Patents Examined by Hyun Park
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Patent number: 8983794Abstract: A non-destructive inspection system for a structure is described. The inspection system includes a local positioning system (LPS) configured for determining position and orientation of objects relative to a structure coordinate system, a six degree-of-freedom digitizer operable for at least one of temporary attachment to the structure and placement proximate the structure, a non-destructive sensor array, and a processing device.Type: GrantFiled: October 4, 2010Date of Patent: March 17, 2015Assignee: The Boeing CompanyInventors: William P. Motzer, Gary E. Georgeson, Scott W. Lea, James J. Troy
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Patent number: 8949070Abstract: A method or apparatus for monitoring human activity using an inertial sensor is described. The method includes monitoring accelerations, and identifying a current user activity from a plurality of user activities based on the accelerations. In one embodiment, each of the plurality of user activities is associated with one of a plurality of types of periodic human motions that are detectable by the portable electronic device, and wherein the identification of the current user activity is made based on detecting two or more instances of the periodic human motion associated with the user activity. The method further includes counting periodic human motions appropriate to the current user activity.Type: GrantFiled: February 8, 2008Date of Patent: February 3, 2015Assignee: DP Technologies, Inc.Inventors: Philippe Richard Kahn, Arthur Kinsolving, Mark Andrew Christensen, Brian Y. Lee, David Vogel
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Patent number: 8918295Abstract: A distributed reflectometry device for diagnosing a network is disclosed. According to one aspect, the device includes at least one transmission line and several reflectometers connected to the network. A transmission portion of the device includes a first memory configured to store at least one test signal and a second memory configured to store weighting coefficients. The transmission portion may also include a first multiplier of a test signal (s) with a coefficient ?m, for producing a measurement m and a digital-to-analog converter connected to the line. A reception portion of the device includes an analog-to-digital converter configured to receive a signal from the line and provide a vector for the measurement m, a second multiplier of configured to multiply the vector with the coefficient ?m, an averaging module, and a post-processing and analysis module.Type: GrantFiled: October 13, 2009Date of Patent: December 23, 2014Assignee: Commissariat à l'énergie Atomique et aux Énergies alternativesInventor: Adrien Lelong
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Patent number: 8886485Abstract: Some embodiments of the present invention provide a system that determines whether a cooling device in a computer system is responsive to control signals. During operation of the computer system, a control signal is sent to the cooling device. Next, a response of the computer system to the control signal is measured, wherein the response includes a temperature profile. The frequency content of the control signal is then compared to the frequency content of the temperature profile to determine whether the cooling device is responsive to the control signal.Type: GrantFiled: February 14, 2008Date of Patent: November 11, 2014Assignee: Oracle America, Inc.Inventors: Kalyanaraman Vaidyanathan, Kenny C. Gross, Aleksey M. Urmanov
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Patent number: 8874399Abstract: Pipetting errors are detected by: (a) during pipetting, measuring the pressure in the tip of a pipetting device and determining an earlier rate of change of the pressure in the tip; (b) based on the earlier rate of pressure change and a previous pressure value pi, determining an expectation range for the pressure pi+1 at a further moment in time and/or an expectation range for the rate of pressure change ?i+1 based on the pressure at the further moment in time ti+1; (c) at the further moment in time ti+1 measuring the pressure pi+1 in the tip; and (d) determining the occurrence of a pipetting error by comparing the measured pressure pi+1 at the further moment ti+1 in time and/or a rate of pressure change ?i+1 calculated on the basis of the pressure pi+1 at the further moment ti+1 in time.Type: GrantFiled: September 27, 2010Date of Patent: October 28, 2014Assignee: bioMérieux S.A.Inventors: Thomas Beumer, Bas Fleskens
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Patent number: 8874376Abstract: Methods, systems, and apparatus for inducing fractures in a subterranean formation and more particularly methods and apparatus to place a first fracture with a first orientation in a formation followed by a second fracture with a second angular orientation in the formation are disclosed. The first and second fractures are initiated at about a fracturing location. The initiation of the first fracture is characterized by a first orientation line. The first fracture temporarily alters a stress field in the subterranean formation. The initiation of the second fracture is characterized by a second orientation line. The first orientation line and the second orientation line have an angular disposition to each other.Type: GrantFiled: October 6, 2006Date of Patent: October 28, 2014Assignee: Halliburton Energy Services, Inc.Inventor: Mohamed Y. Soliman
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Patent number: 8781777Abstract: A bridge circuit includes a plurality of half-bridges formed of sensor elements, which change impedance in accordance with a rotation angle of a detection target. A control circuit acquires output signals of the half-bridges and calculates a phase correction value for correcting a phase deviation. A memory circuit stores the phase correction value. The control circuit corrects a pre-correction rotation angle by the phase correction value. Since the pre-correction rotation angle is corrected by the phase correction value, a rotation angle of the detection target is detected with high accuracy even if the sensor elements are assembled with some positional deviations.Type: GrantFiled: September 13, 2011Date of Patent: July 15, 2014Assignee: Denso CorporationInventors: Takafumi Satou, Nobuhiko Uryu
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Patent number: 8781770Abstract: A method and a system for estimating a battery percentage are provided. The method includes the following steps. A coulomb counter calculated battery index (CCBI) relating to an accumulated amount of current flowing out of a battery is obtained. A battery voltage curve tracer calculated battery index (VCBI) relating to a temperature, an output voltage of the battery, and a current flowing out of the battery is obtained. A modified calculated battery index (MCBI) ranging between the CCBI and the VCBI is generated according to the CCBI and the VCBI.Type: GrantFiled: November 8, 2010Date of Patent: July 15, 2014Assignee: HTC CorporationInventors: Jean-Lieh Shen, Chih-Chung Teng, Tsung-Yuan Yang, Chih-Hsiung Chang, Kuei-Yuan Lai
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Patent number: 8781783Abstract: A system and method for checking a ground via of control chips of a printed circuit board (PCB) provides a graphical user interface (GUI) displaying a layout of the PCB. The control chip has a plurality of ground pins. The computer searches for signal path routing of each ground pin and ground vias along each signal path routing of each ground pin. If there are any ground vias having the same absolute coordinates, the computer determines that the ground vias are shared by more than one ground pin.Type: GrantFiled: February 5, 2010Date of Patent: July 15, 2014Assignee: Hon Hai Precision Industry Co., Ltd.Inventors: Hsien-Chuan Liang, Shen-Chun Li, Chun-Jen Chen, Shou-Kuo Hsu, Yung-Chieh Chen, Wen-Laing Tseng
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Patent number: 8781759Abstract: Meter electronics (20) for processing sensor signals for a multi-phase flow material in a flowmeter (5) is provided according to an embodiment of the invention. The meter electronics (20) includes an interface (201) for receiving first and second sensor signals (210 and 211) for the multi-phase flow material and a processing system (203).Type: GrantFiled: August 15, 2006Date of Patent: July 15, 2014Assignee: Micro Motion, Inc.Inventors: Mark James Bell, Craig B. McAnally
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Patent number: 8762097Abstract: In one aspect, a data processing system includes a virtual temperature sensor to provide system temperature for different system configurations, and a controller coupled to the sensor to control operations of the data processing system according to the virtual temperature. The virtual temperature sensor typically derives the temperature of a particular configuration of the data processing system using mathematical models or one or more operating parameters of the data processing system. In one example, the mathematical models include a characterization table which provides the measured temperature data from various system configurations. These measurements are performed with temperature sensors positioned in ideal locations for different configuration, and are preprocessed to provide the virtual temperature computation. The characterization table also includes thermal characteristics, such as thermal time constant and thermal resistance, of the critical components at multiple thermal control states.Type: GrantFiled: April 24, 2007Date of Patent: June 24, 2014Assignee: Apple Inc.Inventor: Timothy John Millet
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Patent number: 8762099Abstract: A measurement method of the present invention is a measurement method which measures a target divided into a plurality of partial regions to measure a whole shape of the target by stitching the plurality of partial regions. The measurement method comprises Steps S501 to S511 which measures a plurality of partial regions, Step S102 which determines an error in a partial region that is a reference, Step S105 which calculates each of errors in the plurality of partial regions, and Step S107 which performs a correction depending on each of the errors to stitch the plurality of partial regions. Steps S102 to S107 are repeatedly performed by changing the partial region that is the reference (S110).Type: GrantFiled: March 3, 2010Date of Patent: June 24, 2014Assignee: Canon Kabushiki KaishaInventor: Yuki Oshima
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Patent number: 8676543Abstract: Mechanical oscillators employ the use of resonance parameters, frequency and the quality factor Q, for the measurement of corrosion or deposition. The ability of a mechanical oscillator to measure small amounts of metal loss or deposition is not only dependent upon the mechanical design but is limited by the precision in determining the resonance frequency and Q. Methods for measuring these resonance parameters with a high precision in the presence of noise are provided. The increased degree of precision improves the utility of these devices as sensitive probes for corrosion and deposition (fouling) measurement. The increased degree of precision is enabled in part by employing curve fitting consistent with modeling the mechanical oscillator as a simple harmonic oscillator. This curve fitting procedure, combined with averaging and utilizing signal processing parameters to mitigate noise effects, adds precision in measuring resonance parameters.Type: GrantFiled: June 2, 2010Date of Patent: March 18, 2014Assignee: ExxonMobil Research and Engineering CompanyInventors: H. Alan Wolf, Chung-Min Cheng, Dalia G. Yablon, Alan M. Schilowitz, Manuel S. Alvarez, Yvonne Mathez
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Patent number: 8645090Abstract: A system for estimating a baseline of a signal exhibits a signal generator and a processor. The signal generator is configured to generate a signal exhibiting a plurality of peaks and a baseline. The processor is configured to perform operations including determining an estimator indicating at least one region of the signal that exhibits a peak, determining a weight indicating at least one region of the signal that does not exhibit a peak based on the estimator, and estimating the baseline of the signal based on at least the determined weight.Type: GrantFiled: May 14, 2009Date of Patent: February 4, 2014Assignee: Agilent Technologies, Inc.Inventor: Javier E. Satulovsky
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Patent number: 8645097Abstract: A method for analyzing the output of a rotary sensor, such as that coupled to a vehicle wheel assembly. In one embodiment, the method detects periodic irregularities in the output of an incremental rotary sensor and uses those irregularities with a reference signal and a pattern comparison technique to determine the absolute angular position of the sensor.Type: GrantFiled: August 26, 2008Date of Patent: February 4, 2014Assignee: GM Global Technology Operations LLCInventors: Kenneth L. Oblizajek, John D. Sopoci
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Patent number: 8639475Abstract: A system and method of signal detection from a given point, in which a radiative aperture, such as a sonar sensor, radar antenna, acoustic sensor, or the like, receives radiation from the point at more than one range. At each range, the signal incident on each point within the aperture is weighted by the cosine of the angle between a surface normal at the point on the aperture, and a vector from the point on the aperture to the given point. The physical size and shape of the aperture may also be changed to cause the aperture to subtend the same solid angle having the given point as the vertex, at each range. In this manner, the signal from the given point becomes aperture shape independent, facilitating object recognition and imaging.Type: GrantFiled: May 18, 2009Date of Patent: January 28, 2014Assignee: The United States of America as represented by the Secretary of the NavyInventor: Richard Rikoski
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Patent number: 8577640Abstract: The computer implemented method, system or computer program product comprises collecting magnetometer data from the device; and calculating a center of a shape of the magnetometer data as a result of minimization. The minimization of calculating the center of the shape further comprises calculating a plurality of running sums of the magnetometer data; storing the plurality of running sums; storing a count of the number of terms in each of the running sums; and calculating the center of the shape and setting the estimated magnetometer bias to the center of the shape. The radius of the sphere is calculated to ensure accuracy in the estimator of the magnetometer bias.Type: GrantFiled: August 10, 2012Date of Patent: November 5, 2013Assignee: Invensense, Inc.Inventor: William Kerry Keal
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Patent number: 8554497Abstract: A method for testing a plurality of fire hoses having respective service test pressures and the test apparatus therefor wherein each hose is required to maintain a test pressure for a specified duration to pass the test. The test pressure is proportional to the service test pressure. Each hose is coupled to a respective hose fitting of a respective branch test conduit. Each branch test conduit includes an isolation valve, a pressure transducer, and a hose fitting downstream of the isolation valve. A variable frequency-variable speed controls a motor which drives a positive displacement water pump supplying water to and pressurizing a water header conduit and a plurality of branch test conduits interconnected therewith. An algorithm applied to the error signal for a respective hose line generates a pump speed command limited by the controller to regulate the rate of increase of pump output pressure.Type: GrantFiled: March 27, 2008Date of Patent: October 8, 2013Assignee: Fire Catt LLCInventors: David Hamilton, Dennis Zeiber
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Patent number: 8532957Abstract: A method of measuring the weight of an aircraft is disclosed. The method comprises, in a self-propelled aircraft undercarriage having a electrical rotating machine, the steps of: measuring the current and voltage going into the rotating machine using current and voltage measuring means, calculating the power into the rotating machine, measuring the speed (or torque or acceleration) of said machine using speed sensing means, and comparing the power and speed (or torque or acceleration) results with a database of power and speed relationships of comparable aircraft of varying weights.Type: GrantFiled: February 11, 2008Date of Patent: September 10, 2013Assignee: Borealis Technical LimitedInventors: Isaiah Watas Cox, Jonathan Sidney Edelson
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Patent number: 8527214Abstract: A mechanical seal monitoring system and method that measure the wear of seal faces of a mechanical seal where the mechanical seal seals a rotating machine portion from another portion of the machine. The system preferably uses a wear probe movable relative to a rotating seal component so that the wear probe can contact the rotating component. The wear of the seal is preferably determined by the relative movement that is required for the wear probe to contact the rotating component. Preferably, stress waves induced by the rubbing between the probe and the rotating component are detected by a stress-wave sensor, processed by a signal processor, and either displayed to the user numerically or reported to a monitoring computer. A signal intensity comparison method is preferably used to make the detection process insensitive to background noise generated by sources other than the contact of the wear probe and the rotating component.Type: GrantFiled: October 22, 2009Date of Patent: September 3, 2013Inventor: Michael N. Horak