Signal processing apparatus and method
DCFirst Claim
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1. A noninvasive physiological monitor comprising:
- a first input for receiving an output waveform from a detector responsive to light attenuated by body tissue, the output waveform including at least a first waveform corresponding to a first wavelength of light attenuated by body tissue and a second waveform corresponding to a second wavelength of light attenuated by the body tissue; and
a signal processor configured to transform said first and second waveforms into spectral domain waveforms, the signal processor further configured to distinguish motion artifacts, classify portions of the spectral domain waveforms by at least matching a set of peaks in the spectral domain waveforms to one of a plurality of cases, and select spectral data from the spectral domain waveforms based on the classification and predetermined criteria, the signal processor further configured to determine a physiological indication of the patient based on the selected spectral data.
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Abstract
A method and an apparatus to analyze two measured signals that are modeled as containing desired and undesired portions such as noise, FM and AM modulation. Coefficients relate the two signals according to a model defined. The method and apparatus are particularly advantageous to blood oximetry and pulserate measurements.
927 Citations
16 Claims
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1. A noninvasive physiological monitor comprising:
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a first input for receiving an output waveform from a detector responsive to light attenuated by body tissue, the output waveform including at least a first waveform corresponding to a first wavelength of light attenuated by body tissue and a second waveform corresponding to a second wavelength of light attenuated by the body tissue; and a signal processor configured to transform said first and second waveforms into spectral domain waveforms, the signal processor further configured to distinguish motion artifacts, classify portions of the spectral domain waveforms by at least matching a set of peaks in the spectral domain waveforms to one of a plurality of cases, and select spectral data from the spectral domain waveforms based on the classification and predetermined criteria, the signal processor further configured to determine a physiological indication of the patient based on the selected spectral data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of determining physiological information noninvasively based on optical measurements, the method comprising:
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receiving, from a detector, a waveform indicative of tissue attenuated light detected by the detector, the waveform including at least a first waveform corresponding to a first wavelength of light attenuated by body tissue and a second waveform correspond to a second wavelength of light attenuated by the body tissue; transforming said first and second waveforms into spectral domain waveforms using a processor, said transforming comprising distinguishing motion artifacts, classifying portions of the spectral domain waveforms by at least matching a set of peaks in the spectral domain waveforms to one of a plurality of cases, and selecting spectral data from the spectral domain waveforms based on the classification and predetermined criteria; and determining, using the processor, a physiological indication of the patient based on the selected spectral data. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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Specification