Patents by Inventor James Nicholas Watson
James Nicholas Watson has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9236046Abstract: A sound signal from a patient may include information that may be used to determine multiple patient parameters. A patient monitor may determine respiration information such as respiration rate from the sound signal, for example based on modulations of the sound signal due to patient breathing. The patient monitor may also determine indications of patient distress based on a trained classifier, speech commands, or sound patterns.Type: GrantFiled: March 14, 2013Date of Patent: January 12, 2016Assignee: Covidien LPInventors: James Nicholas Watson, Paul Stanley Addison
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Patent number: 9220459Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyze the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyzer component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyzer component.Type: GrantFiled: August 20, 2012Date of Patent: December 29, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: Paul Stanley Addison, James Nicholas Watson
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Patent number: 9220440Abstract: The present disclosure relates to monitoring a characteristic respiration rate of a patient based at least in part on a suitable time period that either precedes or follows a triggering event, such as a clinician/patient interaction, where the triggering event may negatively impact the physiological parameter. In some embodiments, physiological parameter values falling between one or more pre-set thresholds may be used to derive the characteristic physiological parameter. In some embodiments, monitoring the respiration rate may provide additional information about the patient's status. In some embodiments, confidence measures may be associated with, or may be used to analyze features of the patient signal to derive information about, the characteristic respiration rate. The patient signal used to derive a patient's respiration rate may be of an oscillatory nature or may include oscillatory features that may be analyzed to derive a characteristic respiration rate.Type: GrantFiled: September 21, 2009Date of Patent: December 29, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: Paul Stanley Addison, James Nicholas Watson, Scott McGonigle
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Patent number: 9220460Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyse the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analogue to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyser component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyser component.Type: GrantFiled: August 20, 2012Date of Patent: December 29, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20150366511Abstract: According to embodiments, a system for processing a physiological signals is disclosed. The system may comprise a sensor for generating the physiological signal. The system may comprise a processor configured to receive and process the physiological signal in order to improve interpretation and subsequent analysis of the physiological signal. The processor may be configured to generate a wavelet transform based on the physiological signal. The processor may be configured to determine phase values corresponding to the subject's respiration based on the wavelet transform. The processor may be configured to generate a sinusoidal waveform that is representative of the subject's breathing based on the phase values. The system may also comprise a display device configured to display the sinusoidal waveform.Type: ApplicationFiled: June 24, 2015Publication date: December 24, 2015Inventors: Paul Stanley Addison, James Nicholas Watson
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Patent number: 9198616Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyze the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analog to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyzer component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyzer component.Type: GrantFiled: August 20, 2012Date of Patent: December 1, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: Paul Stanley Addison, James Nicholas Watson
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Patent number: 9192336Abstract: A physiological measurement system is disclosed which can take a pulse oximetry signal such as a photoplethysmogram from a patient and then analyze the signal to measure physiological parameters including respiration, pulse, oxygen saturation and movement. The system comprises a pulse oximeter which includes a light emitting device and a photodetector attachable to a subject to obtain a pulse oximetry signal; analog to digital converter means arranged to convert said pulse oximetry signal into a digital pulse oximetry signal; signal processing means suitable to receive said digital pulse oximetry signal and arranged to decompose that signal by wavelet transform means; feature extraction means arranged to derive physiological information from the decomposed signal; an analyzer component arranged to collect information from the feature extraction means; and data output means arranged in communication with the analyzer component.Type: GrantFiled: August 20, 2012Date of Patent: November 24, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20150265196Abstract: A system is configured to determine a fluid responsiveness index of a patient from a physiological signal. The system may include a sensor configured to be secured to an anatomical portion of the patient, and a monitor operatively connected to the sensor. The sensor is configured to sense a physiological characteristic of the patient. The monitor is configured to receive a physiological signal from the sensor. The monitor may include an index-determining module configured to determine the fluid responsiveness index through formation of a ratio of one or both of amplitude or frequency modulation of the physiological signal to baseline modulation of the physiological signal.Type: ApplicationFiled: June 3, 2015Publication date: September 24, 2015Inventors: Mark Su, James Nicholas Watson, Paul Stanley Addison
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Patent number: 9113815Abstract: According to embodiments, systems, devices, and methods for ridge selection in scalograms are disclosed. Ridges or ridge components are features within a scalogram which may be computed from a signal such as a physiological (e.g., photoplethysmographic) signal. Ridges may be identified from one or more scalograms of the signal. Parameters characterizing these ridges may be determined. Based at least in part on these parameters, a ridge density distribution function is determined. A ridge is selected from analyzing this ridge density distribution function. In some embodiments, the selected ridge is used to determine a physiological parameter such as respiration rate.Type: GrantFiled: July 8, 2013Date of Patent: August 25, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: James Nicholas Watson, Paul Stanley Addison, David Clifton
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Publication number: 20150208964Abstract: Systems and methods are provided for determining respiration information. Respiration information is determined from physiological signals responsive to regional oxygen saturation information. Respiration information is determined based on any of the amplitude, frequency, or baseline components of the physiological signals.Type: ApplicationFiled: January 19, 2015Publication date: July 30, 2015Inventors: Paul Stanley Addison, James Nicholas Watson
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Patent number: 9066691Abstract: According to embodiments, systems and methods for generating reference signals are provided. A signal may be transformed using a continuous wavelet transform. Regions of interest may be selected from a transform or the resulting scalogram that may be used to generate a reference signal to use in filtering the signal or other signals. Cross-correlation techniques may be used to cancel noise components or isolate non-noise components from the signal. A physiological parameter may then be determined from the filtered signal or isolated components in the signal.Type: GrantFiled: October 3, 2008Date of Patent: June 30, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: Paul Stanley Addison, James Nicholas Watson
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Patent number: 9060745Abstract: A system is configured to determine a fluid responsiveness index of a patient from a physiological signal. The system may include a sensor configured to be secured to an anatomical portion of the patient, and a monitor operatively connected to the sensor. The sensor is configured to sense a physiological characteristic of the patient. The monitor is configured to receive a physiological signal from the sensor. The monitor may include an index-determining module configured to determine the fluid responsiveness index through formation of a ratio of one or both of amplitude or frequency modulation of the physiological signal to baseline modulation of the physiological signal.Type: GrantFiled: August 22, 2012Date of Patent: June 23, 2015Assignee: Covidien LPInventors: Mark Su, James Nicholas Watson, Paul Stanley Addison
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Patent number: 9031627Abstract: According to embodiments, techniques for signal processing using multiple signals are disclosed. A first scalogram may be generated from a first signal and a second scalogram may be generated from a second signal. A modified or masked scalogram may then be generated based on the first and second scalograms. The modified scalogram may then be used to determine at least one physiological parameter. In some embodiments, one or both of the first signal and the second signal may be photoplethysmograph (PPG) signals obtained from a pulse oximeter.Type: GrantFiled: October 1, 2008Date of Patent: May 12, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20150103360Abstract: A physiological monitoring system may determine a probe-off condition. A physiological sensor may be used to emit one or more wavelengths of light. A received light signal may be processed to obtain a light signal corresponding to the emitted light and an ambient signal. The signals may be analyzed to identify similar behavior. The system may determine whether the physiological sensor is properly positioned based on the analysis.Type: ApplicationFiled: December 16, 2014Publication date: April 16, 2015Inventors: Paul Stanley Addison, James Nicholas Watson
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Patent number: 8983588Abstract: A method of analysis of medical signals is presented which provides useful clinical information concerning the state of the myocardium during cardiopulmonary resuscitation (CPR). The analysis during CPR can be used to (i) identify the underlying rhythm, (ii) provide a measure of the efficacy of CPR, and (iii) to predict the outcome from a defibrillation shock.Type: GrantFiled: February 10, 2006Date of Patent: March 17, 2015Assignee: Cardiodigital LimitedInventors: Paul Stanley Addison, James Nicholas Watson
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Patent number: 8954127Abstract: According to embodiments, techniques for estimating scalogram energy values in a wedge region of a scalogram are disclosed. A pulse oximetry system including a sensor or probe may be used to receive a photoplethysmograph (PPG) signal from a patient or subject. A scalogram, corresponding to the obtained PPG signal, may be determined. In an arrangement, energy values in the wedge region of the scalogram may be estimated by calculating a set of estimation locations in the wedge region and estimating scalogram energy values at each location. In an arrangement, scalogram energy values may be estimated based on an estimation scheme and by combining scalogram values in a vicinity region. In an arrangement, the vicinity region may include energy values in a resolved region of the scalogram and previously estimated energy values in the wedge region of the scalogram. In an arrangement, one or more signal parameters may be determined based on the resolved and estimated values of the scalogram.Type: GrantFiled: December 22, 2012Date of Patent: February 10, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: James Nicholas Watson, Paul Stanley Addison, Braddon M. Van Slyke
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Patent number: 8922788Abstract: A physiological monitoring system may determine a probe-off condition. A physiological sensor may be used to emit one or more wavelengths of light. A received light signal may be processed to obtain a light signal corresponding to the emitted light and an ambient signal. The signals may be analyzed to identify similar behavior. The system may determine whether the physiological sensor is properly positioned based on the analysis.Type: GrantFiled: December 22, 2012Date of Patent: December 30, 2014Assignee: Covidien LPInventors: Paul Stanley Addison, James Nicholas Watson
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Publication number: 20140323846Abstract: A system for determining a hemodynamic status of an individual may include a photoplethysmography (PPG) sub-system configured to detect a PPG signal and a response triggering module configured to analyze the PPG signal and output one or more response triggers based on a changing feature of the PPG signal within a time window. Each of the one or more response triggers may relate to an instruction to initiate detection of at least one physiological characteristic of the individual. A blood pressure (BP) variability index determination module is configured to determine a BP variability index related to a hemodynamic status of the individual based on a frequency or pattern of the one or more response triggers.Type: ApplicationFiled: March 27, 2014Publication date: October 30, 2014Applicant: COVIDIEN LPInventors: Kathleen H. Niebel, James Nicholas Watson, Paul Stanley Addison
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Publication number: 20140316287Abstract: Embodiments provide systems and methods for displaying a fluid responsiveness predictor (FRP) based on an analysis a physiological signal detected by a physiological sensor applied to a patient. A method may include detecting the signal of the patient with the physiological sensor, determining an FRP with a FRP determination module, wherein the determining operation comprises analyzing at least one characteristic of the physiological signal over time to determine the FRP, receiving a report request to report the FRP at a requested time through a user interface, generating a reported FRP in relation to the requested time using the FRP determination module, and displaying the reported FRP on a display. The displaying operation may include displaying the FRP using at least one graphic representation.Type: ApplicationFiled: April 17, 2014Publication date: October 23, 2014Applicants: COVIDIEN LP, COVIDIEN LPInventors: James Nicholas Watson, Paul Stanley Addison
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Publication number: 20140316286Abstract: A system for determining one or more respiratory parameters of an individual may include a blood flow detection device configured to detect a blood flow signal of the individual, a blood flow determination module configured to form a blood flow waveform based on the blood flow signal, and a respiratory parameter analysis module configured to analyze the blood flow waveform and determine the respiratory parameter(s) from an analysis of the blood flow waveform.Type: ApplicationFiled: April 22, 2013Publication date: October 23, 2014Applicant: Covidien LPInventors: Paul Stanley Addison, James Nicholas Watson