Method and Apparatus for Reduction of Spurious Effects on Physiological Measurements
First Claim
1. A method for reducing motion artifact when computing estimates of values representative of at least one physiological parameter of a subject, comprising the steps of:
- measuring a motion value;
comparing the motion value with a motion threshold,if the compared motion value is lower than the motion threshold then taking at least one physiological measurement;
estimating the values representative of the at least one physiological parameter by applying a mathematical model to the at least one physiological measurement; and
providing the estimate of the values representative of the at least one physiological parameter.
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Abstract
A method and apparatus for reducing motion artifact and spurious noise effects when computing estimates of values representative of at least one physiological parameter of a subject. For motion, measured motion values are compared with a motion threshold and the taking of physiological measurements used for computing the physiological parameter estimate values are either suspended until a measured motion value is under the threshold or a correction function is applied to the physiological measurements, the correction function being based on the measured motion values. As for spurious noise, physiological measurements taken while emitters are turned off are subtracted from physiological measurements taken while emitters are turned on in order to eliminate outside noise contamination.
54 Citations
33 Claims
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1. A method for reducing motion artifact when computing estimates of values representative of at least one physiological parameter of a subject, comprising the steps of:
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measuring a motion value; comparing the motion value with a motion threshold, if the compared motion value is lower than the motion threshold then taking at least one physiological measurement; estimating the values representative of the at least one physiological parameter by applying a mathematical model to the at least one physiological measurement; and providing the estimate of the values representative of the at least one physiological parameter. - View Dependent Claims (2, 3, 4)
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5. A method for reducing motion artifact when computing estimates of values representative of at least one physiological parameter of a subject, comprising the steps of:
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repeatably measuring a motion value; comparing each motion value with a motion threshold, a) if the compared motion value is lower than the motion threshold then taking at least one physiological measurement; estimating the values representative of the at least one physiological parameter by applying a mathematical model to the at least one physiological measurement; and providing the estimates of the values representative of the at least one physiological parameter; b) if a predetermined number of consecutive compared motion values are higher than the motion threshold then providing a warning to the subject. - View Dependent Claims (6, 7, 8)
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9. A method for reducing motion artifact when computing estimates of values representative of at least one physiological parameter of a subject, comprising the steps of:
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measuring a motion value; taking at least one physiological measurement; applying a correction function to the at least one physiological measurement, the correction function being based on the measured motion value; estimating the values representative of the at least one physiological parameter by applying a mathematical model to the at least one corrected physiological measurement; and providing the estimates of the values representative of the at least one physiological parameter. - View Dependent Claims (10, 11, 12, 13, 14)
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15. A method for reducing spurious noise when computing estimates of values representative of at least one physiological parameter of a subject, comprising the steps of:
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generating a probing signal comprising at least one wavelength; propagating the probing signal from a propagation point; measuring reflectance values of the probing signal for a subset of the at least one wavelength from at least two distances from the propagation point; shutting off the probing signal for the subset of the at least one wavelength; measuring a shut-off reflectance value from the at least two distances from the propagation point; computing adjusted reflectance values by subtracting the shut-off reflectance values from the reflectance values; estimating the values representative of the at least one physiological parameter by applying a mathematical model to adjusted reflectance values; and providing the estimates of the values representative of the at least one physiological parameter. - View Dependent Claims (16, 17, 18, 19)
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20. An apparatus for reducing motion artifact when computing estimates of values representative of at least one physiological parameter of a subject, comprising:
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emitter for propagating a probing light beam comprising at least one wavelength into the skin of the subject from a propagation point; at least two receivers for measuring reflectance values of the probing light beam from at least two distances from the propagation point; a motion sensor; a display; a microcontroller operatively connected to the at least two receivers, the motion sensor and the display, wherein the microcontroller comprises an algorithm for; measuring a motion value using the motion sensor; comparing the motion value with a motion threshold; if the compared motion value is lower than the motion threshold then measuring reflectance values using the at least two receivers; estimating the values representative of the at least one physiological parameter by applying a mathematical model to the reflectance values; and outputting to the display the values representative of the at least one physiological parameter. - View Dependent Claims (21, 22, 23)
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24. An apparatus for reducing motion artifact when computing estimates of values representative of at least one physiological parameter of a subject, comprising:
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emitter for propagating a probing light beam comprising at least one wavelength into the skin of the subject from a propagation point; at least two receivers for measuring reflectance values of the probing light beam from at least two distances from the propagation point; a motion sensor; a display; a microcontroller operatively connected to the at least two receivers, the motion sensor and the display, wherein the microcontroller comprises an algorithm for; repeatably measuring a motion value using the motion sensor; comparing each motion value with a motion threshold, a) if the compared motion value is lower than the motion threshold then measuring reflectance values using the at least two receivers; estimating the values representative of the at least one physiological parameter by applying a mathematical model to the reflectance values; and outputting to the display the values representative of the at least one physiological parameter; b) if a predetermined number of consecutive compared motion values are higher than the motion threshold then outputting to the display a warning to the subject. - View Dependent Claims (25, 26, 27)
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28. An apparatus for reducing spurious noise when computing estimates of values representative of at least one physiological parameter of a subject, comprising:
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emitter for propagating a probing signal comprising at least one wavelength into the skin of the subject from a propagation point; at least two receivers for measuring reflectance values of the probing light beam from at least two distances from the propagation point; a display; a microcontroller operatively connected to the at least two receivers and the display, wherein the microcontroller comprises an algorithm for; measuring reflectance values for a subset of the at least one wavelength using the at least two receivers; shutting off the probing signal for the subset of the at least one wavelength; measuring shut-off reflectance values using the at least two receivers; computing adjusted reflectance values by subtracting the shut-off reflectance values from the reflectance values; estimating the values representative of the at least one physiological parameter by applying a mathematical model to the adjusted reflectance values; and outputting to the display the values representative of the at least one physiological parameter. - View Dependent Claims (29, 30, 31, 32, 33)
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Specification