CHANNEL OCCUPANCY TIME (COT) INITIATION FOR CROSS-FIXED FRAME PERIOD (FFP) SCHEDULING OF UPLINK COMMUNICATIONS

Organization Name

qualcomm incorporated

Inventor(s)

Shaozhen Guo of Beijing (CN)

Jing Sun of San Diego CA (US)

Changlong Xu of Beijing (CN)

Xiaoxia Zhang of San Diego CA (US)

Hao Xu of Beijing (CN)

Luanxia Yang of Beijing (CN)

Siyi Chen of Beijing (CN)

CHANNEL OCCUPANCY TIME (COT) INITIATION FOR CROSS-FIXED FRAME PERIOD (FFP) SCHEDULING OF UPLINK COMMUNICATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240237068 titled 'CHANNEL OCCUPANCY TIME (COT) INITIATION FOR CROSS-FIXED FRAME PERIOD (FFP) SCHEDULING OF UPLINK COMMUNICATIONS

Simplified Explanation: In a method of wireless communication, a user equipment (UE) receives downlink communication information (DCI) from a base station (BS) in a first fixed frame period (FFP), indicating a scheduled uplink (UL) communication in a subsequent FFP. The UE then monitors for a DL signal in the second FFP and transmits based on the monitoring and a first parameter indicating the type of UL communication.

• UE receives DCI in first FFP from BS
• DCI indicates scheduled UL communication in next FFP
• UE monitors for DL signal in second FFP
• UE transmits based on monitoring and first parameter indicating UL communication type

Key Features and Innovation:

• Efficient scheduling of uplink communication based on downlink signals
• Optimization of communication resources between UE and BS
• Adaptive transmission based on channel occupancy time (COT)
• Enhanced communication reliability and performance
• Improved utilization of wireless network resources

Potential Applications:

• 5G and beyond wireless communication systems
• Internet of Things (IoT) devices
• Smart city infrastructure
• Industrial automation and control systems
• Mobile broadband services

Problems Solved:

• Efficient utilization of communication resources
• Reduction of interference in wireless networks
• Improved reliability of uplink communications
• Enhanced network capacity and performance
• Seamless integration of diverse wireless devices

Benefits:

• Increased data throughput and network efficiency
• Enhanced quality of service for users
• Reduced latency in communication
• Improved coverage and connectivity
• Better overall user experience

Commercial Applications: Potential commercial applications of this technology include:

• Wireless network equipment manufacturing
• Telecommunication service providers
• IoT device manufacturers
• Smart city infrastructure developers
• Industrial automation companies

Questions about Wireless Communication: 1. How does this method improve the efficiency of uplink communication in wireless networks? 2. What are the key benefits of optimizing communication resources between user equipment and base stations?

Original Abstract Submitted

in a method of wireless communication, a user equipment (ue) receives, from a base station (bs) in a first fixed frame period (ffp), downlink communication information (dci), where the dci indicates a scheduled uplink (ul) communication in a second ffp subsequent to the first ffp. the ue monitors for a downlink (dl) signal in the second ffp, and transmits, to the bs based on the monitoring and a first parameter indicating whether the scheduled ul communication is associated with a bs channel occupancy time (cot) or a ue cot, the scheduled ul communication.