Apparatus and method for measuring oxygen saturation in blood
First Claim
1. An apparatus for measuring an oxygen saturation in blood, comprising:
- a plurality of light emitters, adapted to irradiate a living tissue with a plurality of light beams having different wavelengths;
a light receiver, adapted to receive the light beams reflected from or transmitted through the living tissue to generate pulse wave signals in accordance with pulsations of the blood in the living tissue;
a separator, operable to separate each of the pulse wave signals into a plurality of amplitude signals each of which is associated with one frequency, thereby generating pairs of amplitude signals each of which is associated with one of a plurality of frequencies;
a first processor, operable to calculate a ratio between the amplitude signals in each of the pairs of the amplitude signals;
a selector, which is operable to select one of the pairs of the amplitude signals based on the amplitude values of the amplitude signals, wherein the selector selects a pair of the amplitude signals that have maximum amplitude values; and
a second processor, operable to calculate the oxygen saturation based on the ratio of the selected one of the pairs of the amplitude signals.
1 Assignment
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Accused Products
Abstract
In an apparatus for measuring an oxygen saturation in blood, a plurality of light emitters irradiate a living tissue with a plurality of light beams having different wavelengths. A light receiver receives the light beams reflected from or transmitted through the living tissue to generate pulse wave signals in accordance with pulsations of the blood in the living tissue. A separator separates each of the pulse wave signals into a plurality of amplitude signals each of which is associated with one frequency, thereby generating pairs of amplitude signals each of which is associated with one of a plurality of frequencies. A first processor calculates a ratio between the amplitude signals in each of the pairs of the amplitude signals. A selector selects one of the pairs of the amplitude signals. A second processor calculates the oxygen saturation from the ratio of the selected pair of the amplitude signals.
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Citations
25 Claims
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1. An apparatus for measuring an oxygen saturation in blood, comprising:
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a plurality of light emitters, adapted to irradiate a living tissue with a plurality of light beams having different wavelengths; a light receiver, adapted to receive the light beams reflected from or transmitted through the living tissue to generate pulse wave signals in accordance with pulsations of the blood in the living tissue; a separator, operable to separate each of the pulse wave signals into a plurality of amplitude signals each of which is associated with one frequency, thereby generating pairs of amplitude signals each of which is associated with one of a plurality of frequencies; a first processor, operable to calculate a ratio between the amplitude signals in each of the pairs of the amplitude signals; a selector, which is operable to select one of the pairs of the amplitude signals based on the amplitude values of the amplitude signals, wherein the selector selects a pair of the amplitude signals that have maximum amplitude values; and a second processor, operable to calculate the oxygen saturation based on the ratio of the selected one of the pairs of the amplitude signals. - View Dependent Claims (2, 3, 4, 5)
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6. A method for measuring an oxygen saturation in blood, comprising:
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irradiating a living tissue with a plurality of light beams having different wavelengths; receiving the light beams reflected from or transmitted through the living tissue to generate pulse wave signals in accordance with pulsations of the blood in the living tissue; separating each of the pulse wave signals into a plurality of amplitude signals each of which is associated with one frequency, thereby generating pairs of amplitude signals each of which is associated with one of a plurality of frequencies; calculating a ratio between the amplitude signals in each of the pairs of the amplitude signals; selecting one of the pairs of the amplitude signals based on the amplitude values of the amplitude signals; and calculating the oxygen saturation based on the ratio of the selected one of the pairs of the amplitude signals, wherein a pair of the amplitude signals that have maximum amplitude values is selected as the selected one of the pairs of the amplitude signals. - View Dependent Claims (7, 8, 9)
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10. An apparatus for measuring an oxygen saturation in blood, comprising:
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a plurality of light emitters, adapted to irradiate a living tissue with a plurality of light beams having different wavelengths; a light receiver, adapted to receive the light beams reflected from or transmitted through the living tissue to generate pulse wave signals in accordance with pulsations of the blood in the living tissue; a separator, operable to separate each of the pulse wave signals into a plurality of amplitude signals each of which is associated with one frequency, thereby generating pairs of amplitude signals each of which is associated with one of a plurality of frequencies; a first processor, operable to calculate a ratio between the amplitude signals in each of the pairs of the amplitude signals; a selector, which is operable to select one of the pairs of the amplitude signals based on the amplitude values of the amplitude signals, wherein the selector selects a pair of the amplitude signals that the ratio between the amplitude signales takes a minimum value; and a second processor, operable to calculate the oxygen saturation based on the ratio of the selected one of the pairs of the amplitude signals. - View Dependent Claims (11, 12, 13, 14)
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15. The apparatus as set forth in 10, wherein:
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the first processor comprises; a first calculator, operable to calculate ratios each of which is a ratio between each of the pairs of the amplitude signals; and a second calculator, operable to define a plurality of frequency bands each of which includes a plurality of amplitude signals obtained from each of the pulse wave signals, and operable to calculate an average value of the ratios in each of the frequency bands, thereby generating a plurality of average values; and the selector is operable to select such a frequency band that the average value takes a minimum value. - View Dependent Claims (16)
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17. A method for measuring an oxygen saturation in blood, comprising:
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irradiating a living tissue with a plurality of light beams having different wavelengths; receiving the light beams reflected from or transmitted through the living tissue to generate pulse wave signals in accordance with pulsations of the blood in the living tissue; separating each of the pulse wave signals into a plurality of amplitude signals each of which is associated with one frequency, thereby generating pairs of amplitude signals each of which is associated with one of a plurality of frequencies; calculating a ratio between the amplitude signals in each of the pairs of the amplitude signals; selecting one of the pairs of the amplitude signals based on the amplitude values of the amplitude signals; and calculating the oxygen saturation based on the ratio of the selected one of the pairs of the amplitude signals, wherein a pair of the amplitude signals that the ratio takes a minimum value is selected as the selected one of the pairs of the amplitude signals. - View Dependent Claims (20, 21, 22, 23)
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18. The method as set forth in claim l7, further comprising:
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defining a plurality of frequency bands each of which includes a plurality of amplitude signals obtained from each of the pulse wave signals; calculating an average value of the amplitude signals in each of the frequency bands, thereby generating pairs of average values each of which is associated with one of the frequency bands; calculating an average ratio between the average values in each of the pairs of the average values; and selecting such a frequency band that the average ratio takes a minimum value. - View Dependent Claims (19)
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24. An apparatus for measuring an oxygen saturation in blood, comprising:
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a plurality of light emitters, adapted to irradiate a living tissue with a plurality of light beams having different wavelengths; a light receiver, adapted to receive the light beams reflected from or transmitted through the living tissue to generate pulse wave signals in accordance with pulsations of the blood in the living tissue; a separator, operable to separate each of the pulse wave signals into a plurality of amplitude signals each of which is associated with one frequency, thereby generating pairs of amplitude signals each of which is associated with one of a plurality of frequencies; a first processor, operable to calculate a ratio between the amplitude signals in each of the pairs of the amplitude signals; a selector, which is operable to select one of the pairs of the amplitude signals based on the amplitude values of the amplitude signals, wherein the selector selects either a pair of the amplitude signals that have maximum amplitude values or a pair of the amplitude signals that the ratio takes a minimum value in accordance with a prescribed condition; and a second processor, operable to calculate the oxygen saturation based on the ratio of the selected one of the pairs of the amplitude signals.
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25. A method for measuring an oxygen saturation in blood, comprising:
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irradiating a living tissue with a plurality of light beams having different wavelengths; receiving the light beams reflected from or transmitted through the living tissue to generate pulse wave signals in accordance with pulsations of the blood in the living tissue; separating each of the pulse wave signals into a plurality of amplitude signals each of which is associated with one frequency, thereby generating pairs of amplitude signals each of which is associated with one of a plurality of frequencies; calculating a ratio between the amplitude signals in each of the pairs of the amplitude signals; selecting one of the pairs of the amplitude signals based on the amplitude values of the amplitude signals; and calculating the oxygen saturation based on the ratio of the selected one of the pairs of the amplitude signals, wherein either a pair of the amplitude signals that have maximum amplitude values or a pair of the amplitude signals that the ratio takes a minimum value is selected as the selected one of the pairs of the amplitude signals in accordance with a prescribed condition.
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Specification