Patents by Inventor Thomas A Pedersen
Thomas A Pedersen 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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Publication number: 20240131250Abstract: The present disclosure relates to a catheter (1) and a method for manufacturing the catheter (1). The catheter (1) comprises a core tube (10) with a lumen (15) extending from a rear end to a front end along an elongation axis (x), a front portion (13) and a rear portion (11). The catheter (1) further comprises a flexible outer layer (20) forming a fluid reservoir (25, 25?) containing a fluid between the flexible outer layer (20) and at least a part of the front portion (13). The flexible outer layer (20) optionally comprises one or more radial eyelet(s) (23) arranged in front of the front portion (13) of the core tube (10) and being in fluid communication with the front opening (14), wherein the flexible outer layer (20) is more flexible than the core tube (10). Optionally, the catheter (1) further comprises a flexible inner layer (20?).Type: ApplicationFiled: October 17, 2023Publication date: April 25, 2024Inventors: Lars PEDERSEN, Thomas BÖRSTELL
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Patent number: 11967321Abstract: Implementations set forth herein relate to an automated assistant that can interact with applications that may not have been pre-configured for interfacing with the automated assistant. The automated assistant can identify content of an application interface of the application to determine synonymous terms that a user may speak when commanding the automated assistant to perform certain tasks. Speech processing operations employed by the automated assistant can be biased towards these synonymous terms when the user is accessing an application interface of the application. In some implementations, the synonymous terms can be identified in a responsive language of the automated assistant when the content of the application interface is being rendered in a different language. This can allow the automated assistant to operate as an interface between the user and certain applications that may not be rendering content in a native language of the user.Type: GrantFiled: November 30, 2021Date of Patent: April 23, 2024Assignee: GOOGLE LLCInventors: Joseph Lange, Abhanshu Sharma, Adam Coimbra, Gökhan Bakir, Gabriel Taubman, Ilya Firman, Jindong Chen, James Stout, Marcin Nowak-Przygodzki, Reed Enger, Thomas Weedon Hume, Vishwath Mohan, Jacek Szmigiel, Yunfan Jin, Kyle Pedersen, Gilles Baechler
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Patent number: 11874285Abstract: A method of calibrating a device for measuring the concentration of creatinine using one or more calibration solutions, the method comprising: receiving concentrations at an initial time of creatine, Cr, and/or creatinine, Crn, of the one or more calibration solutions; receiving outputs of the measuring device at the end time; calculating the concentration of Cr and/or Crn in the calibration solutions at an end time using a temperature model, wherein the temperature model indicates an estimation of the temperature of the calibration solutions from the initial time to the end time, and wherein the temperature model includes a variable parameter; and determining a relationship between the outputs of the measuring device and the calculated concentrations of Cr and/or Crn.Type: GrantFiled: December 14, 2015Date of Patent: January 16, 2024Assignee: Radiometer Medical ApSInventors: Thomas Kjaer, Thomas Pedersen Nyggard
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Patent number: 11851883Abstract: A system for mounting glass roof tiles on a roof construction includes a roof batten, an S-shaped bracket defining a first U-shaped portion and a second U-shaped portion, a sealing plate and two glass roof tiles arranged side by side along a first longitudinal direction defined by the roof batten. The first U-shaped portion of the bracket is clamped onto the roof batten and retained in relation thereto solely by means of friction and gravity. An end portion of the sealing plate and a lower end portion of each of the glass roof tiles are snugly fit into the second U-shaped portion of the bracket. The glass roof tiles can be mounted on the roof construction in an easy and fast manner without the use of fastening means or tools.Type: GrantFiled: May 7, 2020Date of Patent: December 26, 2023Assignee: SOLARTAG APSInventor: Thomas Pedersen
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Publication number: 20220213688Abstract: A system for mounting glass roof tiles on a roof construction includes a roof batten, an S-shaped bracket defining a first U-shaped portion and a second U-shaped portion, a sealing plate and two glass roof tiles arranged side by side along a first longitudinal direction defined by the roof batten. The first U-shaped portion of the bracket is clamped onto the roof batten and retained in relation thereto solely by means of friction and gravity. An end portion of the sealing plate and a lower end portion of each of the glass roof tiles are snugly fit into the second U-shaped portion of the bracket. The glass roof tiles can be mounted on the roof construction in an easy and fast manner without the use of fastening means or tools.Type: ApplicationFiled: May 7, 2020Publication date: July 7, 2022Inventor: Thomas PEDERSEN
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Patent number: 11239481Abstract: A method for controlling the operation of an electrochemical device having at least one operating organ, comprising the steps of: receiving measurements related to the operation of the electrochemical device, and estimating at least diagnostics data based on said measurements, estimating prognostics data based on said diagnostics data and providing operation instructions to control said operating organ of the electrochemical device, said operation instructions being optimized with respect to said estimated diagnostics and prognostics data.Type: GrantFiled: October 16, 2015Date of Patent: February 1, 2022Assignees: STIFTELSEN SINTEF, ELECTRICITE DE FRANCE, ECOLE NATIONALE SUPERIEURE DE MECANIQUE ET DES MICROTECHNIQUES, UNIVERSITY OF SPLIT, FACULTY OF ELECTRICAL ENGINEERING, MECHANICAL ENGINEERING AND NAVAL ARCHITECTURE, ZENTRUM FUR SONNENENERGIE- UND WASSERSTOFF-FORSCHUNG BADEN-WURTTEMBERG, DANTHERM POWER A.SInventors: Federico Zenith, Johannes Tjonnas, Ivar J. Halvorsen, Angelo Esposito, Rafael Gouriveau, Elodie Lechartier, Frano Barbir, Dario Bezmalinovic, Merle Klages, Joachim Scholta, Alan Menard, Thomas Pedersen, Marie-Cecile Pera, Daniel Hissel, Christoph Kandler, Philippe Mocoteguy
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Patent number: 11209382Abstract: A method of calibrating a device for measuring the concentration of creatinine in a sample including one or more enzyme modulators, the method comprising: determining sensitivities of the device for each of two or more calibration solutions, wherein each calibration solution has a different amount of enzyme modulator; determining a degree of modulation for each of the two or more calibration solutions; determining a degree of modulation for a sample to be measured; and calculating the sensitivity of the device for the sample, wherein said calculating comprises modifying the sensitivity of one of the two or more calibration solutions by a function comprising the determined degrees of modulation.Type: GrantFiled: December 14, 2015Date of Patent: December 28, 2021Assignee: Radiometer Medical APSInventors: Thomas Steen Hansen, Thomas Kjaer, Thomas Pedersen Nygaard
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Publication number: 20210262971Abstract: Processes for preparing ion selective membranes are presented which have selectivity for a primary analyte (in particular magnesium) as well as another ion (in particular calcium), wherein said process comprises addition of a) an ionophore (in particular 1,10-phenanthroline), b) a lipophilic salt containing said primary analyte (in particular hemi-magnesium bis[4-octylphenyl]phosphate) and c) a lipophilic salt containing said other ion (in particular hemi-calcium bis[4-octylphenyl]phosphate). Also, ion selective membranes are presented which are prepared using said processes, in particular to membranes selective for magnesium ions. In further aspects, electrodes and potentiometric sensors are presented comprising such membranes and the use thereof for determining ion concentrations in samples.Type: ApplicationFiled: June 21, 2019Publication date: August 26, 2021Inventors: Thomas Steen HANSEN, Thomas Pedersen NYGAARD, Peter Jakobsen NEILSON, Kristian Medom HANSEN, Palle SCHNEIDER
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Publication number: 20210231601Abstract: Magnesium ion selective electrode membranes and the preparation thereof. The membranes are rendered highly selective for magnesium ions by the addition of acidic groups to the preferably PVC membrane, either by introducing a lipophilic compound comprising an acidic group covalently linked to a C4-C18 alkyl-substituted phenyl group (e.g. bis-4-octylphenyl phosphoric acid) into the membrane comprising the magnesium selective ionophore (e.g. a neutral ionophore 1,10-phenanthroline derivative) or by covalently linking an acidic (e.g. a carboxylic) group to the ionophore (e.g. a 1,10- phenanthroline derivative).Type: ApplicationFiled: June 21, 2019Publication date: July 29, 2021Inventors: Thomas Pedersen NYGAARD, Palle SCHNEIDER, Peter Jakobsen NEILSON, Thomas Steen HANSEN, Thomas LAURSEN
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Patent number: 10969358Abstract: A method of calibrating a device for measuring the concentration of creatinine in a sample including one or more enzyme modulators, the device comprising an enzyme layer, the method comprising: determining sensitivities of the device for each of one or more calibration solutions; determining a degree of modulation for the sample to be measured, determining a degree of modulation for each calibration solution; wherein said determining of each of the degrees of modulation comprises estimating the concentration of an enzyme modulator in the enzyme layer of the device; and calculating the sensitivity of the device for the sample, wherein the said calculating comprises adjusting the sensitivity of the device for each calibration solution by a factor comprising the determined degrees of modulation of the sample and the calibration solution.Type: GrantFiled: June 20, 2016Date of Patent: April 6, 2021Assignee: RADIOMETER MEDICAL APSInventors: Thomas Steen Hansen, Thomas Pedersen Nygaard
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Patent number: 10846432Abstract: A system to detect leaks of secure data (e.g., passwords) includes a browser extension (or other software) identifying information (e.g., a password) input to a web page in a browser, processing the information locally using a transformation operation to transform the information to a transformed result (e.g., hash using a salt), forwarding the transformed result to a remote computer system storing secure data, determining that the transformed result matches the stored secure data, and performing a protective action in response to the determining that the transformed result matches the stored secure data.Type: GrantFiled: September 11, 2018Date of Patent: November 24, 2020Assignee: OneLogin, Inc.Inventor: Thomas Pedersen
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Publication number: 20200082124Abstract: A system to detect leaks of secure data (e.g., passwords) includes a browser extension (or other software) identifying information (e.g., a password) input to a web page in a browser, processing the information locally using a transformation operation to transform the information to a transformed result (e.g., hash using a salt), forwarding the transformed result to a remote computer system storing secure data, determining that the transformed result matches the stored secure data, and performing a protective action in response to the determining that the transformed result matches the stored secure data.Type: ApplicationFiled: September 11, 2018Publication date: March 12, 2020Applicant: OneLogin, Inc.Inventor: Thomas Pedersen
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Patent number: 10326870Abstract: A headset system for use with especially in a call center environment, in which method a wireless connection is established between headset and base unit, and the wireless connection is maintained while indicating from a headset user interface to the base unit that the headset is available for receiving an incoming call. The headset system is connected to a telephone system and has a processor configured to receive mode information and to operate according to the received mode information. The headset has a headset user interface and controls the headset signal processor to operate in accordance with user input. The headset is further configured to provide the end-of-call information to the base unit while maintaining the wireless connection.Type: GrantFiled: November 22, 2017Date of Patent: June 18, 2019Assignee: GN Netcom A/SInventor: Thomas Pedersen
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Publication number: 20180202963Abstract: A method of calibrating a device for measuring the concentration of creatinine in a sample including one or more enzyme modulators, the device comprising an enzyme layer, the method comprising: determining sensitivities of the device for each of one or more calibration solutions; determining a degree of modulation for the sample to be measured, determining a degree of modulation for each calibration solution; wherein said determining of each of the degrees of modulation comprises estimating the concentration of an enzyme modulator in the enzyme layer of the device; and calculating the sensitivity of the device for the sample, wherein the said calculating comprises adjusting the sensitivity of the device for each calibration solution by a factor comprising the determined degrees of modulation of the sample and the calibration solution.Type: ApplicationFiled: June 20, 2016Publication date: July 19, 2018Applicant: Radiometer Medical ApSInventors: Thomas Steen HANSEN, Thomas Pedersen NYGAARD
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Publication number: 20180097922Abstract: A headset system for use with especially in a call center environment, in which method a wireless connection is established between headset and base unit, and the wireless connection is maintained while indicating from a headset user interface to the base unit that the headset is available for receiving an incoming call. The headset system is connected to a telephone system and has a processor configured to receive mode information and to operate according to the received mode information. The headset has a headset user interface and controls the headset signal processor to operate in accordance with user input. The headset is further configured to provide the end-of-call information to the base unit while maintaining the wireless connection.Type: ApplicationFiled: November 22, 2017Publication date: April 5, 2018Inventor: Thomas Pedersen
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Publication number: 20170363568Abstract: A method of calibrating a device for measuring the concentration of creatinine in a sample including one or more enzyme modulators, the method comprising: determining sensitivities of the device for each of two or more calibration solutions, wherein each calibration solution has a different amount of enzyme modulator; determining a degree of modulation for each of the two or more calibration solutions; determining a degree of modulation for a sample to be measured; and calculating the sensitivity of the device for the sample, wherein said calculating comprises modifying the sensitivity of one of the two or more calibration solutions by a function comprising the determined degrees of modulation.Type: ApplicationFiled: December 14, 2015Publication date: December 21, 2017Inventors: Thomas Steen HANSEN, Thomas KJAER, Thomas Pedersen NYGAARD
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Publication number: 20170315139Abstract: A method of calibrating a device for measuring the concentration of creatinine using one or more calibration solutions, the method comprising: receiving concentrations at an initial time of creatine, Cr, and/or creatinine, Crn, of the one or more calibration solutions; receiving outputs of the measuring device at the end time; calculating the concentration of Cr and/or Crn in the calibration solutions at an end time using a temperature model, wherein the temperature model indicates an estimation of the temperature of the calibration solutions from the initial time to the end time, and wherein the temperature model includes a variable parameter; and determining a relationship between the outputs of the measuring device and the calculated concentrations of Cr and/or Crn.Type: ApplicationFiled: December 14, 2015Publication date: November 2, 2017Inventors: Thomas KJAER, Thomas Pedersen NYGGARD
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Publication number: 20170237096Abstract: A method for controlling the operation of an electrochemical device having at least one operating organ, comprising the steps of: receiving measurements related to the operation of the electrochemical device, and estimating at least diagnostics data based on said measurements, estimating prognostics data based on said diagnostics data and providing operation instructions to control said operating organ of the electrochemical device, said operation instructions being optimized with respect to said estimated diagnostics and prognostics data.Type: ApplicationFiled: October 16, 2015Publication date: August 17, 2017Inventors: Federico Zenith, Johannes Tjonnas, Ivar J. Halvorsen, Angelo Esposito, Rafael Gouriveau, Elodie Lechartier, Frano Barbir, Dario Bezmalinovic, Merle Klages, Joachim Scholta, Alan Menard, Thomas Pedersen, Marie-Cecile Pera, Daniel Hissel, Christoph Kandler, Philippe Mocoteguy
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Patent number: D924596Type: GrantFiled: October 17, 2018Date of Patent: July 13, 2021Assignee: OMP S.R.L.Inventors: Claus Breinholt, Thomas Pedersen
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Patent number: D970240Type: GrantFiled: December 23, 2020Date of Patent: November 22, 2022Assignee: OMP S.R.LInventors: Claus Breinholt, Thomas Pedersen