18484812. ELECTRONIC DEVICE INCLUDING TARGET WAKE TIME (TWT) MONITORING MODULE AND METHOD FOR CONTROLLING TARGET WAKE TIME (TWT) BY USING SAME simplified abstract (SAMSUNG ELECTRONICS CO., LTD.)
ELECTRONIC DEVICE INCLUDING TARGET WAKE TIME (TWT) MONITORING MODULE AND METHOD FOR CONTROLLING TARGET WAKE TIME (TWT) BY USING SAME
Organization Name
Inventor(s)
Junyoung Park of Suwon-si (KR)
Jeongyong Myoung of Suwon-si (KR)
ELECTRONIC DEVICE INCLUDING TARGET WAKE TIME (TWT) MONITORING MODULE AND METHOD FOR CONTROLLING TARGET WAKE TIME (TWT) BY USING SAME - A simplified explanation of the abstract
This abstract first appeared for US patent application 18484812 titled 'ELECTRONIC DEVICE INCLUDING TARGET WAKE TIME (TWT) MONITORING MODULE AND METHOD FOR CONTROLLING TARGET WAKE TIME (TWT) BY USING SAME
Simplified Explanation
An electronic device is described in this patent application. The device includes a first processor, a communication module with a second processor, and a memory. The memory contains instructions for controlling the first processor to control the communication module for data transmission to/reception from an access point based on a target wake time (TWT) agreement and a first TWT parameter. The device also monitors downlink and uplink packets, estimates a TWT service period (SP) and TWT interval of a communication link level processed in the second processor, updates the first TWT parameter with a second TWT parameter based on the estimated TWT interval and TWT SP, and transfers the second TWT parameter to the second processor for re-agreement on TWT with the access point.
- The device includes a first processor, a communication module with a second processor, and a memory.
- The memory contains instructions for controlling the first processor to control the communication module for data transmission to/reception from an access point based on a target wake time (TWT) agreement and a first TWT parameter.
- The device monitors downlink and uplink packets received/transferred by the second processor.
- The device estimates a TWT service period (SP) and TWT interval of a communication link level processed in the second processor.
- The device updates the first TWT parameter with a second TWT parameter based on the estimated TWT interval and TWT SP.
- The device transfers the second TWT parameter to the second processor for re-agreement on TWT with the access point.
Potential applications of this technology:
- Internet of Things (IoT) devices that require efficient and low-power communication with access points.
- Wireless communication devices that need to optimize data transmission/reception based on TWT agreements.
- Mobile devices that require improved quality of service for applications and services.
Problems solved by this technology:
- Inefficient data transmission/reception between electronic devices and access points.
- Lack of control over TWT agreements and parameters for optimizing communication.
- Limited quality of service for applications and services operated in electronic devices.
Benefits of this technology:
- Improved efficiency and reliability of data transmission/reception between electronic devices and access points.
- Enhanced control over TWT agreements and parameters for optimizing communication.
- Better quality of service for applications and services operated in electronic devices.
Original Abstract Submitted
An electronic device is provided. The electronic device includes a first processor, a communication module including a second processor, and a memory, wherein the memory includes instructions for controlling the first processor to control the communication module to perform data transmission to/reception from an access point according to a target wake time (TWT) agreement on the basis of a first TWT parameter when communicating with an access point, monitor at least one of downlink packets received from the second processor or uplink packets transferred to the second processor, estimate a TWT service period (SP) and TWT interval of a communication link level having been processed in the second processor, update the first TWT parameter with a second TWT parameter suitable for quality of service of at least one application or service operated in the first processor on the basis of the estimated TWT interval and TWT SP, and transfer the second TWT parameter to the second processor so as to make a re-agreement on TWT with the access point.
