Patents by Inventor Randy L. Mayes
Randy L. Mayes 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: 9588018Abstract: A diagnostic system for a vehicle, includes a computer storing software on a computer readable media, configurable for setting up recording of vehicle operations, selecting from a plurality of customizable triggering operations according to Boolean logic, and a vehicle communication interface detachably connected to the computer, being setup by the computer for recording of vehicle operation while the vehicle is operating and recorded information stored in a computer readable media of the vehicle communication interface being reviewed by the computer, and detachably connected to the vehicle for recording of the vehicle operations.Type: GrantFiled: March 11, 2013Date of Patent: March 7, 2017Assignee: Bosch Automotive Service Solutions Inc.Inventors: Olav M. Underdal, Harry M. Gilbert, Alex Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 9401054Abstract: A method for optimizing a test sequence to diagnose a failure mode of a device, such as a vehicle, is provided. At least one symptom of a fault of the device is received, and a plurality of taxonomies is generated. The taxonomies include a device component taxonomy, a fault taxonomy, and a diagnostic taxonomy, and each taxonomy has a plurality of nodes. At least one diagnostic test sequence, based on the symptom and the taxonomies, is generated, costs associated with the diagnostic test sequence are determined, and a cost optimal test sequence, based on the costs and the diagnostic test sequence, is generated.Type: GrantFiled: March 8, 2009Date of Patent: July 26, 2016Assignee: Bosch Automotive Service Solutions Inc.Inventors: Gregory J. Fountain, Harry M. Gilbert, Randy L. Mayes, Oleksiy Portyanko, Olav M. Underdal, William W. Witliff, III
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Patent number: 8762165Abstract: In a computer-implemented method of optimizing a diagnostic test sequence to diagnose a medical condition of a subject. A group of diagnostic tests related to a symptom is determined from a pool of diagnostic tests. A probabilistic failure mode analysis is conducted to determine the efficacy of each of the diagnostic tests based on historical outcomes of actual diagnostic testing. The comparative utility of each diagnostic tests based on a plurality of factors that can affect problem resolution is analyzed. A weight is assigned to each factor involved in the probabilistic failure mode analysis. The diagnostic tests are ordered based upon at least one of: a probability of the diagnostic test identifying a cause of the failure mode in a minimum amount of time; a probability of the diagnostic test identifying the cause of the failure mode at a minimum cost; and a relative weighting of minimizing time versus minimizing cost.Type: GrantFiled: December 31, 2010Date of Patent: June 24, 2014Assignee: Bosch Automotive Service Solutions LLCInventors: Harry M. Gilbert, Alex Portyanko, Randy L. Mayes, Gregory J. Fountain, William Wittliff, III
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Publication number: 20130204640Abstract: A diagnostic system for a patient includes a memory receiving and storing patient specific information, and storing diagnostic test requirements of a plurality of diagnostic sequences, and a processor identifying the test requirements for a selected diagnostic sequence according to the patient specific information in advance of executing the diagnostic sequence.Type: ApplicationFiled: August 7, 2012Publication date: August 8, 2013Inventors: Olav M. Underdal, Harry M. Gilbert, Alex Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 8423226Abstract: A dynamic diagnostic plan generator arranges diagnostic test procedures related to a vehicle symptom or operational problem in a sequence based on a probabilistic Failure Mode and Effects Analysis (FMEA). The diagnostic plan generator also tracks a vehicle state, and provides instructions for test preparation steps and instructions for performing the diagnostic test procedures. The plan generator further generates schematic illustrations of the diagnostic test procedures, and creates a diagnostic data structure containing information related to the diagnostic test procedures. In addition, the diagnostic plan generator sends and receives information regarding actual failure mode occurrences, for example, to and from a central database. Furthermore, the diagnostic plan generator facilitates the creation of failure mode tests by an expert diagnostics author.Type: GrantFiled: June 14, 2006Date of Patent: April 16, 2013Assignee: Service Solutions U.S. LLCInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 8412402Abstract: A vehicle state tracker tracks the state of a vehicle during a diagnostic test sequence to eliminate redundant steps between diagnostic procedures. The vehicle state tracker maintains a list of preconditions required for each diagnostic procedure, reads a current vehicle state from a memory register and verifies the current setting of the vehicle state corresponding to a specific precondition. If the precondition is required and the current setting is not valid, the state tracker further formats a test preparation step corresponding to the precondition for display to instruct a vehicle technician to satisfy the precondition. Otherwise, if the precondition is not required and the corresponding setting is valid, the state tracker formats an instruction to reverse the corresponding vehicle condition. The state tracker additionally receives feedback indicating when a precondition has been satisfied or the corresponding vehicle condition has been reversed, and updates the vehicle state in memory.Type: GrantFiled: April 11, 2011Date of Patent: April 2, 2013Assignee: SPX CorporationInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 8396622Abstract: A diagnostic system for a vehicle, includes a computer storing software on a computer readable media, configurable for setting up recording of vehicle operations, selecting from a plurality of customizable triggering operations according to Boolean logic, and a vehicle communication interface detachably connected to the computer, being setup by the computer for recording of vehicle operation while the vehicle is operating and recorded information stored in a computer readable media of the vehicle communication interface being reviewed by the computer, and detachably connected to the vehicle for recording of the vehicle operations.Type: GrantFiled: April 23, 2008Date of Patent: March 12, 2013Assignee: Service Solutions U.S. LLCInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 8239094Abstract: A diagnostic system for a vehicle, including a memory receiving and storing vehicle specific information, and storing diagnostic test requirements of a plurality of diagnostic sequences, and a processor identifying the test requirements for a selected diagnostic sequence according to the vehicle specific information in advance of executing the diagnostic sequence.Type: GrantFiled: April 23, 2008Date of Patent: August 7, 2012Assignee: SPX CorporationInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 8170742Abstract: A method of diagnosing, installing, repairing and/or maintaining an antilock braking system (ABS) unit in a motorcycle. The method includes connecting a diagnostic tool to an ABS unit of a motorcycle, communicating with the ABS unit using the diagnostic tool and informing a mechanic utilizing the diagnostic tool about a component in the ABS unit. Also, a tool for diagnosing, installing, repairing and/or maintaining an antilock braking system (ABS) unit in a motorcycle.Type: GrantFiled: November 7, 2008Date of Patent: May 1, 2012Assignee: SPX CorporationInventors: Gregory J. Fountain, Randy L. Mayes, Michael P. Tabbey
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Patent number: 8116930Abstract: A dynamic diagnostic plan generator arranges diagnostic test procedures related to a vehicle symptom or operational problem in a sequence based on a probabilistic Failure Mode and Effects Analysis (FMEA). The diagnostic plan generator also tracks a vehicle state, and provides instructions for test preparation steps and instructions for performing the diagnostic test procedures. The plan generator further generates schematic illustrations of the diagnostic test procedures, and creates a diagnostic data structure containing information related to the diagnostic test procedures. In addition, the diagnostic plan generator sends and receives information regarding actual failure mode occurrences, for example, to and from a central database. Furthermore, the diagnostic plan generator facilitates the creation of failure mode tests by an expert diagnostics author.Type: GrantFiled: June 14, 2006Date of Patent: February 14, 2012Assignee: SPX CorporationInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 8116933Abstract: A reverse failure analyzer determines a group of diagnostic test procedures related to a particular vehicle component from a pool of diagnostic procedures, and then identifies the specific failure modes of each of the diagnostic test procedures. The reverse failure analyzer further associates the specific failure modes with the respective vehicle component associated with each of the diagnostic test procedures, and the symptoms associated with each of the diagnostic test procedures to the correlated vehicle components and failure modes. In addition, the reverse failure analyzer can cross-reference various vehicle components that can be the root cause of a particular symptom or a vehicle operational problem. Furthermore, the reverse failure analyzer can receive observed symptoms regarding a particular test subject vehicle and correlate the observed symptoms to the vehicle components that can cause the symptoms based on the results of reverse failure analyses.Type: GrantFiled: July 26, 2010Date of Patent: February 14, 2012Assignee: SPX CorporationInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Publication number: 20110190977Abstract: A vehicle state tracker tracks the state of a vehicle during a diagnostic test sequence to eliminate redundant steps between diagnostic procedures. The vehicle state tracker maintains a list of preconditions required for each diagnostic procedure, reads a current vehicle state from a memory register and verifies the current setting of the vehicle state corresponding to a specific precondition. If the precondition is required and the current setting is not valid, the state tracker further formats a test preparation step corresponding to the precondition for display to instruct a vehicle technician to satisfy the precondition. Otherwise, if the precondition is not required and the corresponding setting is valid, the state tracker formats an instruction to reverse the corresponding vehicle condition. The state tracker additionally receives feedback indicating when a precondition has been satisfied or the corresponding vehicle condition has been reversed, and updates the vehicle state in memory.Type: ApplicationFiled: April 11, 2011Publication date: August 4, 2011Inventors: Olav M. UNDERDAL, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Publication number: 20110161104Abstract: In a computer-implemented method of optimizing a diagnostic test sequence to diagnose a medical condition of a subject. A group of diagnostic tests related to a symptom is determined from a pool of diagnostic tests. A probabilistic failure mode analysis is conducted to determine the efficacy of each of the diagnostic tests based on historical outcomes of actual diagnostic testing. The comparative utility of each diagnostic tests based on a plurality of factors that can affect problem resolution is analyzed. A weight is assigned to each factor involved in the probabilistic failure mode analysis. The diagnostic tests are ordered based upon at least one of: a probability of the diagnostic test identifying a cause of the failure mode in a minimum amount of time; a probability of the diagnostic test identifying the cause of the failure mode at a minimum cost; and a relative weighting of minimizing time versus minimizing cost.Type: ApplicationFiled: December 31, 2010Publication date: June 30, 2011Inventors: Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William Wittliff, III
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Patent number: 7958407Abstract: A diagnostic information converter reads an existing static diagnostic procedure in the form of a tree graph and generates a diagnostic Failure Modes and Effects Analysis that can be used in the generation of a dynamic diagnostic test plan. The converter identifies the end nodes of the graph and associates a specific failure mode with each of the end nodes. In addition, the converter traces a unique path from each end node along successive branches through one or more intermediate nodes to the root node, and from each of the paths derives an initial failure mode test including the test steps corresponding to the root node, the intermediate nodes and the end node. The converter further identifies and annotates precondition nodes that correspond to a vehicle state or condition, rather than to an actual diagnostic test step and allows a user to edit the initial failure mode tests.Type: GrantFiled: June 30, 2006Date of Patent: June 7, 2011Assignee: SPX CorporationInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 7925397Abstract: A vehicle state tracker tracks the state of a vehicle during a diagnostic test sequence to eliminate redundant steps between diagnostic procedures. The vehicle state tracker maintains a list of preconditions required for each diagnostic procedure, reads a current vehicle state from a memory register and verifies the current setting of the vehicle state corresponding to a specific precondition. If the precondition is required and the current setting is not valid, the state tracker further formats a test preparation step corresponding to the precondition for display to instruct a vehicle technician to satisfy the precondition. Otherwise, if the precondition is not required and the corresponding setting is valid, the state tracker formats an instruction to reverse the corresponding vehicle condition. The state tracker additionally receives feedback indicating when a precondition has been satisfied or the corresponding vehicle condition has been reversed, and updates the vehicle state in memory.Type: GrantFiled: January 4, 2010Date of Patent: April 12, 2011Assignee: SPX CorporationInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 7865278Abstract: A diagnostic test sequence optimizer includes a diagnostic test selector that determines a group of diagnostic test procedures related to a specific symptom and vehicle type from a pool of diagnostic procedures. A failure mode analyzer then selects one or more factors that can affect resolution of a vehicle operational problem and performs a failure mode analysis to quantify a comparative utility of the individual tests, and a factor weighter assigns a weight to each of the factors. A vehicle receiver receives information regarding the history of the test subject vehicle, and a sequence optimizer places the diagnostic test procedures in an optimized sequence in accordance with the comparative utilities of the individual diagnostic procedures, user preferences and a Failure Mode and Effects Analysis compiled by the manufacturer of the vehicle.Type: GrantFiled: June 14, 2006Date of Patent: January 4, 2011Assignee: SPX CorporationInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Publication number: 20100293078Abstract: A reverse failure analyzer determines a group of diagnostic test procedures related to a particular vehicle component from a pool of diagnostic procedures, and then identifies the specific failure modes of each of the diagnostic test procedures. The reverse failure analyzer further associates the specific failure modes with the respective vehicle component associated with each of the diagnostic test procedures, and the symptoms associated with each of the diagnostic test procedures to the correlated vehicle components and failure modes. In addition, the reverse failure analyzer can cross-reference various vehicle components that can be the root cause of a particular symptom or a vehicle operational problem. Furthermore, the reverse failure analyzer can receive observed symptoms regarding a particular test subject vehicle and correlate the observed symptoms to the vehicle components that can cause the symptoms based on the results of reverse failure analyses.Type: ApplicationFiled: July 26, 2010Publication date: November 18, 2010Applicant: SPX CORPORATIONInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Patent number: 7765040Abstract: A reverse failure analyzer determines a group of diagnostic test procedures related to a particular vehicle component from a pool of diagnostic procedures, and then identifies the specific failure modes of each of the diagnostic test procedures. The reverse failure analyzer further associates the specific failure modes with the respective vehicle component associated with each of the diagnostic test procedures, and the symptoms associated with each of the diagnostic test procedures to the correlated vehicle components and failure modes. In addition, the reverse failure analyzer can cross-reference various vehicle components that can be the root cause of a particular symptom or a vehicle operational problem. Furthermore, the reverse failure analyzer can receive observed symptoms regarding a particular test subject vehicle and correlate the observed symptoms to the vehicle components that can cause the symptoms based on the results of reverse failure analyses.Type: GrantFiled: June 14, 2006Date of Patent: July 27, 2010Assignee: SPX CorporationInventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III
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Publication number: 20100121519Abstract: A method of diagnosing, installing, repairing and/or maintaining an antilock braking system (ABS) unit in a motorcycle. The method includes connecting a diagnostic tool to an ABS unit of a motorcycle, communicating with the ABS unit using the diagnostic tool and informing a mechanic utilizing the diagnostic tool about a component in the ABS unit. Also, a tool for diagnosing, installing, repairing and/or maintaining an antilock braking system (ABS) unit in a motorcycle.Type: ApplicationFiled: November 7, 2008Publication date: May 13, 2010Inventors: Gregory J. Fountain, Randy L. Mayes, Michael P. Tabbey
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Publication number: 20100106359Abstract: A vehicle state tracker tracks the state of a vehicle during a diagnostic test sequence to eliminate redundant steps between diagnostic procedures. The vehicle state tracker maintains a list of preconditions required for each diagnostic procedure, reads a current vehicle state from a memory register and verifies the current setting of the vehicle state corresponding to a specific precondition. If the precondition is required and the current setting is not valid, the state tracker further formats a test preparation step corresponding to the precondition for display to instruct a vehicle technician to satisfy the precondition. Otherwise, if the precondition is not required and the corresponding setting is valid, the state tracker formats an instruction to reverse the corresponding vehicle condition. The state tracker additionally receives feedback indicating when a precondition has been satisfied or the corresponding vehicle condition has been reversed, and updates the vehicle state in memory.Type: ApplicationFiled: January 4, 2010Publication date: April 29, 2010Inventors: Olav M. Underdal, Harry M. Gilbert, Oleksiy Portyanko, Randy L. Mayes, Gregory J. Fountain, William W. Wittliff, III