AUTONOMOUS CO-CHANNEL OPERATIONS

Organization Name

qualcomm incorporated

Inventor(s)

Qing Li of Princeton Junction NJ (US)

Hong Cheng of Basking Ridge NJ (US)

Tien Viet Nguyen of Bridgewater NJ (US)

Sourjya Dutta of San Diego CA (US)

Gabi Sarkis of San Diego CA (US)

AUTONOMOUS CO-CHANNEL OPERATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240314744 titled 'AUTONOMOUS CO-CHANNEL OPERATIONS

Simplified Explanation

The patent application describes methods, systems, and devices for wireless communications. It involves estimating channel availability parameters, selecting patterns of sidelink resources for transmitting packets, and activating resources for transmitting data.

• User equipment (UE) estimates channel availability parameters.
• Based on co-channel configurations, UE selects patterns of sidelink resources for transmitting packets.
• Special UE receives reports of channel availability parameters and selects resources for other UEs to transmit packets.
• Reporting UEs use activated resources for transmitting data according to the indicated pattern.

Key Features and Innovation

• Estimation of channel availability parameters by user equipment.
• Selection of patterns of sidelink resources based on co-channel configurations.
• Activation of resources for transmitting data by special user equipment.
• Use of activated resources by reporting user equipment for transmitting data.

Potential Applications

The technology can be applied in various wireless communication systems where efficient resource allocation is crucial. It can be used in IoT devices, smart city applications, and industrial automation for reliable and optimized data transmission.

Problems Solved

The technology addresses the challenge of efficient resource allocation in wireless communication systems. By estimating channel availability parameters and selecting appropriate patterns of sidelink resources, it ensures reliable and optimized data transmission.

Benefits

• Improved efficiency in resource allocation.
• Enhanced reliability in data transmission.
• Optimized use of sidelink resources.
• Better coordination among user equipment for transmitting data.

Commercial Applications

• IoT devices for seamless data transmission.
• Smart city applications for efficient communication.
• Industrial automation for optimized resource allocation.
• Telecom networks for improved data transmission.

Prior Art

Readers can explore prior research on wireless communication systems, resource allocation in 5G networks, and channel estimation techniques to understand the background of this technology.

Frequently Updated Research

Stay updated on the latest advancements in wireless communication systems, 5G technology, and resource allocation algorithms to enhance the understanding and implementation of this technology.

Questions about Wireless Communications

How does the technology improve resource allocation in wireless communication systems?

The technology improves resource allocation by estimating channel availability parameters and selecting patterns of sidelink resources based on co-channel configurations, ensuring efficient and reliable data transmission.

What are the potential applications of this technology beyond wireless communications?

This technology can be applied in IoT devices, smart city applications, and industrial automation for optimized resource allocation and reliable data transmission.

Original Abstract Submitted

methods, systems, and devices for wireless communications are described. generally, a user equipment (ue) may estimate one or more channel availability parameter values. the ue may then select, based on a co-channel configuration indicating a relationship between channel availability parameter values and patterns of sidelink resources, a pattern of sidelink resources (e.g., lte resources) on which to transmit nr packets. in some examples, a special ue may receive individual or aggregated reports of channel availability parameter values. the special ue may select a pattern of sidelink resources (e.g., lte resources) on which one of the reporting ues is permitted to transmit nr packets, and may transmit a message activating the pattern of sidelink resources to the reporting ue. the reporting ue may then use the activated sidelink lte resources for transmitting nr packets according to the indicated pattern.