SAMSUNG ELECTRONICS CO., LTD. (20240335163). ELECTRONIC APPARATUS AND METHOD FOR CONTROLLING THEREOF simplified abstract
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ELECTRONIC APPARATUS AND METHOD FOR CONTROLLING THEREOF
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ELECTRONIC APPARATUS AND METHOD FOR CONTROLLING THEREOF - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240335163 titled 'ELECTRONIC APPARATUS AND METHOD FOR CONTROLLING THEREOF
Simplified Explanation: The patent application describes an electronic apparatus that can recognize when a user is in a sleep state and adjust its functions accordingly.
Key Features and Innovation:
- The electronic apparatus includes a communication interface, microphone, memory, and processors.
- The processors can identify a user's sleep state based on reflection signals and breathing sounds.
- When the user is in a sleep state, the apparatus does not perform voice recognition but focuses on sleep recognition functions.
- Information about the user's sleep state is obtained through the sleep recognition function.
Potential Applications: This technology could be used in smart devices such as smart speakers or wearables to improve sleep tracking and monitoring capabilities.
Problems Solved: This technology addresses the challenge of accurately identifying a user's sleep state and adjusting device functions accordingly.
Benefits:
- Enhanced sleep tracking and monitoring capabilities.
- Improved user experience by adapting device functions to the user's sleep state.
Commercial Applications: The technology could be valuable for companies developing smart home devices, health and wellness products, and sleep tracking solutions.
Prior Art: Prior research in the field of sleep tracking and monitoring technologies may provide insights into similar approaches to identifying sleep states and user interactions during sleep.
Frequently Updated Research: Researchers may be exploring new algorithms and methods for improving the accuracy and efficiency of sleep state recognition in electronic devices.
Questions about Sleep State Recognition Technology: 1. How does this technology differentiate between different sleep states, such as light sleep, deep sleep, and REM sleep? 2. What are the potential privacy concerns associated with using audio data to monitor a user's sleep state?
Original Abstract Submitted
an electronic apparatus includes a communication interface, a microphone, a memory storing at least one instruction, and one or more processors connected to the communication interface, the microphone, and the memory and configured to the electronic apparatus, and the one or more processors are configured to, based on identifying that a user's state corresponds to a sleep state according to a first reflection signal received via the communication interface, not perform a voice recognition function corresponding to a user voice input and perform a sleep recognition function to obtain information corresponding to the sleep state based on the obtained audio, and while the sleep recognition function is being performed, obtain information corresponding to the user's sleep state based on the user state identified by a second reflection signal received via the communication interface and a breathing sound of the user identified by audio obtained via the microphone.
