Patents by Inventor John Daynes
John Daynes 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: 10814978Abstract: Technologies and implementations for using unmanned aerial vehicles in emergency applications.Type: GrantFiled: June 11, 2018Date of Patent: October 27, 2020Assignee: Physio-Control, Inc.Inventors: Robert G. Walker, Mitchell Smith, Kristina Furlan, John Daynes, Michael Arbuck, Alex Esibov, Melissa Pochop-Miller, Dennis Skelton
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Patent number: 10118048Abstract: A defibrillator system optimizes the timing and manner of applying a defibrillator charge to a patient based upon data provided to the defibrillator from a utility module or one or more external devices. A parameter module on the utility module provides the defibrillator with patient parameter information. Devices external to the utility module may provide the utility module with coaching data that the utility module may pass through to the defibrillator as a proxy to the external devices. The utility module may also provide external devices with patient data that the utility module may pass through to the external devices as a proxy to the defibrillator on a scheduled or other basis. The utility module may additionally provide a reserve of power to enable defibrillators to be used where power is unavailable and to enable defibrillators to deliver multiple charges more readily anywhere, anytime.Type: GrantFiled: October 3, 2016Date of Patent: November 6, 2018Assignee: PHYSIO-CONTROL, INC.Inventors: David Dean Aoyama, Ryan William Apperson, Matthew Lawrence Bielstein, Barry D. Curtin, John Daynes, Kevin C. Drew, Karen Kraft Langman, Mina Lim, Neil G. McIlvaine, E. Thomas McKay, Randy L. Merry, Ken Peterson
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Patent number: 10105546Abstract: A defibrillator system optimizes the timing and manner of applying a defibrillator charge to a patient based upon data provided to the defibrillator from a utility module or one or more external devices. A parameter module on the utility module provides the defibrillator with patient parameter information. Devices external to the utility module may provide the utility module with coaching data that the utility module may pass through to the defibrillator as a proxy to the external devices. The utility module may also provide external devices with patient data that the utility module may pass through to the external devices as a proxy to the defibrillator on a scheduled or other basis. The utility module may additionally provide a reserve of power to enable defibrillators to be used where power is unavailable and to enable defibrillators to deliver multiple charges more readily anywhere, anytime.Type: GrantFiled: November 30, 2012Date of Patent: October 23, 2018Assignee: PHYSIO-CONTROL, INC.Inventors: Barry D. Curtin, John Daynes, Karen Kraft Langman, Mina Lim, Neil G. McIlvaine, E. Thomas McKay, Randy L. Merry, Ken Peterson, Mitchell Allen Smith
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Publication number: 20180297702Abstract: Technologies and implementations for using unmanned aerial vehicles in emergency applications.Type: ApplicationFiled: June 11, 2018Publication date: October 18, 2018Inventors: Robert G. Walker, Mitchell Smith, Kristina Furlan, John Daynes, Michael Arbuck, Alex Esibov, Melissa Pochop-Miller, Dennis Skelton
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Patent number: 9994315Abstract: Systems and methods for the use of unmanned aerial vehicles (UAVs) in medical emergencies are disclosed herein. The systems and methods include receiving at a first UAV an indication of a medical emergency and coordinating with a second UAV based on the second UAV's capabilities. The first UAV determines if the capabilities of the second UAV complement the capabilities of the first UAV based on the indicated medical emergency. The disclosed systems and methods deploy both the first and second UAVs to the medical emergency if the capabilities of the second UAV complement those of the first UAV.Type: GrantFiled: July 18, 2016Date of Patent: June 12, 2018Assignee: Physio-Control, Inc.Inventors: Robert G. Walker, Mitchell Smith, Kristina Furlan, John Daynes, Michael Arbuck, Alex Esibov, Melissa Pochop-Miller, Dennis Skelton
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Publication number: 20170255755Abstract: A decision support definitions library stores one or more decision support definitions for providing appropriate treatment paths. A device management library stores device and configuration setting information on one or more devices associated with an organization, the configuration setting including information on smart agents residing on the one or more devices. A decision support definition editor is configured to modify a selected one or more decision support definitions and one or more device and configuration settings. A decision support definition generator is configured to create an installation configuration file including an entry for each of a selected one or more decision support definitions, wherein each entry comprises: (i) information that identifies the respective decision support definition, (ii) configuration information, and (iii) information that identifies an installation program.Type: ApplicationFiled: October 12, 2015Publication date: September 7, 2017Inventors: Kenneth J. PETERSON, John DAYNES, Mitchell Smith, Jeffery Edwards, David B. Stewart, Cheryl Protas
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Publication number: 20170137124Abstract: Technologies and implementations for using unmanned aerial vehicles in medical applications.Type: ApplicationFiled: July 18, 2016Publication date: May 18, 2017Inventors: Robert G. Walker, Mitchell Smith, Kristina Furlan, John Daynes, Michael Arbuck, Alex Esibov, Melissa Pochop-Miller, Dennis Skelton
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Publication number: 20170021183Abstract: A defibrillator system optimizes the timing and manner of applying a defibrillator charge to a patient based upon data provided to the defibrillator from a utility module or one or more external devices. A parameter module on the utility module provides the defibrillator with patient parameter information. Devices external to the utility module may provide the utility module with coaching data that the utility module may pass through to the defibrillator as a proxy to the external devices. The utility module may also provide external devices with patient data that the utility module may pass through to the external devices as a proxy to the defibrillator on a scheduled or other basis. The utility module may additionally provide a reserve of power to enable defibrillators to be used where power is unavailable and to enable defibrillators to deliver multiple charges more readily anywhere, anytime.Type: ApplicationFiled: October 3, 2016Publication date: January 26, 2017Inventors: David Dean Aoyama, Ryan William Apperson, Matthew Lawrence Bielstein, Barry D. Curtin, John Daynes, Kevin C. Drew, Karen Kraft Langman, Mina Lim, Neil G. McIlvaine, E. Thomas McKay, Randy L. Merry, Ken Peterson
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Patent number: 9457197Abstract: A defibrillator system optimizes the timing and manner of applying a defibrillator charge to a patient based upon data provided to the defibrillator from a utility module or one or more external devices. A parameter module on the utility module provides the defibrillator with patient parameter information. Devices external to the utility module may provide the utility module with coaching data that the utility module may pass through to the defibrillator as a proxy to the external devices. The utility module may also provide external devices with patient data that the utility module may pass through to the external devices as a proxy to the defibrillator on a scheduled or other basis. The utility module may additionally provide a reserve of power to enable defibrillators to be used where power is unavailable and to enable defibrillators to deliver multiple charges more readily anywhere, anytime.Type: GrantFiled: November 30, 2012Date of Patent: October 4, 2016Assignee: Physio-Control, Inc.Inventors: David Dean Aoyama, Ryan William Apperson, Matthew Lawrence Bielstein, Barry D. Curtin, John Daynes, Kevin C. Drew, Karen Kraft Langman, Mina Lim, Neil G. McIlvaine, E. Thomas McKay, Randy L. Merry, Ken Peterson
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Patent number: 8890702Abstract: Defibrillators, software and methods are provided, for transmitting inaudible audio information to one or more external personal sound devices. The audio information may encode an audible indication, which can thus be played by an external personal sound device to a user such as a rescuer.Type: GrantFiled: January 28, 2011Date of Patent: November 18, 2014Assignee: Physio-Control, Inc.Inventors: Glen Caby, Richard C. Nova, John Daynes, Ryan F. Landon
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Patent number: 8744574Abstract: Defibrillators, software and methods are provided, for issued verbal prompts to rescuers. A defibrillator may receive a muting input and, responsive thereto, cause a verbal prompt to not be issued or to be issued less loudly relative another verbal prompt.Type: GrantFiled: January 28, 2011Date of Patent: June 3, 2014Assignee: Physio-Control, Inc.Inventors: John Daynes, Glen Caby, Richard C. Nova
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Publication number: 20130304145Abstract: A defibrillator system optimizes the timing and manner of applying a defibrillator charge to a patient based upon data provided to the defibrillator from a utility module or one or more external devices. A parameter module on the utility module provides the defibrillator with patient parameter information. Devices external to the utility module may provide the utility module with coaching data that the utility module may pass through to the defibrillator as a proxy to the external devices. The utility module may also provide external devices with patient data that the utility module may pass through to the external devices as a proxy to the defibrillator on a scheduled or other basis. The utility module may additionally provide a reserve of power to enable defibrillators to be used where power is unavailable and to enable defibrillators to deliver multiple charges more readily anywhere, anytime.Type: ApplicationFiled: November 30, 2012Publication date: November 14, 2013Applicant: PHYSIO-CONTROL, INC.Inventors: David Dean Aoyama, Ryan William Apperson, Matthew Lawrence Bielstein, Barry D. Curtin, John Daynes, Kevin C. Drew, Karen Kraft Langman, Mina Lim, Neil G. McIlvaine, E. Thomas McKay, Randy L. Merry, Ken Peterson
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Publication number: 20130304142Abstract: A defibrillator system optimizes the timing and manner of applying a defibrillator charge to a patient based upon data provided to the defibrillator from a utility module or one or more external devices. A parameter module on the utility module provides the defibrillator with patient parameter information. Devices external to the utility module may provide the utility module with coaching data that the utility module may pass through to the defibrillator as a proxy to the external devices. The utility module may also provide external devices with patient data that the utility module may pass through to the external devices as a proxy to the defibrillator on a scheduled or other basis. The utility module may additionally provide a reserve of power to enable defibrillators to be used where power is unavailable and to enable defibrillators to deliver multiple charges more readily anywhere, anytime.Type: ApplicationFiled: November 30, 2012Publication date: November 14, 2013Applicant: Physio-Control, Inc.Inventors: Barry D. Curtin, John Daynes, Karen Kraft Langman, Mina Lim, Neil G. McIlvaine, E. Thomas McKay, Randy L. Merry, Ken Peterson, Mitchell Allen Smith
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Publication number: 20120105238Abstract: Defibrillators, software and methods are provided, for transmitting inaudible audio information to one or more external personal sound devices. The audio information may encode an audible indication, which can thus be played by an external personal sound device to a user such as a rescuer.Type: ApplicationFiled: January 28, 2011Publication date: May 3, 2012Applicant: PHYSIO-CONTROL, INC.Inventors: Glen Caby, Richard C. Nova, John Daynes, Ryan F. Landon
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Publication number: 20120109239Abstract: Defibrillators, software and methods are provided, for issued verbal prompts to rescuers. A defibrillator may receive a muting input and, responsive thereto, cause a verbal prompt to not be issued or to be issued less loudly relative another verbal prompt.Type: ApplicationFiled: January 28, 2011Publication date: May 3, 2012Applicant: PHYSIO-CONTROL, INC.Inventors: John Daynes, Glen Caby, Richard C. Nova
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Publication number: 20080183229Abstract: A modular external defibrillator system in embodiments of the teachings may include one or more of the following features: (a) a base containing a defibrillator module to deliver a defibrillation shock to a patient, (b) a patient parameter monitoring pod connectable to a patient via patient lead cables to collect patient data, the patient data including at least one patient vital sign, (c) a power supply sharing link between the base and the pod, the pod receiving power from the base via the power sharing link, the pod being operable to collect patient data without receiving power from the base, and (d) an external battery charger, the battery charger interrogating the batteries to determine battery information used for battery charging, the battery information including at least one of charging voltage, charging current, and charge time.Type: ApplicationFiled: December 17, 2004Publication date: July 31, 2008Inventors: James Neumiller, Thomas McGrath, Rockland Nordness, John Daynes
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Publication number: 20060079938Abstract: The disclosure describes a medical device that provides an indication of the status of an energy storage device from which it receives power. For example, the medical device may provide an estimate of the number of therapy delivery events available from the medical device based on an estimate of the amount of energy stored in the energy storage device. The medical device may be an external defibrillator, and the therapy delivery events may be defibrillation shocks. Additionally or alternatively, the medical device may indicate an estimated amount of operational time remaining in each of a plurality of monitoring modes based on the estimated amount of stored energy. The energy storage device may be a battery. An energy storage device that itself provides an indication of its status is also disclosed.Type: ApplicationFiled: October 13, 2004Publication date: April 13, 2006Inventors: Susan Fleenor, John Daynes
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Patent number: D724218Type: GrantFiled: December 21, 2012Date of Patent: March 10, 2015Assignee: Physio-Control, Inc.Inventors: John Daynes, Mina Lim, Barry D Curtin, Karen Kraft Langman, Neil G. McIlvaine, E. Thomas McKay, Randy L. Merry, Ken Peterson, Mitchell Allen Smith
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Patent number: D724219Type: GrantFiled: April 19, 2013Date of Patent: March 10, 2015Assignee: Physio-Control, Inc.Inventors: John Daynes, Mina Lim, Barry D Curtin, Karen Kraft Langman, Neil G. McIlvaine, E. Thomas McKay, Randy L. Merry, Ken Peterson, Mitchell Allen Smith