Patents by Inventor Jeffrey Michael Fries
Jeffrey Michael Fries 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: 11400964Abstract: A route examining system includes first and second detection units and an identification unit. The first and second detection units are configured to be disposed onboard a vehicle system traveling along a route having plural conductive tracks. The first and second detection units are disposed at spaced apart locations along a length of the vehicle system. The first and second detection units are configured to monitor one or more electrical characteristics of the conductive tracks in response to an examination signal being electrically injected into at least one of the conductive tracks. The identification unit includes one or more processors configured to determine that a section of the route includes an electrical short responsive to the one or more electrical characteristics monitored by the first and second detection units indicating that the examination signal is received by only one of the first and second detection units.Type: GrantFiled: October 25, 2018Date of Patent: August 2, 2022Assignee: Transportation IP Holdings, LLCInventors: Joseph Forrest Noffsinger, Ajith Kuttannair Kumar, Yuri Alexeyevich Plotnikov, Jeffrey Michael Fries, Steven Joseph Ehret
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Patent number: 11136053Abstract: Systems for examining a route inject one or more electrical examination signals into a conductive route from onboard a vehicle system traveling along the route, detect one or more electrical characteristics of the route based on the one or more electrical examination signals, and detect a break in conductivity of the route responsive to the one or more electrical characteristics decreasing by more than a designated drop threshold for a time period within a designated drop time period. Feature vectors may be determined for the electrical characteristics and compared to one or more patterns in order to distinguish between breaks in the conductivity of the route and other causes for changes in the electrical characteristics.Type: GrantFiled: July 10, 2019Date of Patent: October 5, 2021Assignee: TRANSPORTATION IP HOLDINGS, LLCInventors: Yuri Alexeyevich Plotnikov, Brett Alexander Matthews, Ajith Kuttannair Kumar, Jeffrey Michael Fries, Joseph Forrest Noffsinger, Samhitha Palanganda Poonacha, Tannous Frangieh, Frederick Wilson Wheeler, Brian Lee Staton, Timothy Robert Brown, Gregory Boverman, Majid Nayeri
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Patent number: 10501100Abstract: Systems for examining a route inject one or more electrical examination signals into a conductive route from onboard a vehicle system traveling along the route, detect one or more electrical characteristics of the route based on the one or more electrical examination signals, and detect a break in conductivity of the route responsive to the one or more electrical characteristics decreasing by more than a designated drop threshold for a time period within a designated drop time period. Feature vectors may be determined for the electrical characteristics and compared to one or more patterns in order to distinguish between breaks in the conductivity of the route and other causes for changes in the electrical characteristics.Type: GrantFiled: October 30, 2017Date of Patent: December 10, 2019Assignee: GE GLOBAL SOURCING LLCInventors: Yuri Alexeyevich Plotnikov, Brett Alexander Matthews, Ajith Kuttannair Kumar, Jeffrey Michael Fries, Joseph Forrest Noffsinger, Samhitha Palanganda Poonacha, Tannous Frangieh, Frederick Wilson Wheeler, Brian Lee Staton, Timothy Robert Brown, Gregory Boverman, Majid Nayeri
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Publication number: 20190344814Abstract: Systems for examining a route inject one or more electrical examination signals into a conductive route from onboard a vehicle system traveling along the route, detect one or more electrical characteristics of the route based on the one or more electrical examination signals, and detect a break in conductivity of the route responsive to the one or more electrical characteristics decreasing by more than a designated drop threshold for a time period within a designated drop time period. Feature vectors may be determined for the electrical characteristics and compared to one or more patterns in order to distinguish between breaks in the conductivity of the route and other causes for changes in the electrical characteristics.Type: ApplicationFiled: July 10, 2019Publication date: November 14, 2019Inventors: Yuri Alexeyevich Plotnikov, Brett Alexander Matthews, Ajith Kuttannair Kumar, Jeffrey Michael Fries, Joseph Forrest Noffsinger, Samhitha Palanganda Poonacha, Tannous Frangieh, Frederick Wilson Wheeler, Brian Lee Staton, Timothy Robert Brown, Gregory Boverman, Majid Nayeri
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Patent number: 10292230Abstract: A system includes at least one signal light having at least one lamp. The system further includes a control device electrically connected to the at least one lamp by a conductive cable. The at least one lamp is configured to flash in response to the loss of an audio signal generated by the control device.Type: GrantFiled: June 24, 2016Date of Patent: May 14, 2019Assignee: ALSTOM TRANSPORT TECHNOLOGIESInventors: William David Shields, Forrest Henry Ballinger, Jeffrey Michael Fries, Larry John Anderson, Wayne Nelson Wheeler
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Patent number: 10252735Abstract: A monitoring method and system monitor a transmitted current that is injected into conductive components of a route traveled by vehicle systems, monitor a received current that represents a portion of the transmitted current that is conducted through the conductive components of the route, examine changes in the transmitted and/or received current over time to determine when the vehicle systems are on the route between a first location where the transmitted current is injected into the conductive components and a second location where the received current is monitored, and examine the changes in the transmitted and/or received currents. The changes are examined to identify (a) a contaminated portion of a surface on which the route is disposed, (b) a foreign object other than the vehicle systems that is contacting the route, and/or (c) a damaged or broken portion of at least one of the conductive components of the route.Type: GrantFiled: November 7, 2016Date of Patent: April 9, 2019Assignee: GE GLOBAL SOURCING LLCInventors: Jeffrey Michael Fries, Joseph Forrest Noffsinger, Richard Lee Lawson, Aric Albert Weingartner, Curtis Doyle Mechling, Aaron Richard Mitti, Martin Paget, William David Shields
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Publication number: 20190061794Abstract: A route examining system includes first and second detection units and an identification unit. The first and second detection units are configured to be disposed onboard a vehicle system traveling along a route having plural conductive tracks. The first and second detection units are disposed at spaced apart locations along a length of the vehicle system. The first and second detection units are configured to monitor one or more electrical characteristics of the conductive tracks in response to an examination signal being electrically injected into at least one of the conductive tracks. The identification unit includes one or more processors configured to determine that a section of the route includes an electrical short responsive to the one or more electrical characteristics monitored by the first and second detection units indicating that the examination signal is received by only one of the first and second detection units.Type: ApplicationFiled: October 25, 2018Publication date: February 28, 2019Inventors: Joseph Forrest Noffsinger, Ajith Kuttannair Kumar, Yuri Alexeyevich Plotnikov, Jeffrey Michael Fries, Steven Joseph Ehret
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Patent number: 10167005Abstract: A route examining system includes first and second detection units and an identification unit. The first and second detection units are configured to be disposed onboard a vehicle system traveling along a route having plural conductive tracks. The first and second detection units are disposed at spaced apart locations along a length of the vehicle system. The first and second detection units are configured to monitor one or more electrical characteristics of the conductive tracks in response to an examination signal being electrically injected into at least one of the conductive tracks. The identification unit includes one or more processors configured to determine that a section of the route includes an electrical short responsive to the one or more electrical characteristics monitored by the first and second detection units indicating that the examination signal is received by only one of the first and second detection units.Type: GrantFiled: March 19, 2016Date of Patent: January 1, 2019Assignee: General Electric CompanyInventors: Joseph Forrest Noffsinger, Ajith Kuttannair Kumar, Yuri Alexeyevich Plotnikov, Jeffrey Michael Fries, Steven Joseph Ehret
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Patent number: 10145983Abstract: A vibration monitoring system includes an acoustic device that outputs an analog signal to a fiber cable for calibration and location verification. The acoustic device utilizes GPS or communication from wayside bungalow equipment to verify GPS location or real-time clock information. The wayside bungalow contains communication equipment that interfaces with the acoustic device and relays health information to a sensing processor. The sensing processor is configured to detect the acoustic signal output by the acoustic device at a known location and verifies that the cable and device have not moved location by comparing the signal level received against a threshold stored in memory. When the threshold is exceeded, the sensing processor sends an alert that the fiber optic cable or acoustic device at the location have changed.Type: GrantFiled: May 12, 2016Date of Patent: December 4, 2018Assignee: Alstom Transport TechnologiesInventors: Nicholas David Nagrodsky, James Michael Kiss, Jr., Jeffrey Michael Fries, Derick Diaz, David Farmer
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Patent number: 10006877Abstract: A system may include a coded test signal transmission system configured to transmit a unique coded test signal along a route, and a coded test signal receiving system configured to receive the unique coded test signal along the route. The unique coded test signal received by the coded test signal receiving system is used to determine one or more characteristics of the route.Type: GrantFiled: August 20, 2014Date of Patent: June 26, 2018Assignee: General Electric CompanyInventors: Ajith Kuttannair Kumar, Jeffrey Michael Fries, Joseph Forrest Noffsinger, Michael Scott Mitchell, Steven Joseph Ehret
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Publication number: 20180065650Abstract: Systems for examining a route inject one or more electrical examination signals into a conductive route from onboard a vehicle system traveling along the route, detect one or more electrical characteristics of the route based on the one or more electrical examination signals, and detect a break in conductivity of the route responsive to the one or more electrical characteristics decreasing by more than a designated drop threshold for a time period within a designated drop time period. Feature vectors may be determined for the electrical characteristics and compared to one or more patterns in order to distinguish between breaks in the conductivity of the route and other causes for changes in the electrical characteristics.Type: ApplicationFiled: October 30, 2017Publication date: March 8, 2018Inventors: Yuri Alexeyevich Plotnikov, Brett Alexander Matthews, Ajith Kuttannair Kumar, Jeffrey Michael Fries, Joseph Forrest Noffsinger, Samhitha Palanganda Poonacha, Tannous Frangieh, Frederick Wilson Wheeler, Brian Lee Staton, Timothy Robert Brown, Gregory Boverman, Majid Nayeri
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Patent number: 9845023Abstract: A system includes at least one application device, a control unit, and at least one processor. The at least one application device is conductively or inductively coupled with at least one of a first conductive track or a second conductive track. The control unit is configured to control supply of electric current from a power source to the at least one application device to electrically inject at least one examination signal into the conductive tracks. The at least one processor is configured to monitor the one or more electrical characteristics of at least one of the first or second conductive tracks, and to identify a construction feature of the route based on the one or more electrical characteristics, wherein the construction feature corresponds to a man-made aspect of the route.Type: GrantFiled: October 17, 2016Date of Patent: December 19, 2017Assignee: General Electric CompanyInventors: Joseph Forrest Noffsinger, Jeffrey Michael Fries
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Patent number: 9842502Abstract: A system includes a detection module, a control module, an input module, and a determination module. The detection module is configured to obtain information from one or more detectors corresponding to a condition of a transportation network. The control module is configured to issue control messages using the information obtained. The input module is configured to receive a request for the control module to enter a test mode corresponding to an alteration of at least one of an input or an output of the control module from an operational mode. The determination module is configured to determine if an authorization condition corresponding to a physical state of one or more functional activity module of the transportation network is satisfied. The control module is transferred to the test mode if the authorization condition is satisfied and maintained in the operational mode if the authorization condition is not satisfied.Type: GrantFiled: January 7, 2014Date of Patent: December 12, 2017Assignee: Alstom Transport TechnologiesInventors: Jeffrey Michael Fries, Jeffrey Keith Baker
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Patent number: 9834237Abstract: Systems and methods for examining a route inject one or more electrical examination signals into a conductive route from onboard a vehicle system traveling along the route, detect one or more electrical characteristics of the route based on the one or more electrical examination signals, apply a filter to the one or more electrical characteristics, and detect a break in conductivity of the route responsive to the one or more electrical characteristics decreasing by more than a designated drop threshold for a time period within a designated drop time period. Feature vectors may be determined for the electrical characteristics and compared to one or more patterns in order to distinguish between breaks in the conductivity of the route and other causes for changes in the electrical characteristics.Type: GrantFiled: August 31, 2015Date of Patent: December 5, 2017Assignee: General Electric CompanyInventors: Yuri Alexeyevich Plotnikov, Brett Alexander Matthews, Ajith Kuttannair Kumar, Jeffrey Michael Fries, Joseph Forrest Noffsinger, Samhitha Palanganda Poonacha, Tannous Frangieh, Frederick Wilson Wheeler, Brian Lee Staton, Timothy Robert Brown, Gregory Boverman, Majid Nayeri
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Patent number: 9802631Abstract: Systems for examining a route inject one or more electrical examination signals into a conductive route from onboard a vehicle system traveling along the route, detect one or more electrical characteristics of the route based on the one or more electrical examination signals, and detect a break in conductivity of the route responsive to the one or more electrical characteristics decreasing by more than a designated drop threshold for a time period within a designated drop time period. Feature vectors may be determined for the electrical characteristics and compared to one or more patterns in order to distinguish between breaks in the conductivity of the route and other causes for changes in the electrical characteristics.Type: GrantFiled: February 18, 2016Date of Patent: October 31, 2017Assignee: General Electric CompanyInventors: Brett Alexander Matthews, Gregory Boverman, Yuri Alexeyevich Plotnikov, Frederick Wilson Wheeler, Majid Nayeri, Jeffrey Michael Fries
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Patent number: 9682716Abstract: A system includes first and second application devices, a control unit, and at least one processor. The first and second application devices are configured to be at least one of conductively or inductively coupled with one of the conductive tracks. The control unit is configured to control the first and second application devices in order to electrically inject a first examination signal into the conductive tracks via the first application device and a second examination signal into the conductive tracks via the second application device. The at least one processor is configured to monitor one or more electrical characteristics of the first and second conductive tracks in response to the first and second examination signals being injected into the conductive tracks; and to identify a type of fault based upon the one or more electrical characteristics of the first and second conductive tracks.Type: GrantFiled: April 6, 2015Date of Patent: June 20, 2017Assignee: General Electric CompanyInventors: Joseph Forrest Noffsinger, Jeffrey Michael Fries
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Patent number: 9669851Abstract: A route examination system and method automatically detect (with an identification unit onboard a vehicle having one or more processors) a location of a break in conductivity of a first route during movement of the vehicle along the first route. The system and method also identify (with the identification unit) one or more of a location of the vehicle on the first route or the first route from among several different routes based at least in part on the location of the break in the conductivity of the first route that is detected.Type: GrantFiled: March 13, 2015Date of Patent: June 6, 2017Assignee: General Electric CompanyInventors: Jared Klineman Cooper, Samuel William Golden, Joseph Forrest Noffsinger, Ajith Kuttannair Kumar, Yuri Alexeyevich Plotnikov, Jeffrey Michael Fries, Steven Joseph Ehret, Nicholas David Nagrodsky
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Patent number: 9598093Abstract: A signal detection system for use with a signaling system is disclosed, the signal detection system comprising a plurality of electrical terminals including a source terminal and an output terminal, the output terminal being connected to a signaling device. An auxiliary terminal electrically coupled to at least one of the plurality of electrical terminals is provided. A current sensor is coupled to the auxiliary terminal for detecting an electrical signal for controlling the signaling device. The current sensor generating an output signal in response to the detection of the electrical signal for controlling the signaling device for monitoring the status of the signaling device. Also disclosed is a method for installing a signal detection system in a wayside signaling system including a signaling device for monitoring a status of the signaling device. An apparatus for connecting a current sensor to a signaling device is also disclosed.Type: GrantFiled: November 5, 2012Date of Patent: March 21, 2017Assignee: Alstom Transport TechnologiesInventors: Jeffrey Michael Fries, Gregory K. Hann, Aric Weingartner, Steven R. Murphy, Dan E Erickson, David Fletcher, Bradley Dale Brown
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Publication number: 20170050653Abstract: A monitoring method and system monitor a transmitted current that is injected into conductive components of a route traveled by vehicle systems, monitor a received current that represents a portion of the transmitted current that is conducted through the conductive components of the route, examine changes in the transmitted and/or received current over time to determine when the vehicle systems are on the route between a first location where the transmitted current is injected into the conductive components and a second location where the received current is monitored, and examine the changes in the transmitted and/or received currents. The changes are examined to identify (a) a contaminated portion of a surface on which the route is disposed, (b) a foreign object other than the vehicle systems that is contacting the route, and/or (c) a damaged or broken portion of at least one of the conductive components of the route.Type: ApplicationFiled: November 7, 2016Publication date: February 23, 2017Inventors: Jeffrey Michael Fries, Joseph Forrest Noffsinger, Richard Lee Lawson, Aric Albert Weingartner, Curtis Doyle Mechling, Aaron Richard Mitti, Martin Paget, William David Shields
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Publication number: 20170043678Abstract: A system includes at least one application device, a control unit, and at least one processor. The at least one application device is conductively or inductively coupled with at least one of a first conductive track or a second conductive track. The control unit is configured to control supply of electric current from a power source to the at least one application device to electrically inject at least one examination signal into the conductive tracks. The at least one processor is configured to monitor the one or more electrical characteristics of at least one of the first or second conductive tracks, and to identify a construction feature of the route based on the one or more electrical characteristics, wherein the construction feature corresponds to a man-made aspect of the route.Type: ApplicationFiled: October 17, 2016Publication date: February 16, 2017Inventors: Joseph Forrest NOFFSINGER, Jeffrey Michael FRIES