Patents by Inventor Thomas D. Haubert
Thomas D. Haubert 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: 20240269080Abstract: A process system and method for the making of articles, using an omnidirectional magnetic movement system with a transport surface and fabrication modules having a formation surface that can be transported omnidirectionally over the transport surface under the control of a movement controller. An article forming system provides process unit operations for forming articles onto the formation surface as the fabrication modules are moved asynchronously between a plurality of processing positions on the transport surface, and features a depositing device for placing a construction material onto the formation surface and one or more processing devices to form the construction material into the article.Type: ApplicationFiled: April 26, 2024Publication date: August 15, 2024Inventors: Thomas J. BRADBURY, Scott N. DANHOF, Jared T. EMERSON, Thomas D. HAUBERT, Jeffrey R. HELD, Steven Van Cleve KOROL, Grace M. LILLIE, James A. PRESCOTT, Jake M. PYZZA, Steven M. RISSER, Kenneth B. SCOTT, Frederick A. SEXTON, Kyle Edward SMITH, John P. TALLARICO, Jaedeok YOO, Kevin L. YUGULIS
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Publication number: 20240207605Abstract: The present disclosure relates to neuromuscular stimulation and sensing cuffs. The neuromuscular stimulation cuff has at least two fingers and a plurality of electrodes disposed on each finger. More generally, the neuromuscular stimulation cuff includes an outer, reusable component and an inner, disposable component. One or more electrodes are housed within the reusable component. The neuromuscular stimulation cuff may be produced by providing an insulating substrate layer, forming a conductive circuit on the substrate layer to form a conductive circuit layer, adhering a cover layer onto the conductive circuit layer to form a flexible circuit, and cutting at least one flexible finger from the flexible circuit. The neuromuscular stimulation cuff employs a flexible multi-electrode design which allows for reanimation of complex muscle movements in a patient, including individual finger movement.Type: ApplicationFiled: January 16, 2024Publication date: June 27, 2024Inventors: Chad E. Bouton, Jeffrey Friend, Gaurav Sharma, Andrew Sweeney, Amy M. Heintz, Stephanie Kute, Nicholas Annetta, Thomas D. Haubert, Steven M. Risser, Alexander Morrow, Raymond Richard Zaborski, George Naegele Brand, Matthew Edward Mowrer
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Publication number: 20230020138Abstract: The present disclosure relates to neuromuscular stimulation and sensing cuffs. The neuromuscular stimulation cuff has at least two fingers and a plurality of electrodes disposed on each finger. More generally, the neuromuscular stimulation cuff includes an outer, reusable component and an inner, disposable component. One or more electrodes are housed within the reusable component. The neuromuscular stimulation cuff may be produced by providing an insulating substrate layer, forming a conductive circuit on the substrate layer to form a conductive circuit layer, adhering a cover layer onto the conductive circuit layer to form a flexible circuit, and cutting at least one flexible finger from the flexible circuit. The neuromuscular stimulation cuff employs a flexible multi-electrode design which allows for reanimation of complex muscle movements in a patient, including individual finger movement.Type: ApplicationFiled: September 15, 2022Publication date: January 19, 2023Inventors: Chad E. Bouton, Gaurav Sharma, Andrew Sweeney, Amy M. Heintz, Stephanie Kute, Nicholas Annetta, Thomas D. Haubert, Steven M. Risser, Jeffrey Friend, John Bartholomew, Rachel Thurston, Alexander C. Morrow, George Brand, Jeffrey Ellis, Matthew Mowrer, Raymond Zaborski
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Patent number: 11534605Abstract: The present disclosure relates to neuromuscular stimulation and sensing cuffs. The neuromuscular stimulation cuff has at least two fingers and a plurality of electrodes disposed on each finger. More generally, the neuromuscular stimulation cuff includes an outer, reusable component and an inner, disposable component. One or more electrodes are housed within the reusable component. The neuromuscular stimulation cuff may be produced by providing an insulating substrate layer, forming a conductive circuit on the substrate layer to form a conductive circuit layer, adhering a cover layer onto the conductive circuit layer to form a flexible circuit, and cutting at least one flexible finger from the flexible circuit. The neuromuscular stimulation cuff employs a flexible multi-electrode design which allows for reanimation of complex muscle movements in a patient, including individual finger movement.Type: GrantFiled: May 19, 2020Date of Patent: December 27, 2022Assignee: BATTELLE MEMORIAL INSTITUTEInventors: Chad E. Bouton, Gaurav Sharma, Andrew Sweeney, Amy M. Heintz, Stephanie Kute, Nicholas Annetta, Thomas D. Haubert, Steven M. Risser, Jeffrey Friend, John Bartholomew, Rachel Thurston, Alexander C. Morrow, George Brand, Jeffrey Ellis, Matthew Mowrer, Raymond Zaborski
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Publication number: 20220369872Abstract: An autonomous toilet may include a waste receptacle having a receptacle opening, a seat extending at least partially around the receptacle opening, the seat being configured to support a user of the autonomous toilet, a plurality of driven wheels configured to urge the autonomous toilet across a surface, one or more sensors configured to sense one or more conditions of a surrounding environment, and a controller communicatively coupled to the one or more sensors and the plurality of driven wheels.Type: ApplicationFiled: February 24, 2022Publication date: November 24, 2022Inventors: James Prescott, Thomas D. Haubert, Krista I. A. Smith, Andrew V. Sweeney, Lindy Espina Dejarme
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Patent number: 10874818Abstract: An aerosol delivery system, which includes an aerosol delivery unit, the aerosol delivery unit including: a cartridge receiver, which is configured to receive a cartridge assembly; and an inductor configured to receive the cartridge assembly and heat a liquid formulation within a capillary tube to produce an aerosol by induction heating. The cartridge assembly including an active part of the cartridge assembly including a capillary tube; a susceptor, the susceptor configured to partially surround the capillary tube; and a pair of displaceable covers, which surround at least the capillary tube and the susceptor.Type: GrantFiled: December 26, 2017Date of Patent: December 29, 2020Assignee: Philip Morris USA Inc.Inventors: Eric Hassenpflug, Larry Keith Hooks, Jr., James A. Prescott, Ludwin Mora, Michael Scott Ulrich, Jane O'Loughlin, Steve Wilder, William G. Atterbury, Thomas D. Haubert, Ryan Somogye, Michael Ko, Stephen C. Schmitt, Michael Lorenz, Lawrence A. Weinstein, James Leamon
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Patent number: 10765859Abstract: The present disclosure relates to neuromuscular stimulation and sensing cuffs. The neuromuscular stimulation cuff has at least two fingers and a plurality of electrodes disposed on each finger. More generally, the neuromuscular stimulation cuff includes an outer, reusable component and an inner, disposable component. One or more electrodes are housed within the reusable component. The neuromuscular stimulation cuff may be produced by providing an insulating substrate layer, forming a conductive circuit on the substrate layer to form a conductive circuit layer, adhering a cover layer onto the conductive circuit layer to form a flexible circuit, and cutting at least one flexible finger from the flexible circuit. The neuromuscular stimulation cuff employs a flexible multi-electrode design which allows for reanimation of complex muscle movements in a patient, including individual finger movement.Type: GrantFiled: June 2, 2016Date of Patent: September 8, 2020Assignee: Battelle Memorial InstituteInventors: Chad E. Bouton, Gaurav Sharma, Andrew Sweeney, Amy M. Heintz, Stephanie Kute, Nicholas Annetta, Thomas D. Haubert, Steven M. Risser, Jeffrey Friend, John Bartholomew, Rachel Thurston, C. Alexander Morrow, George Brand, Jeffrey Ellis, Matthew Mowrer, Raymond Zaborski
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Publication number: 20200276438Abstract: The present disclosure relates to neuromuscular stimulation and sensing cuffs. The neuromuscular stimulation cuff has at least two fingers and a plurality of electrodes disposed on each finger. More generally, the neuromuscular stimulation cuff includes an outer, reusable component and an inner, disposable component. One or more electrodes are housed within the reusable component. The neuromuscular stimulation cuff may be produced by providing an insulating substrate layer, forming a conductive circuit on the substrate layer to form a conductive circuit layer, adhering a cover layer onto the conductive circuit layer to form a flexible circuit, and cutting at least one flexible finger from the flexible circuit. The neuromuscular stimulation cuff employs a flexible multi-electrode design which allows for reanimation of complex muscle movements in a patient, including individual finger movement.Type: ApplicationFiled: May 19, 2020Publication date: September 3, 2020Inventors: Chad E. Bouton, Gaurav Sharma, Andrew Sweeney, Amy M. Heintz, Stephanie Kute, Nicholas Annetta, Thomas D. Haubert, Steven M. Risser, Jeffrey Friend, John Bartholomew, Rachel Thurston, C. Alexander Morrow, George Brand, Jeffrey Ellis, Matthew Mowrer, Raymond Zaborski
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Publication number: 20180185604Abstract: An aerosol delivery system is disclosed, the system comprising: an aerosol delivery unit, the aerosol delivery unit comprising: a cartridge receiver, which is configured to receive a cartridge assembly; and an inductor configured to receive the cartridge assembly and heat a liquid formulation within a capillary tube to produce an aerosol by induction heating. The cartridge assembly including an active part of the cartridge assembly including a capillary tube; a susceptor, the susceptor configured to partially surround the capillary tube; and a pair of displaceable covers, which surround at least the capillary tube and the susceptor.Type: ApplicationFiled: December 26, 2017Publication date: July 5, 2018Applicant: Philip Morris USA Inc.Inventors: Eric Hassenpflug, Larry Keith Hooks, JR., James A. Prescott, Ludwin Mora, Michael Scott Ulrich, Jane O'Loughlin, Steve Wilder, William G. Atterbury, Thomas D. Haubert, Ryan Somogye, Michael Ko, Stephen C. Schmitt, Michael Lorenz, Lawrence A. Weinstein, James Leamon
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Publication number: 20180154140Abstract: The present disclosure relates to neuromuscular stimulation and sensing cuffs. The neuromuscular stimulation cuff has at least two fingers and a plurality of electrodes disposed on each finger. More generally, the neuromuscular stimulation cuff includes an outer, reusable component and an inner, disposable component. One or more electrodes are housed within the reusable component. The neuromuscular stimulation cuff may be produced by providing an insulating substrate layer, forming a conductive circuit on the substrate layer to form a conductive circuit layer, adhering a cover layer onto the conductive circuit layer to form a flexible circuit, and cutting at least one flexible finger from the flexible circuit. The neuromuscular stimulation cuff employs a flexible multi-electrode design which allows for reanimation of complex muscle movements in a patient, including individual finger movement.Type: ApplicationFiled: June 2, 2016Publication date: June 7, 2018Inventors: Chad E. Bouton, Gaurav Sharma, Andrew Sweeney, Amy M. Heintz, Stephanie Kute, Nicholas Annetta, Thomas D. Haubert, Steven M. Risser, Jeffrey Friend, John Bartholomew, Rachel Thurston, C. Alexander Morrow, George Brand, Jeffrey Ellis, Matthew Mowrer, Raymond Zaborski
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Publication number: 20180154133Abstract: The present disclosure relates to neuromuscular stimulation and sensing cuffs. The neuromuscular stimulation cuff has at least two fingers and a plurality of electrodes disposed on each finger. More generally, the neuromuscular stimulation cuff includes an outer, reusable component and an inner, disposable component. One or more electrodes are housed within the reusable component. The neuromuscular stimulation cuff may be produced by providing an insulating substrate layer, forming a conductive circuit on the substrate layer to form a conductive circuit layer, adhering a cover layer onto the conductive circuit layer to form a flexible circuit, and cutting at least one flexible finger from the flexible circuit. The neuromuscular stimulation cuff employs a flexible multi-electrode design which allows for reanimation of complex muscle movements in a patient, including individual finger movement.Type: ApplicationFiled: January 16, 2018Publication date: June 7, 2018Inventors: Chad E. Bouton, Jeffrey Friend, Gaurav Sharma, Andrew Sweeney, Amy M. Heinz, Stephanie Kute, Nicholas Annetta, Thomas D. Haubert, Steven M. Risser, Alexander Morrow, Raymond Richard Zaborski, George Naegele Brand, Matthew Edward Mowrer
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Publication number: 20180136204Abstract: Provided herein are methods, systems, and devices for detecting and/or identifying one or more specific microorganisms in a culture sample. Indicator particles, such as surface enhanced Raman spectroscopy (SERS)-active nanoparticles, each having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest, can form a complex with specific microorganisms in the culture sample. Further, agitating magnetic capture particles also having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest can be used to capture the microorganism-indicator particle complex and concentrate the complex in a localized area of an assay vessel for subsequent detection and identification. The complex can be dispersed, pelleted, and redispersed so that the culture sample can be retested a number of times during incubation so as to allow for real-time monitoring of the culture sample.Type: ApplicationFiled: November 27, 2017Publication date: May 17, 2018Applicant: BECTON DICKINSON AND COMPANYInventors: Kristin Weidemaier, Robert L. Campbell, Erin Gooch Carruthers, Adam Craig Curry, Kevin G. Dolan, Andrea Liebmann-Vinson, Wendy Dale Woodley, Melody M.H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Artis R. Lockhart, Ernie Ritchey, Eric A. Fallows, Donald E. Gorelick, Jack Kessler, Spencer Lovette, Jeffrey S. Ojala, Mark A. Talmer, Miroslaw Bartkowiak, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich, David S. Sebba
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Patent number: 9884179Abstract: The present disclosure relates to neuromuscular stimulation and sensing cuffs. The neuromuscular stimulation cuff has at least two fingers and a plurality of electrodes disposed on each finger. More generally, the neuromuscular stimulation cuff includes an outer, reusable component and an inner, disposable component. One or more electrodes are housed within the reusable component. The neuromuscular stimulation cuff may be produced by providing an insulating substrate layer, forming a conductive circuit on the substrate layer to form a conductive circuit layer, adhering a cover layer onto the conductive circuit layer to form a flexible circuit, and cutting at least one flexible finger from the flexible circuit. The neuromuscular stimulation cuff employs a flexible multi-electrode design which allows for reanimation of complex muscle movements in a patient, including individual finger movement.Type: GrantFiled: June 2, 2015Date of Patent: February 6, 2018Assignee: BBATTELLE MEMORIAL INSTITUTEInventors: Chad E. Bouton, Jeffrey Friend, Gaurav Sharma, Andrew Sweeney, Amy M. Heintz, Stephanie Kute, Nicholas Annetta, Thomas D. Haubert, Steven M. Risser, Alexander Morrow, Raymond Richard Zaborski, George Naegele Brand, Matthew Edward Mowrer
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Patent number: 9874555Abstract: Provided herein are methods, systems, and devices for detecting and/or identifying one or more specific microorganisms in a culture sample. Indicator particles, such as surface enhanced Raman spectroscopy (SERS)-active nanoparticles, each having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest, can form a complex with specific microorganisms in the culture sample. Further, agitating magnetic capture particles also having associated therewith one or more specific binding members having an affinity for the one or more microorganisms of interest can be used to capture the microorganism-indicator particle complex and concentrate the complex in a localized area of an assay vessel for subsequent detection and identification. The complex can be dispersed, pelleted, and redispersed so that the culture sample can be retested a number of times during incubation so as to allow for real-time monitoring of the culture sample.Type: GrantFiled: March 15, 2013Date of Patent: January 23, 2018Assignee: BECTON, DICKINSON AND COMPANYInventors: Kristin Weidemaier, Robert L. Campbell, Erin Gooch Carruthers, Adam C. Curry, Kevin G. Dolan, Andrea Liebmann-Vinson, Wendy Dale Woodley, Melody M. H. Kuroda, Eric A. Fallows, Miroslaw Bartkowiak, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich, David S. Sebba
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Publication number: 20150306373Abstract: The present disclosure relates to neuromuscular stimulation and sensing cuffs. The neuromuscular stimulation cuff has at least two fingers and a plurality of electrodes disposed on each finger. More generally, the neuromuscular stimulation cuff includes an outer, reusable component and an inner, disposable component. One or more electrodes are housed within the reusable component. The neuromuscular stimulation cuff may be produced by providing an insulating substrate layer, forming a conductive circuit on the substrate layer to form a conductive circuit layer, adhering a cover layer onto the conductive circuit layer to form a flexible circuit, and cutting at least one flexible finger from the flexible circuit. The neuromuscular stimulation cuff employs a flexible multi-electrode design which allows for reanimation of complex muscle movements in a patient, including individual finger movement.Type: ApplicationFiled: June 2, 2015Publication date: October 29, 2015Inventors: Chad E. Bouton, Jeffrey Friend, Gaurav Sharma, Andrew Sweeney, Amy M. Heintz, Stephanie Kute, Nicholas Annetta, Thomas D. Haubert, Steven M. Risser
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Patent number: D731672Type: GrantFiled: March 15, 2013Date of Patent: June 9, 2015Assignee: Becton, Dickinson and CompanyInventors: Melody M. H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy Somerville, M. Scott Ulrich
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Patent number: D773683Type: GrantFiled: January 29, 2015Date of Patent: December 6, 2016Assignee: Becton, Dickinson and CompanyInventors: Melody M. H. Kuroda, Michael Justin Lizzi, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, M. Scott Ulrich
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Patent number: D796687Type: GrantFiled: May 29, 2015Date of Patent: September 5, 2017Assignee: Becton, Dickinson and CompanyInventors: Melody M. H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich
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Patent number: D881408Type: GrantFiled: August 25, 2017Date of Patent: April 14, 2020Assignee: Becton, Dickinson and CompanyInventors: Melody M. H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich
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Patent number: D932049Type: GrantFiled: April 13, 2020Date of Patent: September 28, 2021Assignee: Becton, Dickinson and CompanyInventors: Melody M. H. Kuroda, Ammon David Lentz, Dwight Livingston, Michael Justin Lizzi, Scott N. Danhof, Gregory S. Kramer, Thomas D. Haubert, Michael L. Marshall, James A. Prescott, Randy J. Somerville, M. Scott Ulrich