18601565. TWO-STAGE TRIGGER PROCEDURE simplified abstract (Panasonic Intellectual Property Corporation of America)
Contents
TWO-STAGE TRIGGER PROCEDURE
Organization Name
Panasonic Intellectual Property Corporation of America
Inventor(s)
Alexander Golitschek Edler Von Elbwart of Hessen (DE)
TWO-STAGE TRIGGER PROCEDURE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18601565 titled 'TWO-STAGE TRIGGER PROCEDURE
The invention pertains to a user equipment designed to be scheduled with uplink radio resources. The user equipment first receives a first-stage uplink resource scheduling message from a radio base station, indicating the uplink radio resources available for the UE to conduct an uplink transmission via an unlicensed cell. Subsequently, the UE receives a second-stage uplink resource scheduling message related to the first-stage message. Upon receiving the second-stage message, the UE's processor determines if an uplink transmission is scheduled, provided the first-stage message is valid. The validity of the first-stage message is determined based on whether an uplink transmission has been triggered by another second-stage message within a set time period prior to receiving the current second-stage message. The UE then proceeds to perform the uplink transmission.
- User equipment receives first-stage uplink resource scheduling message from base station
- Second-stage uplink resource scheduling message is received, related to the first-stage message
- Processor of the UE determines if uplink transmission is scheduled based on validity of first-stage message
- Validity of first-stage message is determined by checking if another second-stage message triggered an uplink transmission within a specific time period
- UE performs uplink transmission upon meeting the scheduling criteria
Potential Applications: - Wireless communication systems - IoT devices - Mobile networks
Problems Solved: - Efficient utilization of uplink radio resources - Enhanced scheduling of uplink transmissions - Improved communication reliability
Benefits: - Optimal use of available resources - Reduced interference in uplink transmissions - Enhanced network performance
Commercial Applications: Title: Enhanced Uplink Resource Scheduling for Wireless Communication Systems This technology can be utilized in various industries such as telecommunications, IoT, and mobile networking to improve the efficiency and reliability of uplink transmissions. It can lead to better network performance, reduced interference, and overall enhanced user experience.
Questions about Enhanced Uplink Resource Scheduling: 1. How does this technology improve the scheduling of uplink transmissions in wireless communication systems? - This technology enhances the scheduling process by allowing user equipment to efficiently utilize uplink radio resources based on received scheduling messages from the base station.
2. What are the potential applications of this innovation beyond wireless communication systems? - This innovation can be applied to IoT devices, mobile networks, and other industries that require efficient uplink transmission scheduling for improved communication reliability.
Original Abstract Submitted
The invention relates to a user equipment for being scheduled with uplink radio resources. The user equipment receives from a radio base station a first-stage uplink resource scheduling message, indicating uplink radio resources usable by the UE to perform an uplink transmission via an unlicensed cell. The receiver further receives a second-stage uplink resource scheduling message, which is related to the first-stage uplink resource scheduling message. Upon reception of the second-stage uplink resource scheduling message, a processor of the UE determines that an uplink transmission is scheduled in case the first-stage uplink resource scheduling message is valid. The first-stage uplink resource scheduling message is determined valid based on a determination as to whether an uplink transmission has been triggered by another second-stage uplink resource scheduling message within a predetermined time period prior to reception of the second-stage uplink resource scheduling message. The UE then performs an uplink transmission.