Signal processing method and device for signal-to-noise improvement
First Claim
1. A method for processing a measured signal to extract a signal component and suppress a noise component of the measured signal, wherein the signal component is a substantially periodic signal characterized by a substantially well-defined peak-to-peak intensity value, the method comprising the steps of:
- (i)determining upper and lower envelopes of the measured signal; and
(ii)analyzing the upper and lower envelope values to extract the signal component from the measured signal, wherein the step analyzing the upper and lower envelope values includes the step of determining a median of the difference between the upper and lower envelope values, as an alternating value in the signal component.
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Abstract
A method and apparatus extract a signal component of a measured signal using one of two methods. If the signal component in the measured signal is a periodic signal with a certain well-defined peak-to-peak intensity value, upper and lower envelopes of the measured signal are determined and analyzed to extract said signal component of the measured signal. This signal component can further be used to calculate a desired parameter of the sample. The DC component of the signal is determined as the median value of the upper envelope, and the AC component is determined as the median value of the difference between the upper and lower envelopes. If the signal component of the measured signal is a periodic signal characterized by a specific asymmetric shape, a specific adaptive filtering is applied to the measured signal, resulting in the enhancement of the signal component relative to a noise component. This adaptive filtering is based on a derivative of the Gaussian Kernel having specific parameters matching the characteristics of the signal component.
334 Citations
29 Claims
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1. A method for processing a measured signal to extract a signal component and suppress a noise component of the measured signal, wherein the signal component is a substantially periodic signal characterized by a substantially well-defined peak-to-peak intensity value, the method comprising the steps of:
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(i)determining upper and lower envelopes of the measured signal; and
(ii)analyzing the upper and lower envelope values to extract the signal component from the measured signal, wherein the step analyzing the upper and lower envelope values includes the step of determining a median of the difference between the upper and lower envelope values, as an alternating value in the signal component. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
defining a kernel function being a derivative of a Gaussian with parameters matching the characteristics of the signal component with the asymmetric shape; and
applying spectral filtering to the measured signal with the kernel function, thereby enhancing the signal component characterized by the specific asymmetric shape relative to a noise component in the filtered signal, to thereby enable further processing of the enhanced pulse signal to determine the heart rate.
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11. A method for processing a measured signal to extract a signal component and suppress a noise component of the measured signal, wherein the signal component is a substantially periodic signal characterized by a substantially well-defined peak-to-peak intensity value, the measured signal being a physiological signal, the signal component being a pulsatile blood-related signal indicative of oxyhemoglobin saturation level, the method comprising the steps of:
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(i) determining upper and lower envelopes of the measured signal; and
(ii) analyzing the upper and lower envelope values to extract the signal component from the measured signal, wherein the step of analyzing the upper and lower envelope values includes the step of determining a median of the difference between the upper and lower envelope values as an AC component of the pulsatile blood-related signal, and determining a median of the upper envelope values as a DC component of the pulsatile blood-related signal.
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12. A method for processing a measured signal to extract a signal component and suppress a noise component of the measured signal, wherein the signal component is a substantially periodic signal characterized by a substantially well-defined peak-to-peak intensity values the measured signal being a physiological signal the signal component being a pulsatile blood-related signal indicative of oxyhemoglobin saturation level, the method comprising the steps of:
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(i) determining upper and lower envelopes of the measured signal; and
(ii) analyzing the upper and lower envelope values to extract the signal component from the measured signal, wherein the step of analyzing the upper and lower envelope values includes the step of determining a median of the difference between the upper and lower envelope values as an AC component of the pulsatile blood-related signal, and determining a median of a half of the sum of the upper and lower envelope values as a DC component of the pulsatile blood-related signal.
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13. A method for processing a measured signal to extract a signal component and suppress a noise component of the measured signal, wherein the signal component is a substantially periodic signal characterized by a substantially well-defined peak-to-peak intensity value, the method for use with a measurement device for non-invasive measurements of patient'"'"'s blood and heart conditions, the signal component being a pulsatile blood-related signal and containing a signal component characterized by a specific asymmetric shape and comprising the steps of:
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determining upper and lower envelopes of the measured signal;
analyzing the upper and lower envelope values to extract the signal component from the measured signal;
defining a kernel function being a derivative of a Gaussian with parameters matching the characteristics of the signal component with the asymmetric shape; and
applying spectral filtering to the measured signal with the kernel function, thereby enhancing the signal component characterized by the specific asymmetric shape relative to a noise component in the filtered signal, to thereby enable further processing of the enhanced pulse signal to determine the heart rate, wherein the step of analyzing the upper and lower envelope values includes the steps of determining a median of the difference between the upper and lower envelope values of the measured signal as an AC component of the pulsatile blood-related signal component, and determining a median of the upper envelope values as a DC component of the pulsatile blood-related signal component.
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14. A method for processing a measured signal to extract a signal component and suppress a noise component of the measured signal, wherein the signal component is a substantially periodic signal characterized by a substantially well-defined peak-to-peak intensity value, the method for use with a measurement device for non-invasive measurements of patient'"'"'s blood and heart conditions, the signal component being a pulsatile blood-related signal and containing a signal component characterized by a specific asymmetric shape and comprising the steps of:
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determining upper and lower envelopes of the measured signal;
analyzing the upper and lower envelope values to extract the signal component from the measured signal;
defining a kernel function being a derivative of a Gaussian with parameters matching the characteristics of the signal component with the asymmetric shape; and
applying spectral filtering to the measured signal with the kernel function, thereby enhancing the signal component characterized by the specific asymmetric shape relative to a noise component in the filtered signal, to thereby enable further processing of the enhanced pulse signal to determine the heart rate, wherein the step of analyzing the upper and lower envelope values includes the steps of determining a median of the difference between the upper and lower envelope values of the measured signal as an AC component of the pulsatile blood-related signal component, and determining a median of a half of the sum of the upper and lower envelope values as a DC component of the pulsatile blood-related signal component.
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15. A pulse oximeter comprising:
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(a) a measurement device operable to illuminate a measurement location with incident light of predetermined frequencies, detect a light response of the measurement location to said incident light, and generate a measured signal indicative thereof including a signal component representative of a pulsatile blood-related signal; and
(b) a control unit connectable to the measurement device for receiving and processing the measured signal, the control unit comprising a data processing and analyzing utility preprogrammed to determine upper and lower envelopes of the measured signal, and analyze the upper and lower envelope values to extract said pulsatile blood-related signal component from a noise component in the measured signal, wherein the analyzing of the upper and lower envelope values comprises determining a median of the difference between the upper and lower envelope values as an AC component of the pulsatile blood-related signal, and determining a median of the upper envelope values as a DC component of the pulsatile blood-related signal. - View Dependent Claims (16)
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17. A pulse oximeter comprising:
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(a) a measurement device operable to illuminate a measurement location with incident light of predetermined frequencies, detect a light response of the measurement location to said incident light, and generate a measured signal indicative thereof including a signal component representative of a pulsatile blood-related signal; and
(b) a control unit connectable to the measurement device for receiving and processing the measured signal, the control unit comprising a data processing and analyzing utility preprogrammed to determine upper and lower envelopes of the measured signal, and analyze the upper and lower envelope values to extract said pulsatile blood-related signal component from a noise component in the measured signal, wherein the analyzing of the upper and lower envelope values comprises determining a median of the difference between the upper and lower envelope values as an AC component of the pulsatile blood-related signal, and determining a median of a half of the sum of the upper and lower envelope values as a DC component of the pulsatile blood-related signal component.
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18. A method for determining a parameter of a signal, comprising:
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(i) determining upper and lower envelopes of the signal, and (ii) analyzing the upper and lower envelopes to extract a signal component of the signal; and
,(iii) determining the parameter of the signal as a function of the signal component, wherein the step of analyzing the upper and lower envelopes to extract a signal component of the signal includes the step of determining a median of the difference between upper and lower envelope values. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
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29. A method for determining a parameter of a signal, comprising:
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(i) determining upper and lower envelopes of the signal, and (ii) analyzing the upper and lower envelopes to extract a signal component of the signal; and
,(iii) determining the parameter of the signal as a function of the signal component, wherein the step of analyzing the upper and lower envelopes to extract a signal component of the signal includes the steps of;
determining a median difference between the upper and lower envelope values as an AC component of the signal component; and
,determining a median of the upper envelope as a DC component of the signal component.
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Specification