Apple inc. (20240098644). REPORTING AND TRIGGERING FOR LOW-POWER WAKE-UP SIGNAL MONITORING simplified abstract
Contents
- 1 REPORTING AND TRIGGERING FOR LOW-POWER WAKE-UP SIGNAL MONITORING
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 REPORTING AND TRIGGERING FOR LOW-POWER WAKE-UP SIGNAL MONITORING - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Possible Prior Art
- 1.10 Unanswered Questions
- 1.11 Original Abstract Submitted
REPORTING AND TRIGGERING FOR LOW-POWER WAKE-UP SIGNAL MONITORING
Organization Name
Inventor(s)
Sigen Ye of Whitehouse Station NJ (US)
Seyed Ali Akbar Fakoorian of San Diego CA (US)
Ankit Bhamri of Bad Nauheim (DE)
Dawei Zhang of Saratoga CA (US)
Chunxuan Ye of San Diego CA (US)
Weidong Yang of San Diego CA (US)
Huaning Niu of San Jose CA (US)
Oghenekome Oteri of San Diego CA (US)
REPORTING AND TRIGGERING FOR LOW-POWER WAKE-UP SIGNAL MONITORING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240098644 titled 'REPORTING AND TRIGGERING FOR LOW-POWER WAKE-UP SIGNAL MONITORING
Simplified Explanation
The patent application describes techniques for monitoring wake-up signals in a radio resource control connected mode. The method involves a user equipment (UE) determining its capability for wake-up signal monitoring, transmitting this capability to a base station, and then performing wake-up signal monitoring while in a sleep state to detect a trigger that transitions the UE to an awake state for monitoring downlink transmissions.
- User equipment (UE) determines capability information for wake-up signal (WUS) monitoring
- UE transmits capability information to a base station
- UE monitors for a trigger while in a sleep state
- UE transitions to an awake state based on the trigger
- UE monitors for downlink (DL) transmissions in the awake state
Potential Applications
This technology can be applied in various industries such as telecommunications, Internet of Things (IoT), and smart devices for efficient power management and data transmission.
Problems Solved
1. Efficient monitoring of wake-up signals in a connected mode 2. Seamless transition between sleep and awake states for power optimization
Benefits
1. Improved power efficiency in devices 2. Enhanced data transmission reliability 3. Reduced latency in receiving downlink transmissions
Potential Commercial Applications
Optimizing power consumption in IoT devices for extended battery life
Possible Prior Art
One possible prior art could be techniques for power management in wireless devices, but specific methods for wake-up signal monitoring in a connected mode may not have been addressed.
Unanswered Questions
How does the technology impact battery life in devices?
The article does not provide specific data on the impact of this technology on battery life.
Are there any limitations to the wake-up signal monitoring in the connected mode?
The article does not mention any potential limitations or challenges associated with this technology.
Original Abstract Submitted
techniques are provided for wake up signal monitoring in a radio resource control connected (rrc) mode. an example method can include a user equipment (ue) determining capability information associated with wake-up signal (wus) monitoring, the capability information to include an indication that the ue supports wus monitoring in a radio resource control (rrc) connected mode. the ue can transmit, to a base station, an indication of the capability. the ue can perform, while in a sleep state in which transmitting and receiving by a main radio is suspended, wus monitoring to detect a trigger. the ue can transition from the sleep state to the awake state based on the trigger. the ue can monitor for a downlink (dl) transmission in the awake state.
- Apple inc.
- Sigen Ye of Whitehouse Station NJ (US)
- Seyed Ali Akbar Fakoorian of San Diego CA (US)
- Wei Zeng of Saratoga CA (US)
- Ankit Bhamri of Bad Nauheim (DE)
- Dawei Zhang of Saratoga CA (US)
- Hong He of San Jose CA (US)
- Chunxuan Ye of San Diego CA (US)
- Weidong Yang of San Diego CA (US)
- Huaning Niu of San Jose CA (US)
- Chunhai Yao of Beijing (CN)
- Oghenekome Oteri of San Diego CA (US)
- H04W52/02
- H04W76/20