Methods and apparatus for improving signal quality in wearable biometric monitoring devices
First Claim
1. A method of monitoring signal quality of a wearable biometric monitoring device, wherein the biometric monitoring device includes at least one optical sensor configured to detect and/or measure physiological information from a subject wearing the biometric monitoring device, at least one motion sensor, and at least one processor in communication with the at least one optical sensor and the at least one motion sensor, wherein the at least one processor is configured to receive and analyze signals produced by the at least one optical sensor and the at least one motion sensor, the method comprising the following performed via the at least one processor:
- processing information from the at least one optical sensor and/or the at least one motion sensor to determine if the monitoring device is being worn;
initiating a signal quality test of the at least one optical sensor in response to determining that the monitoring device is being worn, comprising;
instructing the subject to begin an exercise regimen; and
processing information from the at least one optical sensor and the at least one motion sensor during the exercise regimen to determine if signal quality produced by the at least one optical sensor is acceptable, comprising calculating a ratio of physiological information to motion information in a signal from the at least one optical sensor, wherein a higher ratio of physiological information to motion information indicates a higher quality of the signal; and
communicating information to the subject regarding the signal quality during the exercise regimen, the communicating comprising informing the subject that the device is being worn correctly if the signal quality is acceptable, and informing the subject that the device is not being worn correctly if the signal quality is not acceptable.
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Accused Products
Abstract
A wearable biometric monitoring device is configured to assess the biometric signal quality of one or more sensors associated with the monitoring device, determine how the user should adjust the device to improve the biometric fit, and instruct the user to wear the biometric monitoring device a certain way. Communicating instructions to a user may include instructing the user to execute a testing regimen while wearing the biometric monitoring device. The testing regimen facilitates an estimation of a signal quality that can be used to provide feedback to the user that he/she needs to adjust the device to improve the biometric fit and the biometric signal quality.
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Citations
17 Claims
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1. A method of monitoring signal quality of a wearable biometric monitoring device, wherein the biometric monitoring device includes at least one optical sensor configured to detect and/or measure physiological information from a subject wearing the biometric monitoring device, at least one motion sensor, and at least one processor in communication with the at least one optical sensor and the at least one motion sensor, wherein the at least one processor is configured to receive and analyze signals produced by the at least one optical sensor and the at least one motion sensor, the method comprising the following performed via the at least one processor:
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processing information from the at least one optical sensor and/or the at least one motion sensor to determine if the monitoring device is being worn; initiating a signal quality test of the at least one optical sensor in response to determining that the monitoring device is being worn, comprising; instructing the subject to begin an exercise regimen; and processing information from the at least one optical sensor and the at least one motion sensor during the exercise regimen to determine if signal quality produced by the at least one optical sensor is acceptable, comprising calculating a ratio of physiological information to motion information in a signal from the at least one optical sensor, wherein a higher ratio of physiological information to motion information indicates a higher quality of the signal; and communicating information to the subject regarding the signal quality during the exercise regimen, the communicating comprising informing the subject that the device is being worn correctly if the signal quality is acceptable, and informing the subject that the device is not being worn correctly if the signal quality is not acceptable. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of monitoring signal quality of a wearable biometric monitoring device, wherein the biometric monitoring device includes at least one optical sensor configured to detect physiological information from a subject wearing the biometric monitoring device, at least one motion sensor configured to detect motion information from the subject, and at least one processor in communication with the at least one optical sensor and the at least one motion sensor, wherein the at least one processor is configured to receive and analyze signals produced by the at least one optical sensor and the at least one motion sensor, the method comprising:
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instructing the subject to begin an activity; and processing information from the at least one optical sensor and the at least one motion sensor during the activity to measure signal quality produced by the at least one optical sensor during the activity comprising calculating a ratio of physiological information to motion information in the signal of the at least one optical sensor, wherein a higher ratio of physiological information to motion information indicates a higher quality of the signal produced by the at least one optical sensor. - View Dependent Claims (14)
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15. A method of generating a status indication that a biometric monitoring device is being worn by a subject, wherein the biometric monitoring device includes a PPG sensor, a motion sensor, and at least one processor in communication with the PPG sensor and motion sensor, the method comprising the following performed via the at least one processor:
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instructing the subject to begin an activity; processing information from the PPG sensor and the motion sensor during the activity to determine quality of a signal produced by the PPG sensor, comprising calculating a ratio of physiological information to motion information in the signal, wherein a higher ratio of physiological information to motion information indicates a higher quality of the signal; making an estimate as to whether the biometric monitoring device is being worn based on the signal quality of the PPG sensor; and generating a status indication that the biometric monitoring device is being worn by processing the estimate as to whether the biometric monitoring device is being worn in context with the signal quality of the PPG sensor. - View Dependent Claims (16, 17)
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Specification