Method and apparatus for demodulating signals in a pulse oximetry system
First Claim
1. A pulse oximeter configured to measure one or more physiological characteristics of a living subject non-invasively by measuring pulsing light of two or more wavelengths after attenuation by body tissue, the pulse oximeter comprising:
- at least one emitter configured to emit light of at least two or more different wavelengths using a modulation scheme that cycles the at least two or more different wavelengths;
at least one detector configured to detect the light of the at least two or more different wavelengths emitted from the at least one emitter after the light has been attenuated by tissue of the living subject, the detector further configured to generate a detector signal representative of the emitted light;
at least one demodulation system configured to demodulate the detector signal and to generate a demodulated detector signal;
an adaptive algorithm processor configured to;
receive one or more inputs;
based, at least in part, on the one or more inputs, generate at least one control signal configured to reduce crosstalk; and
transmit at least one of the control signals to each of the demodulation systems;
wherein each of the demodulation systems is configured to adjust its demodulation based on the at least one control signal to reduce crosstalk;
at least one signal processor configured to use the demodulated detector signal to determine and display at least one physiological measurement; and
the one or more inputs to the adaptive algorithm processor include at least one of;
detector configuration data, calibration data, or a noise demodulated signal.
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Abstract
A method and an apparatus measure blood oxygenation in a subject. A light source is activated to cause a first emission at a first wavelength and a second emission at a second wavelength. A detector detects a composite signal indicative of an attenuation of the first and second wavelengths by tissue of a patient. The composite signal is demodulated into a first intensity signal and a second intensity signal. Blood oxygenation in the subject is determined from the first and second intensity signals.
957 Citations
16 Claims
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1. A pulse oximeter configured to measure one or more physiological characteristics of a living subject non-invasively by measuring pulsing light of two or more wavelengths after attenuation by body tissue, the pulse oximeter comprising:
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at least one emitter configured to emit light of at least two or more different wavelengths using a modulation scheme that cycles the at least two or more different wavelengths; at least one detector configured to detect the light of the at least two or more different wavelengths emitted from the at least one emitter after the light has been attenuated by tissue of the living subject, the detector further configured to generate a detector signal representative of the emitted light; at least one demodulation system configured to demodulate the detector signal and to generate a demodulated detector signal; an adaptive algorithm processor configured to; receive one or more inputs; based, at least in part, on the one or more inputs, generate at least one control signal configured to reduce crosstalk; and transmit at least one of the control signals to each of the demodulation systems; wherein each of the demodulation systems is configured to adjust its demodulation based on the at least one control signal to reduce crosstalk; at least one signal processor configured to use the demodulated detector signal to determine and display at least one physiological measurement; and the one or more inputs to the adaptive algorithm processor include at least one of;
detector configuration data, calibration data, or a noise demodulated signal. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of demodulating a composite signal generated by applying at least first and second periodic pulses of electromagnetic energy to a system having a physiological parameter to be measured and by non-invasively receiving signals responsive to the electromagnetic energy after attenuation by body tissue of a living subject, the signals received as a composite signal having at least first and second components responsive to the at least first and second pulses respectively, said method comprising:
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receiving, at one or more signal processors, a composite signal responsive to electromagnetic energy of at least first and second periodic pulses of electromagnetic energy after attenuation by body tissue; applying, using the one or more signal processors, a first demodulation scheme to the composite signal to generate at least a first demodulated signal; generating, by an adaptive algorithm, at least one control signal; automatically adjusting, using the one or more signal processors, the first demodulation scheme based, at least in part, by the at least one control signal; using at least a second demodulated signal, obtained using the adjusted first demodulation scheme, to determine and display a physiological measurement; and wherein the adaptive algorithm uses at least one of;
detector configuration data, calibration data, or a noise demodulated signal to generate the control signal. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A pulse oximeter for demodulating a composite signal generated by applying at least first and second periodic pulses of electromagnetic energy to a system having a physiological parameter to be measured and by non-invasively receiving signals responsive to the electromagnetic energy after attenuation by body tissue of a living subject, the signals received as a composite signal having at least first and second components responsive to the at least first and second pulses respectively, said pulse oximeter comprising:
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means for receiving a composite signal responsive to electromagnetic energy of at least first and second periodic pulses of electromagnetic energy after attenuation by body tissue; means for applying a first demodulation scheme to said composite signal to generate at least a first demodulated signal; means for generating, by an adaptive algorithm, at least one control signal, the at least one control signal based at least in part on at least one of;
detector configuration data, calibration data, or a noise demodulated signal;means for automatically adjusting the first demodulation scheme by the at least one control signal; means for determining a physiological measurement using a second demodulated signal obtained after adjusting the first demodulation scheme; and means for displaying the physiological mesaurement. - View Dependent Claims (15, 16)
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Specification