Method and apparatus for reducing coupling between signals in a measurement system
First Claim
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1. A system which measures 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 system 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, the at least one emitter positioned to emit light in the direction of a living subject;
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;
a demodulation system configured to demodulate the detector signal, the demodulation system comprising an optimizing demodulator configured to reduce crosstalk by calculating updated coefficients that minimize a predetermined error using baseline coefficients,wherein the demodulation system is configured to use the updated coefficients to determine a plurality of demodulation functions used to demodulate the detector signal.
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Abstract
A method and an apparatus for separating a composite signal into a plurality of signals is described. A signal processor receives a composite signal and separates a composite signal in to separate output signals. Pre-demodulation signal values are used to adjust the demodulation scheme.
1002 Citations
18 Claims
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1. A system which measures 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 system 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, the at least one emitter positioned to emit light in the direction of a living subject; 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; a demodulation system configured to demodulate the detector signal, the demodulation system comprising an optimizing demodulator configured to reduce crosstalk by calculating updated coefficients that minimize a predetermined error using baseline coefficients, wherein the demodulation system is configured to use the updated coefficients to determine a plurality of demodulation functions used to demodulate the detector 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 said electromagnetic energy after attenuation by body tissue of a living subject, said signals received as a composite signal having at least first and second components responsive to said 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 said composite signal to generate at least a first demodulated signal; and automatically optimizing, using an optimizing demodulator to reduce crosstalk, the first demodulation scheme by determining a plurality of updated coefficients that minimizes a predetermined error using baseline coefficients, the plurality of updated coefficients used to determine a plurality of demodulation functions which are used to demodulate the composite signal. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A system 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 said electromagnetic energy after attenuation by body tissue of a living subject, said signals received as a composite signal having at least first and second components responsive to said at least first and second pulses respectively, said system 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; and means for automatically optimizing the first demodulation scheme by determining a plurality of updated coefficients that minimizes a predetermined error using baseline coefficients, the plurality of updated coefficients used to determine a plurality of demodulation functions which are used to demodulated the composite signal. - View Dependent Claims (16, 17, 18)
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Specification