Patents Examined by Michael Dalbo
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Patent number: 9181791Abstract: Disclosed is a system and method for horizontal directional drilling (HDD). The system and method utilize predictive algorithms to both characterize the soil within the borehole and to quantify instability within the drillstring. The soil characteristics are represented by a soil coefficient (?), which relates the curvature of the borehole with the length of thrust of the drill rig as well as by comparison of thrust while thrusting with torque while drilling. The value of (?) is obtained by comparison of the historical orientation of the drilling head over the length of the borehole and the borehole shape as determined by an arbitrary navigation sensor. Drillstring instability is determined as a function of historical thrust and torque efficiencies and windup over the length of the borehole.Type: GrantFiled: June 28, 2011Date of Patent: November 10, 2015Assignee: Raytheon CompanyInventors: Benjamin Paul Dolgin, William G. Suliga, Thomas G. Pepin, John T. Ishibashi, Michael A. Toreno, James A. Nalasco
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Patent number: 9176015Abstract: A point load sensor measures compressive forces exerted on the outside of a ring in diametric compression irrespective of the direction of application of the force. The sensor consists of a ring with strain gauges placed in a configuration to measure the circumferential strain at two positions on the ring ninety degrees apart resulting from bending of the ring as the ring is loaded in diametric compression. The two measurements are corrected and combined to recover the compressive force on the ring. A method for calibrating and resolving the compressive force does not require the angle of loading or sensor orientation as an input, thus allowing resolution irrespective of the direction of the compressive force.Type: GrantFiled: February 8, 2012Date of Patent: November 3, 2015Assignee: The United States of America as represented by the Secretary of the NavyInventor: Jeffrey K. Sefranek
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Patent number: 9134201Abstract: The invention relates to a fluid providing apparatus (5; 34) for providing a fluid to an analyzing apparatus (17; 33) for analyzing the fluid and to the analyzing apparatus (17; 33). The fluid providing apparatus (34) comprises a casing (35), which has an introduction opening (7), through which a fluid transferring element (1) is introducible into the casing (35) for transferring the fluid to the fluid providing apparatus (34). The casing (35) comprises further a fluid releasing section (8) for releasing the fluid from the fluid transferring element (1) and a fluid transferring element detection section (36) for detecting whether the fluid transferring element (1) is introduced into the casing (35) by interacting with a fluid transferring element detection unit of the analyzing apparatus (17; 33).Type: GrantFiled: June 22, 2009Date of Patent: September 15, 2015Assignee: Koninklijke Philips N.V.Inventors: Petrus Johannes Wilhelmus Van Lankvelt, Dominique Maria Bruls, Albert Hendrik Jan Immink
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Patent number: 9134356Abstract: In processing devices, in particular in measuring, test or control units for the drivetrain or components thereof, it is often necessary to combine signals or data of different synchronization sources with one another or to process them whilst maintaining the original temporal relation. In order to achieve this, the signals or data have hitherto often been synchronized to a specific clock source, but this is frequently not possible. Therefore, a method and a device are specified which enable the processing of data or signals with different synchronization sources in a processing device by virtue of the fact that a dedicated time level is introduced for each synchronization source in the processing device, the temporal reference of the associated data and signals being retained in the time levels. The signals and data are processed in the time levels with the temporal original reference being maintained.Type: GrantFiled: March 4, 2008Date of Patent: September 15, 2015Assignee: AVL List GmbHInventors: Dietmar Peinsipp, Peter Priller
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Patent number: 9121263Abstract: The examples described herein relate to methods and apparatus for cleanup prediction and monitoring. A disclosed method of predicting cleanup of a sample fluid obtained by a downhole tool includes drawing the sample fluid into the downhole tool via a probe assembly; measuring optical densities of the sample fluid at a plurality of different respective times; selecting at least some of the measured optical densities as fitting points; identifying one or more inversion parameters; and performing, via a processor, an inversion using the fitting points, the inversion parameters and simulation data to generate data associated with a predicted cleanup of the sample fluid.Type: GrantFiled: October 6, 2010Date of Patent: September 1, 2015Assignee: Schlumberger Technology CorporationInventors: Alexander F. Zazovsky, Alexander Skibin, Darya Mustafina, Jaideva C. Goswami
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Patent number: 9118181Abstract: The present invention is concerned with a method for faulted phase selection and fault type determination in electric power lines applicable both to series compensated and uncompensated power lines. The method comprising a fault inception detection and an estimation of fault phase current signals, pre-fault current signals and zero-sequence current in order to receive the absolute value of incremental current signals and their maximum value from which real value indicators for phase to phase faults, real value indicators for 3-phase fault and a real value indicator for ground fault are determined. The method further comprises calculating the maximum of the value of all fault type indicators (Fflt), determining the fault type, which determines the fault type on the basis that the index (flt) means the specific type of fault indicated by the value of flt; and presenting the real fault type indicator (Fmax).Type: GrantFiled: August 6, 2010Date of Patent: August 25, 2015Assignee: ABB RESEARCH LTDInventors: Przemyslaw Balcerek, Marek Fulczyk, Eugeniusz Rosolowski, Jan Izykowski, Murari Saha, Piotr Pierz
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Patent number: 9103736Abstract: A method, apparatus and computer-readable medium for determining deformation of a plurality of coupled members. A distributed strain sensor string on a first member is coupled to a distributed strain sensor string on a second member. Signals are obtained from the sensor strings. A subset of strain data relating to sensor strain on the first member and the second member is created. A virtual sensor string is created having a plurality of virtual sensors placed on the first and second members including a joint therebetween. Strain data of sensors in the distributed stain sensor strings is mapped to sensors in the virtual sensor string. The deformation of the plurality of coupled members is determined using the strain data of the virtual sensors.Type: GrantFiled: December 3, 2010Date of Patent: August 11, 2015Assignee: Baker Hughes IncorporatedInventors: Jianfeng Chen, Xudong Yang
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Patent number: 9063252Abstract: An system and method for exploring geophysical formations at great depths below the surface of the earth. In order to explore the formation, nanorobots with a size less than 500 nanometers are inserted into the formation. The nanorobots propel through the formation, analyzing fluids and conditions as each moves through the formation. The nanorobots can communicate with a machine on the surface via a series of receivers and transmitters located in the wellbore. The machine on the surface is able to combine and analyze the data from the nanorobots to create a three dimensional map of the formation. The map shows the locations of pathways through the formation, pockets of hydrocarbons within the formation, and the boundaries of the formation.Type: GrantFiled: March 11, 2010Date of Patent: June 23, 2015Assignee: Saudi Arabian Oil CompanyInventors: Rami Ahmed Kamal, Modiu L. Sanni, Mazen Y. Kanj
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Patent number: 9062971Abstract: An electronic circuit includes an electronic compass having e-compass sensors mounted on different axes and operable to supply e-compass sensor data, memory circuitry, and an electronic processor coupled to said e-compass sensors and to said memory circuitry, said electronic processor operable to execute an electronic ellipse-fitting procedure responsive to the e-compass sensor data to generate at least one signal related to an ellipse tilt angle, and store the at least one signal in said memory circuitry as a tilt calibration parameter for the e-compass. Processes for calibrating an e-compass, as well as electronic circuits and processes for correcting measured heading, and processes of manufacture are also disclosed.Type: GrantFiled: March 5, 2009Date of Patent: June 23, 2015Assignee: TEXAS INSTRUMENTS INCORPORATEDInventor: Goutam Dutta
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Patent number: 9061229Abstract: A clogged filter detector has a transmitter and a sensor which are held in place by a transmitter bracket and a sensor bracket, respectively. The transmitter emits a beam of electromagnetic radiation, and the sensor is positioned in the path of this beam at a point such that the beam travels through a filter between the transmitter and the sensor. The transmitter and sensor are mis-aligned with the air flow at the point where the beam contacts the filter. The transmitter alternates between a transmitting mode and a dormant mode, and the transmitter emits a plurality of electromagnetic pulses during each transmitting mode.Type: GrantFiled: May 29, 2014Date of Patent: June 23, 2015Assignee: Filtersmarts, Inc.Inventors: David J. Wilson, Jr., Douglas Morris
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Patent number: 9050043Abstract: Methods and systems are disclosed for producing a plurality of archetype signals in wavelet space at a plurality of wavelet scales. A signal is transformed using a continuous wavelet transform based at least in part on a wavelet function. A scale dependent archetype transformed signal is computed based at least in part on the transformed signal and based at least in part on a natural periodicity of the wavelet function used to transform the signal. Information may be derived about the signal from the archetype transform signal, and stored in memory.Type: GrantFiled: May 4, 2010Date of Patent: June 9, 2015Assignee: Nellcor Puritan Bennett IrelandInventors: Paul Addison, James Ochs, James Watson
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Patent number: 9031816Abstract: An independent component analysis processor conducts real-time operations of multiple-channel parallel signals. The processor includes an input buffering unit for receiving and storing multiple-channel parallel signals, a mean/covariance unit, a centering unit for removing direct current components in the multiple channels parallel signals, a whitening unit for performing a whitening process, and an ICA training unit and an ICA calculating unit that perform an independent component analysis process, to calculate independent components in the multiple-channel parallel signals and separate artifacts from the signals.Type: GrantFiled: May 31, 2011Date of Patent: May 12, 2015Assignee: National Chiao Tung UniversityInventors: Chiu-Kuo Chen, Wai-Chi Fang, Ericson Chua, Chih-Chung Fu, Shao-Yen Tseng
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Patent number: 9008975Abstract: An apparatus for detecting periodic defects includes a sensor that obtains signals to evaluate properties of an area having a length longer than an expected defect period; a small area selector that separates small areas whose area length is shorter than that of the area so that all adjacent distance intervals are equal in a periodic defect arrangement direction, and selecting signals corresponding to the positions of the plurality of small areas from outputs from the sensor; an evaluation index calculator that calculates a similarity evaluation index between signal patterns among signals selected by the small area selector; a set value changer that changes the positions of the small areas and the distance interval, and repeating computational processings of the small area selector and the evaluation index calculator; and a period judgment device that judges the distance interval as a period when the evaluation index is higher than a value.Type: GrantFiled: March 27, 2009Date of Patent: April 14, 2015Assignee: JFE Steel CorporationInventors: Takahiro Koshihara, Hiroharu Kato, Akio Nagamune
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Patent number: 8965714Abstract: A diagnostic mechanism includes: a flow rate control part configured to control an opening degree of a flow rate control valve provided in a flow passage so that a measurement flow rate value outputted from a flow rate sensor becomes a target flow rate value; an inspection value output part configured to output an inspection value related to a time integral of the measurement flow rate value in a diagnostic period which is defined in correspondence with a part of a period from a time point of closing the flow passage upstream of the flow rate sensor to a time point of expiration of a state that the measurement flow rate value and the target flow rate value are substantially nearly equal; and a diagnosing part configured to compare the inspection value and a predetermined specified value to diagnose whether an abnormality relating to the flow rate sensor is present.Type: GrantFiled: September 30, 2011Date of Patent: February 24, 2015Assignee: Horiba STEC, Co., Ltd.Inventors: Yuji Yamaguchi, Masao Yamaguchi, Kentaro Nagai, Toshiyuki Himi
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Patent number: 8935125Abstract: Systems and methods are provided to calibrate and compensate for signal impairments from the use of cables in data communication devices. Signal impairments such as intra-pair skew of differential signals and frequency dependent insertion loss are measured during a calibration phase. One end of the cable is connected to a communication device. The other end of the cable is configured to loop back calibration signals transmitted from the communication device. The calibration signals looped back from the communication device are received and measured by the communication device. The measured impairments are used to determine transmit and receive impairment compensation settings to compensate for impairments caused by the cable. These settings are stored and used to adjust signals transmitted from the communication device to compensate for the transmit impairment. These setting are also used to adjust signals received by the communication device to compensate for the receive impairment.Type: GrantFiled: February 25, 2011Date of Patent: January 13, 2015Assignee: SMSC Holdings S.a.r.l.Inventors: Wei Fu, Christopher Thomas
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Patent number: 8914249Abstract: A resistance measuring apparatus includes: a voltage injector that injects an AC signal into a circuit by applying an AC voltage to an injection coil; a current measuring unit that measures an AC current produced in the circuit by the injection coil using a detection coil; a processing unit that calculates the circuit resistance from the AC signal voltage and the measured AC current; and a reference signal generator that outputs a binary reference signal that has a same period as the AC voltage and is synchronized to the clock. The voltage injector generates a stepped wave whose amplitude changes in synchronization with a clock, applies a signal based thereon as the AC voltage. The current measuring unit converts the current in the detection coil to a voltage signal, carries out synchronous detection using the reference signal, and measures the AC current based on the synchronous detection result.Type: GrantFiled: June 17, 2009Date of Patent: December 16, 2014Assignee: Hioki Denki Kabushiki KaishaInventor: Satoshi Imaizumi
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Patent number: 8909500Abstract: Method and system for measuring an angle between a first member and a second member under dynamic conditions is provided. A first and second acceleration sensor and an angle measuring device (goniometer) are connected to the first and second member. Under dynamic and static conditions, the angle (?) is measured by the goniometer. Under static conditions, the inclination angle of the first member is measured using the first acceleration sensor and the inclination angle of the second member using the second acceleration sensor and the angle (??) between the first and second members is calculated. Then the deviation is calculated between the angle (?) and the angle (??). An error correction factor is calculated from the deviation between both angles (?,??). The error correction factor is applied to future and/or previous measurements of the angle (?) between the first and second member done by the goniometer.Type: GrantFiled: November 3, 2008Date of Patent: December 9, 2014Assignee: Nederlandse Organisatie voor toegepast-natuurwetenschappelijk onderzoek TNOInventors: Ralf Guillaume Jean Catharina Heijkants, Caroline van der Horst, Merijn Wijnen, Marcus Benedictus Hoppenbrouwers
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Patent number: 8909487Abstract: An apparatus, a closed-loop system and method for measuring the resistance of inhalation systems and/or devices are disclosed.Type: GrantFiled: August 20, 2013Date of Patent: December 9, 2014Assignee: MannKind CorporationInventors: Benoit Adamo, Scott McLean, Chad C. Smutney, John M. Polidoro, Carl R. Sahi
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Patent number: 8898037Abstract: Methods and systems are provided for generating Lissajous figures based on monitored signals and identifying features of Lissajous figures. Features may include similarity metrics, shape change metrics and noise metrics, and may be used to determine information about the monitored signal. Features may also be used in monitoring operations, such as measurement quality assessment and recalibration.Type: GrantFiled: April 28, 2010Date of Patent: November 25, 2014Assignee: Nellcor Puritan Bennett IrelandInventors: James N. Watson, Paul Stanley Addison
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Patent number: 8849589Abstract: A process fluid flow device includes a power supply module, a process communication module, a processor and measurement circuitry. The process communication circuitry is coupled to the power supply module and to the processor. The measurement circuitry is operably coupleable to plurality of process variable sensors to obtain an indication of differential pressure, static pressure and process fluid temperature. The processor is configured to compute process fluid mass flow, and to use the static pressure and process fluid temperature to obtain an energy per unit mass value relative to the process fluid and to provide an energy flow indication.Type: GrantFiled: May 22, 2009Date of Patent: September 30, 2014Assignee: Rosemount Inc.Inventors: David E. Wiklund, Lowell A. Kleven