMUNICATION PARAMETERS FOR BEAM SWITCHING

Simplified Explanation

The patent application describes techniques for wireless communications where a device can switch to a different beam for better communication based on a reference signal.

• The first device communicates with a second device using a first beam.
• If the first device determines that a different beam is better for communication, it indicates a reference signal associated with that beam.
• The first device then switches to the different beam based on the indication of the reference signal.
• By switching beams, the device can determine communication parameters and communicate more effectively with the second device.

Key Features and Innovation

• Adaptive beam switching based on reference signals.
• Improved communication performance by selecting the optimal beam for transmission.
• Efficient utilization of wireless communication resources.
• Enhanced signal quality and reliability in wireless networks.
• Dynamic adjustment of communication parameters for better connectivity.

Potential Applications

• 5G and future wireless communication technologies.
• Internet of Things (IoT) devices.
• Autonomous vehicles and smart transportation systems.
• Industrial automation and robotics.
• Smart city infrastructure and public safety networks.

Problems Solved

• Addressing signal interference and degradation in wireless communication.
• Optimizing beamforming for better signal reception.
• Enhancing network capacity and coverage.
• Improving overall communication efficiency and reliability.
• Adapting to changing environmental conditions for seamless connectivity.

Benefits

• Faster data transmission rates.
• Reduced signal interference and packet loss.
• Enhanced network performance and reliability.
• Improved user experience in wireless communication.
• Greater flexibility and adaptability in dynamic communication environments.

Commercial Applications

Optimized Beamforming Technology for Wireless Communications This technology can be applied in various industries such as telecommunications, IoT, transportation, and manufacturing. It offers significant improvements in signal quality, network efficiency, and overall communication performance, making it a valuable asset for companies looking to enhance their wireless connectivity solutions.

Prior Art

For prior art related to adaptive beamforming and beam switching in wireless communications, researchers can explore patents and academic papers in the field of antenna technology, signal processing, and wireless networking standards such as IEEE 802.11 and 3GPP specifications.

Frequently Updated Research

Researchers are continually exploring new algorithms and protocols for adaptive beamforming and beam switching to further improve the efficiency and reliability of wireless communication systems. Stay updated on the latest developments in antenna design, signal processing techniques, and network optimization strategies to leverage the full potential of this technology.

Questions about Wireless Beam Switching

How does adaptive beam switching improve wireless communication performance?

Adaptive beam switching allows devices to select the optimal beam for transmission based on reference signals, leading to better signal quality, reduced interference, and improved overall communication efficiency.

What are the key benefits of using reference signals for beam selection in wireless communications?

Using reference signals helps devices identify the most suitable beam for communication, resulting in faster data transmission rates, enhanced network performance, and greater reliability in wireless connectivity.

Original Abstract Submitted

techniques for wireless communications are described. a first device may communicate with a second device using a first beam. based on communicating with the second device, the first device may indicate a reference signal associated with a different beam to indicate that the different beam associated with the reference signal is preferred for subsequent communications. the reporting device may switch to the different beam based on transmitting the indication of the reference signal. based on switching to the different beam, the reporting device may determine a communication parameter based on the indicated reference signal and communicate with the scheduling device using the second beam based on the determined communication parameter.