Patents by Inventor Kent A. Burr

Kent A. Burr 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: 20240335178
    Abstract: A method for detecting an anomaly related to a medical imaging device includes acquiring data from a plurality of detectors of the medical imaging device, applying the acquired data to a first autoencoder, and detecting, based on outputs from the first autoencoder, an anomaly related to the medical imaging device.
    Type: Application
    Filed: April 7, 2023
    Publication date: October 10, 2024
    Applicant: CANON MEDICAL SYSTEMS CORPORATION
    Inventors: Jeffrey KOLTHAMMER, Kent BURR, Yi QIANG
  • Publication number: 20230111740
    Abstract: A set of discrete input/output (I/O) channels for one or more field devices may be grouped, organized, and connected to a field module device, which may connect to an electronic marshalling apparatus in a marshalling cabinet via an I/O channel. The field module acts as an intermediary, decoding messages received via the I/O channel to identify commands for discrete output (DO) channels that are then forwarded appropriately. The field module may also receive variable values carried by signals on discrete input (DI) channels and encode the values to a message that may be transmitted to the marshalling apparatus and controller, thus making the variable values on the DI channels available to the controller. The field module may store a profile including information that facilitates various smart commissioning techniques, including autosensing of tags, automatic tag binding, and automatic configuration of a control element corresponding to the field module.
    Type: Application
    Filed: December 6, 2022
    Publication date: April 13, 2023
    Inventors: Gary K. Law, Kent A. Burr
  • Patent number: 11531381
    Abstract: A set of discrete input/output (I/O) channels for one or more field devices may be grouped, organized, and connected to a field module device, which may connect to an electronic marshalling apparatus in a marshalling cabinet via an I/O channel. The field module acts as an intermediary, decoding messages received via the I/O channel to identify commands for discrete output (DO) channels that are then forwarded appropriately. The field module may also receive variable values carried by signals on discrete input (DI) channels and encode the values to a message that may be transmitted to the marshalling apparatus and controller, thus making the variable values on the DI channels available to the controller. The field module may store a profile including information that facilitates various smart commissioning techniques, including autosensing of tags, automatic tag binding, and automatic configuration of a control element corresponding to the field module.
    Type: Grant
    Filed: September 28, 2018
    Date of Patent: December 20, 2022
    Assignee: FISHER-ROSEMOUNT SYSTEMS, INC.
    Inventors: Gary K. Law, Kent A. Burr
  • Patent number: 10754329
    Abstract: Disclosed herein are techniques for automatically distributing device identification amongst components of a process control loop in a process plant while the loop is communicatively disconnected from the plant's back-end environment or control room. A field device's identification is stored in a memory of a component of the loop (which may be the field device or a proxy) and is used for commissioning the field device. While the loop remains disconnected, the field device's identification is distributed to the memory of another component of the loop and used for commissioning a portion of the loop including the field device and the another component. Additional distribution to other components for commissioning other loop portions is possible. Distribution may be triggered by the completion of certain commissioning activities, the establishment of communicative connections between components, and/or other conditions.
    Type: Grant
    Filed: October 12, 2016
    Date of Patent: August 25, 2020
    Assignee: FISHER-ROSEMOUNT SYSTEMS, INC.
    Inventors: Larry O. Jundt, Gary K. Law, Cristopher Ian S. Uy, Deborah R. Colclazier, Sergio Diaz, Julian K. Naidoo, Neil J. Peterson, Kent A. Burr, Daniel R. Strinden, Prashant Joshi
  • Patent number: 10663956
    Abstract: An I/O-abstracted configuration is defined for a field device that has not yet been assigned or allocated to communicate via a particular I/O device or I/O network within a plant, and this configuration is stored in a device placeholder object in a back-end environment of the plant. Thereafter other objects, modules, applications, user interfaces, etc., that are to execute in the back-end environment of the plant to communicate with the field device during on-line operation of the plant may be designed, built, configured, and tested using the device placeholder object without any actual communications with the field device and without assigning the device placeholder object to a particular I/O channel or I/O network.
    Type: Grant
    Filed: October 12, 2016
    Date of Patent: May 26, 2020
    Assignee: FISHER-ROSEMOUNT SYSTEMS, INC.
    Inventors: Larry O. Jundt, Gary K. Law, Cristopher Ian S. Uy, Deborah R. Colclazier, Sergio Diaz, Julian K. Naidoo, Neil J. Peterson, Kent A. Burr, Daniel R. Strinden
  • Patent number: 10620613
    Abstract: Techniques for controlling the operation of a process plant or several process plants within a process control system using a centralized or distributed controller farm allow for increased flexibility in the process control system. Any of the controllers in the controller farm may be utilized to execute modules corresponding to any of the field devices in one or several process plants. Control modules or other operations may be allocated amongst the controllers distributing the load so that one controller is not performing several operations while others are inactive. Additionally, the controller farm may be located in a temperature controlled room or area in an offsite location from the process plants. In some scenarios, load balancing techniques are performed to distribute the load for the modules equally or at least similarly amongst the controllers.
    Type: Grant
    Filed: August 21, 2017
    Date of Patent: April 14, 2020
    Assignee: FISHER-ROSEMOUNT SYSTEMS, INC.
    Inventors: Tiong P. Ong, Kent A. Burr, David R. Denison, Godfrey R. Sherriff, Gary Law, Brandon Hieb, David M. Smith
  • Publication number: 20200103946
    Abstract: A set of discrete input/output (I/O) channels for one or more field devices may be grouped, organized, and connected to a field module device, which may connect to an electronic marshalling apparatus in a marshalling cabinet via an I/O channel. The field module acts as an intermediary, decoding messages received via the I/O channel to identify commands for discrete output (DO) channels that are then forwarded appropriately. The field module may also receive variable values carried by signals on discrete input (DI) channels and encode the values to a message that may be transmitted to the marshalling apparatus and controller, thus making the variable values on the DI channels available to the controller. The field module may store a profile including information that facilitates various smart commissioning techniques, including autosensing of tags, automatic tag binding, and automatic configuration of a control element corresponding to the field module.
    Type: Application
    Filed: September 28, 2018
    Publication date: April 2, 2020
    Inventors: Gary K. Law, Kent A. Burr
  • Patent number: 10528037
    Abstract: A system tag identifying a device of a process control loop is determined/derived from a unique identifier of the device while the loop is communicatively disconnected from a process plant's back-end environment or control room. The system tag may be stored at the device itself or at a proxy that is disposed in the field of the process plant (e.g., at another component of the loop). One or more commissioning activities that include the device are performed in the field using the device's system tag, and at least some of the field commissioning activities may be automatically triggered based on the derivation of system tag. Upon the loop being communicatively connected to the back-end environment of the plant, the device's system tag known to the loop in the field is synchronized with the device's system tag known to the back-end of the process plant.
    Type: Grant
    Filed: October 12, 2016
    Date of Patent: January 7, 2020
    Assignee: FISHER-ROSEMOUNT SYSTEMS, INC.
    Inventors: Larry O. Jundt, Cristopher Ian S. Uy, Deborah R. Colclazier, Sergio Diaz, Gary K. Law, Julian K. Naidoo, Daniel R. Strinden, Kent A. Burr, Neil J. Peterson
  • Patent number: 10386825
    Abstract: An I/O-abstracted configuration is defined for a field device that has not yet been assigned or allocated to communicate via a particular I/O device, and the field device (and optionally portions of the process control loop of which the field device is a part) is commissioned based on contents of its I/O-abstracted configuration. The field device's I/O-abstracted configuration is stored in an instance of a device placeholder object, which may be common to multiple types of devices and multiple types of I/O. A property of the device placeholder object may be exposed based on the value entered for another property, and the device placeholder object may store abstracted values as well as explicit or discrete values that are descriptive of the field device and its behavior. Upon I/O-assignment or allocation, values held in the device's I/O-abstracted configuration may be transferred to or otherwise synchronized with the device's as-built configuration.
    Type: Grant
    Filed: October 12, 2016
    Date of Patent: August 20, 2019
    Assignee: FISHER-ROSEMOUNT SYSTEMS, INC.
    Inventors: Larry O. Jundt, Cristopher Ian S. Uy, Deborah R. Colclazier, Sergio Diaz, Gary K. Law, Julian K. Naidoo, Daniel R. Strinden, Kent A. Burr, Neil J. Peterson
  • Patent number: 10386824
    Abstract: During commissioning activities of a process plant, a device placeholder object that stores an I/O-abstracted configuration of a particular field device within the plant is created and stored in a device in the back-end environment of the plant and a further configuration file is stored in or for the particular field device in the field equipment environment of the plant. The device placeholder object, which will eventually be associated with the particular field device, and the field device configuration file are used to perform separate commissioning activities in each of these plant environments before the field devices are configured to communicate with a process controller via a particular I/O network within the plant. Thereafter, a binding application performs a discovery process to detect the I/O communication path through which each field device is connected to the back-end environment.
    Type: Grant
    Filed: October 12, 2016
    Date of Patent: August 20, 2019
    Assignee: FISHER-ROSEMOUNT SYSTEMS, INC.
    Inventors: Larry O. Jundt, Gary K. Law, Cristopher Ian S. Uy, Deborah R. Colclazier, Sergio Diaz, Julian K. Naidoo, Neil J. Peterson, Kent A. Burr, Daniel R. Strinden
  • Patent number: 10379527
    Abstract: Techniques for automatically testing an entire process control loop, such as after components and portions of the loop have been commissioned separately, or after run-time operation begins, enable the process control loop to be tested without an operator in a back-end environment of a process plant coordinating with an operator in a field environment of the process plant to supply inputs and/or generate various conditions at the loop. Instead, a single operator performs a single operation to initiate an automatic loop test, or in some implementations, no user input is needed to initiate and/or perform the automatic loop test. Automatic loop testing includes automatically causing a field device to operate in a plurality of test states and determining whether resultant loop behaviors are expected behaviors. Multiple loops may be tested concurrently or distinct in time. An automatic loop test result is generated and may be presented via a user interface.
    Type: Grant
    Filed: October 12, 2016
    Date of Patent: August 13, 2019
    Assignee: FISHER-ROSEMOUNT SYSTEMS, INC.
    Inventors: Larry O. Jundt, Sergio Diaz, Julian K. Naidoo, Daniel R. Strinden, Cristopher Ian S. Uy, Gary K. Law, Neil J. Peterson, Kent A. Burr, Deborah R. Colclazier
  • Publication number: 20190056719
    Abstract: Techniques for controlling the operation of a process plant or several process plants within a process control system using a centralized or distributed controller farm allow for increased flexibility in the process control system. Any of the controllers in the controller farm may be utilized to execute modules corresponding to any of the field devices in one or several process plants. Control modules or other operations may be allocated amongst the controllers distributing the load so that one controller is not performing several operations while others are inactive. Additionally, the controller farm may be located in a temperature controlled room or area in an offsite location from the process plants. In some scenarios, load balancing techniques are performed to distribute the load for the modules equally or at least similarly amongst the controllers.
    Type: Application
    Filed: August 21, 2017
    Publication date: February 21, 2019
    Inventors: Tiong P. Ong, Kent A. Burr, David R. Denison, Godfrey R. Sherriff, Gary Law, Brandon Hieb, David M. Smith
  • Publication number: 20180224832
    Abstract: An I/O-abstracted configuration is defined for a field device that has not yet been assigned or allocated to communicate via a particular I/O device, and the field device (and optionally portions of the process control loop of which the field device is a part) is commissioned based on contents of its I/O-abstracted configuration. The field device's I/O-abstracted configuration is stored in an instance of a device placeholder object, which may be common to multiple types of devices and multiple types of I/O. A property of the device placeholder object may be exposed based on the value entered for another property, and the device placeholder object may store abstracted values as well as explicit or discrete values that are descriptive of the field device and its behavior. Upon I/O-assignment or allocation, values held in the device's I/O-abstracted configuration may be transferred to or otherwise synchronized with the device's as-built configuration.
    Type: Application
    Filed: October 12, 2016
    Publication date: August 9, 2018
    Inventors: Larry O. Jundt, Cristopher Ian S. Uy, Deborah R. Colclazier, Sergio Diaz, Gary K. Law, Julian K. Naidoo, Daniel R. Strinden, Kent A. Burr, Neil J. Peterson
  • Publication number: 20180217580
    Abstract: An I/O-abstracted configuration is defined for a field device that has not yet been assigned or allocated to communicate via a particular I/O device or I/O network within a plant, and this configuration is stored in a device placeholder object in a back-end environment of the plant. Thereafter other objects, modules, applications, user interfaces, etc., that are to execute in the back-end environment of the plant to communicate with the field device during on-line operation of the plant may be designed, built, configured, and tested using the device placeholder object without any actual communications with the field device and without assigning the device placeholder object to a particular I/O channel or I/O network.
    Type: Application
    Filed: October 12, 2016
    Publication date: August 2, 2018
    Applicant: Fisher-Rosemount Systems Inc.
    Inventors: Larry O. Jundt, Gary K. Law, Cristopher Ian S. Uy, Deborah R. Colclazier, Sergio Diaz, Julian K. Naidoo, Neil J. Peterson, Kent A. Burr, Daniel R. Strinden
  • Publication number: 20180217581
    Abstract: Disclosed herein are techniques for automatically distributing device identification amongst components of a process control loop in a process plant while the loop is communicatively disconnected from the plant's back-end environment or control room. A field device's identification is stored in a memory of a component of the loop (which may be the field device or a proxy) and is used for commissioning the field device. While the loop remains disconnected, the field device's identification is distributed to the memory of another component of the loop and used for commissioning a portion of the loop including the field device and the another component. Additional distribution to other components for commissioning other loop portions is possible. Distribution may be triggered by the completion of certain commissioning activities, the establishment of communicative connections between components, and/or other conditions.
    Type: Application
    Filed: October 12, 2016
    Publication date: August 2, 2018
    Inventors: Larry O. Jundt, Gary K. Law, Cristopher Ian S. Uy, Deborah R. Colclazier, Serigo Diaz, Julian K. Naidoo, Neil J. Peterson, Kent A. Burr, Daniel R. Strinden, Prashant Joshi
  • Publication number: 20180210429
    Abstract: A system tag identifying a device of a process control loop is determined/derived from a unique identifier of the device while the loop is communicatively disconnected from a process plant's back-end environment or control room. The system tag may be stored at the device itself or at a proxy that is disposed in the field of the process plant (e.g., at another component of the loop). One or more commissioning activities that include the device are performed in the field using the device's system tag, and at least some of the field commissioning activities may be automatically triggered based on the derivation of system tag. Upon the loop being communicatively connected to the back-end environment of the plant, the device's system tag known to the loop in the field is synchronized with the device's system tag known to the back-end of the process plant.
    Type: Application
    Filed: October 12, 2016
    Publication date: July 26, 2018
    Inventors: Larry O. Jundt, Cristopher Ian S. Uy, Deborah R. Colclazier, Sergio Diaz, Gary K. Law, Julian K. Naidoo, Daniel R. Strinden, Kent A. Burr, Neil J. Peterson
  • Patent number: 9223031
    Abstract: A process and device for generating a prototype waveform and a weighting function. The process including obtaining waveforms generated by a detector having at least one photosensor, generating an initial estimate for the prototype waveform and the weighting function and parameterizing the prototype waveform and the weighting function and determining for each waveform an optimal amplitude and an optimal time offset of the prototype waveform.
    Type: Grant
    Filed: January 4, 2012
    Date of Patent: December 29, 2015
    Assignees: Kabushiki Kaisha Toshiba, Toshiba Medical Systems Corporation
    Inventors: Kent Burr, Gin-Chung Wang
  • Patent number: 9194960
    Abstract: A positron emission tomography scanner system that includes detector modules arranged adjacent to one another to form a cylindrical detector ring. Each of the detector modules includes an array of scintillation crystal elements, a plurality of photosensors arranged to cover the array of crystal elements and configured to receive light emitted from the array of crystal elements, and a fiber optics plate arranged between the array of scintillation crystal elements and the plurality of photosensors, the fiber optics plate including a plurality of fibers configured to guide the light emitted from the scintillation crystal to the plurality of photosensors.
    Type: Grant
    Filed: July 10, 2012
    Date of Patent: November 24, 2015
    Assignees: KABUSHIKI KAISHA TOSHIBA, TOSHIBA MEDICAL SYSTEMS CORPORATION
    Inventors: Daniel Gagnon, Kent Burr
  • Patent number: 8761196
    Abstract: Methods, apparatus and articles of manufacture are disclosed that provide flexible input/output device communications in a process control system. In one example, a process control system controls a plurality of field devices. The process control system includes a control device and a communications protocol component. The communications protocol component has at least one communications channel that is selectively configurable to use at least a first or second communications protocol and to communicate with at least one of the field devices.
    Type: Grant
    Filed: September 29, 2006
    Date of Patent: June 24, 2014
    Assignee: Fisher-Rosemount Systems, Inc.
    Inventors: Gary Keith Law, Trevor Duncan Schleiss, Kent Burr, Thomas W. Snead, Ronald Dean Eddie
  • Patent number: 8600524
    Abstract: A control system, a safety system, etc., within a process plant may each use one or more state machine function blocks that can be easily integrated into a function block diagram programming environment. Such a state machine function block may include one or more inputs, which may cause astute machine implemented by the state machine function block to change states. The state machine function block may determine a next state to which it is to transition based, at least in part, on data indicative of the next state to which to transition, if any. The configuration data may be retrieved from a database based on the current state of the state machine and at least one of the inputs. The state machine function block may also include one or more outputs that are generated based on the state of the state machine.
    Type: Grant
    Filed: April 26, 2010
    Date of Patent: December 3, 2013
    Assignee: Fisher-Rosemount Systems, Inc.
    Inventors: Gary K. Law, Michael G. Ott, Kent A. Burr, Godfrey R. Sherriff