Patents Examined by Kyle R Quigley
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Patent number: 11137318Abstract: One embodiment can provide a method and a system for diagnosing faults in a physical system. During operation, the system obtains a time-domain model of the physical system and converts the time-domain model to the frequency domain to obtain a frequency-domain model of the physical system. The time-domain model can include one or more model parameters having known values. The system also obtains time-domain input and output signals and converts the time-domain input and output signals to the frequency domain to obtain frequency-domain input and output signals. The system identifies at least one model parameter having an expected value that is different from a known value of the at least one model parameter based on the frequency-domain model and the frequency-domain input and output signals, and generates a diagnostic output indicating at least one component within the physical system being faulty based on the identified at least one model parameter.Type: GrantFiled: July 9, 2018Date of Patent: October 5, 2021Assignee: PALO ALTO RESEARCH CENTER INCORPORATEDInventors: Ion Matei, Aleksandar B. Feldman, Johan de Kleer
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Patent number: 11138400Abstract: Authenticating a mark having a marker that emits light under illumination, involving an obtaining of a light spectrum from the mark, the light spectrum having values, each value indicating a light intensity of the light emitted from the mark for a corresponding wavelength, an applying of a set of rules onto the values of the light spectrum to obtain a first result indicating whether the mark is authentic or not, an applying of statistical processing onto the values of the light spectrum to obtain a second result indicating whether the mark is authentic or not, and a generating of an output result indicating whether the mark is authentic or not from the first result and the second result.Type: GrantFiled: September 23, 2014Date of Patent: October 5, 2021Assignee: SICPA HOLDING SAInventors: Jean-Luc Dorier, Sandro Saitta
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Patent number: 11125827Abstract: Systems and methods for accurately determining the state of health (including state of charge and relative age) of a Lithium Sulfur battery, module or cell. The invention uses an operational model of a Lithium Sulfur cell or battery to predict model parameters under a range of conditions related to state of charge and state of health. Operational models include the memory effect due to the unique chemistry of a Lithium Sulfur cell that precludes the user of other methodologies for State of health determination for Lithium Sulfur batteries. Model parameters are identified in real life applications and parameters are compared to those of the operational Lithium Sulfur model employing Kalman filtering. The output includes an estimate of state of health and other key performance indicators. Key performance indicators are compared with measured values of for example resistance to provide feedback to the estimate process in order to improve accuracy.Type: GrantFiled: April 18, 2016Date of Patent: September 21, 2021Assignee: Oxis Energy LimitedInventors: Mark Wild, Greg Offer, Monica Marinescu, Daniel Auger, Abbas Fotouhi, Geraint Minton
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Patent number: 11112268Abstract: Disclosed herein is a method including receiving multi-axis accelerometer data representing a potential step taken by a user of an electronic device. The method also includes determining whether the potential step represented by the multi-axis accelerometer data is a false. This determination is made by calculating statistical data from the multi-axis accelerometer data, and applying a decision tree to the statistical data to perform a cross correlation that determines whether the potential step is a false positive. If the potential step is not a false positive, a step detection process is performed to determine whether the potential step is a countable step and, if the potential step is found to be a countable step, a step counter is incremented.Type: GrantFiled: August 28, 2017Date of Patent: September 7, 2021Assignee: STMicroelectronics S.r.l.Inventors: Marco Leo, Alessia Cagidiaco, Marco Catellano
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Patent number: 11112456Abstract: The present invention discloses a signal skew measurement method for integrated circuit, a medium, and an electronic device. The method comprises: by a test machine, acquiring a first signal and a second signal output by an IC, respectively performing under-sampling on the first and second signals to obtain a first sampled signal and a second sampled signal; respectively performing digital conversion on the first and second sampled signals based on a preset threshold voltage to obtain a first digital signal and a second digital signal; respectively performing convolution on the first and second digital signals using a preset pulse signal to obtain a first comparison signal and a second comparison signal; and calculating a skew between the first and second comparison signals to obtain a reference skew, and determining a skew between the first and second signals according to the reference skew.Type: GrantFiled: February 4, 2021Date of Patent: September 7, 2021Assignee: Changxin Memory Technologies, Inc.Inventor: Weibao Ke
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Patent number: 11105783Abstract: A arrangement for calibrating at least two sensors in parallel, including a data processing unit, especially a measurement transmitter for a multisensor system or a computer, wherein the data processing unit has an interface, via which the at least two sensors are connected via separate transmission lines for transmission of data, and wherein the data processing unit is embodied to perform calibrations of the at least two sensors in parallel and independently of one another.Type: GrantFiled: July 3, 2013Date of Patent: August 31, 2021Assignee: Endress + Hauser Conduct GmbH + Co. KGInventors: Andrea Reinhold, Stefanie Horn
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Patent number: 11105911Abstract: A method for perceiving physical bodies comprises the following steps: a) acquisition of a plurality of distance measurements of the physical bodies arising from one or more sensors; b) acquisition or computation of a value of a priori probability of occupancy of the cells of an occupancy grid; and c) application of an inverse sensor model on the occupancy grid to determine a probability of occupancy of a set of cells of the grid; d) construction of a consolidated occupancy grid by fusing the occupancy probabilities estimated during step c); wherein each the inverse sensor model is a discrete model, associating with each cell of the corresponding occupancy grid, and for each distance measurement, a probability class chosen inside one and the same set of finite cardinality and identified by an integer index; and wherein step d) is implemented by means of integer computations performed on the indices of the probability classes determined during step c), and as a function of the value of a priori occupancy probaType: GrantFiled: February 8, 2018Date of Patent: August 31, 2021Assignee: COMMISSARIAT A L'ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVESInventor: Frédéric Heitzmann
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Patent number: 11092716Abstract: This method calculates snowpack parameters such as: snow water equivalent, snow liquid water content, snow depth and snow density, using Earth orbiting satellites from a GNSS constellation transmitting radio wave frequency carrier signals. An under-snow receiver system and an out-of-snow receiver system are employed are capable of decoding the encoded GNSS data into data products such as a carrier to noise ratios and carrier phases. A computer system receives data products. The Snowpack software programs derive a measured carrier to noise ration reduction from the carrier signals and the carrier to noise ratios. A physical model calculates a modeled excess phase and a modeled carrier noise ratio reduction, calculating measured snowpack parameters, such as: a snow water equivalent, a snow liquid water content, a snow depth, and a snow density, of the at least one snow layer. A non-linear mathematical solver adjusts the plurality of snow parameters.Type: GrantFiled: January 22, 2019Date of Patent: August 17, 2021Assignee: NWB Sensors, IncInventors: Nathan Joel Pust, Austin William Beard, Paul Winston Nugent, Cooper P. McCann
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Patent number: 11092707Abstract: There is described embodiments relating to a method of determining a wave field in an anisotropic subsurface of the Earth. The method includes numerically solving a decoupled quasi-acoustic single wave mode wave equation based on spatially varied anisotropic parameters, to determine the wave field in the anisotropic subsurface.Type: GrantFiled: May 11, 2020Date of Patent: August 17, 2021Assignee: STATOIL PETROLEUM ASInventors: Sheng Xu, Hongbo Zhou
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Patent number: 11079511Abstract: A system for processing DAS VSP surveys is provided. The system includes a DAS data collection system coupled to at least one optical fiber at least partially positioned within a wellbore and configured to either activate or passively listen to a seismic source of energy for one or more times. The system further includes an information processing system connected to the DAS data collection system. A seismic dataset is received from the DAS data collection system recorded in a spatiotemporal domain. The seismic dataset is converted into intercept-time ray-parameter domain dataset. Local apparent slope is determined for each seismic signal in the received seismic dataset. Amplitude correction is performed for the received seismic signals by using the slowness profile and the determined local apparent slope in the intercept-time ray-parameter domain dataset. The corrected intercept-time ray-parameter domain dataset is converted back into the spatiotemporal domain.Type: GrantFiled: June 28, 2017Date of Patent: August 3, 2021Assignee: Halliburton Energy Services, Inc.Inventors: Xiang Wu, Mark Elliot Willis, Andreas Ellmauthaler
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Patent number: 11067592Abstract: Methods, apparatus, systems, and articles of manufacture are disclosed to perform prognostic health monitoring of a turbine engine.Type: GrantFiled: November 10, 2017Date of Patent: July 20, 2021Assignee: General Electric CompanyInventors: William Edwin Hurst, Mei Gao, Vivek Gandhi, Donald Horn, Gregory Jon Chiaramonte, Katherine Tharp Nowicki, Steven Richard Levin, Michael William Bailey, Ronald Plybon, Mustafa Tekin Dokucu, Aditya Kumar
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Patent number: 11056365Abstract: A method for fault detection in a fabrication tool is provided. The method includes processing a semiconductor wafer in a fabrication tool according to a plurality of process events of a process run. The method further includes measuring humidity in the fabrication tool in at least one of the process events. The method also includes comparing the humidity measured in one of the process events with an expected humidity associated with the process event. In addition, the method includes based on the comparison, indicating an alarm condition when a difference between the measured humidity and the expected humidity exceeds a range of acceptable values associated with the process event.Type: GrantFiled: November 1, 2017Date of Patent: July 6, 2021Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING CO., LTD.Inventors: Hom-Chung Lin, Jih-Churng Twu, Chin-Yun Chen, Tai-Hsiang Lin, Yu-Chi Tsai
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Patent number: 11041776Abstract: There is provided a pressure detection device including: a pressure detection element which receives pressure so as to output a detection signal corresponding to the pressure P; and a processing circuit which processes and outputs the detection signal output from the pressure detection element, where the processing circuit includes: a voltage transformation circuit which only transforms a power supply voltage fed from an external power supply so as to obtain a first reference voltage with a predetermined voltage value; an integrator circuit which uses the first reference voltage as an operation reference to perform integral processing on the detection signal so as to convert the detection signal into a voltage waveform; and at least one or more amplifier circuits which use a second reference voltage with a predetermined voltage value as an operation reference to perform amplification processing on an output signal from the integrator circuit.Type: GrantFiled: March 25, 2015Date of Patent: June 22, 2021Assignees: CITIZEN FINEDEVICE CO., LTD., CITIZEN WATCH CO., LTD.Inventor: Masanori Yomoyama
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Patent number: 11040245Abstract: A system to analyze vibration data includes circuitry that receives the vibration data, which is generated by a sensor that senses vibration of an object. The circuitry also analyzes the vibration data based on stored predetermined vibration data, and determines a characteristic of the object based on the analysis.Type: GrantFiled: November 25, 2014Date of Patent: June 22, 2021Assignee: SONY CORPORATIONInventors: Hideyuki Matsunaga, Kosei Yamashita
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Patent number: 11022575Abstract: Systems and methods for measuring unique microelectronic electromagnetic signatures are provided. A method includes injecting a nondestructive signal as input into a port of an object. The method may further include receiving as output from a signal path within the object a unique frequency dependent complex spectrum comprising a reflection spectrum or a transmission spectrum. The method may also include generating a unique object signature based upon the port and the received spectrum. The method may still further include differentiating the object from a different object based upon a comparison of the unique object signature of each.Type: GrantFiled: April 19, 2018Date of Patent: June 1, 2021Assignee: Applied Research Associates, Inc.Inventors: Christian Eakins, Thomas Kent
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Patent number: 11022718Abstract: A system method and apparatus for determining the disposition or orientation of a structural feature or structural feature present in a borehole core, such as a core sample. The apparatus is provided to capture data on structural features present in the core sample. The apparatus includes an orientation arrangement configured to determine the orientation, or change in orientation, of the apparatus, and a data-capturing arrangement configured to capture orientation data generated by the orientation arrangement. The orientation arrangement may include a gyroscope. The apparatus also includes an alignment arrangement operable to align the apparatus with a structural feature relating to the core sample. The alignment arrangement may include an alignment indicator operable to provide visual indication on the surface of the core sample. The method may include real-time delivery of data from the point of acquisition to cloud-based storage.Type: GrantFiled: February 10, 2016Date of Patent: June 1, 2021Assignee: Imdex Global B.V.Inventors: Grant Alexander Wilson, John David Wilson, Martin Muller
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Patent number: 11013237Abstract: A heat treatment monitoring system comprises a sensor unit having at least one sensor to determine current sensor data of food being heated; a processing unit to determine current feature data from the current sensor data; and a monitoring unit adapted to determine a current heating process state in a current heating process of the monitored food by comparing the current feature data with reference feature data of a reference heating process.Type: GrantFiled: February 14, 2020Date of Patent: May 25, 2021Inventor: Ingo Stork genannt Wersborg
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Patent number: 11009520Abstract: An apparatus is described that determines an estimated rotational speed of a rotating component of a machine in the absence of a reliable tachometer signal to indicate an actual rotational speed. The apparatus includes a processor that produces a spectral plot of the vibrational data, locates peaks in the spectral plot, and scans the spectral plot in predetermined rotational speed increments to provide candidate rotational speeds. For each candidate rotational speed, associated harmonics are identified, closest peaks in the spectral plot to the candidate rotational speed and its harmonics are located, gaps between the closest peaks and the candidate rotational speed and its harmonics are measured, and a sum of the gaps is recorded. The estimated rotational speed is the candidate rotational speed associated with a minimum sum of the gaps.Type: GrantFiled: February 6, 2019Date of Patent: May 18, 2021Assignee: Computational Systems, Inc.Inventors: Anthony J. Hayzen, Stewart V. Bowers, III
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Patent number: 11002539Abstract: A method for detecting a slope of a road on which a vehicle is traveling in at least one spatial direction. The vehicle has a body and a chassis with a plurality of wheels. An inclination of the vehicle body in the spatial direction is determined. For at least one wheel, a vertical distance to the vehicle body is detected. The distance so determined is used to calculate an inclination of the chassis in the spatial direction. The slope of the road in the spatial direction is determined from a difference between the inclination of the vehicle body in the spatial direction and the inclination of the chassis in the spatial direction.Type: GrantFiled: January 15, 2016Date of Patent: May 11, 2021Assignee: AUDI AGInventor: Andreas Unger
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Patent number: 10983150Abstract: Various embodiments described in this disclosure pertain to methods and systems for detecting and evaluating oscillations in an electrical power grid. The oscillations can include one or more oscillatory conditions, which can occur in one or more of five predefined frequency bands. Each of the five predefined frequency bands is categorized at least in part, by oscillations that are originated by uniquely different sources. In one embodiment, an oscillation detector can be used to detect the oscillatory condition and determine a magnitude characteristic, a phase characteristic, and/or a damping characteristic of at least one oscillation frequency that contributes to the oscillatory condition.Type: GrantFiled: August 28, 2017Date of Patent: April 20, 2021Assignee: General Electric Technology GmbHInventors: Zhiying Zhang, Ilia Voloh, Mark Gerard Adamiak