Patents by Inventor Matthew Mowrer
Matthew Mowrer 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).
-
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
-
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
-
Patent number: 10791139Abstract: A cyber security risk model mitigates cyber security risks for an asset environment (including a virtual asset) by utilizing a functions, connections and identities to determine a cyber security risk index (CSRI). An asset environment may comprise one or more functions where each function has one or more connections associated with any one or more of the functions and one or more identities associated with the virtual asset. A CSRI may be determined for each function based on the cyber security risk model that takes into account the cyber security risks or attributes associated with each function, connection and identity associated with the virtual environment or virtual asset. The asset environment may be adjusted, reconfigured, or otherwise altered based on the CSRI for any given function or for an overall CSRI. An alert may also be triggered based, at least in part, on a determined CSRI.Type: GrantFiled: October 24, 2018Date of Patent: September 29, 2020Assignee: American Bureau of ShippingInventors: Richard G. Scott, Cris Owen DeWitt, Matthew Mowrer
-
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
-
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
-
Publication number: 20200137101Abstract: A cyber security risk model mitigates cyber security risks for an asset environment (including a virtual asset) by utilizing a functions, connections and identities to determine a cyber security risk index (CSRI). An asset environment may comprise one or more functions where each function has one or more connections associated with any one or more of the functions and one or more identities associated with the virtual asset. A CSRI may be determined for each function based on the cyber security risk model that takes into account the cyber security risks or attributes associated with each function, connection and identity associated with the virtual environment or virtual asset. The asset environment may be adjusted, reconfigured, or otherwise altered based on the CSRI for any given function or for an overall CSRI. An alert may also be triggered based, at least in part, on a determined CSRI.Type: ApplicationFiled: October 24, 2018Publication date: April 30, 2020Inventors: Richard G. Scott, Cris Owen DeWitt, Matthew Mowrer
-
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