NON-CONTACT SENSOR SYSTEMS AND METHODS

Organization Name

LEVEL 42 AI INC.

Inventor(s)

Andreas Schuh of Mountain View CA (US)

Michael Morimoto of Mountain View CA (US)

Nelson L. Jumbe of Mountain View CA (US)

Mark Freeman of Mountain View CA (US)

NON-CONTACT SENSOR SYSTEMS AND METHODS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240015445 titled 'NON-CONTACT SENSOR SYSTEMS AND METHODS

Simplified Explanation

The abstract describes a system for non-contact monitoring of acoustic signals associated with a body. The system includes a sensing device with a support member that has an aperture and a diaphragm extending across the aperture. The diaphragm covers at least a portion of the aperture. A sensor connected to the support member or the diaphragm converts the movement of the diaphragm into electric signal data.

• The system is designed to monitor acoustic signals associated with a body without physical contact.
• The sensing device consists of a support member with an aperture and a diaphragm.
• The diaphragm covers a portion of the aperture and is responsible for detecting acoustic vibrations.
• A sensor connected to the support member or diaphragm converts the diaphragm's movement into electric signal data.

Potential applications of this technology:

• Healthcare monitoring: The system can be used to monitor vital signs, such as heart rate or breathing patterns, without the need for physical contact with the body.
• Sleep monitoring: It can be utilized to track sleep patterns and detect sleep disorders by analyzing acoustic signals associated with breathing and movement during sleep.
• Security and surveillance: The system can be employed for non-contact monitoring of sounds in a room or area, allowing for potential security applications.

Problems solved by this technology:

• Non-invasive monitoring: The system eliminates the need for physical contact with the body, making it more comfortable and convenient for monitoring purposes.
• Remote monitoring: Acoustic signals can be monitored from a distance, enabling remote monitoring of vital signs or sound-related activities.
• Enhanced privacy: Non-contact monitoring respects privacy by not requiring direct physical contact with the body.

Benefits of this technology:

• Convenience: The non-contact nature of the system makes it easier to monitor acoustic signals without the need for cumbersome devices or physical attachments.
• Real-time monitoring: The system provides immediate feedback and data on acoustic signals, allowing for real-time monitoring and analysis.
• Versatility: The technology can be applied in various fields, including healthcare, sleep monitoring, and security, making it a versatile solution for different monitoring needs.

Original Abstract Submitted

a system for non-contact monitoring of acoustic signals associated with a body, the system comprising: a sensing device comprising: a support member defining an aperture, a diaphragm extending across the aperture such that at least a portion of the diaphragm covers the aperture, and a sensor connected to the support member or the membrane and configured to convert movement of the diaphragm to electric signal data.