Wearable physiology monitor computer apparatus, systems, and related methods
First Claim
1. A computerized eyewear comprising:
- at least one processor;
one or more sensors operatively coupled to the at least one processor;
a power source operatively coupled to the at least one processor; and
a communication device operatively coupled to the at least one processor,wherein the computerized eyewear is configured to;
at least partially in response to receiving at least one signal at a first time or a first period of time from the one or more sensors, determine a normal physiology of the wearer of the computerized eyewear;
at least partially in response to receiving at least one signal at a second time or a second period of time, determine a current physiology of the wearer of the computerized eyewear;
at least partially in response to determining the current physiology of the wearer, compare the current physiology of the wearer to the normal physiology of the wearer; and
notify the wearer when the current physiology of the wearer deviates from the normal physiology of the wearer.
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Accused Products
Abstract
A computer-implemented method of detecting physiological attributes of a wearer of a computerized wearable device having one or more sensors comprises (1) using the information from the one or more sensors to assess the physiology of the wearer; and (2) notifying the wearer of the wearer'"'"'s physiology. In various embodiments, the method involves using the wearable device to determine the wearer'"'"'s current posture, balance, alertness, and/or physical state and comparing the current posture, balance, alertness and/or physical state to at least one baseline measurement. For example, the system may measure a baseline posture to determine when the wearer'"'"'s current posture deviates from the baseline posture, and notify the wearer so that the wearer may improve his or her posture. In other embodiments, the computerized wearable device may detect one or more of the wearer'"'"'s physiological characteristics (e.g., oxygen levels, pulse rate, pupil size, etc.) and determine the wearer'"'"'s alertness level.
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Citations
20 Claims
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1. A computerized eyewear comprising:
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at least one processor; one or more sensors operatively coupled to the at least one processor; a power source operatively coupled to the at least one processor; and a communication device operatively coupled to the at least one processor, wherein the computerized eyewear is configured to; at least partially in response to receiving at least one signal at a first time or a first period of time from the one or more sensors, determine a normal physiology of the wearer of the computerized eyewear; at least partially in response to receiving at least one signal at a second time or a second period of time, determine a current physiology of the wearer of the computerized eyewear; at least partially in response to determining the current physiology of the wearer, compare the current physiology of the wearer to the normal physiology of the wearer; and notify the wearer when the current physiology of the wearer deviates from the normal physiology of the wearer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A computerized eyewear comprising:
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a frame; one or more temples coupled to the frame; at least one processor operatively coupled to one of the frame or the one or more temples; memory operatively coupled to the at least one processor; one or more sensors operatively coupled to the at least one processor and at least partially embedded in one of the frame or the one or more temples; and a communication device operatively coupled to the at least one processor, wherein the computerized eyewear is configured to; determine a normal physiology of the wearer; receive at least one signal from the one or more sensors on the computerized wearable device; at least partially in response to receiving the at least one signal, determine a current physiology of the wearer of the computerized eyewear; at least partially in response to determining the current physiology of the wearer, compare the current physiology of the wearer to the normal physiology of the wearer; and notify the wearer when the current physiology of the wearer differs from the normal physiology of the wearer. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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20. A computer-implemented method for determining a physiology deviation of a wearer of physiology-detection eyewear, the method comprising:
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receiving, from one or more sensors embedded within the physiology-detection eyewear, at least one signal at a first time or a first period of time; determining, from the at least one signal at the first time or the first period of time, a normal physiology of the wearer of the physiology-detection eyewear; receiving, from the one or more sensors embedded within the physiology-detection eyewear, at least one signal at a second time or a second period of time; determining, from the at least one signal at the second time or the second period of time, a current physiology of the wearer of the physiology-detection eyewear; at least partially in response to determining the current physiology of the wearer, comparing the current physiology of the wearer to the normal physiology of the wearer; and notifying the wearer of the physiology deviation when the current physiology of the wearer deviates from the normal physiology of the wearer.
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Specification