Patents by Inventor Jerome Edwards
Jerome Edwards 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: 9078583Abstract: In some embodiments, a system includes a near-field instrument to be placed inside a chamber of a heart, a far-field instrument to be placed in a stable position in relation to the heart (e.g., the coronary sinus), and a control unit. The control unit is configured to receive position coordinates of the near-field instrument and electrogram information from the far-field instrument. The control unit is configured to identify a unique pattern in the electrogram information from the far-field instrument and store the associated near-field instrument position information with the unique pattern information and near-field instrument electrogram information. While recording electrogram information from the near-field instrument, the control unit is also configured to record voltage and complex fractionated atrial electrogram (CFAE) characteristics of the tissue inside a heart chamber. This information combined with rotor information can be used to identify substrate versus non-substrate rotor characteristics.Type: GrantFiled: August 22, 2014Date of Patent: July 14, 2015Assignee: AFTx, Inc.Inventors: Bao Nguyen, Jerome Edwards, Paul Kessman, Thomas Kurian, Donald Conty, Jr.
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Publication number: 20150057522Abstract: In some embodiments, a system includes a near-field instrument to be placed inside a chamber of a heart, a far-field instrument to be placed in a stable position in relation to the heart (e.g., the coronary sinus), and a control unit. The control unit is configured to receive position coordinates of the near-field instrument and electrogram information from the far-field instrument. The control unit is configured to identify a unique pattern in the electrogram information from the far-field instrument. When the unique pattern is detected, the control unit is configured to receive electrogram information from the near-field instrument and store the associated near-field instrument position information with the unique pattern information and near-field instrument electrogram information. Upon moving the near-field instrument within the heart chamber, the control unit is configured to identify the unique pattern in the electrogram information from the far-field instrument again.Type: ApplicationFiled: August 22, 2014Publication date: February 26, 2015Applicant: CardioNXT, Inc.Inventors: Bao Nguyen, Jerome Edwards, Paul Kessman, Thomas Kurian, Donald Conty, JR.
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Publication number: 20110260396Abstract: A bumper hockey game may be provided. The bumper hockey game may comprises a hockey board, a plurality of rails, a plurality of goals, and a plurality of guard blocks. The plurality of rails may surround the hockey board. The plurality of guard blocks may each situated near one of the plurality of goals.Type: ApplicationFiled: April 26, 2010Publication date: October 27, 2011Inventor: Jerome Edward Kokoszka
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Patent number: 7742934Abstract: Systems consistent with the present invention implement provide information regarding savings associated travel alternatives. Such systems receive requests from users reflecting travel itineraries, respectively. Each itinerary is analyzed to determine a set of alternative itineraries comparable to the travel itinerary specified in the request based on selected rules associated with travel. Then a value or cost of the input travel itinerary is determined and a value for each of the alternative itineraries is also calculated. The systems then generate a report reflecting the input travel itinerary specified in the request, each of the alternative itineraries, the value for each travel itinerary, and a difference between the value for the travel itinerary specified in the request and each of the alternative itineraries.Type: GrantFiled: March 25, 1999Date of Patent: June 22, 2010Assignee: Travelocity.com LPInventors: Joseph Robert Offutt, Jr., Jerome Edward Cash
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Patent number: 7219254Abstract: A plurality of local network groups of computers (102) are coupled together by a network (104). Independent processing systems that execute a single operating system are coupled together by a network (220) to form the local network groups. The independent processing systems may have more than one CPU (202). One or more of the independent processing systems may share power, cooling and a housing, thereby forming a common fault processor group (200). An application is written to execute across multiple independent processing systems and common fault processor groups. That is, the application runs in many instances that each run on independent processing systems. The multiple instances of the application provide some measure of high availability by using N+K sparing or the like. The application is for example, call processing or radio control. A processor notification list (304) keeps track of the independent processing systems that cooperatively provide an application.Type: GrantFiled: March 19, 2003Date of Patent: May 15, 2007Assignee: Lucent Technologies Inc.Inventors: Dale Frank Rathunde, Jerome Edward Rog, William E. Witt
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Publication number: 20070066881Abstract: A method includes receiving during a first time interval image data associated with an image of a dynamic body. The image data includes an indication of the positions of a first marker and a second marker on a garment coupled to the dynamic body. The first marker and second marker are each coupled to the garment at a first and second locations, respectively. A distance is determined between the position of the first marker and the second marker. During a second time interval after the first time interval, data associated with a position of a first and second localization element that are each coupled to the garment is received. A distance between the first and second localization elements is determined. A difference is calculated between the distance between the first marker and the second marker and the distance between the first localization element and the second localization element.Type: ApplicationFiled: September 13, 2005Publication date: March 22, 2007Inventors: Jerome Edwards, Evan Austill, Torsten Lyon, Troy Holsing
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Publication number: 20070060799Abstract: A method includes receiving during a first time interval associated with a path of motion of a dynamic body, image data associated with a plurality of images of the dynamic body. The plurality of images include an indication of a position of a first marker coupled to a garment at a first location, and a position of a second marker coupled to the garment at a second location. The garment is coupled to the dynamic body. During a second time interval, an image from the plurality of images is automatically identified that includes a position of the first marker that is substantially the same as a position of a first localization element relative to the dynamic body and a position of the second marker that is substantially the same as a position of the second localization element relative to the dynamic body.Type: ApplicationFiled: April 25, 2006Publication date: March 15, 2007Inventors: Torsten Lyon, Troy Holsing, Jerome Edwards, Christopher Lee, Evan Austill
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Patent number: 7149918Abstract: A plurality of local network groups of computers (102) are coupled together by a network (104). Independent processing systems that execute a single operating system are coupled together by a network (220) to form the local network groups. The independent processing systems may have more than one CPU (202). One or more of the independent processing systems may share power, cooling and a housing, thereby forming a common fault processor group (200). An application is written to execute across multiple independent processing systems and common fault processor groups. That is, the application runs in many instances that each run on independent processing systems. The multiple instances of the application provide some measure of high availability by using N+K sparing or the like. The application is for example, call processing or radio control. A processor notification list (304) keeps track of the independent processing systems that cooperatively provide an application.Type: GrantFiled: March 19, 2003Date of Patent: December 12, 2006Assignee: Lucent Technologies Inc.Inventors: Dale Frank Rathunde, Jerome Edward Rog, William E. Witt
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Patent number: 7134046Abstract: A plurality of local network groups of computers (102) are coupled together by a network (104). Independent processing systems that execute a single operating system are coupled together by a network (220) to form the local network groups. The independent processing systems may have more than one CPU (202). One or more of the independent processing systems may share power, cooling and a housing, thereby forming a common fault processor group (200). An application is written to execute across multiple independent processing systems and common fault processor groups. That is, the application runs in many instances that each run on independent processing systems. The multiple instances of the application provide some measure of high availability by using N+K sparing or the like. The application is for example, call processing or radio control. A processor notification list (304) keeps track of the independent processing systems that cooperatively provide an application.Type: GrantFiled: March 19, 2003Date of Patent: November 7, 2006Assignee: Lucent Technologies Inc.Inventors: Dale Frank Rathunde, Jerome Edward Rog, William E. Witt
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Patent number: 7127637Abstract: A plurality of local network groups of computers (102) are coupled together by a network (104). Independent processing systems that execute a single operating system are coupled together by a network (220) to form the local network groups. The independent processing systems may have more than one CPU (202). One or more of the independent processing systems may share power, cooling and a housing, thereby forming a common fault processor group (200). An application is written to execute across multiple independent processing systems and common fault processor groups. That is, the application runs in many instances that each run on independent processing systems. The multiple instances of the application provide some measure of high availability by using N+K sparing or the like. The application is for example, call processing or radio control. A processor notification list (304) keeps track of the independent processing systems that cooperatively provide an application.Type: GrantFiled: March 19, 2003Date of Patent: October 24, 2006Assignee: Lucent Technologies Inc.Inventors: Dale Frank Rathunde, Jerome Edward Rog, William E. Witt
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Patent number: 6974139Abstract: A skag for a ski, such as a vehicle ski. The skag includes a carrier platform to be attached to the bottom surface of a ski. First and second longitudinal rails are disposed on the lower surface of the carrier platform. The longitudinal rails are spaced apart laterally from one another. First and second longitudinal keels are disposed on the first and second rails, respectively. At least a portion of the first rail may extend beyond the first lateral edge of the carrier platform, and at least a portion of the second rail may extend beyond the second lateral edge of the carrier platform. The back ends of the rails may be shaped so as to be flush against the carrier platform, or to have some other shape that at least partially fills in the grooves left by the keels. The skag may be made to have a unitary structure, as by welding the components thereof together to form a single piece.Type: GrantFiled: February 18, 2003Date of Patent: December 13, 2005Assignee: Arctic Cat Inc.Inventor: Jerome Edward Lund
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Publication number: 20050038337Abstract: Methods, apparatuses, and systems relating to image guided interventions on dynamic tissue. One embodiment is a method that includes creating a dataset that includes images, one of the images depicting a non-tissue internal reference marker, being linked to non-tissue internal reference marker positional information, and being at least 2-dimensional. Another embodiment is a method that includes receiving a position of an instrument reference marker coupled to an instrument; transforming the position into image space using a position of a non-tissue internal reference marker implanted in a patient; and superimposing a representation of the instrument on an image in which the non-tissue internal reference marker appears. Computer readable media that include machine readable instructions for carrying out the steps of the disclosed methods. Apparatuses, such as integrated circuits, configured to carry out the steps of the disclosed methods.Type: ApplicationFiled: August 26, 2003Publication date: February 17, 2005Inventor: Jerome Edwards
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Publication number: 20050004611Abstract: An improved system and method for detecting dislodgement of an implantable medical device (IMD) such as a catheter or lead is disclosed. The system includes means for generating multiple, orthogonally-related signals within a body. For example, three current signals having a current path substantially oriented in the X, Y, and Z directions may be generated within the body. The invention further includes an IMD having an affixation device such as a helix at a distal tip for attachment to body tissue, and at least two sensing devices to sense the signals generated within the body. The difference in signal levels between two of the sensing devices may be measured. For example, a voltage potential difference created by the currents within the body may be measured between two electrodes. This measured signal level has components in the X, Y, and Z directions, and may therefore be used to define a directional vector in three-dimensional space. This vector is indicative of the orientation of the IMD.Type: ApplicationFiled: May 24, 2004Publication date: January 6, 2005Inventors: Jerome Edwards, William Flickinger, Bradley Jascob
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Patent number: 6807439Abstract: An improved system and method for detecting dislodgement of an implantable medical device (IMD) such as a catheter or lead is disclosed. The system includes means for generating multiple, orthogonally-related signals within a body. For example, three current signals having a current path substantially oriented in the X, Y, and Z directions may be generated within the body. The invention further includes an IMD having an affixation device such as a helix at a distal tip for attachment to body tissue, and at least two sensing devices to sense the signals generated within the body. The difference in signal levels between two of the sensing devices may be measured. For example, a voltage potential difference created by the currents within the body may be measured between two electrodes. This measured signal level has components in the X, Y, and Z directions, and may therefore be used to define a directional vector in three-dimensional space. This vector is indicative of the orientation of the IMD.Type: GrantFiled: April 3, 2001Date of Patent: October 19, 2004Assignee: Medtronic, Inc.Inventors: Jerome Edwards, William J. Flickinger, Bradley A. Jascob
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Publication number: 20040199806Abstract: A plurality of local network groups of computers (102) are coupled together by a network (104). Independent processing systems that execute a single operating system are coupled together by a network (220) to form the local network groups. The independent processing systems may have more than one CPU (202). One or more of the independent processing systems may share power, cooling and a housing, thereby forming a common fault processor group (200). An application is written to execute across multiple independent processing systems and common fault processor groups. That is, the application runs in many instances that each run on independent processing systems. The multiple instances of the application provide some measure of high availability by using N+K sparing or the like. The application is for example, call processing or radio control. A processor notification list (304) keeps track of the independent processing systems that cooperatively provide an application.Type: ApplicationFiled: March 19, 2003Publication date: October 7, 2004Inventors: Dale Frank Rathunde, Jerome Edward Rog, William E. Witt
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Publication number: 20040199811Abstract: A plurality of local network groups of computers (102) are coupled together by a network (104). Independent processing systems that execute a single operating system are coupled together by a network (220) to form the local network groups. The independent processing systems may have more than one CPU (202). One or more of the independent processing systems may share power, cooling and a housing, thereby forming a common fault processor group (200). An application is written to execute across multiple independent processing systems and common fault processor groups. That is, the application runs in many instances that each run on independent processing systems. The multiple instances of the application provide some measure of high availability by using N+K sparing or the like. The application is for example, call processing or radio control. A processor notification list (304) keeps track of the independent processing systems that cooperatively provide an application.Type: ApplicationFiled: March 19, 2003Publication date: October 7, 2004Inventors: Dale Frank Rathunde, Jerome Edward Rog, William E. Witt
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Publication number: 20040199804Abstract: A plurality of local network groups of computers (102) are coupled together by a network (104). Independent processing systems that execute a single operating system are coupled together by a network (220) to form the local network groups. The independent processing systems may have more than one CPU (202). One or more of the independent processing systems may share power, cooling and a housing, thereby forming a common fault processor group (200). An application is written to execute across multiple independent processing systems and common fault processor groups. That is, the application runs in many instances that each run on independent processing systems. The multiple instances of the application provide some measure of high availability by using N+K sparing or the like. The application is for example, call processing or radio control. A processor notification list (304) keeps track of the independent processing systems that cooperatively provide an application.Type: ApplicationFiled: March 19, 2003Publication date: October 7, 2004Inventors: Dale Frank Rathunde, Jerome Edward Rog, William E. Witt
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Publication number: 20040187047Abstract: A plurality of local network groups of computers (102) are coupled together by a network (104). Independent processing systems that execute a single operating system are coupled together by a network (220) to form the local network groups. The independent processing systems may have more than one CPU (202). One or more of the independent processing systems may share power, cooling and a housing, thereby forming a common fault processor group (200). An application is written to execute across multiple independent processing systems and common fault processor groups. That is, the application runs in many instances that each run on independent processing systems. The multiple instances of the application provide some measure of high availability by using N+K sparing or the like. The application is for example, call processing or radio control. A processor notification list (304) keeps track of the independent processing systems that cooperatively provide an application.Type: ApplicationFiled: March 19, 2003Publication date: September 23, 2004Inventors: Dale Frank Rathunde, Jerome Edward Rog, William E. Witt
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Publication number: 20040160026Abstract: A skag for a ski, such as a vehicle ski. The skag includes a carrier platform to be attached to the bottom surface of a ski. First and second longitudinal rails are disposed on the lower surface of the carrier platform. The longitudinal rails are spaced apart laterally from one another. First and second longitudinal keels are disposed on the first and second rails, respectively. At least a portion of the first rail may extend beyond the first lateral edge of the carrier platform, and at least a portion of the second rail may extend beyond the second lateral edge of the carrier platform. The back ends of the rails may be shaped so as to be flush against the carrier platform, or to have some other shape that at least partially fills in the grooves left by the keels. The skag may be made to have a unitary structure, as by welding the components thereof together to form a single piece.Type: ApplicationFiled: February 18, 2003Publication date: August 19, 2004Inventor: Jerome Edward Lund
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Patent number: 6726362Abstract: The present invention relates to shoe bags useful in laundering processes, especially for laundering of shoes, particularly leather-containing shoes, such as athletic shoes. The shoe bags of the present invention are preferably used in combination with compositions for treating one or more shoes in need of treatment, and methods and articles of manufacture employing same to treat the shoes prior to and/or during and/or after washing the shoes for imparting a desired benefit to the shoes such as cleaning and/or conditioning and/or disinfecting and/or deodorizing.Type: GrantFiled: October 20, 2000Date of Patent: April 27, 2004Assignee: The Procter & Gamble CompanyInventors: Jerome Edward Frisch, Thomas Charles Hortel, Yana Milligan Nicks