18219230. Wear Detection simplified abstract (Apple Inc.)
Contents
Wear Detection
Organization Name
Inventor(s)
Michael J. Oudenhoven of San Francisco CA (US)
Brian S. Lau of Sacramento CA (US)
Jonathan M. Anderson of San Francisco CA (US)
Wear Detection - A simplified explanation of the abstract
This abstract first appeared for US patent application 18219230 titled 'Wear Detection
Simplified Explanation
The abstract describes a head-mounted device that includes a frame and a sensor. The sensor has a conductive plate and a contact pad, both coupled to the frame. The contact pad is made of a conductive material embedded in a non-conductive material and is flexible for facial engagement. The sensor generates a signal indicating a change in capacitance, and a controller changes the power state of the device based on this signal.
- The head-mounted device includes a frame and a sensor.
- The sensor has a conductive plate and a contact pad.
- The contact pad is made of a conductive material embedded in a non-conductive material.
- The contact pad is flexible and designed for facial engagement.
- The sensor generates a signal indicating a change in capacitance.
- The controller changes the power state of the device based on the signal.
Potential Applications
- Virtual reality and augmented reality headsets
- Gaming devices
- Fitness trackers
- Medical devices for monitoring facial movements or gestures
Problems Solved
- Provides a flexible and resilient contact pad for facial engagement, ensuring comfort and secure fit.
- Allows for accurate detection of changes in capacitance, enabling precise control of the device.
- Offers a power-saving feature by changing the power state based on the sensor signal.
Benefits
- Enhanced user experience with a comfortable and secure fit on the face.
- Improved accuracy and precision in detecting changes in capacitance.
- Energy-efficient operation with power state adjustment based on sensor signals.
Original Abstract Submitted
A head-mounted device includes a frame and a sensor coupled to the frame. The sensor includes a first conductive plate coupled to the frame and a first contact pad coupled to the frame and electrically coupled to the first conductive plate. The first contact pad includes an electrically conductive material embedded in a non-electrically conductive material, and the first contact pad is resiliently flexible and is configured for facial engagement. The sensor is configured to generate a signal that indicates a change in a capacitance of the sensor, and a controller is configured to change a power state of the head-mounted device based on the signal.