Systems and methods for determining blood oxygen saturation values using complex number encoding
First Claim
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1. A physiological monitor that computes arterial oxygen saturation in tissue material, the physiological monitor comprising,a light emitter which emits light of at least first and second wavelengths;
- a light detector responsive to light from said light emitter attenuated by body tissue, said light detector providing an output signal indicative of at least first and second intensity signals associated with said at least first and second wavelengths; and
a signal processor responsive to the first and second intensity signals to encode said first intensity signal into a first complex signal in a complex time domain and to encode said second intensity signal into a second complex signal in the complex time domain, to determine ratios of said first complex signal to said second complex signal, to preferentially weigh said ratios based on a measure of confidence, to phase filter said weighted ratios to reduce an effect of noise, to calculate arterial oxygen saturation responsive to said filtered ratios, and to output said saturation for caregiver review.
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Abstract
The disclosure includes pulse oximetry systems and methods for determining point-by-point saturation values by encoding photoplethysmographs in the complex domain and processing the complex signals. The systems filter motion artifacts and other noise using a variety of techniques, including statistical analysis such as correlation, or phase filtering.
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Citations
10 Claims
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1. A physiological monitor that computes arterial oxygen saturation in tissue material, the physiological monitor comprising,
a light emitter which emits light of at least first and second wavelengths; -
a light detector responsive to light from said light emitter attenuated by body tissue, said light detector providing an output signal indicative of at least first and second intensity signals associated with said at least first and second wavelengths; and a signal processor responsive to the first and second intensity signals to encode said first intensity signal into a first complex signal in a complex time domain and to encode said second intensity signal into a second complex signal in the complex time domain, to determine ratios of said first complex signal to said second complex signal, to preferentially weigh said ratios based on a measure of confidence, to phase filter said weighted ratios to reduce an effect of noise, to calculate arterial oxygen saturation responsive to said filtered ratios, and to output said saturation for caregiver review. - View Dependent Claims (2, 3, 4, 5)
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6. A method of determining measurements of physiological parameters of a monitored patient, the method comprising:
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receiving from a noninvasive optical sensor an input signal indicative of detected light after attenuation by body tissue; electronically demodulating said input signal into at least first and second intensity signals corresponding to first and second wavelengths of said detected light; electronically transforming said first intensity signal into a complex time domain as a first complex signal; electronically transforming said second intensity signal into the complex time domain as a second complex signal, said second complex signal different from said first complex signal; electronically generating complex ratios of said first complex signal to said second complex signal; electronically preferentially weighing said complex ratios based on a measure of confidence; electronically reducing an effect of noise on said weighted ratios using phase information encoded into at least one of the first and second complex signals; electronically determining measurements of said physiological parameters from said noise-reduced complex ratios; and outputting said measurements for caregiver review. - View Dependent Claims (7)
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8. A patient monitor configured to process signals and output measurement values of physiological parameters of a patient, the monitor comprising:
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an input configured to receive a signal responsive to attenuation of light by tissue of said patient, said light comprising at least two different wavelengths, each of said wavelengths predetermined to be a responsive to one or more of said physiological parameters of said patient; a complex photopleth generator configured to receive at least first and second signals, said first signal responsive to a first wavelength of said light and said second signal responsive to a second wavelength of light different from said first wavelength, said complex photopleth generator configured to output a first complex signal responsive to said first signal and a second complex signal responsive to said second signal; a complex ratio generator configured to determine complex ratios of said first and second complex signals; a complex weighting generator configured to preferentially weigh said complex ratios based on a measure of confidence; a phase filter configured to filter said weighted complex ratios to reduce an effect of noise on said measurement values; and an output configured to provide said measurement values to a caregiver or said patient, said measurement values being responsive to said complex ratios. - View Dependent Claims (9, 10)
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Specification