SYSTEMS AND METHODS TO MONITOR AND QUANTIFY PHYSIOLOGICAL STAGES
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Accused Products
Abstract
Systems and methods detect respiration of a subject, process respiration data, and based on the processed respiration data, perform extended monitoring. A monitoring system is configured with sensors that can be worn by the subject to provide the respiration data. The respiration data is processes to create a stability index. The stability index is used to, for example, determine sleep stages.
37 Citations
52 Claims
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1-22. -22. (canceled)
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23. A system configured to monitor sleep of a subject, the system comprising:
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a garment forming substrate having a elasticity; a first conductive pad engaged with the substrate and extending along a length and a width to form a plane; a second conductive pad engaged with the substrate, extending along a length and a width to form a plane, and arranged proximate to the first conductive plane; a dielectric gap formed between the first and second conductive pads such that at least one of a length and a width of the first conductive pad extends substantially in parallel to at least one of a length and a width of the second conductive pad; a processor coupled to the first conductive pad and the second conductive pad and configured to monitor a relative capacitance between the first conductive pad and the second conductive pad as the dielectric gap is varied in response to movement imparted to the substrate and generate an indication of a characteristic of the movement imparted to the substrate. - View Dependent Claims (24, 25)
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26. A system configured to monitor sleep of a subject, the system comprising:
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a elastic substrate configured to be mounted to the subject; a sensor mounted on the elastic substrate and configured to determine movement of the subject when the elastic substrate is mounted to the subject to communicate determined movements as a feedback signal; a communications circuit configured to receive the feedback signal and transmit the feedback signal as one of a live stream and a stored signal; a data processing system configured to receive the one of the live stream and the stored signal; a display configured to provide a user interface providing feedback regarding the one of the live stream and the stored signal in real-time. - View Dependent Claims (27, 28, 29, 30, 31, 32)
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33. A system configured to monitor sleep of a subject, the system comprising:
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a substrate configured to be worn by the subject; a sensor mounted on the substrate and configured to determine movement of the subject when the substrate is mounted to the subject communicate determined movements as a feedback signal; a memory configured to receive the feedback signal and store the feedback signal as a series of data; at least one of a wireless and a wired communications circuit configured to communicate the series of data; and a data processing system configured to receive the series of data and analyze the series of data to determine a respiratory pattern of the subject from the series of data and changes in the reparatory pattern indicative of sleep fragmentation. - View Dependent Claims (34, 35, 36, 37)
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38. A method for tracking at least one of respiration in an infant comprising the steps of:
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using wearable monitoring system that includes at least one sensor, detecting a characteristic of respiration of the infant over time; processing the characteristic of respiration in the infant over time to identify breathing periods of the infant; creating a stability index from data points within the breathing periods; creating a time index based on a relative change in the stability index over time; generating a report about the infant over time; and wirelessly communicating at least one of the characteristic of respiration of the infant, the stability index, the time index, and the report, to be displayed on a display with a user interface. - View Dependent Claims (39, 40, 41, 42)
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43. A system for collecting and analyzing sleep of a subject, the system comprising:
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a sensor configured to detect a characteristic of respiration of the subject; a collection circuit connected to the sensor to receive an indication of the characteristic of respiration detected by the sensor; a processing system configured to; communicate with the collection circuit and generate a time series of respiration data from the indication of the characteristic of respiration over time; process the time series of respiration data to identify a subject-specific mechanism for identifying at least one of inhalation and exhalation; analyze respiration volatility using the time series of respiration data and subject-specific mechanism for identifying at least one of inhalation and exhalation; using the respiration volatility, generate a stability index relating fundamental characteristics of the time series of respiration data to metrics of stability; and based on the stability index perform a sleep staging analysis to generate a report on the sleep of the subject over time. - View Dependent Claims (44, 45, 46, 47, 48, 49, 50)
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51. A system for performing sleep staging of a subject, the system comprising:
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at least one capacitive sensor that provides sensor capacitance data configured to vary over time based on breathing periods of the subject; a circuit configured to evaluate the sensor capacitance data against a known reference capacitor; and a computer-readable code embodied in or on a computer usable medium, the computer readable code configured to cause a computer to perform the steps of; processing the capacitance data to identify breathing periods of the subject; creating a matrix that indicates the start of each breath; running the matrix data through at least one fast Fourier transform; creating a stability index from data points generated by the at least one fast Fourier transform; creating a time index based on a relative change in the stability index over time; and determining sleep stages using the stability index and the time index. - View Dependent Claims (52)
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Specification