Abstract: A method includes automatically creating one or more test schedules for a well test of one or more wells in an oil or gas production environment. The method also includes automatically creating one or more test frames for use in generation of the well test. The method further includes, following execution of the test frame, automatically validating one or more test records generated during the one or more test frames. In addition, the method includes automatically creating the well test for determining one or more well characteristics.
Abstract: A positioning sensor includes a transmission antenna transmitting a transmission signal, a plurality of reception antennae, each receiving a reception signals, a receiver observing the each of the plurality of reception signals in a predetermined period, a processor, and a memory, in which the processor calculates a plurality of complex transfer functions based on the each of the plurality of reception signals, records each of the plurality of complex transfer functions in the memory as being associated with each time point, extracts, among the plurality of complex transfer functions, a plurality of pairs of two complex transfer functions respectively corresponding to two time points in a predetermined interval, calculates a plurality of pieces of differential information, and estimates to a location of a moving body based on each of the plurality of pieces of differential information.
Abstract: Systems, methods, and computer-readable media for calibrating an electromagnetic navigation system are provided. A signal having a first magnitude value and a first phase value is received by way of a receiving antenna. A non-calibrated in-phase component and a non-calibrated quadrature component are computed based on the first magnitude value and the first phase value. A calibrated phase value is computed based on the non-calibrated in-phase component and the non-calibrated quadrature component, and a calibrated in-phase component is computed based on the calibrated phase value, the non-calibrated in-phase component, and the non-calibrated quadrature component. A calibrated quadrature component is computed based on the calibrated phase value, the non-calibrated in-phase component, and the non-calibrated quadrature component, and a calibrated magnitude value is computed based on the calibrated in-phase component.
Abstract: System identification from free response time decay history data of a dynamic system employs a new closed form shape fit for solving the dynamic system free response decay equation. The closed form shape fit allows for the treatment of the mode shapes as linear coefficients and allows the mode shapes for each sensor to be computed independently, thereby reducing computation time. The closed form shape fit efficiently provides mode shapes for a large set of sensors based on a fit from a small set of sensors. The closed form shape fit combined with a non-linear fit of frequency and damping characteristics efficiently estimates the optimal solution, thereby reducing the time to completion of non-linear optimization. A nonlinear optimization can incorporate the closed form shape fit into determining the Jacobian matrix of sensitivities and evaluating the residuals, thereby reducing the number of parameters and reducing the time to completion of the non-linear optimization.
Abstract: A location tracking unit for use with a location based service system is presented. The location tracking unit comprises: a navigation receiver adapted to implement a location tracking function; data processing means adapted to determine an occupied location according to a first location matching process, the first location matching process using navigation data from the navigation receiver and a first set of geographic data; and data processing means adapted to verify the integrity of the first location matching process based on a second location matching process using navigation data and a second set of geographic data.
Type:
Grant
Filed:
December 29, 2016
Date of Patent:
April 14, 2020
Assignee:
Titan Automotive Solutions NV
Inventors:
Michael Peeters, Claude Debast, Tim Froidcoeur
Abstract: System and method for providing electric utilities and utility benchmarking organizations with an integrated real-time outage analytics and benchmarking solution. The system includes a powerful data importing apparatus that allows uploading of outage data from the utilities outage databases, confidential aggregation of utility outage data, real-time comparison of reliability metrics, real-time outage analytics and messaging capabilities. The system includes a communication link for receiving raw outage data uploaded from the outage management systems of participating utilities which couples the data to an analytics server which automatically recalculates standard reliability indices and analytics in real-time. A database server aggregates and stores the data and indices. The analytics server makes data and reports available to user utilities in real-time via the internet while using a unique ID for each user utility to maintain user anonymity and data confidentiality.
Type:
Grant
Filed:
January 6, 2017
Date of Patent:
March 17, 2020
Assignee:
AERINET SOLUTIONS, L.L.C.
Inventors:
Alvin M. Razon, Eduardo Ilao, John Ilao
Abstract: A method and apparatus for fixing a depth map wrap-around error and a depth map coverage by a confidence map. The method includes dynamically determining a threshold for the confidence map threshold based on an ambient light environment, wherein the threshold is reconfigurable depending on LED light strength distribution in TOF sensor, extracting, via the digital processor, four phases of Time Of Flight raw data from the Time Of Flight sensor data, computing a phase differential signal array for fixed point utilizing the four phases of the Time Of Flight raw data, computing the depth map, confidence map and the average light signal strength utilizing the phase differential signal array, obtaining the dynamic confidence map threshold for wrap around error correction utilizing the average light signal strength, and correcting the depth map wrap-around error utilizing the depth map, the confidence map and the dynamic confidence map threshold.
Abstract: A method for detecting roller spacings in a roller bearing having at least one row of rollers wherein the rollers in the row are held by at least one cage, preferably by a plurality of roller cages. The method uses roller load induced strain signals for determining the roller spacings.
Abstract: A method for monitoring a condition of a system or process includes acquiring sensor data from a plurality of sensors disposed within the system (S41 and S44). The acquired sensor data is streamed in real-time to a computer system (S42 and S44). A discriminative framework is applied to the streaming sensor data using the computer system (S43 and S45). The discriminative framework provides a probability value representing a probability that the sensor data is indicative of an anomaly within the system. The discriminative framework is an integration of a Kalman filter with a logistical function (S41).
Type:
Grant
Filed:
June 11, 2013
Date of Patent:
February 18, 2020
Assignee:
SIEMENS AKTIENGESELLSCHAFT
Inventors:
Chao Yuan, Amit Chakraborty, Holger Hackstein, Leif Wiebking
Abstract: A method for mapping a subterranean formation is disclosed. The method includes receiving a first set of subterranean formation data based, at least in part, on survey data from the subterranean formation. The method includes receiving a second set of subterranean formation data based, at least in part, on one or more formation samples from the subterranean formation The method includes determining a stratagraphic composition of the subterranean formation and generating a fortistratisgraphic map of the subterranean formation based, at least in part on the first set of subterranean formation data, the second set of subterranean formation data, and the stratigraphic composition of the subterranean formation.
Type:
Grant
Filed:
December 6, 2016
Date of Patent:
January 7, 2020
Assignee:
Halliburton Energy Services, Inc.
Inventors:
Douglas E. Wyatt, Jr., Jeffrey Marc Yarus, Ronald Glen Dusterhoft, Jesse Clay Hampton
Abstract: The described invention provides a method and/or system for analyzing data using population clustering through density based merging, and a method for guiding clustering strategy through entropy-based ranking score.
Type:
Grant
Filed:
April 20, 2015
Date of Patent:
December 10, 2019
Assignee:
The Board of Trustees of The Leland Stanford Junior University
Inventors:
Stephen W. Meehan, Wayne A. Moore, Guenther Walther, Darya Orlova, Connor G. W. Meehan, David R. Parks, Leonore A. Herzenberg
Abstract: A method for processing sonic data measured with a downhole tool is provided. The method comprises acquiring dipole wave data measured by a dipole acquisition in multiple firing, and estimating at least one of formation anisotropy properties based on the multiple firing dipole data. The at least one of formation anisotropy properties may be derived by Alford rotation processing. The method may further comprise processing with inversion of an orthogonality error angle of the firing data in two dipole firings and/or providing a quality control with the estimating result based on sonic measurements in a pump-off period.
Abstract: The disclosed technology relates to a method of selecting a material composition and/or designing an alloy. In one aspect, a method of selecting a composition of a material having a target property comprises receiving an input comprising thermodynamic phase data for a plurality of materials. The method additionally includes extracting from the thermodynamic phase data a plurality of thermodynamic quantities corresponding to each of the materials by a computing device. The extracted thermodynamic quantities are predetermined to have correlations to microstructures associated with physical properties of the material. The method additionally includes storing the extracted thermodynamic quantities in a computer-readable medium. The method further includes electronically mining the stored thermodynamic quantities using the computing device to rank at least a subset of the materials based on a comparison of at least a subset of the thermodynamic quantities that are correlated to the target property.
Abstract: Embodiments of the present invention provide systems and methods for generating a set of test cases using a base test program. The base test program may be used as both a functional drive and as a performance measuring test case. From the base test program, additional key and value pairs may be added to the base test program to force specific test scenarios.
Type:
Grant
Filed:
August 26, 2015
Date of Patent:
November 19, 2019
Assignee:
International Business Machines Corporation
Abstract: A server system for remote monitoring includes a wireless communication interface, a processor, and a storage device. The wireless communication interface receives at least one data packet over wireless communications from a remote monitoring system. The processor processes the data packet including sensor information from a sensor coupled to the remote monitoring system. The storage device stores the sensor information.
Type:
Grant
Filed:
September 3, 2015
Date of Patent:
November 12, 2019
Assignee:
ARTHROSCOPIC SURGERY ASSOCIATES CORPORATION
Inventors:
Gregory M. Glenn, Damon Silva, Timothy Henry
Abstract: A server system for remote monitoring includes a wireless communication interface, a processor, and a storage device. The wireless communication interface receives at least one data packet over wireless communications from a remote monitoring system. The processor processes the data packet including sensor information from a sensor coupled to the remote monitoring system. The storage device stores the sensor information.
Type:
Grant
Filed:
September 3, 2015
Date of Patent:
November 12, 2019
Assignee:
ARTHROSCOPIC SURGERY ASSOCIATES CORPORATION
Inventors:
Gregory M. Glenn, Damon Silva, Timothy Henry
Abstract: A floor monitoring device monitors the condition of various flooring substrates. The floor monitoring device may traverse a route through an environment and collect data concerning the condition of the floor. The device may also communicate the floor condition data to another computing device. In some examples, the floor monitoring device may analyze the floor condition data and identify any notable floor conditions within the monitored environment. Alternatively or in addition, the computing device may analyze the floor condition data and identify and/or address notable floor conditions within the monitored environment.
Type:
Grant
Filed:
March 14, 2013
Date of Patent:
October 29, 2019
Assignee:
Ecolab USA Inc.
Inventors:
Andrew S. Wold, Robert D. Hei, Catherine F. Hanson, Ryan J. Drake, Ramakrishnan Balsubramanian
Abstract: Provided is a method for acquiring information relating to a composition of a detected object from results of a measurement, using radiation, this method including: a step for acquiring by a computer a result of measuring the detected object using radiation; a step for estimating by a computer a chemical composition ratio of the detected object, using an equation that contains a value derived from the measurement result as a constant and contains a value derived from the chemical composition ratio of the detected object as a variable, and then solving the equation; and a step for outputting the estimated chemical composition ratio or a physical property value acquired based on the estimated chemical composition ratio as information relating to the composition of the detected object.
Abstract: Analysis evaluates formation fluid with a downhole tool disposed in a borehole. A plurality of possible constituents is defined for the formation fluid, and constraints are defined for the possible constituents. The constraints can include boundary constraints and constraints on the system's dynamics. The formation fluid is obtained from the borehole with the downhole tool over a plurality of time intervals, and density of the obtained formation fluid is obtained at the time intervals. To evaluate the fluid composition, a state probability distribution of the possible constituents of the obtained formation fluid at the current time interval is computed recursively from that at the previous time interval and by assimilating the current measured density of the obtained formation fluid in addition to the defined boundary/dynamic constraints.
Type:
Grant
Filed:
March 14, 2013
Date of Patent:
September 3, 2019
Assignee:
Weatherford Technology Holdings, LLC
Inventors:
Hamed Chok, Jeffery J. Hemsing, Jess V. Ford