17838095. SEMIAUTONOMOUS UPLINK SCHEDULING simplified abstract (QUALCOMM Incorporated)
Contents
SEMIAUTONOMOUS UPLINK SCHEDULING
Organization Name
Inventor(s)
Xiaojie Wang of Hillsborough NJ (US)
Xiaoxia Zhang of San Diego CA (US)
Junyi Li of Fairless Hills PA (US)
SEMIAUTONOMOUS UPLINK SCHEDULING - A simplified explanation of the abstract
This abstract first appeared for US patent application 17838095 titled 'SEMIAUTONOMOUS UPLINK SCHEDULING
Simplified Explanation
The patent application describes methods, systems, and devices for wireless communication at a user equipment (UE). The UE receives control signaling that indicates time and frequency resources for semiautonomous uplink scheduling. It then transmits a semiautonomous uplink scheduling message, requesting a set of uplink transmission resources or parameters for an upcoming transmission. The UE determines the set of resources or parameters based on interference measurements performed on the configured time and frequency resources. In response to the scheduling message, the UE receives a message approving or declining the request.
- The patent application focuses on wireless communication at a user equipment (UE).
- The UE receives control signaling that indicates time and frequency resources for semiautonomous uplink scheduling.
- The UE transmits a scheduling message, requesting a set of uplink transmission resources or parameters for an upcoming transmission.
- The UE determines the set of resources or parameters based on interference measurements performed on the configured time and frequency resources.
- In response to the scheduling message, the UE receives a message approving or declining the request.
Potential Applications
This technology can be applied in various wireless communication scenarios, including:
- Mobile networks: The methods and systems described can be implemented in mobile networks to improve uplink scheduling efficiency and reduce interference.
- Internet of Things (IoT): The technology can be utilized in IoT devices to optimize their uplink transmissions and enhance overall network performance.
- Wireless sensor networks: By using semiautonomous uplink scheduling, wireless sensor networks can achieve better resource utilization and minimize interference.
Problems Solved
The technology addresses several problems in wireless communication:
- Inefficient uplink scheduling: The patent application provides a solution to improve the efficiency of uplink scheduling by allowing the UE to request specific resources or parameters based on interference measurements.
- Interference management: By performing interference measurements on configured time and frequency resources, the UE can determine the most suitable resources for its uplink transmission, reducing interference with other devices.
- Resource optimization: The methods and systems described enable the UE to optimize its resource allocation for uplink transmissions, leading to improved network performance and capacity.
Benefits
The technology offers several benefits in wireless communication:
- Enhanced uplink scheduling efficiency: By allowing the UE to request specific resources or parameters, the technology improves the overall efficiency of uplink scheduling.
- Reduced interference: Through interference measurements, the UE can select the most suitable resources, minimizing interference with other devices and improving network performance.
- Improved resource utilization: The methods and systems enable the UE to optimize its resource allocation, leading to better utilization of time and frequency resources and increased network capacity.
Original Abstract Submitted
Methods, systems, and devices for wireless communication at a user equipment (UE) are described. A UE may receive control signaling including an indication of time and frequency resources that are configured for semiautonomous uplink scheduling from the UE. The UE may then transmit a semiautonomous uplink scheduling message including a request for a set of uplink transmission resources or parameters for an upcoming uplink transmission. The UE may determine the set of uplink transmission resources or parameters based on one or more interference measurements performed on the time and frequency resources that are configured for semiautonomous uplink scheduling from the UE. The UE may then receive, in response to transmitting the semiautonomous uplink scheduling message, a message approving or declining the request for the set of uplink transmission resources or parameters.