Patents by Inventor Donald Kuehl
Donald Kuehl 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: 11454584Abstract: A fluid analyzer includes an optical source and detector defining a beam path of an optical beam, and a fluid flow cell on the beam path defining an interrogation region in a fluid channel in which the optical beam interacts with fluids. One or more flow-control devices conduct a particle in a fluid through the fluid channel. A motion system moves the interrogation region relative to the fluid channel in response to a motion signal, and a controller (1) generates the motion signal having a time-varying characteristic, (2) samples an output signal from the optical detector at respective intervals of the motion signal during which the interrogation region contains and does not contain the particle, and (3) determines from output signal samples a measurement value indicative of an optically measured characteristic of the particle.Type: GrantFiled: August 13, 2020Date of Patent: September 27, 2022Assignee: RedShift BioAnalytics Inc.Inventors: Matthias Wagner, Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Patent number: 11169084Abstract: A fluid analyzer includes an optical source and an optical detector defining an optical beam path through an interrogation region of a fluid flow cell. Flow-control devices conduct analyte and reference fluids through a channel and the interrogation region, and manipulate fluid flow in response to control signals to move a fluid boundary separating the analyte and reference fluids across the interrogation region. A controller generates control signals to (1) cause the fluid boundary to be moved across the interrogation region accordingly, (2) sample an output signal from the optical detector at a first interval during which the interrogation region contains more analyte fluid than reference fluid and at a second interval during which the interrogation region contains more reference fluid than analyte fluid, and (3) determine from samples of the output signal a measurement value indicative of an optically measured characteristic of the analyte fluid.Type: GrantFiled: January 25, 2019Date of Patent: November 9, 2021Assignee: RedShift BioAnalytics, Inc.Inventors: Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Publication number: 20200371014Abstract: A fluid analyzer includes an optical source and detector defining a beam path of an optical beam, and a fluid flow cell on the beam path defining an interrogation region in a fluid channel in which the optical beam interacts with fluids. One or more flow-control devices conduct a particle in a fluid through the fluid channel. A motion system moves the interrogation region relative to the fluid channel in response to a motion signal, and a controller (1) generates the motion signal having a time-varying characteristic, (2) samples an output signal from the optical detector at respective intervals of the motion signal during which the interrogation region contains and does not contain the particle, and (3) determines from output signal samples a measurement value indicative of an optically measured characteristic of the particle.Type: ApplicationFiled: August 13, 2020Publication date: November 26, 2020Inventors: Matthias Wagner, Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Patent number: 10746646Abstract: A fluid analyzer includes an optical source and detector defining a beam path of an optical beam, and a fluid flow cell on the beam path defining an interrogation region in a fluid channel in which the optical beam interacts with fluids. One or more flow-control devices conduct a particle in a fluid through the fluid channel. A motion system moves the interrogation region relative to the fluid channel in response to a motion signal, and a controller (1) generates the motion signal having a time-varying characteristic, (2) samples an output signal from the optical detector at respective intervals of the motion signal during which the interrogation region contains and does not contain the particle, and (3) determines from output signal samples a measurement value indicative of an optically measured characteristic of the particle.Type: GrantFiled: December 13, 2018Date of Patent: August 18, 2020Assignee: Redshift Bioanalytics, Inc.Inventors: Matthias Wagner, Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Publication number: 20190226983Abstract: A fluid analyzer includes an optical source and an optical detector defining an optical beam path through an interrogation region of a fluid flow cell. Flow-control devices conduct analyte and reference fluids through a channel and the interrogation region, and manipulate fluid flow in response to control signals to move a fluid boundary separating the analyte and reference fluids across the interrogation region. A controller generates control signals to (1) cause the fluid boundary to be moved across the interrogation region accordingly, (2) sample an output signal from the optical detector at a first interval during which the interrogation region contains more analyte fluid than reference fluid and at a second interval during which the interrogation region contains more reference fluid than analyte fluid, and (3) determine from samples of the output signal a measurement value indicative of an optically measured characteristic of the analyte fluid.Type: ApplicationFiled: January 25, 2019Publication date: July 25, 2019Inventors: Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Publication number: 20190113436Abstract: A fluid analyzer includes an optical source and detector defining a beam path of an optical beam, and a fluid flow cell on the beam path defining an interrogation region in a fluid channel in which the optical beam interacts with fluids. One or more flow-control devices conduct a particle in a fluid through the fluid channel. A motion system moves the interrogation region relative to the fluid channel in response to a motion signal, and a controller (1) generates the motion signal having a time-varying characteristic, (2) samples an output signal from the optical detector at respective intervals of the motion signal during which the interrogation region contains and does not contain the particle, and (3) determines from output signal samples a measurement value indicative of an optically measured characteristic of the particle.Type: ApplicationFiled: December 13, 2018Publication date: April 18, 2019Inventors: Matthias Wagner, Charles McAllister Marshall, Donald Kuehl, Jeffrey Guasto
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Patent number: 10190969Abstract: A fluid analyzer includes an optical source and an optical detector defining an optical beam path through an interrogation region of a fluid flow cell. Flow-control devices conduct analyte and reference fluids through a channel and the interrogation region, and manipulate fluid flow in response to control signals to move a fluid boundary separating the analyte and reference fluids across the interrogation region. A controller generates control signals to (1) cause the fluid boundary to be moved across the interrogation region accordingly, (2) sample an output signal from the optical detector at a first interval during which the interrogation region contains more analyte fluid than reference fluid and at a second interval during which the interrogation region contains more reference fluid than analyte fluid, and (3) determine from samples of the output signal a measurement value indicative of an optically measured characteristic of the analyte fluid.Type: GrantFiled: March 9, 2017Date of Patent: January 29, 2019Assignee: Redshift Bioanalytics, Inc.Inventors: Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Patent number: 10180389Abstract: A fluid analyzer includes an optical source and detector defining a beam path of an optical beam, and a fluid flow cell on the beam path defining an interrogation region in a fluid channel in which the optical beam interacts with fluids. One or more flow-control devices conduct a particle in a fluid through the fluid channel. A motion system moves the interrogation region relative to the fluid channel in response to a motion signal, and a controller (1) generates the motion signal having a time-varying characteristic, (2) samples an output signal from the optical detector at respective intervals of the motion signal during which the interrogation region contains and does not contain the particle, and (3) determines from output signal samples a measurement value indicative of an optically measured characteristic of the particle.Type: GrantFiled: September 25, 2017Date of Patent: January 15, 2019Assignee: Redshift Bioanalytics, Inc.Inventors: Matthias Wagner, Charles McAllister Marshall, Donald Kuehl, Jeffrey Guasto
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Publication number: 20180059005Abstract: A fluid analyzer for analysis of analyte bearing fluids includes an optical source and an optical transducer defining a beam path of an optical beam; a fluid flow cell with a fluid channel, wherein an interrogation region is defined in which the optical beam interacts with the fluids resulting in transducer output signals; and a controller configured and operative to control operation of the fluid analyzer. In one example the fluid analyzer is controlled to (1) combine a third fluid with the first or second fluid, (2) conduct the first fluid and second fluid through the interrogation region in first and second intervals respectively, (3) measure the transducer output signals during the first and second time intervals, and (4) determine, from the transducer output signals measurement, values of the first and second fluids and an indication of a physical property of the first fluid.Type: ApplicationFiled: May 26, 2017Publication date: March 1, 2018Inventors: Charles McAlister Marshall, Donald Kuehl, Eugene Yi-Shan Ma, Richard C. Sharp
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Publication number: 20180024041Abstract: A fluid analyzer includes an optical source and detector defining a beam path of an optical beam, and a fluid flow cell on the beam path defining an interrogation region in a fluid channel in which the optical beam interacts with fluids. One or more flow-control devices conduct a particle in a fluid through the fluid channel. A motion system moves the interrogation region relative to the fluid channel in response to a motion signal, and a controller (1) generates the motion signal having a time-varying characteristic, (2) samples an output signal from the optical detector at respective intervals of the motion signal during which the interrogation region contains and does not contain the particle, and (3) determines from output signal samples a measurement value indicative of an optically measured characteristic of the particle.Type: ApplicationFiled: September 25, 2017Publication date: January 25, 2018Inventors: Matthias Wagner, Charles McAllister Marshall, Donald Kuehl, Jeffrey Guasto
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Patent number: 9778167Abstract: A fluid analyzer includes an optical source and detector defining a beam path of an optical beam, and a fluid flow cell on the beam path defining an interrogation region in a fluid channel in which the optical beam interacts with fluids. One or more flow-control devices conduct a particle in a fluid through the fluid channel. A motion system moves the interrogation region relative to the fluid channel in response to a motion signal, and a controller (1) generates the motion signal having a time-varying characteristic, (2) samples an output signal from the optical detector at respective intervals of the motion signal during which the interrogation region contains and does not contain the particle, and (3) determines from output signal samples a measurement value indicative of an optically measured characteristic of the particle.Type: GrantFiled: June 7, 2016Date of Patent: October 3, 2017Assignee: Redshift Bioanalytics, Inc.Inventors: Matthias Wagner, Charles McAllister Marshall, Donald Kuehl, Jeffrey Guasto
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Publication number: 20170184490Abstract: A fluid analyzer includes an optical source and an optical detector defining an optical beam path through an interrogation region of a fluid flow cell. Flow-control devices conduct analyte and reference fluids through a channel and the interrogation region, and manipulate fluid flow in response to control signals to move a fluid boundary separating the analyte and reference fluids across the interrogation region. A controller generates control signals to (1) cause the fluid boundary to be moved across the interrogation region accordingly, (2) sample an output signal from the optical detector at a first interval during which the interrogation region contains more analyte fluid than reference fluid and at a second interval during which the interrogation region contains more reference fluid than analyte fluid, and (3) determine from samples of the output signal a measurement value indicative of an optically measured characteristic of the analyte fluid.Type: ApplicationFiled: March 9, 2017Publication date: June 29, 2017Inventors: Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Patent number: 9625378Abstract: A fluid analyzer includes an optical source and an optical detector defining an optical beam path through an interrogation region of a fluid flow cell. Flow-control devices conduct analyte and reference fluids through a channel and the interrogation region, and manipulate fluid flow in response to control signals to move a fluid boundary separating the analyte and reference fluids across the interrogation region. A controller generates control signals to (1) cause the fluid boundary to be moved across the interrogation region accordingly, (2) sample an output signal from the optical detector at a first interval during which the interrogation region contains more analyte fluid than reference fluid and at a second interval during which the interrogation region contains more reference fluid than analyte fluid, and (3) determine from samples of the output signal a measurement value indicative of an optically measured characteristic of the analyte fluid.Type: GrantFiled: March 30, 2015Date of Patent: April 18, 2017Assignee: Redshift Bioanalytics, Inc.Inventors: Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Publication number: 20170030823Abstract: A fluid analyzer includes an optical source and detector defining a beam path of an optical beam, and a fluid flow cell on the beam path defining an interrogation region in a fluid channel in which the optical beam interacts with fluids. One or more flow-control devices conduct a particle in a fluid through the fluid channel. A motion system moves the interrogation region relative to the fluid channel in response to a motion signal, and a controller (1) generates the motion signal having a time-varying characteristic, (2) samples an output signal from the optical detector at respective intervals of the motion signal during which the interrogation region contains and does not contain the particle, and (3) determines from output signal samples a measurement value indicative of an optically measured characteristic of the particle.Type: ApplicationFiled: June 7, 2016Publication date: February 2, 2017Inventors: Matthias Wagner, Charles McAllister Marshall, Donald Kuehl, Jeffrey Guasto
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Patent number: 9377400Abstract: A fluid analyzer includes an optical source and an optical detector defining an optical beam path through an interrogation region of a fluid flow cell. Motion control devices determine position of the interrogation region. Flow-control devices conduct analyte and reference fluids and manipulate fluid flow in response to control signals to position a fluid boundary across the interrogation region. A controller (1) generates a time-varying motion modulation signal to move the interrogation region across the fluid boundary, (2) samples an output signal from the optical detector at one time in which the interrogation region contains more analyte fluid than reference fluid and at a time at which the interrogation region contains more reference fluid than analyte fluid, thereby generating corresponding output signal samples, and (3) determines from the output signal samples a measurement value indicative of an optically measured characteristic of the analyte fluid.Type: GrantFiled: April 22, 2015Date of Patent: June 28, 2016Assignee: Redshift Systems CorporationInventors: Matthias Wagner, Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Publication number: 20150276588Abstract: A fluid analyzer includes an optical source and an optical detector defining an optical beam path through an interrogation region of a fluid flow cell. Flow-control devices conduct analyte and reference fluids through a channel and the interrogation region, and manipulate fluid flow in response to control signals to move a fluid boundary separating the analyte and reference fluids across the interrogation region. A controller generates control signals to (1) cause the fluid boundary to be moved across the interrogation region accordingly, (2) sample an output signal from the optical detector at a first interval during which the interrogation region contains more analyte fluid than reference fluid and at a second interval during which the interrogation region contains more reference fluid than analyte fluid, and (3) determine from samples of the output signal a measurement value indicative of an optically measured characteristic of the analyte fluid.Type: ApplicationFiled: March 30, 2015Publication date: October 1, 2015Inventors: Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Publication number: 20150276589Abstract: A fluid analyzer includes an optical source and an optical detector defining an optical beam path through an interrogation region of a fluid flow cell. Motion control devices determine position of the interrogation region. Flow-control devices conduct analyte and reference fluids and manipulate fluid flow in response to control signals to position a fluid boundary across the interrogation region. A controller (1) generates a time-varying motion modulation signal to move the interrogation region across the fluid boundary, (2) samples an output signal from the optical detector at one time in which the interrogation region contains more analyte fluid than reference fluid and at a time at which the interrogation region contains more reference fluid than analyte fluid, thereby generating corresponding output signal samples, and (3) determines from the output signal samples a measurement value indicative of an optically measured characteristic of the analyte fluid.Type: ApplicationFiled: April 22, 2015Publication date: October 1, 2015Inventors: Matthias Wagner, Charles McAlister Marshall, Donald Kuehl, Jeffrey Guasto
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Patent number: 8927925Abstract: A method for identifying ions that generated mass spectral data, comprises acquiring raw mass spectral data in profile mode containing at least one ion of interest; performing at least one of mass spectral calibration involving peak shape and a determination of actual peak shape function associated with the acquired raw mass spectral data; considering at least one possible elemental composition of the ion; calculating theoretical mass spectral data for said elemental composition using the actual peak shape function; performing a normalization between corresponding parts of the theoretical mass spectral data and that of the raw or calibrated mass spectral data; and displaying mass spectral congruence between at least two mass spectra where one spectrum is the normalized version of the other corresponding to said possible elemental composition. The unique display and method assist in readily identifying ions.Type: GrantFiled: May 31, 2009Date of Patent: January 6, 2015Assignee: Cerno Bioscience LLCInventors: Donald Kuehl, Yongdong Wang, Ming Gu
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Patent number: 8803080Abstract: Methods for analyzing mass spectral data, include acquiring profile mode mass spectral data containing at least on ion of interest whose elemental composition is determined; obtaining a correct peak shape function based on the actually measured peak shape of at least one of the isotypes of the same ion of interest; generating at least one possible elemental composition for the ion of interest; calculating a theoretical isotope distribution for the elemental composition and a theoretical isotope cluster by applying correct peak shape function to the theoretical isotope distribution; comparing quantiatively the corresponding parts of the theoretical isotope cluster to that from acquired profile mode mass spectral data to obtain at least one of elemental composition determination, classification, or quantitation for the ion. A computer for and a computer readable medium having computer readable code thereon for performing the methods. A mass spectrometer having an associated computer for performing the methods.Type: GrantFiled: June 2, 2008Date of Patent: August 12, 2014Assignee: Cerno Bioscience LLCInventors: Yongdong Wang, Donald Kuehl
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Publication number: 20100171032Abstract: Methods for analyzing mass spectral data, include acquiring profile mode mass spectral data containing at least on ion of interest whose elemental composition is determined; obtaining a correct peak shape function based on the actually measured peak shape of at least one of the isotypes of the same ion of interest; generating at least one possible elemental composition for the ion of interest; calculating a theoretical isotope cluster by applying correct peak shape function to the theoretical isotope distribution; comparing quantiatively the corresponding parts of the theoretical isotope cluster to that from acquired profile mode mass spectral data to obtain at least one of elemental composition determination, classification, or quantitation for the ion. A computer for and a computer readable medium having computer readable code thereon for performing the methods. A mass spectrometer having an associated computer for performing the methods.Type: ApplicationFiled: June 2, 2008Publication date: July 8, 2010Inventors: Yongdong Wang, Donald Kuehl