Patent US 7,003,338 B2

First Claim

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1. A method of reducing crosstalk between two signals generated by applying a first pulse and a second pulse to measure a parameter, wherein said first pulse and said second pulse are applied periodically at a first repetition rate defining a period, and wherein said first pulse is generated during a first interval in each period and said second pulse is generated during a second interval in each period, said first and second pulses producing first and second parametric signals responsive to said parameter, said first and second parametric signals being received by a detector which outputs a composite signal responsive to said first and second parametric signals, said method comprising:

applying a first demodulation signal to said composite signal to generate a first demodulated output signal, said first demodulation signal comprising at least one component having at least a first amplitude and a first phase;

applying a second demodulation signal to said composite signal to generate a second demodulated output signal, said second demodulation signal comprising at least one component having at least a second amplitude and a second phase;

lowpass filtering said first demodulated output signal to generate a first recovered output signal responsive to said first parametric signal;

lowpass filtering said second demodulated output signal to generate a second recovered output signal responsive to said second parametric signal; and

choosing at least one of said first phase, said second phase, said first amplitude, and said second amplitude to reduce crosstalk components in said first recovered output signal and said second recovered output signal based at least in part on data obtained from said detector during a calibration procedure, wherein said choosing comprises;

applying said first light pulse during a first time period and measuring said first recovered output during said first time period as a first calibration output and measuring said second recovered output during said first time period as a second calibration output;

applying said second light pulse during a second time period and measuring said first recovered output during said first time period as a third calibration output and measuring said second recovered output during said second time period as a fourth calibration output; and

computing said first demodulation signal from at least said first calibration output, said second calibration output, said third calibration output, and said fourth calibration output.

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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. Feedback from one or more of the output signals is provided to a configuration module that configures the signal processor to improve a quality of the output signals. In one embodiment, the signal processor separates the composite signal by applying a first demodulation signal to the composite signal to generate a first output signal. In one embodiment, the signal processor also applies a second demodulation signal to the composite signal to generate a second output signal. In one embodiment, a phase and/or amplitude of the first demodulation signal and a phase and/or amplitude of the second demodulation signal are selected to reduce crosstalk. In one embodiment, the composite signal is obtained from a detector in a system for measuring one or more blood constituents.

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Reusable pulse oximeter probe and disposable bandage apparatii
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Medical sensor for reducing signal artifacts and technique for using the same
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Medical sensor for reducing signal artifacts and technique for using the same
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Medical sensor for reducing signal artifacts and technique for using the same
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Medical sensor for reducing signal artifacts and technique for using the same
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System and method for creating a stable optical interface
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Noninvasive multi-parameter patient monitor
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Low-noise optical probes for reducing ambient noise
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Optical sensor including disposable and reusable elements
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Noninvasive oximetry optical sensor including disposable and reusable elements
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Medical sensor for reducing motion artifacts and technique for using the same
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Oximeter probe off indicator defining probe off space
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Systems and methods for storing, analyzing, and retrieving medical data
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Multiple wavelength sensor emitters
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Method for data reduction and calibration of an OCT-based physiological monitor
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Systems and methods for storing, analyzing, retrieving and displaying streaming medical data
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Reflectance and/or transmissive pulse oximeter
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Compliant diaphragm medical sensor and technique for using the same
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Flexible medical sensor enclosure
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Reusable pulse oximeter probe and disposable bandage apparatus
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Patient monitor having context-based sensitivity adjustments
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Medical sensor and technique for using the same
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Reflection-detector sensor position indicator
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Folding medical sensor and technique for using the same
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Medical sensor and technique for using the same
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Medical sensor and technique for using the same
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Portable patient monitor
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Signal processing apparatus
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Physiological monitor
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Medical sensor and technique for using the same
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Signal processing apparatus
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LED drive circuit for pulse oximetry and method for using same
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Tissue profile wellness monitor
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Physiological parameter tracking system
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Multiple wavelength sensor emitters
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Optically aligned pulse oximetry sensor and technique for using the same
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System and method for memory switching for multiple configuration medical sensor
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Medical sensor for reducing signal artifacts and technique for using the same
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Systems and methods for indicating an amount of use of a sensor
Patent # US 8,399,822 B2 Filed 03/22/2011	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity Masimo Corporation

Secondary-emitter sensor position indicator
Patent # US 8,401,602 B2 Filed 10/12/2009	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

System and method for altering a display mode
Patent # US 8,405,608 B2 Filed 02/28/2008	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity Masimo Corporation

Plethysmograph variability processor
Patent # US 8,414,499 B2 Filed 12/07/2007	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical sensor
Patent # US 8,417,309 B2 Filed 09/30/2008	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Digital switching in multi-site sensor
Patent # US 8,417,310 B2 Filed 08/10/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Non-invasive sensor calibration device
Patent # US 8,418,524 B2 Filed 06/11/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical sensor and technique for using the same
Patent # US 8,423,112 B2 Filed 09/30/2008	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Multi-wavelength physiological monitor
Patent # US 8,423,106 B2 Filed 03/10/2008	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Nanofiber adhesives used in medical devices
Patent # US 8,428,675 B2 Filed 08/19/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Spot check monitor credit system
Patent # US 8,428,967 B2 Filed 05/18/2011	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

System for determining confidence in respiratory rate measurements
Patent # US 8,430,817 B1 Filed 10/15/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Stacked adhesive optical sensor
Patent # US 8,433,383 B2 Filed 07/07/2006	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

System and method for estimating blood analyte concentration
Patent # US 8,437,822 B2 Filed 03/27/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Contoured protrusion for improving spectroscopic measurement of blood constituents
Patent # US 8,437,825 B2 Filed 07/02/2009	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Clip-style medical sensor and technique for using the same
Patent # US 8,437,826 B2 Filed 11/07/2011	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

System and method for estimating physiological parameters by deconvolving artifacts
Patent # US 8,442,608 B2 Filed 12/24/2008	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Systems and methods for determining blood oxygen saturation values using complex number encoding
Patent # US 8,447,374 B2 Filed 10/09/2008	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

System and method for attaching a sensor to a patient's skin
Patent # US 8,452,364 B2 Filed 12/24/2008	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Medical monitoring device with flexible circuitry
Patent # US 8,452,366 B2 Filed 03/16/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Congenital heart disease monitor
Patent # US 8,457,707 B2 Filed 09/19/2007	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Low power pulse oximeter
Patent # US 8,457,703 B2 Filed 11/13/2007	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Signal processing apparatus
Patent # US 8,463,349 B2 Filed 05/03/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity Masimo Corporation

Interference detector for patient monitor
Patent # US 8,471,713 B2 Filed 07/22/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Laboratories Inc.

Non-invasive physiological sensor cover
Patent # US 8,473,020 B2 Filed 07/27/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Laboratories Inc.

Non-adhesive oximeter sensor for sensitive skin
Patent # US 8,483,790 B2 Filed 03/07/2007	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Multiple wavelength sensor drivers
Patent # US 8,483,787 B2 Filed 10/31/2011	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Variable indication estimator
Patent # US 8,489,364 B2 Filed 08/31/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity Masimo Corporation

Alarm suspend system
Patent # US 8,203,438 B2 Filed 07/28/2009	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Sine saturation transform
Patent # US 8,498,684 B2 Filed 03/08/2011	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity Masimo Corporation

System and method for providing sensor quality assurance
Patent # US 8,505,821 B2 Filed 06/30/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Method and apparatus for detecting and analyzing variations in a physiologic parameter
Patent # US 8,509,869 B2 Filed 05/15/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Multi-stream emitter for noninvasive measurement of blood constituents
Patent # US 8,515,509 B2 Filed 08/03/2009	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Bi-stable medical sensor and technique for using the same
Patent # US 8,528,185 B2 Filed 08/21/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Shielded connector assembly
Patent # US 8,529,301 B2 Filed 02/17/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Dual-mode pulse oximeter
Patent # US 8,532,727 B2 Filed 08/20/2007	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity Masimo Corporation

Pulse oximeter probe-off detector
Patent # US 8,532,728 B2 Filed 12/29/2008	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity Masimo Corporation

Alarm suspend system
Patent # US 8,547,209 B2 Filed 05/21/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity Masimo Corporation

Methods for noninvasively measuring analyte levels in a subject
Patent # US 8,548,549 B2 Filed 09/09/2011	Current Assignee Masimo Corporation	Sponsoring Entity GLT Acquisition Corporation

Physiological measurement communications adapter
Patent # US 8,548,548 B2 Filed 11/29/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Optical sensor including disposable and reusable elements
Patent # US 8,548,550 B2 Filed 07/31/2012	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Noninvasive multi-parameter patient monitor
Patent # US 8,560,032 B2 Filed 05/22/2012	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Signal processing apparatus
Patent # US 8,560,034 B1 Filed 07/06/1998	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Heat sink for noninvasive medical sensor
Patent # US 8,570,503 B2 Filed 06/15/2012	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Physiological trend monitor
Patent # US 8,570,167 B2 Filed 07/24/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Hemoglobin display and patient treatment
Patent # US 8,571,619 B2 Filed 05/19/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Flowometry in optical coherence tomography for analyte level estimation
Patent # US 8,571,617 B2 Filed 03/04/2009	Current Assignee Masimo Corporation	Sponsoring Entity GLT Acquisition Corporation

Adaptive calibration system for spectrophotometric measurements
Patent # US 8,571,618 B1 Filed 09/27/2010	Current Assignee Masimo Laboratories Inc.	Sponsoring Entity Masimo Laboratories Inc.

Noise shielding for a noninvasive device
Patent # US 8,577,431 B2 Filed 07/02/2009	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Medical sensor for reducing signal artifacts and technique for using the same
Patent # US 8,577,436 B2 Filed 03/05/2012	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Coaxial LED light sources
Patent # US 8,577,434 B2 Filed 12/24/2008	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Noninvasive multi-parameter patient monitor
Patent # US 8,581,732 B2 Filed 03/05/2012	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Reprocessing of a physiological sensor
Patent # US 8,584,345 B2 Filed 03/07/2011	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Ear sensor
Patent # US 8,588,880 B2 Filed 02/16/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Medical sensor and technique for using the same
Patent # US 8,600,469 B2 Filed 02/07/2011	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Optical sensor including disposable and reusable elements
Patent # US 8,600,467 B2 Filed 07/01/2010	Current Assignee Masimo Laboratories Inc.	Sponsoring Entity Masimo Laboratories Inc.

Noninvasive multi-parameter patient monitor
Patent # US 8,626,255 B2 Filed 05/22/2012	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Multi-stream sensor front ends for noninvasive measurement of blood constituents
Patent # US 8,630,691 B2 Filed 08/03/2009	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Configurable physiological measurement system
Patent # US 8,634,889 B2 Filed 05/18/2010	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Method and system for self regulation of sensor component contact pressure
Patent # US 8,634,891 B2 Filed 05/20/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Non-invasive monitoring of respiratory rate, heart rate and apnea
Patent # US 8,641,631 B2 Filed 04/08/2005	Current Assignee ANDROMED INC.	Sponsoring Entity JP Morgan Chase Bank N.A.

Perfusion trend indicator
Patent # US 8,652,060 B2 Filed 01/22/2008	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

System and method for mitigating interference in pulse oximetry
Patent # US 8,660,626 B2 Filed 02/04/2011	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Sepsis monitor
Patent # US 8,663,107 B2 Filed 05/03/2011	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Patient monitor for determining microcirculation state
Patent # US 8,666,468 B1 Filed 05/04/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Respiratory monitoring
Patent # US 8,667,967 B2 Filed 09/01/2011	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Pulse oximetry system for adjusting medical ventilation
Patent # US 8,670,811 B2 Filed 06/25/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Low-noise optical probes for reducing ambient noise
Patent # US 8,670,814 B2 Filed 01/27/2009	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Method and apparatus for reducing coupling between signals in a measurement system
Patent # US 8,676,286 B2 Filed 01/03/2011	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Cyanotic infant sensor
Patent # US 8,682,407 B2 Filed 05/03/2011	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Emitter driver for noninvasive patient monitor
Patent # US 8,688,183 B2 Filed 09/02/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Laboratories Inc.

Universal modular pulse oximeter probe for use with reusable and disposable patient attachment devices
Patent # RE44823E1 Filed 02/07/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Acoustic respiratory monitoring sensor having multiple sensing elements
Patent # US 8,690,799 B2 Filed 10/14/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Secondary-emitter sensor position indicator
Patent # US 8,700,112 B2 Filed 02/28/2013	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Acoustic respiratory monitoring sensor having multiple sensing elements
Patent # US 8,702,627 B2 Filed 10/14/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Reusable pulse oximeter probe and disposable bandage apparatii
Patent # US 8,706,179 B2 Filed 05/07/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Method and apparatus for monitoring blood constituent levels in biological tissue
Patent # US 8,204,566 B2 Filed 08/02/2007	Current Assignee Masimo Corporation	Sponsoring Entity GLT Acquisition Corporation

Reflective non-invasive sensor
Patent # US 8,712,494 B1 Filed 05/02/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Active pulse blood constituent monitoring
Patent # RE44875E1 Filed 03/14/2011	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Acoustic patient sensor
Patent # US 8,715,206 B2 Filed 10/14/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Method and apparatus for demodulating signals in a pulse oximetry system
Patent # US 8,718,737 B2 Filed 04/02/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Physiological parameter confidence measure
Patent # US 8,718,735 B2 Filed 06/03/2011	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Non-invasive sensor calibration device
Patent # US 8,720,249 B2 Filed 04/11/2013	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Physiological monitor
Patent # US 8,721,541 B2 Filed 01/18/2013	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Physiological parameter system
Patent # US 8,721,542 B2 Filed 08/07/2008	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Patient safety system with automatically adjusting bed
Patent # US 8,723,677 B1 Filed 10/19/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient monitor capable of accounting for environmental conditions
Patent # US 8,740,792 B1 Filed 07/08/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Interference detector for patient monitor
Patent # US 8,754,776 B2 Filed 06/14/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Laboratories Inc.

Patient monitoring system for indicating an abnormal condition
Patent # US 8,755,872 B1 Filed 07/27/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Acoustic respiratory monitoring sensor having multiple sensing elements
Patent # US 8,755,535 B2 Filed 10/14/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Signal processing apparatus
Patent # US 8,755,856 B2 Filed 02/22/2012	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Reflection-detector sensor position indicator
Patent # US 8,761,850 B2 Filed 12/21/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Disposable active pulse sensor
Patent # US 8,764,671 B2 Filed 06/26/2008	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Multispot monitoring for use in optical coherence tomography
Patent # US 8,768,423 B2 Filed 03/04/2009	Current Assignee Masimo Corporation	Sponsoring Entity GLT Acquisition Corporation

Acoustic sensor assembly
Patent # US 8,771,204 B2 Filed 12/21/2009	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Multiple wavelength optical sensor
Patent # US 8,781,544 B2 Filed 03/26/2008	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Manual and automatic probe calibration
Patent # US 8,781,543 B2 Filed 03/26/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Noninvasive oximetry optical sensor including disposable and reusable elements
Patent # US 8,781,549 B2 Filed 08/14/2012	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Monitoring blood constituent levels in biological tissue
Patent # US 8,788,003 B2 Filed 04/25/2012	Current Assignee Masimo Corporation	Sponsoring Entity GLT Acquisition Corporation

Calibration for multi-stage physiological monitors
Patent # US 8,801,613 B2 Filed 12/03/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Physiological acoustic monitoring system
Patent # US 8,821,415 B2 Filed 10/14/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Depth of consciousness monitor including oximeter
Patent # US 8,821,397 B2 Filed 09/27/2011	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Blood analysis system
Patent # US 8,830,449 B1 Filed 04/17/2012	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Apparatus and method for creating a stable optical interface
Patent # US 8,831,700 B2 Filed 07/09/2012	Current Assignee Masimo Corporation	Sponsoring Entity GLT Acquisition Corporation

Modular patient monitor
Patent # US 8,840,549 B2 Filed 09/24/2007	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Alarm suspend system
Patent # US 8,847,740 B2 Filed 09/25/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multiple wavelength sensor emitters
Patent # US 8,849,365 B2 Filed 02/25/2013	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Physiological parameter system
Patent # US 8,852,094 B2 Filed 12/21/2007	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Optical sensor including disposable and reusable elements
Patent # US 8,868,150 B2 Filed 09/30/2013	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Physiological acoustic monitoring system
Patent # US 8,870,792 B2 Filed 10/12/2012	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Non-invasive physiological sensor cover
Patent # US 8,886,271 B2 Filed 06/17/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Laboratories Inc.

Shielded connector assembly
Patent # US 8,888,539 B2 Filed 08/09/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Signal processing apparatus and method
Patent # US 8,888,708 B2 Filed 05/14/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Sine saturation transform
Patent # US 8,892,180 B2 Filed 07/29/2013	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Digit gauge for noninvasive optical sensor
Patent # US 8,897,847 B2 Filed 03/18/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Sensor with integrated living hinge and spring
Patent # US 8,897,850 B2 Filed 12/29/2008	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Multi-stream sensor front ends for noninvasive measurement of blood constituents
Patent # US 8,909,310 B2 Filed 01/13/2014	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Patient monitor including multi-parameter graphical display
Patent # US 8,911,377 B2 Filed 09/15/2009	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Noninvasive multi-parameter patient monitor
Patent # US 8,912,909 B2 Filed 11/11/2013	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Medical sensor and technique for using the same
Patent # US 8,914,088 B2 Filed 09/30/2008	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Multipurpose sensor port
Patent # US 8,920,317 B2 Filed 09/13/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

System and method for monitoring the life of a physiological sensor
Patent # US 8,922,382 B2 Filed 01/27/2011	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Low noise oximetry cable including conductive cords
Patent # US 8,921,699 B2 Filed 04/04/2011	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Multiple wavelength sensor drivers
Patent # US 8,929,964 B2 Filed 07/08/2013	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Signal processing apparatus
Patent # US 8,942,777 B2 Filed 05/25/2007	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Systems and methods for determining blood oxygen saturation values using complex number encoding
Patent # US 8,948,835 B2 Filed 05/17/2013	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Signal processing apparatus
Patent # US 8,948,834 B2 Filed 03/02/2005	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Tissue profile wellness monitor
Patent # US 8,965,471 B2 Filed 02/11/2013	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

Medical sensor for reducing motion artifacts and technique for using the same
Patent # US 8,965,473 B2 Filed 10/06/2011	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Perfusion index smoother
Patent # US 8,983,564 B2 Filed 09/26/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Disposable components for reusable physiological sensor
Patent # US 8,989,831 B2 Filed 05/18/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Robust alarm system
Patent # US 8,996,085 B2 Filed 06/14/2011	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Systems and methods for calibrating minimally invasive and non-invasive physiological sensor devices
Patent # US 8,998,809 B2 Filed 05/09/2007	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

System and method for linking patient data to a patient and providing sensor quality assurance
Patent # US 9,010,634 B2 Filed 06/30/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Acoustic sensor assembly
Patent # US 9,028,429 B2 Filed 04/23/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Hemoglobin display and patient treatment
Patent # US 9,037,207 B2 Filed 10/25/2013	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Flowometry in optical coherence tomography for analyte level estimation
Patent # US 9,060,721 B2 Filed 10/25/2013	Current Assignee Masimo Corporation	Sponsoring Entity GLT Acquisition Corporation

Patient monitor for monitoring microcirculation
Patent # US 9,066,666 B2 Filed 02/09/2012	Current Assignee Masimo Corporation	Sponsoring Entity Cercacor Laboratories

System for determining confidence in respiratory rate measurements
Patent # US 9,066,680 B1 Filed 10/15/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Pulse oximeter access apparatus and method
Patent # US 9,072,474 B2 Filed 01/27/2009	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Method for data reduction and calibration of an OCT-based physiological monitor
Patent # US 9,078,560 B2 Filed 11/02/2012	Current Assignee Masimo Corporation	Sponsoring Entity GLT Acquisition Corporation

Method and apparatus for reducing coupling between signals in a measurement system
Patent # US 9,084,569 B2 Filed 03/17/2014	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

System for generating alarms based on alarm patterns
Patent # US 9,095,316 B2 Filed 04/19/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Pulse oximetry system with low noise cable hub
Patent # US 9,106,038 B2 Filed 10/14/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Pulse oximetry system with electrical decoupling circuitry
Patent # US 9,107,625 B2 Filed 05/05/2009	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

System and method for monitoring the life of a physiological sensor
Patent # US 9,107,626 B2 Filed 12/17/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological measurement communications adapter
Patent # US 9,113,831 B2 Filed 09/25/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Wrist-mounted physiological measurement device
Patent # US 9,113,832 B2 Filed 03/18/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Reflection-detector sensor position indicator
Patent # US 9,119,595 B2 Filed 06/18/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological trend monitor
Patent # US 9,131,883 B2 Filed 10/28/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Hypersaturation index
Patent # US 9,131,881 B2 Filed 04/17/2013	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Noninvasive multi-parameter patient monitor
Patent # US 9,131,882 B2 Filed 10/11/2013	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Acoustic sensor assembly
Patent # US 9,131,917 B2 Filed 03/27/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Sensor adapter cable
Patent # US 9,138,180 B1 Filed 05/03/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Systems and methods for storing, analyzing, retrieving and displaying streaming medical data
Patent # US 9,142,117 B2 Filed 11/13/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Optical sensor including disposable and reusable elements
Patent # US 9,138,182 B2 Filed 10/29/2013	Current Assignee Masimo Laboratories Inc.	Sponsoring Entity Masimo Laboratories Inc.

Variable indication estimator
Patent # US 9,138,192 B2 Filed 07/15/2013	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Alarm suspend system
Patent # US 9,153,121 B2 Filed 08/26/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Modular patient monitor
Patent # US 9,153,112 B1 Filed 03/02/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Modular patient monitor
Patent # US 9,161,696 B2 Filed 12/17/2009	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multi-mode patient monitor configured to self-configure for a selected or determined mode of operation
Patent # US 9,161,713 B2 Filed 12/20/2012	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Physiological parameter confidence measure
Patent # US 9,167,995 B2 Filed 03/18/2014	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Physiological monitor calibration system
Patent # US 9,176,141 B2 Filed 10/15/2011	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Emitter driver for noninvasive patient monitor
Patent # US 9,186,102 B2 Filed 03/27/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient monitor for determining microcirculation state
Patent # US 9,192,312 B2 Filed 01/21/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Variable mode pulse indicator
Patent # US 9,192,329 B2 Filed 10/12/2007	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Acoustic respiratory monitoring sensor with probe-off detection
Patent # US 9,192,351 B1 Filed 07/20/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological monitor touchscreen interface
Patent # US 9,195,385 B2 Filed 03/25/2013	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Disposable active pulse sensor
Patent # US 9,211,072 B2 Filed 05/16/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological measurement logic engine
Patent # US 9,211,095 B1 Filed 03/20/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring system
Patent # US 9,218,454 B2 Filed 03/03/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Patient safety system with automatically adjusting bed
Patent # US 9,226,696 B2 Filed 05/12/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

METHOD AND APPARATUS FOR REDUCING COUPLING BETWEEN SIGNALS IN A MEASUREMENT SYSTEM
Patent # US 20160007930A1 Filed 07/14/2015	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Configurable physiological measurement system
Patent # US 9,241,662 B2 Filed 12/11/2013	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Low noise cable providing communication between electronic sensor components and patient monitor
Patent # US 9,245,668 B1 Filed 06/28/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Ear sensor
Patent # US 9,259,185 B2 Filed 08/23/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multi-stream data collection system for noninvasive measurement of blood constituents
Patent # US 9,277,880 B2 Filed 07/01/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Signal processing apparatus and method
Patent # US 9,289,167 B2 Filed 12/05/2012	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Non-invasive physiological sensor cover
Patent # US 9,295,421 B2 Filed 10/13/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Plethysmographic respiration processor
Patent # US 9,307,928 B1 Filed 03/30/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Health care sanitation monitoring system
Patent # US 9,323,894 B2 Filed 08/17/2012	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Pulse oximetry sensor
Patent # D755392S1 Filed 02/06/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Opticoustic sensor
Patent # US 9,326,712 B1 Filed 06/02/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Drug administration controller
Patent # US 9,333,316 B2 Filed 05/18/2012	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Multiple-wavelength physiological monitor
Patent # US 9,341,565 B2 Filed 03/28/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multi-wavelength physiological monitor
Patent # US 9,339,220 B2 Filed 04/12/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Method and apparatus for demodulating signals in a pulse oximetry system
Patent # US 9,351,673 B2 Filed 05/05/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Noninvasive multi-parameter patient monitor
Patent # US 9,351,675 B2 Filed 12/02/2014	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Hemoglobin display and patient treatment
Patent # US 9,370,325 B2 Filed 05/18/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Oximeter probe off indicator defining probe off space
Patent # US 9,370,326 B2 Filed 09/11/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological acoustic monitoring system
Patent # US 9,370,335 B2 Filed 10/23/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Systems and methods for acquiring calibration data usable in a pulse oximeter
Patent # US 9,375,185 B2 Filed 08/20/2007	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Physiological acoustic monitoring system
Patent # US 9,386,961 B2 Filed 08/29/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Method of sterilizing a reusable portion of a noninvasive optical probe
Patent # US 9,386,953 B2 Filed 08/12/2011	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Shielded connector assembly
Patent # US 9,397,448 B2 Filed 10/20/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Automated CCHD screening and detection
Patent # US 9,392,945 B2 Filed 01/03/2013	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Non-invasive blood pressure measurement system
Patent # US 9,408,542 B1 Filed 07/22/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring hub
Patent # US 9,436,645 B2 Filed 10/12/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Blood glucose calibration system
Patent # US 9,445,759 B1 Filed 12/24/2012	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Patient monitor as a minimally invasive glucometer
Patent # US 9,474,474 B2 Filed 03/04/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Configurable patient monitoring system
Patent # US 9,480,435 B2 Filed 02/08/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Cyanotic infant sensor
Patent # US 9,480,422 B2 Filed 03/24/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological monitor
Patent # US 9,492,110 B2 Filed 05/12/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Analyte monitoring using one or more accelerometers
Patent # US 9,510,779 B2 Filed 09/16/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Optical-based physiological monitoring system
Patent # US 9,517,024 B2 Filed 09/05/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient monitoring system
Patent # US 9,532,722 B2 Filed 06/19/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Depth of consciousness monitor including oximeter
Patent # US 9,538,949 B2 Filed 08/27/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Acoustic respiratory monitoring sensor having multiple sensing elements
Patent # US 9,538,980 B2 Filed 04/07/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological parameter confidence measure
Patent # US 9,549,696 B2 Filed 09/21/2015	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Noninvasively measuring analyte levels in a subject
Patent # US 9,554,737 B2 Filed 09/25/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Universal medical system
Patent # US 9,560,996 B2 Filed 10/30/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

System and method for monitoring the life of a physiological sensor
Patent # US 9,560,998 B2 Filed 08/07/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Pulse oximeter with adaptive power conservation
Patent # US 9,560,994 B2 Filed 03/24/2009	Current Assignee Covidien PLC	Sponsoring Entity Covidien PLC

Respiratory monitoring
Patent # US 9,566,019 B2 Filed 01/13/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Non-invasive intravascular volume index monitor
Patent # US 9,579,039 B2 Filed 01/10/2012	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Contoured protrusion for improving spectroscopic measurement of blood constituents
Patent # US 9,591,975 B2 Filed 05/06/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Systems and methods for determining blood oxygen saturation values using complex number encoding
Patent # US 9,622,693 B2 Filed 01/30/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Personal health device
Patent # US 9,622,692 B2 Filed 05/16/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Pulse and confidence indicator displayed proximate plethysmograph
Patent # US 9,636,055 B2 Filed 10/24/2011	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Physiological trend monitor
Patent # US 9,636,056 B2 Filed 04/10/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Blood pressure measurement method
Patent # US 9,649,054 B2 Filed 08/25/2011	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Reprocessing of a physiological sensor
Patent # US 9,662,052 B2 Filed 11/13/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Wireless patient monitoring device
Patent # D788312S1 Filed 08/24/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Emitter driver for noninvasive patient monitor
Patent # US 9,668,680 B2 Filed 11/16/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Method for data reduction and calibration of an OCT-based physiological monitor
Patent # US 9,668,679 B2 Filed 06/11/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Plethysmograph pulse recognition processor
Patent # US 9,675,286 B2 Filed 08/02/2011	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Congenital heart disease monitor
Patent # US 9,687,160 B2 Filed 05/31/2013	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Physiological measurement logic engine
Patent # US 9,693,737 B2 Filed 12/11/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Noninvasive oximetry optical sensor including disposable and reusable elements
Patent # US 9,693,719 B2 Filed 07/15/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Automated assembly sensor cable
Patent # US 9,697,928 B2 Filed 07/25/2013	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Magnetic-flap optical sensor
Patent # US 9,717,458 B2 Filed 10/17/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Noise shielding for a noninvaise device
Patent # US 9,717,425 B2 Filed 11/01/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Active-pulse blood analysis system
Patent # US 9,724,025 B1 Filed 07/10/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Adaptive alarm system
Patent # US 9,724,024 B2 Filed 02/28/2011	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Respiration processor
Patent # US 9,724,016 B1 Filed 10/15/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Pulse oximeter probe-off detector
Patent # US 9,730,640 B2 Filed 09/10/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Pulse oximeter access apparatus and method
Patent # US 9,743,887 B2 Filed 07/02/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Intelligent medical network edge router
Patent # US 9,749,232 B2 Filed 09/18/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multiple wavelength sensor emitters
Patent # US 9,750,443 B2 Filed 08/29/2014	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Physiological status monitor
Patent # US 9,750,442 B2 Filed 03/10/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Acoustic respiratory monitoring sensor with probe-off detection
Patent # US 9,750,461 B1 Filed 12/20/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Systems and methods for analyzing a physiological sensor signal
Patent # US 9,770,210 B2 Filed 09/23/2011	Current Assignee Nellcor Puritan Bennett Ireland	Sponsoring Entity Nellcor Puritan Bennett Ireland

Magnetic electrical connector for patient monitors
Patent # US 9,775,545 B2 Filed 09/27/2011	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Hypersaturation index
Patent # US 9,775,546 B2 Filed 09/11/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Adaptive alarm system
Patent # US 9,775,570 B2 Filed 05/01/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological monitor gauge panel
Patent # US 9,778,079 B1 Filed 10/29/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Modulated physiological sensor
Patent # US 9,782,077 B2 Filed 08/13/2012	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Opticoustic sensor
Patent # US 9,782,110 B2 Filed 10/30/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological test credit method
Patent # US 9,787,568 B2 Filed 11/04/2013	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Body worn mobile medical patient monitor
Patent # US 9,788,735 B2 Filed 04/27/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological parameter tracking system
Patent # US 9,788,768 B2 Filed 02/26/2013	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Wearable portable patient monitor
Patent # US 9,795,300 B2 Filed 04/27/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Acoustic sensor assembly
Patent # US 9,795,358 B2 Filed 08/06/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient monitor for determining microcirculation state
Patent # US 9,795,310 B2 Filed 10/26/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Hemoglobin display and patient treatment
Patent # US 9,795,739 B2 Filed 06/16/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Method and apparatus for reducing coupling between signals in a measurement system
Patent # US 9,801,588 B2 Filed 07/14/2015	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Patient monitor for monitoring microcirculation
Patent # US 9,801,556 B2 Filed 06/22/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Robust fractional saturation determination
Patent # US 9,808,188 B1 Filed 03/08/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Sine saturation transform
Patent # US 9,814,418 B2 Filed 11/17/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Fluid titration system
Patent # US 9,820,691 B2 Filed 11/01/2011	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Optical-based physiological monitoring system
Patent # US 9,833,152 B2 Filed 11/09/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multispot monitoring for use in optical coherence tomography
Patent # US 9,833,180 B2 Filed 05/16/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological measurement system with automatic wavelength adjustment
Patent # US 9,839,381 B1 Filed 11/18/2010	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Regional oximetry pod
Patent # US 9,839,379 B2 Filed 10/06/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Modular patient monitor
Patent # US 9,847,002 B2 Filed 06/08/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Respiratory pause detector
Patent # US 9,848,800 B1 Filed 10/15/2010	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Tissue profile wellness monitor
Patent # US 9,848,807 B2 Filed 01/16/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Low power pulse oximeter
Patent # US 9,848,806 B2 Filed 06/03/2013	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Method and apparatus for calibration to reduce coupling between signals in a measurement system
Patent # US 9,861,305 B1 Filed 08/26/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Optical sensor including disposable and reusable elements
Patent # US 9,861,304 B2 Filed 08/18/2015	Current Assignee Masimo Laboratories Inc.	Sponsoring Entity Masimo Laboratories Inc.

Physiological acoustic monitoring system
Patent # US 9,867,578 B2 Filed 07/07/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Arm mountable portable patient monitor
Patent # US 9,872,623 B2 Filed 04/24/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Sensor adapter cable
Patent # US 9,876,320 B2 Filed 09/11/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

System for determining confidence in respiratory rate measurements
Patent # US 9,877,686 B2 Filed 06/26/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Pulser with double-bearing position encoder for non-invasive physiological monitoring
Patent # US 9,891,079 B2 Filed 07/17/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Disposable components for reusable physiological sensor
Patent # US 9,895,107 B2 Filed 02/19/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring hub
Patent # US 9,913,617 B2 Filed 07/19/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Apparatus and method for creating a stable optical interface
Patent # US 9,924,893 B2 Filed 08/04/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Heated reprocessing of physiological sensors
Patent # US 9,924,897 B1 Filed 06/08/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient monitor placement indicator
Patent # US 9,936,917 B2 Filed 03/13/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

System for displaying medical monitoring data
Patent # US 9,943,269 B2 Filed 10/10/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient monitor capable of monitoring the quality of attached probes and accessories
Patent # US 9,949,676 B2 Filed 08/27/2012	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Acoustic patient sensor coupler
Patent # US 9,955,937 B2 Filed 09/18/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Non-invasive physiological sensor cover
Patent # US 9,980,667 B2 Filed 02/18/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient monitoring system
Patent # US 9,986,919 B2 Filed 03/15/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Heart sound simulator
Patent # US 9,986,952 B2 Filed 03/10/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Interference detector for patient monitor
Patent # US 9,989,560 B2 Filed 06/05/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring hub
Patent # US 9,993,207 B2 Filed 07/19/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring system
Patent # US 10,007,758 B2 Filed 09/19/2013	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Regional oximetry user interface
Patent # US 10,010,276 B2 Filed 10/06/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring system
Patent # US 10,032,002 B2 Filed 10/14/2010	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

System and method for monitoring the life of a physiological sensor
Patent # US 10,039,482 B2 Filed 12/22/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Non-invasive blood pressure measurement system
Patent # US 10,052,037 B2 Filed 08/05/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multipurpose sensor port
Patent # US 10,058,275 B2 Filed 12/29/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Variable mode pulse indicator
Patent # US 10,064,562 B2 Filed 11/20/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Autonomous drug delivery system
Patent # US 10,086,138 B1 Filed 01/28/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Plethysmograph variability processor
Patent # US 10,092,200 B2 Filed 04/08/2013	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Robust alarm system
Patent # US 10,092,249 B2 Filed 03/30/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Plethysmographic respiration rate detection
Patent # US 10,098,550 B2 Filed 04/11/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological parameter system
Patent # US 10,098,591 B2 Filed 05/12/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological acoustic monitoring system
Patent # US 10,098,610 B2 Filed 06/16/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Configurable physiological measurement system
Patent # US 10,123,726 B2 Filed 12/14/2015	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Method for data reduction and calibration of an OCT-based physiological monitor
Patent # US 10,130,291 B2 Filed 05/25/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Pulse and confidence indicator displayed proximate plethysmograph
Patent # US 10,130,289 B2 Filed 04/26/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring device
Patent # D835284S1 Filed 04/28/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring device
Patent # D835282S1 Filed 04/28/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring device
Patent # D835285S1 Filed 04/28/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical monitoring device
Patent # D835283S1 Filed 04/28/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Wireless patient monitoring device
Patent # US 10,149,616 B2 Filed 02/07/2013	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Modular physiological sensors
Patent # US 10,154,815 B2 Filed 10/06/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Handheld processing device including medical applications for minimally and non invasive glucose measurements
Patent # US 10,159,412 B2 Filed 05/04/2015	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Wireless patient monitoring device
Patent # US 10,188,296 B2 Filed 08/24/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Non-invasive physiological sensor cover
Patent # US 10,188,331 B1 Filed 10/02/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Parameter upgrade system
Patent # US 10,188,348 B2 Filed 06/04/2007	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Non-invasive physiological sensor cover
Patent # US 10,194,848 B1 Filed 10/02/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Perfusion index smoother
Patent # US 10,194,847 B2 Filed 03/16/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Adaptive alarm system
Patent # RE47218E1 Filed 01/26/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Noninvasive oximetry optical sensor including disposable and reusable elements
Patent # US 10,201,298 B2 Filed 07/05/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Magnetic connector
Patent # US 10,205,272 B2 Filed 10/07/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Pogo pin connector
Patent # US 10,205,291 B2 Filed 02/05/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Alarm suspend system
Patent # RE47244E1 Filed 05/01/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Alarm suspend system
Patent # RE47249E1 Filed 05/01/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Arm mountable portable patient monitor
Patent # US 10,213,108 B2 Filed 03/03/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological measurement device
Patent # US 10,219,706 B2 Filed 10/11/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Oximeter probe off indicator defining probe off space
Patent # US 10,219,746 B2 Filed 06/20/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient-worn wireless physiological sensor
Patent # US 10,226,187 B2 Filed 08/31/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Sepsis monitor
Patent # US 10,226,576 B2 Filed 02/27/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Proximity sensor in pulse oximeter
Patent # US 10,231,670 B2 Filed 06/18/2015	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Dual-mode patient monitor
Patent # US 10,231,676 B2 Filed 09/09/2013	Current Assignee JP Morgan Chase Bank N.A.	Sponsoring Entity JP Morgan Chase Bank N.A.

Total hemoglobin screening sensor
Patent # US 10,231,657 B2 Filed 09/03/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Tissue profile wellness monitor
Patent # US 10,251,586 B2 Filed 11/15/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Noninvasive multi-parameter patient monitor
Patent # US 10,251,585 B2 Filed 04/25/2016	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Physiological parameter alarm delay
Patent # US 10,255,994 B2 Filed 02/12/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multi-stream data collection system for noninvasive measurement of blood constituents
Patent # US 10,258,266 B1 Filed 12/06/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multi-stream data collection system for noninvasive measurement of blood constituents
Patent # US 10,258,265 B1 Filed 12/06/2018	Current Assignee Cercacor Laboratories	Sponsoring Entity Masimo Corporation

Alarm suspend system
Patent # RE47353E1 Filed 05/01/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient monitor for monitoring microcirculation
Patent # US 10,271,749 B2 Filed 10/30/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Patient monitor for determining microcirculation state
Patent # US 10,271,748 B2 Filed 09/19/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Apparatus and method for creating a stable optical interface
Patent # US 10,278,626 B2 Filed 02/15/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Automated CCHD screening and detection
Patent # US 10,278,648 B2 Filed 09/28/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Avatar-incentive healthcare therapy
Patent # US 10,279,247 B2 Filed 12/15/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Ear sensor
Patent # US 10,292,657 B2 Filed 01/27/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multi-stream data collection system for noninvasive measurement of blood constituents
Patent # US 10,292,628 B1 Filed 01/29/2019	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Monitor configuration system
Patent # US 10,292,664 B2 Filed 07/29/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Robust fractional saturation determination
Patent # US 10,299,709 B2 Filed 10/26/2017	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multi-stream data collection system for noninvasive measurement of blood constituents
Patent # US 10,299,708 B1 Filed 01/29/2019	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological test credit method
Patent # US 10,305,775 B2 Filed 09/22/2017	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Patient position detection system
Patent # US 10,307,111 B2 Filed 10/10/2014	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological alarm threshold determination
Patent # US 10,325,681 B2 Filed 02/12/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Fold flex circuit for LNOP
Patent # US 10,327,337 B2 Filed 02/05/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multiple wavelength sensor emitters
Patent # US 10,327,683 B2 Filed 09/01/2017	Current Assignee Cercacor Laboratories	Sponsoring Entity Cercacor Laboratories

Modular multi-parameter patient monitoring device
Patent # US 10,327,713 B2 Filed 02/23/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Medical characterization system
Patent # US 10,332,630 B2 Filed 02/13/2012	Current Assignee Masimo Corporation	Sponsoring Entity JP Morgan Chase Bank N.A.

Physiological monitor
Patent # US 10,335,072 B2 Filed 11/14/2016	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Physiological measurement device
Patent # US 10,335,033 B2 Filed 11/21/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

Multi-stream data collection system for noninvasive measurement of blood constituents
Patent # US 10,335,068 B2 Filed 12/28/2015	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

System and method for monitoring the life of a physiological sensor
Patent # US 10,342,470 B2 Filed 07/27/2018	Current Assignee Masimo Corporation	Sponsoring Entity Masimo Corporation

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Mold tool for an optoelectronic element
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Pulse oximetry data confidence indicator
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Pulse oximetry sensor compatible with multiple pulse oximetry systems
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Low power pulse oximeter
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Stereo pulse oximeter
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Ribbon cable substrate pulse oximetry sensor
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Dual-mode pulse oximeter
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Plethysmograph pulse recognition processor
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Pulse oximeter probe-off detection system
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Shielded optical probe having an electrical connector
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Pulse oximeter monitor for expressing the urgency of the patient's condition
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Shielded optical probe and method
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Universal/upgrading pulse oximeter
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Pulse oximetry sensor adapter
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Pulse oximetry pulse indicator
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Optical spectroscopy pathlength measurement system
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Rapid non-invasive blood pressure measuring device
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Signal processing apparatus
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Method and apparatus for demodulating signals in a pulse oximetry system
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Pulse oximeter probe-off detector
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Pulse oximeter user interface
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Sensor wrap including foldable applicator
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Pulse oximetry sensor adapter
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Pulse oximeter probe-off detector
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System and method of determining whether to recalibrate a blood pressure monitor
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Resposable pulse oximetry sensor
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Manual and automatic probe calibration
Patent # US 6,397,091 B2 Filed 11/30/1999	Current Assignee The United States of America As Represented By The Secretary of Agriculture	Sponsoring Entity The United States of America As Represented By The Secretary of Agriculture

Shielded optical probe and method having a longevity indication
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Elastic sock for positioning an optical probe
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Plethysmograph pulse recognition processor
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Signal processing apparatus and method
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Signal processing apparatus and method
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Method and apparatus for demodulating signals in a pulse oximetry system
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Signal processing apparatus
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Low-noise optical probes
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Patient cable connector
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Optical filter for spectroscopic measurement and method of producing the optical filter
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Fetal pulse oximetry sensor
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Stereo pulse oximeter
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Manual and automatic probe calibration
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Rapid non-invasive blood pressure measuring device
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Signal processing apparatus and method
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Apparatus and method for measuring an induced perturbation to determine a physiological parameter
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Signal processing apparatus and method
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Signal processing apparatus
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Low noise optical probe
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Blood glucose monitoring system
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Active pulse blood constituent monitoring
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Circuit board based cable connector
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Signal processing apparatus
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Patient cable sensor switch
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Active pulse blood constituent monitoring method
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Shielded medical connector
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Exciter-detector unit for measuring physiological parameters
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Method and apparatus for demodulating signals in a pulse oximetry system
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Patient cable connector
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Optical filter for spectroscopic measurement and method of producing the optical filter
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Pulse oximeter
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Pulse oximetry sensor adapter
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Patient cable sensor switch
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Patient cable connector
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Blood glucose monitoring system
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Signal processing apparatus and method
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Manual and automatic probe calibration
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Optical filter for spectroscopic measurement and method of producing the optical filter
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Automatically activated blood pressure measurement device
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Motion insensitive pulse detector
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Apparatus and method for measuring an induced perturbation to determine a physiological parameter
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Manual and automatic probe calibration
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Apparatus and method for measuring an induced perturbation to determine a physiological parameter
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Apparatus and method for measuring an induced perturbation to determine a physical condition of the human arterial system
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Apparatus and method for measuring an induced perturbation to determine blood pressure
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Signal processing apparatus
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Low noise optical probe
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Active pulse blood constituent monitoring
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Patient cable connector
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Signal processing apparatus
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Signal processing apparatus and method
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Signal processing apparatus
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Arterial sensor
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Pulse responsive device
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Finger-cot probe
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Low noise finger cot probe
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Method and apparatus for continuously and noninvasively measuring the blood pressure of a patient
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Method and apparatus for continuously and non-invasively measuring the blood pressure of a patient
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View All

11 Claims

1. A method of reducing crosstalk between two signals generated by applying a first pulse and a second pulse to measure a parameter, wherein said first pulse and said second pulse are applied periodically at a first repetition rate defining a period, and wherein said first pulse is generated during a first interval in each period and said second pulse is generated during a second interval in each period, said first and second pulses producing first and second parametric signals responsive to said parameter, said first and second parametric signals being received by a detector which outputs a composite signal responsive to said first and second parametric signals, said method comprising:
- applying a first demodulation signal to said composite signal to generate a first demodulated output signal, said first demodulation signal comprising at least one component having at least a first amplitude and a first phase;
  
  applying a second demodulation signal to said composite signal to generate a second demodulated output signal, said second demodulation signal comprising at least one component having at least a second amplitude and a second phase;
  
  lowpass filtering said first demodulated output signal to generate a first recovered output signal responsive to said first parametric signal;
  
  lowpass filtering said second demodulated output signal to generate a second recovered output signal responsive to said second parametric signal; and
  
  choosing at least one of said first phase, said second phase, said first amplitude, and said second amplitude to reduce crosstalk components in said first recovered output signal and said second recovered output signal based at least in part on data obtained from said detector during a calibration procedure, wherein said choosing comprises;
  
  applying said first light pulse during a first time period and measuring said first recovered output during said first time period as a first calibration output and measuring said second recovered output during said first time period as a second calibration output;
  
  applying said second light pulse during a second time period and measuring said first recovered output during said first time period as a third calibration output and measuring said second recovered output during said second time period as a fourth calibration output; and
  
  computing said first demodulation signal from at least said first calibration output, said second calibration output, said third calibration output, and said fourth calibration output.
- View Dependent Claims (2)
- - 2. The method of claim 1, wherein at least a portion of said first demodulation signal is computed from a ratio of said first calibration pulse and said second calibration pulse.

3. A method of reducing crosstalk between two signals generated by applying a first pulse and a second pulse to measure a parameter, wherein said first pulse and said second pulse are applied periodically at a first repetition rate defining a period, and wherein said first pulse is generated during a first interval in each period and said second pulse is generated during a second interval in each period, said first and second pulses producing first and second parametric signals responsive to said parameter, said first and second parametric signals being received by a detector which outputs a composite signal responsive to said first and second parametric signals, said method comprising:
- applying a first demodulation signal to said composite signal to generate a first demodulated output signal, said first demodulation signal comprising at least one component having at least a first amplitude and a first phase;
  
  applying a second demodulation signal to said composite signal to generate a second demodulated output signal, said second demodulation signal comprising at least one component having at least a second amplitude and a second phase;
  
  lowpass filtering said first demodulated output signal to generate a first recovered output signal responsive to said first parametric signal;
  
  lowpass filtering said second demodulated output signal to generate a second recovered output signal responsive to said second parametric signal; and
  
  choosing at least one of said first phase, said second phase, said first amplitude, and said second amplitude to reduce crosstalk components in said first recovered output signal and said second recovered output signal based at least in part on data obtained from said detector during a calibration procedure, wherein said first demodulation signal comprises a sum of a first demodulation component having a first amplitude and a second demodulation component having a second amplitude, said second demodulation component in quadrature with said first demodulation component and wherein choosing said first phase comprises choosing said first amplitude and said second amplitude.

4. A method of reducing crosstalk between two signals generated by applying a first pulse and a second pulse to measure a parameter, wherein said first pulse and said second pulse are applied periodically at a first repetition rate defining a period, and wherein said first pulse is generated during a first interval in each period and said second pulse is generated during a second interval in each period, said first and second pulses producing first and second parametric signals responsive to said parameter, said first and second parametric signals being received by a detector which outputs a composite signal responsive to said first and second parametric signals, said method comprising:
- applying a first demodulation signal to said composite signal to generate a first demodulated output signal, said first demodulation signal comprising at least one component having at least a first amplitude and a first phase;
  
  applying a second demodulation signal to said composite signal to generate a second demodulated output signal, said second demodulation signal comprising at least one component having at least a second amplitude and a second phase;
  
  lowpass filtering said first demodulated output signal to generate a first recovered output signal responsive to said first parametric signal;
  
  lowpass filtering said second demodulated output signal to generate a second recovered output signal responsive to said second parametric signal; and
  
  choosing at least one of said first phase, said second phase, said first amplitude, and said second amplitude to reduce crosstalk components in said first recovered output signal and said second recovered output signal based at least in part on data obtained from said detector during a calibration procedure, wherein said first demodulation signal comprises a sum of a sinusoidal component having a first amplitude and a cosinusoidal component having a second amplitude, and wherein choosing said first phase comprises choosing said first amplitude and said second amplitude by using a least squares minimization of an error corresponding to said crosstalk.
- View Dependent Claims (5, 6)
- - 5. The method of claim 4, wherein said error is integrated over a time period.
  - 6. The method of claim 4, wherein said error is integrated over a time period corresponding to an integer number of cycles of said sinusoidal component.

7. A pulse oximetry system, comprising:
- a modulation signal generator, said modulation signal generator generating a first modulation signal comprising a first pulse which repeats at a first repetition frequency, said first pulse having a duty cycle, said modulation signal generator generating a second modulation signal comprising a second pulse which also repeats at said first repetition frequency, said second pulse having a duty cycle, said second pulse occurring at non-overlapping times with respect to said first pulse, said first and second pulses comprising a plurality of components wherein a first component has a frequency corresponding to said repetition frequency and a second component has a second frequency corresponding to twice said first frequency, said second component having an amplitude which has a first predetermined relationship to an amplitude of said first component;
  
  a first transmitter which emits electromagnetic energy at a first wavelength in response to said first pulse;
  
  a second transmitter which emits electromagnetic energy at a second wavelength in response to said second pulse;
  
  a detector which receives electromagnetic energy at said first and second wavelengths after passing through a portion of a subject and which generates a detector output signal responsive to the received electromagnetic energy, said detector output signal including a signal component responsive to attenuation of said electromagnetic energy at said first wavelength and a signal component responsive to attenuation of said electromagnetic energy at said second wavelength;
  
  a first demodulator which multiplies said detector signal by a first demodulation signal and generates a first demodulated output signal;
  
  a second demodulator which multiplies said detector signal by a second demodulation signal and generates a second demodulated output signal; and
  
  a configuration module to configure said first demodulation signal and said second demodulation signal to substantially diagonalize said first demodulator and said second demodulator.
- View Dependent Claims (8, 9, 10, 11)
- - 8. The pulse oximetry system of claim 7, wherein said configuration module selects a phase relationship between said first demodulation signal and said second demodulation signal.
  - 9. The pulse oximetry system of claim 7, wherein said configuration module configures said first demodulation signal and said second demodulation signal using, at least in part, data obtained during a calibration period.
  - 10. The pulse oximetry system of claim 7, wherein said configuration module configures said first demodulation signal and said second demodulation signal using, at least in part, calibration data obtained during a calibration period, said calibration data comprising first and second calibration data corresponding to said first and second demodulated output signals during a first time period and third and fourth calibration data corresponding to said first and second demodulated output signals during a second time period, said second transmitter turned off during said first time period, said first transmitter turned off during said second time period.
  - 11. The pulse oximetry system of claim 7, wherein said configuration module configures said first demodulation signal and said second demodulation signal by adjusting initial parameters that define said first demodulation signal and said second demodulation signal, said configuration module adjusting said initial parameters using, at least in part, calibration data obtained during a calibration period, said calibration data comprising first and second calibration data corresponding to said first and second demodulated output signals during a first time period and third and fourth calibration data corresponding to said first and second demodulated output signals during a second time period, said second transmitter turned off during said first time period, said first transmitter turned off during said second time period.

1 Specification

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to the field of signal processing, and, more particularly, relates to multi-channel demodulators for demodulating mixed signals, such as, for example, signals generated in a pulse oximetry system.

2. Description of the Related Art

In many multi-channel measurement and communication systems, crosstalk between channels and corruption of data within the channels are significant problems. Such problems can arise from variations in manufacturing tolerances, movement, propagation delays, phase shifts, temperature effects, degradation of components due to age or other factors, noise, etc.

A pulse oximetry system is one example of a system where the above-referenced problems are found. In a pulse oximetry system, blood oxygen saturation is determined by transmitting pulses of electromagnetic energy through a portion of a subject having blood flowing therein (e.g., through a finger, through an ear lobe, or other portion of the body where blood flows close to the skin). The pulses of electromagnetic energy comprise periodic pulses of red light having wavelengths of approximately 660 nanometers, for example, and periodic pulses of infrared light having wavelengths of approximately 905 nanometers.

After propagating through the portion of the subject, the red pulses and the infrared pulses are detected by a detector which is responsive to light at both wavelengths and which generates an electrical signal that has a relationship to the intensity of the electromagnetic energy incident on the detector. The detector output is a two-channel signal having a first signal component corresponding to the detected red pulses and a second signal component corresponding to the detected infrared pulses.

The two-channel signal is demodulated to recover separate signals corresponding to the first signal component and the second signal component. However, prior art demodulators are not sufficiently accurate enough to completely separate the two signal components in all cases. Thus, it is not uncommon for the first demodulator output signal (corresponding to the first signal component) to contain residual components of the second signal and vice versa. This crosstalk between the first and second signal components reduces the accuracy of the recovered first and second signals. In multi-channel systems with more than two channels, crosstalk can occur between all of the channels, again reducing accuracy.

SUMMARY OF THE INVENTION

The present invention solves these and other problems by separating a combined multi-channel signal into a plurality of output signals in a manner that reduces crosstalk and other contamination in the plurality of output signals. In one embodiment, the separator includes a multi-channel demodulator that is first configured using nominal values for the various components in the signal path. In one embodiment, the multi-channel demodulator is further configured using data obtained from calibration measurements. In one embodiment, the calibration measurements are made during an initialization period. In one embodiment, the calibration measurements are made frequently, continuously, or at selected intervals. In one embodiment, calibrations are performed on at least one of, initialization, on command, on attachment of a new sensor, continuously, and/or interspersed with measurements. In one embodiment of a system for measuring one or more blood constituents, the calibration measurements are made when the system detects that a patient has been connected to the system. In one embodiment, the multi-channel demodulator is further configured at regular intervals by re-running the calibration measurements. In one embodiment, the multi-channel demodulator comprises an optimizing demodulator. In one embodiment, crosstalk in the multi-channel demodulator is reduced by computing an amplitude and/or phase adjustment of one or more demodulation signals that are provided respectively to one or more mixers.

In one embodiment, an apparatus for measuring blood oxygenation in a subject includes a first signal source which applies a first input signal during a first time interval. A second signal source applies a second input signal during a second time interval. A detector detects a first parametric signal responsive to the first input signal passing through a portion of the subject having blood therein and detects a second parametric signal responsive to the second input signal passing through the portion of the subject. The detector generates a detector output signal responsive to the first and second parametric signals. A signal processor receives the detector output signal and demodulates the detector output signal by applying a first demodulation signal to a signal responsive to the detector output signal to generate a first demodulator output signal and applying a second demodulation signal to the signal responsive to the detector output signal to generate a second demodulator output signal. In one embodiment, the first demodulation signal has at least one component comprising a first frequency, a first phase, and a first amplitude; and the second demodulation signal has at least one component comprising a second frequency, a second phase, and a second amplitude. In one embodiment, the first phase and the second phase are chosen to reduce crosstalk from the first parametric signal to the second demodulator output signal and to reduce crosstalk from the second parametric signal to the first demodulator output signal. In one embodiment, the first amplitude and the second amplitude are chosen to reduce crosstalk from the first parametric signal to the second demodulator output signal and to reduce crosstalk from the second parametric signal to the first demodulator output signal. In one embodiment, at least one of the first amplitude, the first phase, the second amplitude, and the second phase are chosen to reduce crosstalk from the first parametric signal to the second demodulator output signal and to reduce crosstalk from the second parametric signal to the first demodulator output signal.

In one embodiment, at least one of the first amplitude, the first phase, the second amplitude, and the second phase is determined by turning off one of the first and second signal sources and measuring the crosstalk between one of the parametric signals and the non-corresponding output signal.

One embodiment includes a method of reducing crosstalk between two signals generated by applying a first pulse and a second pulse to measure a parameter. The first pulse and the second pulse are applied periodically at a repetition rate defining a period. The first pulse is generated during a first interval in each period and the second pulse is generated during a second interval in each period. In one embodiment, the second interval is spaced apart from the first interval. In one embodiment, the second interval overlaps at least a portion of the first interval. The first and second pulses produce first and second parametric signals responsive to the parameter. The first and second parametric signals are received by a detector which outputs a composite signal responsive to the first and second parametric signals. The method includes applying a first demodulation signal to the composite signal to generate a first demodulated output signal. The first demodulation signal includes at least one component having at least a first amplitude and a first phase. The method further includes applying a second demodulation signal to the composite signal to generate a second demodulated output signal. The second demodulation signal includes at least one component having at least a second amplitude and a second phase. The method further includes lowpass filtering the first demodulated output signal to generate a first recovered output signal responsive to the first parametric signal, and lowpass filtering the second demodulated output signal to generate a second recovered output signal responsive to the second parametric signal. The method also includes choosing at least one of the first phase, the first amplitude, the second phase, and the second amplitude to reduce crosstalk components in the first recovered output signal and the second recovered output signal. In one embodiment, the method also includes choosing the first phase and/or the second phase to reduce crosstalk components in the first recovered output signal and the second recovered output signal.

In one embodiment, the first phase and the second phase are chosen by applying a first light pulse pattern during a first time period and measuring the first recovered output during the first time period as a first calibration output, and measuring the second recovered output during the first time period as a second calibration output. The method includes applying a second light pulse pattern during a second time period and measuring the first recovered output during the first time period as a third calibration output and measuring the second recovered output during the second time period as a fourth calibration output. The method farther includes computing the first phase and the second phase from at least the first calibration output, the second calibration output, the third calibration output, and the fourth calibration output.

In one embodiment the first phase is computed from a ratio of the first calibration output and the second calibration output.

In one embodiment, the first demodulation signal includes a sum of a first demodulation component having a first amplitude and a second demodulation component having a second amplitude. The second demodulation component is in quadrature with the first demodulation component and the act of choosing the first phase involves choosing the first amplitude and the second amplitude. In one embodiment the quadrature components are sinusoidal and cosinusoidal.

In one embodiment, the first demodulation signal includes a sum of a sinusoidal component having a first amplitude and a cosinusoidal component having a second amplitude. The first amplitude and the second amplitude are chosen by a least squares minimization of an error corresponding to the crosstalk. In one embodiment, the error is integrated over a time period corresponding to an integer number of cycles of the sinusoidal component.

In one embodiment, a first demodulation signal is applied to a composite signal having first and second coefficients to generate a first demodulated signal. The first demodulation signal includes a first component having a first amplitude and a second component having a second amplitude. The first and second components being in quadrature. The second amplitude has a predetermined relationship to the first amplitude. The predetermined relationship is selected to cause the first demodulated signal to have lower frequency components that include a primary component corresponding primarily to the first desired component and a residual component corresponding to the second component. The first demodulated signal is lowpass filtered to generate a first output signal. At least one of the first amplitude and the second amplitude are adjusted to reduce the residual component with respect to the primary component.

In one embodiment, a pulse oximetry system includes a modulation signal generator. The modulation signal generator generates a first modulation signal including a first pulse at a repetition frequency having a first duty cycle. The modulation signal generator generates a second modulation signal including a second pulse which also repeats at the repetition frequency and having a second duty cycle. The second pulse can be non-overlapping with respect to the first pulse, or the second pulse can partially or completely overlap the first pulse. The first and second pulses include a plurality of components wherein a first component has a frequency corresponding to the repetition frequency and a second component has a second frequency corresponding to twice the first frequency. A first transmitter emits electromagnetic energy at a first wavelength in response to the first pulse. A second transmitter emits electromagnetic energy at a second wavelength in response to the second pulse. A detector receives electromagnetic energy at the first and second wavelengths after passing through a portion of a subject. The detector generates a detector output signal responsive to the received electromagnetic energy. The detector output signal includes a signal component responsive to attenuation of the electromagnetic energy at the first wavelength and a signal component responsive to attenuation of the electromagnetic energy at the second wavelength. A first demodulator multiplies the detector signal by a first demodulation signal and generates a first demodulated output signal. A second demodulator multiplies the detector signal by a second demodulation signal and generates a second demodulated output signal. A configuration module configures the first demodulation signal and the second demodulation signal to substantially separate the first demodulator output and the second demodulator output.

In one embodiment, the configuration module selects a phase relationship between the first demodulation signal and the second demodulation signal.

In one embodiment, the configuration module configures the first demodulation signal and the second demodulation signal using, at least in part, data obtained during a calibration period. In one embodiment, the calibration data includes first and second calibration data corresponding to the first and second demodulated output signals during a first time period, and third and fourth calibration data corresponding to the first and second demodulated output signals during a second time period. In one embodiment, the second transmitter is turned off during the first time period, and the first transmitter is turned off during the second time period.

In one embodiment, the configuration module configures the first demodulation signal and the second demodulation signal by adjusting initial parameters that define the first demodulation signal and the second demodulation signal. The configuration module adjusts the initial parameters using, at least in part, the calibration data obtained during a calibration period.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention will be described below in connection with the accompanying figures.

FIG. 1 is a block diagram of a multi-channel processing system that uses feedback from one or more outputs to configure the operation of a signal separator that separates a composite signal into a plurality of output signals.

FIG. 2 is a block diagram of a two-channel signal processing system to determine blood oxygen saturation in a subject, wherein illumination is provided by back-to-back Light-Emitting Diodes (LEDs).

FIG. 3 is a block diagram of a multi-channel signal processing system to determine blood constituents (e.g., oxygen saturation) in a subject, wherein illumination is provided by N diodes or illumination sources.

FIG. 4 is a block diagram of a specific embodiment of the multi-channel processing system of FIG. 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

FIG. 1 shows a topology of a multi-channel measurement or communication system 100. The system 100 has a signal combiner 103 for combining one or more input signals S₁. . . S_Ninto a composite signal and a signal separator 104 for separating the composite signal into one or more output signals Ŝ₁. . . Ŝ_MThe output signals Ŝ₁. . . Ŝ_Mcan include estimates of the input signals S₁. . . S_N. The input signals S₁. . . S_Nare corrupted by pre-combination distortion 101–102 respectively, and, optionally, by combination distortion in the signal combiner 103. The combiner 103 combines the N input signals into a composite signal (or composite signals). The combiner 401 can combine signals by addition, subtraction, multiplication, division, modulation, non-linear processes, linear processes, estimation, combinations thereof, etc. The composite signal is provided through a communication channel to the separator 104. The composite signal is distorted by communication channel distortion 110. The separator 104 separates the composite signal into M output signals, where M can be less than N, greater than N, or equal to N. In one embodiment, the separator also provides one or more additional output signals {circumflex over (n)}₀. . . {circumflex over (n)}_Kcorresponding to estimates of other signals, such as, for example, noise signals, error signals, etc.

Due to errors in the system 100, the output signals Ŝ₁. . . Ŝ_Mare typically not exact copies of the input signals, but rather are estimates of the input signals. The accuracy of these estimates is a measure of system performance. The pre-combination distortion 101–102, the combiner distortion, and/or the channel distortion 110 tend to introduce crosstalk between the channels and thereby corrupt the output signals. The pre-combination distortion 101–102, combiner distortion, and the channel distortion 110 can be caused by variations in manufacturing tolerances, delay, movement, temperature effects, degradation of components due to age or other factors, noise, etc.

A module 105 is provided to configure the separator 104 to improve the quality of the separation function and thereby improve the quality of the output signals. One or more of the output signals from the separator are provided to the module 105 to provide feedback regarding the quality of the output signals and/or feedback regarding the operation of the separator 104. The module 105 uses feedback from one or more of the output signals Ŝ₁. . . Ŝ_M(and, optionally, the output signals {circumflex over (n)}₀. . . {circumflex over (n)}_K) to monitor the quality of the separation function and to provide control information to control the operation of the separator. In one embodiment, the module 105 is configured by using configuration data obtained from the combiner 103. Such configuration data can be obtained by calibration procedures that test the operation of the combiner 103 before or during system use.

In one embodiment, the module 105 configures demodulators in the signal separator 104 using, at least in part, calibration data obtained during a calibration period. For example, in one embodiment involving a two channel system, the calibration data includes first and second calibration data corresponding to the first and second output signals during a first time period, and third and fourth calibration data corresponding to the first and second demodulated output signals during a second time period. In one embodiment, the second transmitter is turned off during the first time period, and the first transmitter is turned off during the second time period. In one embodiment, the module 105 configures the first demodulation signal and the second demodulation signal by adjusting initial parameters that define the first demodulation signal and the second demodulation signal. The configuration module adjusts the initial parameters using, at least in part, the calibration data obtained during a calibration period.

FIG. 2 is a block diagram of a two-channel signal processing system 200 that fits the general topology shown in FIG. 1. The system 200 is configured to determine one or more blood constituents in a subject, such as, for example, a human subject. In the example presented, the measurements are performed on a portion of the subject, such as a finger 202 illustrated in FIG. 2A. An LED modulation circuit 204 drives a pair of back-to-back light emitting diodes (LEDs) 206, 208 by applying a periodic signal to the two light emitting diodes 206, 208. Light from the diodes 206, 208 passes through the finger 202 and is detected by a detector 250. An output from the detector 250 is provided to a signal processing block 270. A control output from the signal processing block 270 is provided to the LED modulation circuit 204. The signal processing block 270 also provides outputs Ŝ₁and Ŝ₂corresponding to the light detected from the diodes 206, 208, and, optionally, output signals {circumflex over (n)}₀. . . {circumflex over (n)}_Kcorresponding to estimates of noise or other signals.

In one embodiment, the LED 206 is selected to emit electromagnetic energy in the red visible light range, and has a wavelength of, for example, approximately 660 nanometers. The LED 208 is selected to emit electromagnetic energy in the infrared range, and has a wavelength of, for example, approximately 905 nanometers. The LED modulation circuit 204 supplies current to activate the LEDs 206 and 208. Each LED is activated for a time period r which can be different for the different LEDs. The pulses from the LEDs 206 and 208 repeat with a periodicity T.

FIG. 3 is a block diagram of a multi-channel signal processing system 300 that also fits the topology shown in FIG. 1. Like the system 200, the system 300 is configured to determine blood oxygen saturation or other blood constituents in a subject, such as, for example, a human subject. In FIG. 3, an LED modulation circuit 314 drives N diodes, where N is two or greater, thus allowing greater flexibility than the system 200. In FIG. 3, the diodes 206 and 208 are shown, along with an N'"'"'th diode 309, it being understood that the diode 309 is omitted if N=2. The LED modulation circuit 314 is configured to allow the diodes 206, 208, and 309 to be driven independently such that the diodes can be driven at separate times or in overlapping time periods if desired. Light from the diodes 206, 208, 309 passes through the finger 202 and is detected by the detector 250. The output from the detector 250 is provided to a signal processing block 371. A control output from the signal processing block 371 is provided to the LED modulation circuit 314. The signal processing block 371 also provides outputs S₁through S_M, where M is greater than or equal to one, but need not be equal to N.

FIG. 4 shows one embodiment of an adjustable multi-channel modulator/demodulator system 400. The system 400 is based on the topology of the system 100 and can be used in a system for measuring blood constituents (e.g., pulse oximetry, carboxyhemoglobin, etc.) as shown in FIGS. 2 and 3. In the system 400, an input S₁(t) and a modulation input M₁(t) are provided to a first modulator 491. A signal input S_N(t) and a modulation input M_N(t) are provided to an N^thmodulator 402.

The photodetector 250 is modeled as an adder 405. The outputs of the modulators 491 and 402 are added together in the adder 405, in the presence of noise n(t) to generate a composite signal M(t) where:
S(t)=S₁(t)M₁(t)+ . . . +S_N(t)M_N(t)+n(t) (1)

The S(t) signal output of the adder 405 (i.e., the output of the detector 250) is applied to the input of a signal-processing block 410. Within the signal-processing block 410, the signal S(t) is passed through an amplifier 497 and through an analog bandpass filter 498. The analog bandpass filter 498 provides anti-aliasing and removal of low frequency noise and DC. The desired signal components in the signals S_i(t) are frequency shifted by the operation of the modulation signals M_i(t) and are passed by the analog bandpass filter 498.

The output of the analog bandpass filter 498 is sampled by an analog-to-digital converter 499 and converted therein to digital signals and provided to an input of an optional decimation block 420.

The filtered (and, optionally, decimated) signal S(t) is sampled to produce a sampled-data signal S(k) that is provided to the first input of the first mixer 424, to the first input of the N'"'"'th mixer 412, and to the first input of a noise channel mixer 413. A first demodulating signal D₁(k) is provided to a second input of a first mixer 424 from a signal generator 431. The N^thdemodulating signal D_N(k) is provided to an N^thmixer 412 from an output of a signal generator 432. The noise demodulating signal D₀(k) is provided to the noise channel mixer 413 from an output of a signal generator 441. A control input to each of the signal generators 431, 432, and 441 is provided by the output of the adjuster algorithm 450. In yet another embodiment, the adjuster algorithm 450 may also be controlled by other signal processing elements downstream of the signal processor 400.

The outputs of the mixers 413, 424, and 412 are provided as respective inputs to decimation blocks 440, 430, and 434 respectively. Each of the decimation blocks 440, 430, and 434 has a control input provided by the output of the adjuster algorithm block 450. The output of the decimation block 440 is an estimate of the signal n(t) and it is provided to an input of the adjuster algorithm block 450. In an alternate embodiment, the signal estimates Ŝ_i(k) are also provided to the adjuster algorithm block 450.

An output of the decimator 430 is a signal Ŝ₁(k), which, as discussed above, is an estimate of the signal S₁(k) (where S₁(k) corresponds to a sampled-data representation of S₁(t)). Likewise, the output of the decimation block 434 is an estimate of the signal S_N(t). As shown above, the selection of the demodulating signals D_i(t) for i=0 . . . N in accordance with the present invention substantially reduces or eliminates the effects of noise in the output signals Ŝ_i(k) and n(k), and also substantially reduces or eliminates crosstalk between the signals.

When the system 400 is used in connection with a blood constituent measurement system as shown in FIGS. 2 and 3 the red LED 206 provides a light intensity represented as I_RD, and the infrared LED 208 provides a light intensity represented as I_IR. The effects of turning the LEDs 206, 208 on and off on a periodic bases are modeled by the first multiplier or modulator 290 which applies a first modulation signal M₁(t) to the red light intensity to generate a modulated red signal I_RDMOD(t) and by a second multiplier the modulator 292 which applies a second modulation signal M₂(t) to the infrared light intensity to generate a modulated infrared signal I_IRMOD(t). The modulated light red signal and the modulated infrared signal are applied to the finger 202, or other body portion, as described above. The blood in the finger 202 has a volume and scattering components, which vary throughout each cardiac cycle. The blood carries oxygen and other materials therein. The oxygen content is a function of both the blood volume and the concentration of the oxygen in the blood volume. The concentration of the oxygen in the blood volume is generally measured as blood oxygen saturation for reasons which are described in full in U.S. Pat. Nos. 5,482,036 and 5,490,505, both of which are hereby incorporated by reference in their entirety. As further described in the two referenced patents, the blood oxygen saturation is determined by comparing the relative absorption of the red light and the infrared light in the finger 202. The comparison is complicated by the noise caused by movement, ambient light, light scattering, and other factors. The signals S₁(t) and S₂(t) represent the effect of the time-varying volume and scattering components of the blood in the finger 202 on the red light and the infrared light, respectively, passing through the finger 202 from the LEDs 206, 208 to the detector 250.

As shown in FIG. 4, a set of N+1 signals S_i[k]i=1 . . . N, and n(k) are sampled at a desired sample rate. The signals are combined according to the formula:
S(k)=M₁(k)S₁(k)+ . . . +M_N(k)S_N(k)+n(k) (2)

In one embodiment, each of the decimators 420, 440, 430, and 434 includes a digital lowpass filter and a sample rate compressor. In one embodiment, the characteristics of the digital lowpass filters (e.g., the number of filter coefficients and values of the filter coefficients) and the sample rate compression factor of each decimator are fixed. In one embodiment, the characteristics of the digital lowpass filters (e.g., the number of filter coefficients or values of the filter coefficients) and the sample rate compression factor of each decimator are provided by the adjustment algorithm 450. The signal generators 431, 432 and 441 generate the demodulation sequences for the demodulators 424, 412, and 413 respectively. The demodulation sequences produced by the signal generators 431, 432 and 441 are controlled by the adjuster algorithm 450.

In one embodiment, the adjuster algorithm 450 adjusts the pre-demodulation decimation rate R₁(in the demodulator 420), and the post-demodulation decimation rate R₂(in the demodulators 430, 434 and 440) according to the noise in the noise estimate {circumflex over (n)}(k) and (optionally) according to the signals Ŝ_i(k). The product R₁R₂is the total decimation rate from the signal S(k) at the output of the A/D converter 499 to the signals Ŝ_i(k) at the output of the signal processing block 400. The adjuster algorithm may adjust R₁and R₂such that the product R₁R₂varies, or the adjuster algorithm may adjust R₁and R₂such that the product R₁R₂is substantially constant. Typically, the adjuster algorithm will keep the R₁R₂product constant so that the signal processing blocks downstream of the signal processor 400 will operate at a substantially constant sample rate.

In one embodiment, the adjuster algorithm 450 adjusts the demodulation signals D_i(k) to reduce or eliminate crosstalk. In one embodiment, the adjuster algorithm 450 reduces crosstalk by configuring the demodulators, as discussed in more detail below.

One skilled in the art will recognize that the lowpass filters provided in connection with the decimation blocks can provide other filter functions in addition to lowpass filtering. Thus, for example, the lowpass filters 420, 430, 440, and 450, and the decimators 420, 430, 434, and 440 can provide other filter functions (in addition to lowpass filtering) such as, for example, bandpass filtering, bandstop filtering, etc. Moreover, the post-demodulation decimation rate R₂need not be the same for each output channel. Thus, for example, in FIG. 4, the decimator 440 can have a first decimation rate R₂=r₁while the decimators 430 and 434 have a second decimation rate R₂=r₂.

The demodulators above are described in terms of digital signal processing on sampled data. Thus, the demodulator signals are written D_i(k). The demodulators and the filtering associated with the demodulators can be done in using analog processing (using time-domain demodulator signals D_i(t)) or on sampled data signals (using digital-domain demodulator signals D_i(k)). For convenience, the following development describes the demodulator signals primarily in the time domain, with the understanding that the modulators can be implemented using digital signal processing or analog processing.

The characteristics of the demodulation signals D₁(t) and D₂(t) affect how much crosstalk is seen in the output signals. In an diagonal system, that is, when the demodulator has been diagonalized, there is, ideally, no crosstalk. The first output signal Ŝ₁(t) is an estimate (or approximation) to the signal S₁(t). Similarly, the second output signal Ŝ₂(t) is an estimate (or approximation) to the signal S₂(t). When the composite signal S(t) is a linear combination of the signals S_i(t), then the relationship between the signals S_i(t) and the signals Ŝ_i(t). When M₁=cos ωt, M₂=sin ωt, n(t)=0, and there is no distortion (e.g., no pre-combination, combiner, or channel distortion) then:
S(t)=S₁(t)cos ωt+S₂(t)sin ωt (3)
Then:
Ŝ₁(t)=LP[D₁(t)S(t)] (4)
Ŝ₂(t)=LP[D₂(t)S(t)] (5)
If:
D₁(t)=2 cos ωt (6)
D₂(t)=2 sin ωt (7)
then $\begin{matrix} \begin{matrix} D_{1} (t) S (t) = 2 S_{1} (t) \cos^{2} ω t + 2 S_{2} (t) \sin ω t \cos ω t \\ = S_{1} (t) - S_{1} (t) \cos 2 ω t + S_{2} (t) \sin 2 ω t \end{matrix} & (8) \end{matrix}$

After lowpass filtering to remove the terms with a frequency of 2ωt and higher
Ŝ₁(t)=S₁(t) (9)

Similarly for
Ŝ₂(t)=LP[D₂(t)S(t)] (10)

- then $\begin{matrix} \begin{matrix} D_{2} (t) S (t) = 2 S_{1} (t) \sin ω t \cos ω t + 2 S_{2} (t) \sin^{2} ω t \\ = S_{2} (t) - S_{2} (t) \cos 2 ω t + S_{1} (t) \sin 2 ω t \end{matrix} & (11) \end{matrix}$

After lowpass filtering to remove the terms with a frequency of 2ωt
Ŝ₁(t)=S₂(t) (12)

In the above analysis, it was assumed that there are no time delays or phase shifts in the signal S(t), and thus, configuration is relatively straightforward

When an unknown delay (or phase error) is introduced, then the signals are no longer diagonal. Consider, for example, the situation when a delay Δ is introduced into the composite signal. Then:
S(t)=cos ω(t−Δ)S₁(t−Δ)+sin ω(t−Δ)S₂(t−Δ)
It then follows that: ${\hat{S}}_{1} (t) = LP [2 \cos ω t (\cos ω (t - Δ) S_{1} (t - Δ) + \sin ω (t - Δ) S_{2} (t - Δ))] = LP [2 \cos ω t (\cos ω t \cos ω Δ + \sin ω t \sin ω Δ) S_{1} (t - Δ)] + LP [2 \cos ω t (\sin ω t \cos ω Δ - \cos ω t \sin ω Δ) S_{2} (t - Δ)] = \cos ω Δ S_{1} (t - Δ) - \sin ω Δ S_{2} (t - Δ)$

The above equations can be expressed in matrix form as: $\begin{matrix} [\begin{matrix} {\hat{S}}_{1} (t) \\ {\hat{S}}_{2} (t) \end{matrix}] = [\begin{matrix} \cos ω Δ & - \sin ω Δ \\ \sin ω Δ & \cos ω Δ \end{matrix}] [\begin{matrix} S_{1} (t - Δ) \\ S_{2} (t - Δ) \end{matrix}] Then & (13) \\ [\begin{matrix} S_{1} (t - Δ) \\ S_{2} (t - Δ) \end{matrix}] = [\begin{matrix} \cos ω Δ & \sin ω Δ \\ - \sin ω Δ & \cos ω Δ \end{matrix}] [\begin{matrix} {\hat{S}}_{1} (t) \\ {\hat{S}}_{2} (t) \end{matrix}] & (14) \end{matrix}$

The above equation can be expressed as $\begin{matrix} \begin{matrix} [\begin{matrix} S_{1} (t - Δ) \\ S_{2} (t - Δ) \end{matrix}] = [\begin{matrix} \cos ω Δ & \sin ω Δ \\ - \sin ω Δ & \cos ω Δ \end{matrix}] \cdot LP [\begin{matrix} D_{1} (t) S (t) \\ D_{2} (t) S (t) \end{matrix}] \\ = LP [[\begin{matrix} \cos ω Δ & \sin ω Δ \\ - \sin ω Δ & \cos ω Δ \end{matrix}] [\begin{matrix} D_{1} (t) \\ D_{2} (t) \end{matrix}] S (t)] \\ = LP [[\begin{matrix} D_{1} (t) \\ {\overline{D}}_{2} (t) \end{matrix}] S (t)] \end{matrix} where \begin{matrix} {\overline{D}}_{1} (t) = \cos ω D_{1} (t) + \sin ω Δ D_{2} (t) \\ = 2 \cos ω Δ \cos ω t + 2 \sin ω Δ \sin ω t \end{matrix} & (15) \end{matrix}$
and similarly for {overscore (D)}₂(t). Thus the modified demodulation functions {overscore (D)}₁(t) and {overscore (D)}₂(t) can be expressed as a linear combination of basis functions. If the time delay Δ can be predicted, then the demodulator functions can be calculated and programmed into the communication system. However, in many cases the time delay Δ is not known or changes over time. As described below, the demodulator functions can be determined by system calibration procedures.

When an unknown phase shift (or phase error) is introduced, then there may be crosstalk in the system. Consider, for example, the situation when a phase error φ₁occurs in the signal S₁(t) and a phase error φ₂occurs in the signal S₂(t). The phase errors can be caused by intrinsic properties of the components, intrinsic properties of the system, component variations, time delays, etc. In the presence of the phase errors: $\begin{matrix} D_{1} (t) S (t) = 2 A_{1} S_{1} (t) \sin (ω t + ϕ_{1}) \sin ω t + 2 A_{2} S_{2} (t) \cos (ω t + ϕ_{2}) \sin ω t = 2 A_{1} S_{1} (t) \sin ω t [\sin ω t \cos ϕ_{1} + \cos ω t \sin ϕ_{1}] + 2 A_{2} S_{2} (t) \sin ω t [\cos ω t \cos ϕ_{2} + \sin ω t \sin ϕ_{2}] = A_{1} S_{1} (t) \cos ϕ_{1} - A_{1} S_{1} (t) \cos ϕ_{1} \cos 2 ω t + A_{1} S_{1} (t) \sin ϕ_{1} \sin 2 ω t + A_{2} S_{2} (t) \cos ϕ_{2} \sin 2 ω t - A_{2} S_{2} (t) \sin ϕ_{2} + A_{2} S_{2} (t) \sin ϕ_{2} \cos 2 ω t & (16) \end{matrix}$

Thus, after lowpass filtering
Ŝ₁(t)=A₁S₁(t)cos φ₁−A₂S₂(t)sin φ₂ (17)

The above equation shows crosstalk because Ŝ₁(t) depends in part on components of S₂(t) when A₂≠0 and φ₂≠nπ where n=0,±1,±2 . . . .

Similarly,
Ŝ₂(t)=A₁S₁(t)sin φ₁+A₂S₂(t)cos φ₂ (18)

The above equations can be expressed in matrix form as: $\begin{matrix} [\begin{matrix} {\hat{S}}_{1} (t) \\ {\hat{S}}_{2} (t) \end{matrix}] = [\begin{matrix} A_{1} \cos ϕ_{1} & - A_{2} \sin ϕ_{2} \\ A_{1} \sin ϕ_{1} & A_{2} \cos ϕ_{2} \end{matrix}] [\begin{matrix} S_{1} (t) \\ S_{2} (t) \end{matrix}] & (19) \end{matrix}$

After inversion $\begin{matrix} [\begin{matrix} S_{1} (t) \\ S_{2} (t) \end{matrix}] = \frac{1}{\cos (ϕ_{1} - ϕ_{2})} [\begin{matrix} \frac{\cos ϕ_{2}}{A_{1}} & \frac{\sin ϕ_{1}}{A_{1}} \\ - \frac{\sin ϕ_{2}}{A_{2}} & \frac{\cos ϕ_{1}}{A_{2}} \end{matrix}] [\begin{matrix} {\hat{S}}_{1} (t) \\ {\hat{S}}_{2} (t) \end{matrix}] & (20) \\ [\begin{matrix} S_{1} (t) \\ S_{2} (t) \end{matrix}] = \frac{1}{\cos (ϕ_{1} - ϕ_{2})} [\begin{matrix} \frac{\cos ϕ_{2}}{A_{1}} & \frac{\sin ϕ_{1}}{A_{1}} \\ - \frac{\sin ϕ_{2}}{A_{2}} & \frac{\cos ϕ_{1}}{A_{2}} \end{matrix}] [\begin{matrix} D_{1} (t) \\ D_{2} (t) \end{matrix}] S (t) Then & (21) \\ [\begin{matrix} S_{1} (t) \\ S_{2} (t) \end{matrix}] = [\begin{matrix} {\overline{D}}_{1} (t) \\ {\overline{D}}_{2} (t) \end{matrix}] S (t) & (22) \end{matrix}$

Where {overscore (D)}_i(t) are modified demodulation functions, given by: $\begin{matrix} [\begin{matrix} {\overline{D}}_{1} (t) \\ {\overline{D}}_{2} (t) \end{matrix}] = \frac{1}{\cos (ϕ_{1} - ϕ_{2})} [\begin{matrix} \frac{\cos ϕ_{2} \sin ω t + \sin ϕ_{1} \cos ω t}{A_{1}} \\ \frac{- \sin ϕ_{2} \sin ω t + \cos ϕ_{1} \cos ω t}{A_{2}} \end{matrix}] & (23) \end{matrix}$

The modified demodulation functions have the form $\begin{matrix} {\overline{D}}_{i} (t) = \sum_{j = 1}^{N} α_{j} Φ_{j} (t) & (24) \end{matrix}$

Choosing the coefficients α_jto eliminate crosstalk configures the modulator.

In one embodiment, the coefficients α_jcan be fixed coefficients computed using known properties of the system. However, as system properties change over time, such fixed coefficients may lead to unacceptably high levels of crosstalk. Moreover, variations from device to device may cause the fixed coefficients to give unacceptably high levels of crosstalk.

Higher performance (that is, lower crosstalk) can be obtained by computing the coefficients as part of a system calibration or initialization procedure. Such calibration can be performed during system startup (e.g., when the system is turned on, or when the system begins processing data, etc.) and/or at regular intervals. In one embodiment, the adjuster algorithm 450 computes the coefficients α_jfrom the calibration data. In one embodiment, the coefficients α_jare chosen by making four calibration-type measurements to measure four parameters ξ₁₁, ξ₁₂, ξ₂₁, and ξ₂₂, where:
ξ₁₁=Ŝ₁|_S₁_{=A, S}₂₌₀=Aa₁cos φ₁ (25)
ξ₁₂=Ŝ₁|_S₁_{=0, S}₂_=B=−Ba₂sin φ₂ (26)
ξ₂₁=Ŝ₂|_S₁_{=A, S}₂₌₀=Aa₁sin φ₁ (27)
ξ₂₂=Ŝ_{2 S}₁_{=0, S}₂_=B=Ba₂cos φ₂ (28)
where A and B are amplitudes. Then $\begin{matrix} a_{1} = \frac{\sqrt{ξ_{11}^{2} + ξ_{21}^{2}}}{A} & (29) \\ a_{2} = \frac{\sqrt{ξ_{12}^{2} + ξ_{22}^{2}}}{B} & (30) \\ \tan ϕ_{1} = \frac{ξ_{21}}{ξ_{11}} & (31) \\ \tan ϕ_{2} = - \frac{ξ_{12}}{ξ_{22}} & (32) \end{matrix}$

From the above equations, it is evident that crosstalk depends only on φ₁and φ₂. Moreover, φ₁and φ₂can be chosen to eliminate crosstalk without knowing A or B. This is useful for systems such as pulse oximetry systems where absolute measurements of a channel are difficult or impractical, but where relative measurements (e.g., channel-to-channel measurements) are practical.

The demodulation signals D_i(t) can be generated using the values of φ₁and φ₂from the above equations. Alternatively, the demodulation signals D_i(t) can be generated from quadrature components as:
D₁(t)=b₁₁sin ωt+b₁₂cos φt (33)
D₂(t)=b₂₁sin ωt+b₂₂cos φt (34)
where the coefficients b_ijare computed from φ₁and φ₂.

In one embodiment, the demodulation functions are adapted from baseline coefficients, which are then improved through a calibration or initialization procedure to produce actual coefficients. The baseline coefficients are typically obtained from known properties of the system. The actual coefficients are usually relatively close in value to the baseline coefficients. This provides one way to assess the operational status of the system and to evaluate the calibration procedure. In one embodiment, if the actual coefficients are too different from the baseline parameters then it is assumed that the calibration procedure failed in some manner or that the equipment has failed in some manner, and appropriate measures can be taken (e.g., alert the operator, sound a warning, etc.)

To find the actual coefficients, the demodulation functions are initially given by:
D₁(t)=α₁₁sin ωt+α₁₂cos φt (35)
D₂(t)=α₂₁sin ωt+α₂₂cos φt (36)

Where the coefficients α_ijare the baseline coefficients determined from known or assumed properties of the signal S(t). For example, in one embodiment α_ij=δ_ij. In one embodiment, where initial estimates are available for φ₁and φ₂, then the values of α_ijcan be computed as discussed above.

The crosstalk reduction obtained using demodulation functions based on the coefficients α_ijcan often be improved by computing new coefficients {overscore (α)}_ijand corresponding new demodulation functions {overscore (D)}_i(t) where:
{overscore (D)}₁(t)={overscore (α)}₁₁sin ωt+{overscore (α)}₁₂cos φt (37)
{overscore (D)}₂(t)={overscore (α)}₂₁sin ωt+{overscore (α)}₂₂cos φt (38)

The process of finding the coefficients {overscore (α)}_ijbegins by measuring two data sets, x₁(t) and x₂(t), as follows:
x₁(t)=S(t)|_S₁_{=A, S}₂₌₀ (39)
x₂(t)=S(t)_S₁_{=0, S}₂_=B (40)

The data sets x₁(t) and x₂(t) are used to enforce the following constraint: $\begin{matrix} \int_{0}^{nT} x_{i} (t) {\overline{D}}_{i} (t) ⅆ = 0 & (41) \end{matrix}$
where i=1, 2, n=1, 2, 3 . . . , and T is a time period corresponding to one complete modulation cycle. From the above constraint and the definitions of the demodulation functions, it follows that: $\begin{matrix} {\overline{α}}_{11} \int_{0}^{nT} x_{1} (t) \sin ω t ⅆ t + {\overline{α}}_{12} \int_{0}^{nT} x_{1} (t) \cos ω t ⅆ t = 0 & (42) \\ α_{21} \int_{0}^{nT} x_{2} (t) \sin ω t ⅆ t + {\overline{α}}_{22} \int_{0}^{nT} x_{2} (t) \cos ω t ⅆ t = 0 & (43) \end{matrix}$

It is convenient to define $\begin{matrix} γ_{11} = \int_{0}^{nT} x_{1} (t) \sin ω t ⅆ t & (44) \\ γ_{12} = \int_{0}^{nT} x_{1} (t) \cos ω t ⅆ t & (45) \\ γ_{21} = \int_{0}^{nT} x_{2} (t) \sin ω t ⅆ t & (46) \\ γ_{22} = \int_{0}^{nT} x_{2} (t) \cos ω t ⅆ t & (47) \end{matrix}$
and to define $\begin{matrix} β_{ij} = \frac{γ_{ij}}{{[\sum_{k}^{} γ_{ik}^{2}]}^{1 / 2}} where & (48) \\ \sum_{k}^{} β_{ik}^{2} = 1 & (49) \end{matrix}$
Then
{overscore (α)}₁₁β₁₁+{overscore (α)}₁₂β₁₂=0 (50)
α₂₁β₂₁+α₂₂β₂₂=0 (51)

In one embodiment, to reduce crosstalk, it is desired to find the coefficients {overscore (α)}_ijclosest (in the sense of minimizing some specified error, such as, for example, a least squared error) to the coefficients α_ijsuch that the above constraints are satisfied. One solution, obtained by minimizing the least squared error is: $\begin{matrix} {\overline{α}}_{ij} = α_{ij} - (\sum_{k}^{} α_{ik} β_{ik}) β_{ij} & (52) \end{matrix}$
The term in parentheses can be described as the baseline crosstalk.

One of ordinary skill in the art will recognize that optimization methods other than least squares can be used. The solution methods for configuration are, for simplicity, described above in terms of a two-channel system. Using the above teachings, the extension to multi-channel systems is straightforward.

Although described above in connection with a particular embodiment of the present invention, it should be understood the description of the embodiment is illustrative of the invention and are not intended to be limiting. Although described above in connection with a pulse oximetry system wherein a parameter to be measured is the attenuation of red and infrared light passing through a portion of a subject'"'"'s body, it should be understood that the method and apparatus described herein can also be used for other measurements where two or more signals are passed through a system to be analyzed. In particular, the present invention can be used to demodulate two combined parametric signals responsive to the system to be analyzed where the two parametric signals have a predetermined timing relationship between them, as described herein. The invention can be used in connection with various physiological parameter measurement systems, such as, for example, systems that measure blood constituents, blood oxygen carboxyhemoglobin, methemoglobin, glucose, etc. Various modifications and applications may occur to those skilled in the art without departing from the true spirit and scope of the invention as defined in the appended claims.

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Method and apparatus for reducing coupling between signals

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