SIDELINK CHANNEL ACCESS TIMELINE TECHNIQUES FOR WIRELESS COMMUNICATIONS SYSTEMS

Organization Name

qualcomm incorporated

Inventor(s)

Ahmed Attia Abotabl of San Diego CA (US)

Muhammad Sayed Khairy Abdelghaffar of San Jose CA (US)

Abdelrahman Mohamed Ahmed Mohamed Ibrahim of San Diego CA (US)

Krishna Kiran Mukkavilli of San Diego CA (US)

SIDELINK CHANNEL ACCESS TIMELINE TECHNIQUES FOR WIRELESS COMMUNICATIONS SYSTEMS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240237062 titled 'SIDELINK CHANNEL ACCESS TIMELINE TECHNIQUES FOR WIRELESS COMMUNICATIONS SYSTEMS

Simplified Explanation

The patent application describes methods, systems, and devices for wireless communications. In some examples, a user equipment (UE) receives control signaling indicating a configuration for performing channel sensing. The UE adjusts the processing time associated with the channel sensing based on parameters and its full duplex capability. It then transmits a sidelink message using a first set of resources based on the adjusted processing time.

• User equipment (UE) receives control signaling for channel sensing configuration.
• Adjusts processing time based on parameters and full duplex capability.
• Transmits sidelink message using adjusted processing time.

Key Features and Innovation

• User equipment dynamically adjusts processing time for channel sensing based on parameters and full duplex capability.
• Prioritizes transmission of data messages based on different priority levels.
• Enhances efficiency by dropping lower priority data messages or skipping interference cancellation.

Potential Applications

This technology can be applied in various wireless communication systems, such as 5G networks, IoT devices, and vehicle-to-vehicle communication.

Problems Solved

• Efficient utilization of resources in wireless communication.
• Prioritization of data transmission based on different levels of importance.
• Adaptation to varying network conditions for improved performance.

Benefits

• Improved efficiency in wireless communication systems.
• Enhanced reliability and responsiveness in data transmission.
• Optimal resource allocation based on priority levels.

Commercial Applications

Title: Dynamic Channel Sensing for Wireless Communication Systems This technology can be utilized in telecommunications companies, IoT device manufacturers, and automotive companies for implementing efficient and reliable wireless communication systems. It can improve network performance, reduce latency, and enhance overall user experience.

Prior Art

Readers can explore prior patents related to dynamic channel sensing, resource allocation in wireless communication systems, and prioritization of data transmission based on different levels of importance.

Frequently Updated Research

Researchers are constantly studying ways to optimize resource allocation and improve the efficiency of wireless communication systems. Stay updated on the latest advancements in dynamic channel sensing and data transmission prioritization.

Questions about Wireless Communication Systems

How does dynamic channel sensing improve the efficiency of wireless communication systems?

Dynamic channel sensing allows user equipment to adjust processing time based on network conditions, leading to optimized resource utilization and enhanced performance.

What are the potential applications of prioritizing data transmission based on different priority levels?

Prioritizing data transmission ensures that critical information is delivered promptly, improving overall system reliability and responsiveness.

Original Abstract Submitted

methods, systems, and devices for wireless communications are described. in some examples, a user equipment (ue) may receive control signaling indicating a configuration for performing channel sensing. the configuration may include one or more parameters corresponding to a processing time associated with the channel sensing. the ue may adjust the processing time associated with the channel sensing based on the one or more parameters and a full duplex capability of the first ue. the ue may transmit, using a first set of resources, a sidelink message based on the adjusted processing time. in some examples, the ue may transmit a first data message associated with a first priority level and perform channel sensing for a second data message associated with a second priority level that is higher than the first priority level. the ue may drop the first data message, skip an interference cancellation, or a combination thereof.