Patents Examined by Alvaro Fortich
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Patent number: 9243319Abstract: A chamber monitoring system may include a parallel architecture in which a single sensor control system is coupled to a number of different processing chamber control board sensor lines. In an illustrative embodiment, a single rotation sensor such as a tachometer may reside in a central control unit remote from the processing chambers such that rotation data may be processed by a single system and thereafter routed according to a variety of different network communication protocols to the main system controller, a factory interface, or both. In this and other embodiments, pull-up networks in the central control unit and the chamber control boards are matched so as to reduce electrical signal anomalies such as crowbar effects. The central control unit may be programmed via a main system controller to operate according to user defined parameters, which in turn may enable the system to differentiate between certain operating states.Type: GrantFiled: February 6, 2012Date of Patent: January 26, 2016Assignee: Applied Materials, Inc.Inventors: Ronald Vern Schauer, Raphael Dascoli, Shivan Bhargava
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Patent number: 9213050Abstract: Systems and devices for, and methods of, delayed meter reporting to a remote site via a local data-gathering device. The local data-gathering device is configured to: (a) sample, at a first sample rate, energy consumption related data of the local site; (b) store, at the data store, energy consumption related data of the local site; (c) filter the stored data based on the defined rule; and (d) transmit, at a second sample rate, the filtered data, wherein the first sampling rate is equal to or higher than the second sampling rate.Type: GrantFiled: August 30, 2010Date of Patent: December 15, 2015Assignee: Sharp Laboratories of America, Inc.Inventor: James E. Owen
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Patent number: 9209743Abstract: According to one embodiment, an apparatus includes an first storage unit to store a value output by a communication unit, a second storage unit to store positional data indicating a place the modules, an third storage unit to store an output model indicating the relationship between a sunshine condition and an electrical output, a estimation unit to estimate a sunshine condition for each module based on the value and the output model, a forth storage unit to store the sunshine condition estimated, a correction unit to correct the sunshine condition, and a detection unit to calculate an expected electrical output for each module based on the corrected sunshine condition and the output model, and to detect a fault in the modules.Type: GrantFiled: August 24, 2012Date of Patent: December 8, 2015Assignee: KABUSHIKI KAISHA TOSHIBAInventors: Yoshiaki Hasegawa, Makoto Sato, Akihiro Suyama
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Patent number: 9200923Abstract: A pedometer for determining the length of a route traveled on foot includes an acceleration sensor for ascertaining a number of steps as well as a pressure sensor for ascertaining a change in geographic elevation, and an evaluation unit being configured to adapt the step length to the measured average elevation change per step.Type: GrantFiled: June 2, 2010Date of Patent: December 1, 2015Assignee: ROBERT BOSCH GMBHInventors: Gerhard Lammel, Daniel Schifferdecker
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Patent number: 9189374Abstract: An automatic test system and method for a distributed comprehensive service are disclosed. The system has a client (101), a scheduling server (102) and testing subsystems (103) which are in a distributed deployment and used to test tested systems (104) that are also in a distributed deployment. The scheduling server (102) receives and analyzes test tasks sent from the client (101), schedules test items according to the logical relationship and distributes them to the corresponding testing subsystems (103). The test subsystems (103) analyze and execute the test items to test the tested systems (104), collect test item execution reports and send the execution reports to the scheduling server (102). The scheduling server (102) generates a test task report and sends to the client (101) for examination. The system supports complicated multi-service test scenarios and multi-test task execution.Type: GrantFiled: June 29, 2010Date of Patent: November 17, 2015Assignee: ZTE CorporationInventor: Hongqiang Zhang
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Patent number: 9140542Abstract: An analytical model simulates the propagation of radiation through a coated continuous web where layer thickness and refractive index, as variables, determine the speed and direction of transmitted radiation. The model predicts characteristics of transmitted radiation based on characteristics of incident radiation and initially assigned values for layer thicknesses. Coating thickness(s) are ascertained in a process whereby incident radiation of known characteristics is directed onto a coated web and thereafter, actual measurements of transmitted radiation are compared to predicted characteristics. Using a fitting algorithm, the assigned thickness(es) of the layer(s) of the model are adjusted and the process repeated until the actual and predicted values are within desired limits at which time, the assigned thickness(es) represent the measured calipers.Type: GrantFiled: April 11, 2012Date of Patent: September 22, 2015Assignee: Honeywell ASCa Inc.Inventors: Stephane Savard, Adam Krolak
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Patent number: 9136138Abstract: Disclosed is an apparatus for processing a semiconductor and a method for generating a seasoning process of a reaction chamber. The method may include generating plasma in the reaction chamber using a production process recipe, obtaining at least one reference measurement value related to a byproduct of the generated plasma, performing a plurality of seasoning tests on the chamber to obtain a plurality of test results, generating an empirical model by forming at least one relational expression correlating variables manipulated during the performing of the plurality of seasoning tests to the plurality of test results, and estimating a seasoning process by using the at least one relational expression to estimate at least one estimated calculation value.Type: GrantFiled: May 25, 2011Date of Patent: September 15, 2015Assignee: SAMSUNG ELECTRONICS CO., LTD.Inventors: Kye Hyun Baek, Sangwuk Park, Geum Jung Seong, Yongjin Kim
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Patent number: 9134712Abstract: When arrangements with a repeating working cycle such as, for example, in the case of engine test benches, are being controlled, resonances which have to be damped by the control system are often excited by the test specimen (for example an internal combustion engine) in the working range of the arrangement. The invention proposes for this purpose a control concept in which a modified actual value rist—mod is determined from a current actual value rist—akt of the control system and from a predicted imminent system-delay-free actual value on the basis of the actual value of a previous working cycle, and said modified actual value rist—mod is fed to the control system.Type: GrantFiled: August 26, 2009Date of Patent: September 15, 2015Assignee: AVL List GmbHInventors: Helmut Kokal, Josef Mayrhofer, Dirk Denger, Martin Schmidt, Luigi del Re
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Patent number: 9130393Abstract: Some embodiments concern a method of isolating low amplitude signals in one or more electrical signals. The method can include: using a data acquisition device to acquire one or more electrical signals; using a first processor to compute one or more first parameters related to the one or more electrical signals; using the first processor to determine one or more first portions of the one or more electrical signal that comprise one or more transient signals; using the first processor to selectively mask the one or more first portions of the one or more electrical signals to create one or more output signals; and adjusting a gain of the data acquisition device based upon one or more second parameters of the one or more output signals. Other embodiments are disclosed.Type: GrantFiled: April 11, 2012Date of Patent: September 8, 2015Assignee: Belkin International, Inc.Inventor: Karthik Yogeeswaran
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Patent number: 9097792Abstract: An atmospheric correction system (ACS) is proposed, which accounts for the errors resulting from the in-homogeneities in the operational atmosphere along the slant path by constructing atmospheric profiles from the data along the actual target to sensor slant-range path. The ACS generates a slant-range path based on the arbitrary geometry that models the sensor to target relationship. This path takes the atmosphere and obstructions between the two endpoints into account when determining the atmospheric profile. The ACS uses assimilation to incorporate weather data from multiple sources and constructs an atmospheric profile from the best available data. The ACS allows the user to take advantage of variable weather and information along the path that can lead to increased accuracy in the derived atmospheric compensation value.Type: GrantFiled: July 1, 2011Date of Patent: August 4, 2015Assignee: The Johns Hopkins UniversityInventors: Michael A. Kelly, Kwame Osei-Wusu, Edward E. Hume, Jr., Shadrian B. Strong
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Patent number: 9096056Abstract: A computer-based apparatus, including: a memory element storing computer readable instructions; a processor; and a source element to expel a first plurality of drops of a substance with a known density through a medium, and under a set of conditions. The processor executes the computer readable instructions to calculate uncalibrated volumes for the first plurality of drops using respective images of drops in the first plurality of drops. The source element expels a second plurality of drops of the first substance through the medium, and under the first conditions. The processor executes the computer readable instructions to: calculate, using a weight for the second plurality of drops and the known density, actual volumes for the second plurality of drops; and generate, using uncalibrated volumes and the actual volumes, an equation to modify the uncalibrated volumes to match the actual volumes.Type: GrantFiled: May 19, 2011Date of Patent: August 4, 2015Assignee: Xerox CorporationInventors: Jing Zhou, Fusheng Xu, James Beachner
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Patent number: 9045313Abstract: A method and a system determine a position of at least one sway sensor in an elevator system for sensing a lateral motion of an elevator rope between a first boundary location and a second boundary location. An operation of the elevator system is simulated with a model of the elevator system to produce an actual shape of the elevator rope caused by the operation. At least one sway location is determined, such that an error between the actual shape of the elevator rope and an estimated shape of the elevator rope is minimized. The estimated shape of the elevator rope is determined by interpolation of the first boundary location, the second boundary location, and the sway location. The position of the sway sensor is determined, such that the sway sensor senses the lateral motion of the elevator rope at the sway location.Type: GrantFiled: April 13, 2012Date of Patent: June 2, 2015Assignee: Mitsubishi Electric Research Laboratories, Inc.Inventors: Mouhacine Benosman, Scott A. Bortoff
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Patent number: 9043152Abstract: A method for estimating an inclination and azimuth at a bottom of a borehole includes forming a last survey point including a last inclination and a last azimuth; receiving at a computing device bending moment and at least one of a bending toolface measurement and a near bit inclination measurement from one or more sensors in the borehole; and forming the estimate by comparing possible dogleg severity (DLS) values with the bending moment value.Type: GrantFiled: August 8, 2011Date of Patent: May 26, 2015Assignee: Baker Hughes IncorporatedInventors: Frank Schuberth, Hanno Reckmann, John D. Macpherson, James Albert Hood
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Patent number: 9043184Abstract: Described herein is a system and method for detecting underutilized capacity within a storage system environment. The technique comprises collecting performance data of various storage objects within a storage system environment for various performance measures at designated time intervals. The collected performance data may be formatted and stored to a database. One or more parameters may be received specifying at least one performance measure, at least one threshold value, and/or at least one time period. The performance data for target storage objects may be analyzed according to the received parameters to determine any underutilized storage objects. A report may be generated according to the parameters listing the storage objects and address locations of any underutilized storage objects. The report may comprise various information corresponding to the underutilized storage object, such as the business units, tiers, data centers, and levels of service they are associated with.Type: GrantFiled: October 12, 2011Date of Patent: May 26, 2015Assignee: NetApp, Inc.Inventors: Yarom Gabay, Francisco Jose Assis Rosa, Ran Gilboa
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Patent number: 9037420Abstract: An internal residual stress calculating device includes a prediction unit that predicts a temporal variation in deformation which is received by a medium having an image formed thereon from a correcting device correcting a deformation, and a calculation unit that calculates an internal residual stress of the medium having passed through the correcting device on the basis of a relational expression including an elasticity term and a term related to a plastic deformation and the temporal variation in deformation predicted by the prediction unit.Type: GrantFiled: August 22, 2011Date of Patent: May 19, 2015Assignee: FUJI XEROX CO., LTD.Inventors: Ryosuke Takahashi, Tomoyuki Ito, Kiyoshi Hosoi, Takashi Ogino
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Patent number: 9008999Abstract: A component position detector for determining if a first component is properly attached to a second component. The component position detector can be a steering wheel airbag position detector that provides for a convenient and cost-effective apparatus and/or process for determining whether or not a steering wheel airbag is properly attached to a steering wheel. Such a steering wheel airbag position detector can include a jig that has a scan position, the scan position located on a front side of a steering wheel. In addition, the position detector can include a sensor rigidly attached to the jig, the sensor operable to perform a two-dimensional scan across a gap between the steering wheel and a steering wheel airbag and/or horn pad attached to the steering wheel.Type: GrantFiled: October 27, 2011Date of Patent: April 14, 2015Assignees: Toyota Motor Engineering & Manufacturing North America, Inc., Leite Automation Inc.Inventors: Shah Mohammed Asad Husain, Andre Kenneth Gorden Good, Gary Lee, Martin Cina, Nelson Leite, Farhan Khan
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Patent number: 9002677Abstract: A method for characterizing a semiconductor sample, said method comprising: shining light on one or more points in said semiconductor sample; measuring one or more voltage decay curves corresponding to said shining of light on said one or more points in said semiconductor sample; extracting one or more intermediate voltage decay curves corresponding to one or more measured voltage decay curves; obtaining one or more normalized decay curves corresponding to one or more intermediate voltage decay curves, each of the said one or more normalized decay curves corresponding to one or more discrete estimates of survival functions; and analyzing said obtained one or more normalized decay curves, said analyzing comprising obtaining one or more discrete estimates of the probability of recombination corresponding to the one or more normalized decay curves, and computing one or more summary statistics corresponding to each of said obtained one or more discrete estimates.Type: GrantFiled: July 21, 2014Date of Patent: April 7, 2015Assignee: Raja TechnologiesInventor: Ramesh Rajaduray
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Patent number: 8965735Abstract: The invention relates to a signal processing device having a first signal processing unit (101), a second signal processing unit (103), a third signal processing unit (105), and a safety unit (107). The first signal processing unit (101) and the second signal processing unit (103) are operable in parallel for providing signal processing redundancy, and are designed to output an output signal in each case in response to an input signal. The safety unit (107) is designed to replace the first signal processing unit (101) or the second signal processing unit (103) with the third signal processing unit (105).Type: GrantFiled: December 12, 2008Date of Patent: February 24, 2015Assignee: Phoenix Contact GmbH & Co. KGInventors: Rainer Esch, Viktor Oster
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Patent number: 8949067Abstract: A test cell for determining expansion or contraction of a sample contained therein includes, a test cell body, a reflective surface within the test cell body, the reflective surface moveable responsive to expansion or contraction of the sample, a displacement sensor system exterior of the cell body, the displacement sensor system having a transmitter for transmitting directed electromagnetic radiation and a sensor for sensing electromagnetic radiation, a lens provided in the cell body, the lens constructed to allow electromagnetic radiation to pass therethrough. The transmitter, reflective surface, and sensor are constructed and positioned such that directed electromagnetic radiation transmitted from transmitter toward reflective surface is reflected from reflective surface toward the sensor.Type: GrantFiled: September 16, 2011Date of Patent: February 3, 2015Assignee: OFI Testing Equipment, Inc.Inventors: Jarod Hammar, John D Norwood
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Patent number: 8942954Abstract: Fault location on a non-homogeneous electric power line that includes a plurality of sections by determining a section in which negative-sequence voltage magnitude profiles calculated from each terminal of the power line intersect. The fault location may determine the faulted section and determine the location of the fault within the faulted section. To determine the fault location, the negative-sequence voltage magnitude profiles may be calculated from measurements taken at each terminal of the power line and compared to determine a point where the profiles intersect. The profiles may be calculated using power line properties and measurements from each terminal.Type: GrantFiled: September 16, 2010Date of Patent: January 27, 2015Assignee: Schweitzer Engineering Laboratories, Inc.Inventors: Yanfeng Gong, Armando Guzman-Casillas, Mangapathirao Venkata Mynam, Richard M. Edge