Density Patents (Class 702/137)
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Patent number: 11761978Abstract: A vibration monitoring apparatus is disclosed that includes a vibration sensor, a controller electrically coupled to the vibration sensor, a power unit electrically coupled to the controller and the vibration sensor, and an environment-resistant material encapsulating the vibration sensor, the controller, and the power unit. The vibration monitoring apparatus includes processing capability to process vibration data and transmission hardware to transmit processed or unprocessed vibration data.Type: GrantFiled: February 26, 2021Date of Patent: September 19, 2023Assignee: Schlumberger Technology CorporationInventors: Christophe Laurent, Hugues Trifol
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Patent number: 11748049Abstract: A control apparatus includes a controller that obtains a first job associated with first document image data, obtains read image data of a color sample associated with the first document image data, generates a first color conversion parameter regarding a color conversion of the first document image data based on the first document image data and the read image data, and automatically associates the first color conversion parameter with the first job.Type: GrantFiled: July 8, 2021Date of Patent: September 5, 2023Assignee: Konica Minolta, Inc.Inventor: Toshiki Tsukano
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Patent number: 11576754Abstract: Methods for designing and fabrication of a series of apparatuses for expanding a patient's palate (“palatal expanders”). In particular, described herein are methods and apparatuses for forming palatal expanders, including rapid palatal expanders, as well as series of palatal expanders formed as described herein and apparatuses for designing and fabricating them.Type: GrantFiled: November 20, 2020Date of Patent: February 14, 2023Assignee: Align Technology, Inc.Inventors: Fuming Wu, Ryan Kimura, Jeremy Riley, Yaser Shanjani, Norman Su, Jun Sato, Bastien Pesenti, John Y. Morton, Jihua Cheng
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Patent number: 9671685Abstract: The present disclosure provides for many different embodiments. An exemplary method can include providing a mask fabricated according to a design pattern; extracting a mask pattern from the mask; converting the mask pattern into a rendered mask pattern, wherein the simulated design pattern includes the design pattern and any defects in the mask; simulating a lithography process using the rendered mask pattern to create a virtual wafer pattern; and determining whether any defects in the mask are critical based on the virtual wafer pattern. The critical defects in the mask can be repaired.Type: GrantFiled: December 22, 2010Date of Patent: June 6, 2017Assignee: TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY, LTD.Inventors: Chin-Hsiang Lin, Heng-Jen Lee, I-Hsiung Huang, Chih-Chiang Tu, Chun-Jen Chen, Rick Lai
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Patent number: 9234317Abstract: The present disclosure considers a system and method that can predict soil compaction and machine-specific productivity rate across multiple soil conditions without requiring site-specific samples and multi-variable lab testing. The method and system disclosed here can utilize predictive algorithms combined with a soils database to predict soil response to compaction energy across a range of soil moistures for the range of compaction machines available to predict compaction performance.Type: GrantFiled: September 25, 2013Date of Patent: January 12, 2016Assignee: Caterpillar Inc.Inventor: Liqun Chi
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Patent number: 9141062Abstract: Correction data is produced for density errors in prints produced using a printer. While printing a test image, the periods of rotation of one or more rotatable imaging members arranged along a receiver feed path in the printer are measured using a period sensor. The printed test image is measured in the cross-track direction and a one dimensional map of the period sensors is determined. A reproduction error signal representing deviation from aim density is determined. The variations from the data at measured periods in one or both directions are used to produce a correction signal.Type: GrantFiled: January 30, 2014Date of Patent: September 22, 2015Assignee: EASTMAN KODAK COMPANYInventors: Michael Thomas Dobbertin, Richard George Allen
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Publication number: 20150142369Abstract: A method for predicting the California Bearing Ratio of a pavement subbase layer, wherein samples are collected from different regions of the subbase layer, the samples are tested to determine at least moisture content and density. Each sample is prepared at optimum moisture content and at different densities and tested to determine the California Bearing Ratio for each density and to obtain a dataset of variables. A multiple linear regression model is applied to selected variables from the dataset to relate the determined California Bearing Ratio value to the selected variables from the dataset to obtain a predicted value of the California Bearing Ratio of a subbase having comparable variables.Type: ApplicationFiled: November 15, 2013Publication date: May 21, 2015Applicant: UMM AL-QURA UNIVERSITYInventors: Mohammad Hasan Alawi, Maher Ibrahim A. Rajab
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Patent number: 9026395Abstract: A specific gravity measuring tool comprises a portable handheld housing supporting a plurality of electrodes at a fixed known spacing thereon and a display for displaying a determined specific gravity thereon. The electrodes are arranged to be penetrated into the object to be measured, for example a potato. The electrodes include a first pair across which an electrical potential is arranged to be generated, and a second pair across which an electrical potential is arranged to be sensed. A processor of the tool is arranged to calculate electrical impedance using the electrical potential generated across said first pair of the electrodes, the electrical potential sensed at said second pair of electrodes, and the known spacing between the electrodes so that the specific gravity can be determined using a predetermined relationship between electrical impedance and specific gravity.Type: GrantFiled: August 26, 2008Date of Patent: May 5, 2015Inventors: Kelly Beaulieu, Philip Maurice Church
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Patent number: 9008977Abstract: The density of a fluid is determined using a vibratory resonant densitometer in an environment. The densitometer includes a tubular sample cavity and other densitometer parts. The method includes measuring a plurality of parameters characterizing the environment. The method further includes adjusting a model of the sample cavity using the measured parameters. The method further includes receiving a sample fluid into the sample cavity. The method further includes vibrating the sample cavity to obtain a vibration signal. The method further includes calculating the density of the sample fluid using the model and the vibration signal.Type: GrantFiled: May 20, 2009Date of Patent: April 14, 2015Assignee: Halliburton Energy Services, Inc.Inventor: Li Gao
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Patent number: 8990020Abstract: A system and method for use in a downhole tool having a fluid density measurement device positioned therein are provided. In one example, the method includes deploying the downhole tool at a first station in a borehole. The downhole tool is moved from the first station to a second station in the borehole. A plurality of fluid density values of fluid within the borehole between the first and second stations are measured using the fluid density measurement device in the downhole tool. The plurality of fluid density values may represent a continuous log of fluid densities between the first and second stations.Type: GrantFiled: February 2, 2010Date of Patent: March 24, 2015Assignee: Schlumberger Technology CorporationInventors: Harold Pfutzner, Peter D. Wraight
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Patent number: 8977515Abstract: A balanced drumstick system and method permanently reposition the longitudinal center of gravity of a plurality of wood drumsticks to common new specified location to create custom sets of balanced wood drumsticks. The system and method automate the repositioning of the longitudinal center of gravity of wood drumsticks to increase accuracy and to decrease time to create sets of custom wood drumsticks.Type: GrantFiled: September 3, 2010Date of Patent: March 10, 2015Inventor: David James Hughlett
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Patent number: 8972218Abstract: According to various embodiments, package evaluation systems and methods are provided for evaluating the sustainability of packaging used in the shipment of goods. In particular, the package evaluation systems and methods are configured for performing package evaluations and managing and providing access to data resulting from package evaluations. The package evaluations are designed to assess, among other things, the ability of sample packages to prevent damage to their contents, the volumetric efficiency of sample packages, and the sustainability of the materials used to construct sample packages. In addition, the systems and methods are further configured for assigning a certification to an entity associated with the evaluated packages based on the results of the evaluation.Type: GrantFiled: December 6, 2013Date of Patent: March 3, 2015Inventors: Arnold Barlow, Dennis R. Estep, Andrew J. Gruber, Patrick McDavid, Quinto Marini, Nancy Parmer
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Publication number: 20150031793Abstract: A multifunctional syntactic foam including a matrix material and hollow particles, where a first and second material property of the syntactic foam are tailored on the basis of the wall thickness and volume fraction of the hollow particles.Type: ApplicationFiled: July 28, 2014Publication date: January 29, 2015Inventors: Nikhil Gupta, Vasanth Chakravarthy Shunmugasamy
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Publication number: 20150012239Abstract: In accordance with an embodiment, a measurement apparatus includes a stage to hold a substrate, an electromagnetic wave applying unit, a detector, and first and second calculation units. The electromagnetic wave applying unit generates electromagnetic waves and applies it to the substrate. The detector detects the electromagnetic waves scattered or reflected by the substrate and measure the intensity of the electromagnetic waves. The first calculation unit processes a signal from the detector to create a first reflectance profile, fit the first reflectance profile to a second reflectance profile prepared by a simulation, thereby calculating thickness and density of an analytic model which is set so that the periodic structure and the membranous structure are regarded as a single mixed layer. The second calculation unit calculates, from a sectional shape of the periodic structure and the calculated thickness and density, the density of the second material after a volume change.Type: ApplicationFiled: September 9, 2013Publication date: January 8, 2015Applicant: KABUSHIKI KAISHA TOSHIBAInventor: Yasuhiko ISHIBASHI
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Publication number: 20140336975Abstract: Provided are methods of measuring electrode density and electrode porosity using X-ray diffraction. According to the methods of measuring electrode density and porosity of the present invention, electrode density and porosity may be efficiently measured by a non-destructive method using X-ray diffraction.Type: ApplicationFiled: July 15, 2014Publication date: November 13, 2014Inventors: Eun Kyung Kim, Sun Young Shin, Je Young Kim, Sang Wook Woo
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Publication number: 20140257742Abstract: The invention involves “a method to structure mineral aggregate gradation by using three control points & two curves”, including the following steps: (1) Three control points are determined according to the property of the mixtures: nominal maximum size of aggregate and its passing rate, nominal minimum size of aggregate and its passing rate, and the discontinuity point between the coarse aggregate and the fine aggregate and its passing rate. (2) The grading curves of the coarse and the fine aggregate are selected respectively with Power function model, Exponential function model and Logarithmic function model. (3) Measure the stamped density and the stamped voids in mineral aggregate, and then choose the grading of the coarse and the fine aggregate on the basis of the project need. The invention can help constitute different gradation curves in line with local materials from different areas and sources.Type: ApplicationFiled: October 15, 2012Publication date: September 11, 2014Applicants: RESEARCH INSTITUTE OF HIGHWAY, MOT, PRC, GUANGXI COMMUNICATIONS INVESTMENT GROUP CO., LTD.Inventors: Xudong Wang, Qin Fu, Lei Zhang, Yi Liu, Xingye Zhou, Fujian Li
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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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Publication number: 20140188421Abstract: A computer system is described. The computer system is provided with a processor and a computer readable medium. The computer readable medium stores computer executable instructions that, when executed, cause the processor to receive a first reference density measured at a first pressure and a second reference density measured at a second pressure. The first and second reference densities are measured at a reference temperature. The computer system receives a first tube period measured at the first pressure and a second tube period measured at the second pressure for a Coriolis meter, with the first and second tube periods measured at the reference temperature. The computer system receives at least two test densities and at least two test periods. The test densities and the test periods are measured at at least two test temperatures. The computer system associates an offset and a temperature correction factor with the Coriolis meter.Type: ApplicationFiled: December 17, 2013Publication date: July 3, 2014Applicant: Schlumberger Technology CorporationInventors: Laurence Fraser, Francis Allouche
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Patent number: 8738124Abstract: Methods and systems are provided for the noninvasive measurement of the subepithelial impedance of the breast and for assessing the risk that a substantially asymptomatic female patient will develop or be at substantially increased risk of developing proliferative or pre-cancerous changes in the breast, or may be at subsequent risk for the development of pre-cancerous or cancerous changes. A plurality of electrodes are used to measure subepithelial impedance of parenchymal breast tissue of a patient at one or more locations and at least one frequency, particularly moderately high frequencies. The risk of developing breast cancer is assessed according to measured and expected or estimated values of subepithelial impedance for the patient and according to one or more experienced-based algorithms. Devices for practicing the disclosed methods are also provided.Type: GrantFiled: December 8, 2008Date of Patent: May 27, 2014Assignee: Epi-Sci, LLCInventor: Richard J. Davies
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Publication number: 20140100812Abstract: According to various embodiments, package evaluation systems and methods are provided for evaluating the sustainability of packaging used in the shipment of goods. In particular, the package evaluation systems and methods are configured for performing package evaluations and managing and providing access to data resulting from package evaluations. The package evaluations are designed to assess, among other things, the ability of sample packages to prevent damage to their contents, the volumetric efficiency of sample packages, and the sustainability of the materials used to construct sample packages. In addition, the systems and methods are further configured for assigning a certification to an entity associated with the evaluated packages based on the results of the evaluation.Type: ApplicationFiled: December 6, 2013Publication date: April 10, 2014Applicant: UNITED PARCEL SERVICE OF AMERICA, INC.Inventors: ARNOLD BARLOW, DENNIS R. ESTEP, ANDREW J. GRUBER, PATRICK MCDAVID, QUINTO MARINI, NANCY PARMER
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Patent number: 8682605Abstract: A system for determining a property of a paving-related material is provided. Such a system comprises a measuring device for selectively and directly measuring the property. A computer device is capable of executing a software program product and communicating with the measuring device. The computer device directs the measuring device to measure the property of the paving-related material according to a parameter determined by the software program product, and to receive data comprising the measured property from the measuring device. A communication element operably engaged between the measuring device and the computer device allows communication therebetween. The communication element is configured to allow the computer device to be spaced apart from the measuring device, thereby allowing the computer device to be prepared, to include the parameter and to manipulate the data, in spaced apart relation with respect to the measuring device. An associated method is also provided.Type: GrantFiled: February 6, 2012Date of Patent: March 25, 2014Assignee: Troxler Electronic Laboratories, Inc.Inventor: Robert E. Troxler
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Patent number: 8606521Abstract: A wellbore fluid pressure measurement system includes a densometer adapted to measure a fluid density of a fluid flowing in a tubing system; and a monitoring unit communicably coupled to the densometer. The monitoring unit is adapted to receive a plurality of values representative of the fluid density from the densometer and includes a memory adapted to store the plurality of values representative of the fluid density; and one or more processors operable to execute a fluid pressure measurement module. The module is operable when executed to determine a fluid pressure of the fluid based on at least a portion of the values representative of the fluid density.Type: GrantFiled: February 17, 2010Date of Patent: December 10, 2013Assignee: Halliburton Energy Services, Inc.Inventors: Joseph A. Beisel, Stanley V. Stephenson
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Patent number: 8560265Abstract: The invention relates to the area of thermophysical studies of media and is intended for the determination of thermal properties of solid media by placing a measuring device on the surface of the medium. A heater, which is made in the form of a flexible membrane capable of taking the shape of the solid body surface under the action of the hold-down pressure and which additionally serves as a temperature sensor, is pressed to the solid body surface by using a hold-down element in such a way as to ensure that the heater shape fits the shape and irregularities of the solid body surface. The heater temperature is registered throughout the heater surface during and after the heating. The thermal conductivity and thermal diffusivity of the solid body are determined by processing the heater temperature measurement data both in the time range from the start of the solid body heating to the start of the thermal convention of the ambient medium and after the termination of the solid body heating process.Type: GrantFiled: October 21, 2010Date of Patent: October 15, 2013Assignee: Schlumberger Technology CorporationInventors: Yury Anatolyevich Popov, Valery Vasil'evich Shako, Anton Vladimirovich Parshin, Sergey Sergeevich Safonov
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Patent number: 8521466Abstract: A method for determination of interface particles used in a particle method is proposed. According to the present invention, the method for determination includes a density acquiring step of acquiring density in a predetermined range based on a determining-target particle, a first discriminating step of comparing the density with a predetermined threshold, a second discriminating step of determining a symmetry of an arrangement of the other particles within a predetermined range based on the determining-target particle, and a determining step of determining the determining-target particle as an interface particle in the case that the density determined by the first discriminating step is found to be smaller than the predetermined threshold and the arrangement of the other particles determined by the second discriminating step is found to be asymmetrical.Type: GrantFiled: September 8, 2009Date of Patent: August 27, 2013Assignee: Kyoto UniversityInventors: Hitoshi Gotoh, Abbas Khayyer
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Patent number: 8515694Abstract: A method for operating a fuel quantity gauging system is described. The method includes utilizing redundant sensor sets at separate locations within a fuel tank to measure properties of the fuel mixture within the fuel tank, inputting the measured properties into a fuel regression equation, a separate fuel regression equation for each sensor set location, solving the multiple fuel regression equations to determine a slope and intercept and define a fuel regression curve for the fuel mixture, and utilizing the defined fuel regression curve to calculate at least a quantity of fuel in the fuel tank.Type: GrantFiled: April 9, 2009Date of Patent: August 20, 2013Assignees: The Boeing Company, Parker-Hannifan CorporationInventors: Eugene F. Orloff, Sridhar Rokkam
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Patent number: 8447536Abstract: A measuring system for the precise measuring a density of a medium, flowing in a line. compressible. The measuring system comprises: a temperature sensor and a pressure sensor. Both sensors communicate with a measuring electronics of the system. The measuring electronics are operable to provide, based on temperature measurement and pressure measurement signal, density measured-value representing, instantaneously, a local density, of the flowing medium at a virtual density measuring point, predeterminably spaced from the pressure measuring point and/or from the temperature measuring point, along the flow axis.Type: GrantFiled: June 30, 2008Date of Patent: May 21, 2013Assignee: Endress + Hauser Flowtec AGInventor: Rainer Höcker
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Publication number: 20130123990Abstract: A method for measuring a density profile of a fluid in a process vessel is disclosed. The method includes emitting gamma rays into the fluid and acquiring a backscattered gamma ray counts distribution using at least one position sensitive gamma ray detector disposed proximate the vessel. The method further includes determining the density profile of the fluid contained in the process vessel based on the backscattered gamma ray counts distribution.Type: ApplicationFiled: November 16, 2011Publication date: May 16, 2013Applicant: THERMO FISHER SCIENTIFIC INC.Inventors: Alex Kulik, Alexander Joseph Esin, Nikolay Baturin, Soovo Sen, Michael G. Brosseau
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Patent number: 8433525Abstract: A system and method to obtain correct gas density and flux measurements using (i) gas analyzer (open-path, or closed-path gas analyzers with short intake tube, or any combination of the two); (ii) fast temperature or sensible heat flux measurement device (such as, fine-wire thermocouple, sonic anemometer, or any other device providing fast accurate gas temperature measurements); (iii) fast air water content or latent heat flux measurement device (such as, hygrometer, NDIR analyzer, any other device providing fast accurate gas water content measurements); (iv) vertical wind or sampling device (such as sonic anemometer, scintillometer, or fast solenoid valve, etc.) and (v) algorithms in accordance with the present invention to compute the corrected gas flux, compensated for T-P effects. In case when water factor in T-P effects is negligible, the fast air water content or latent heat flux measurement device (item iii in last paragraph) can be excluded.Type: GrantFiled: April 12, 2011Date of Patent: April 30, 2013Assignee: LI-COR, Inc.Inventors: George Burba, Dayle McDermitt, Anatoly Komissarov, Tyler G. Anderson, Liukang Xu, Bradley A. Riensche
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Publication number: 20130013218Abstract: According to various embodiments, package evaluation systems and methods are provided for evaluating the sustainability of packaging used in the shipment of goods. In particular, the package evaluation systems and methods are configured for performing package evaluations and managing and providing access to data resulting from package evaluations. The package evaluations are designed to assess, among other things, the ability of sample packages to prevent damage to their contents, the volumetric efficiency of sample packages, and the sustainability of the materials used to construct sample packages. In addition, the systems and methods are further configured for assigning a certification to an entity associated with the evaluated packages based on the results of the evaluation.Type: ApplicationFiled: September 13, 2012Publication date: January 10, 2013Applicant: UNITED PARCEL SERVICE OF AMERICA, INC.Inventors: Arnold Barlow, Dennis R. Estep, Andrew J. Gruber, Patrick McDavid, Quinto Marini, Nancy Parmer
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Publication number: 20120226466Abstract: Non-uniformity of a rotatable electrophotographic imaging component is compensated. The component has an intentional periodic variation that produces density variations in a test target. The angular position on the component of the intentional variation is correlated with the amount of an unintentional variation at several points to produce a non-uniformity map. An image signal with multiple regions of data is received. For each region, the angular position of the intentional variation in that region is determined, and the non-uniformity map is used to determine the correction required for the unintentional variation. The image data in the region are adjusted to compensate, and corresponding toner is deposited.Type: ApplicationFiled: March 4, 2011Publication date: September 6, 2012Inventor: Thomas Allen Henderson
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Patent number: 8200450Abstract: A measuring system precisely for measuring the density of a medium flowing in a pipe line. The measuring system comprises a temperature sensor and a pressure sensor. Both sensors communicate with measuring electronics of the system. The measuring electronics are operable to provide, based on temperature measurement, pressure measurement, and a numerical compensation factor a density measured-value, representing, a density of the flowing medium at a virtual density measuring point. The compensation factor corresponds with a locational variability of at least one thermodynamic variable of the medium, occurring along the flow axis of the measuring system and/or a locational variability of the Reynolds number of the flowing medium along the flow axis of the measuring system.Type: GrantFiled: June 30, 2008Date of Patent: June 12, 2012Assignee: Endress + Hauser Flowtec AGInventor: Rainer Höcker
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Publication number: 20120136617Abstract: A system for determining a property of a paving-related material is provided. Such a system comprises a measuring device for selectively and directly measuring the property. A computer device is capable of executing a software program product and communicating with the measuring device. The computer device directs the measuring device to measure the property of the paving-related material according to a parameter determined by the software program product, and to receive data comprising the measured property from the measuring device. A communication element operably engaged between the measuring device and the computer device allows communication therebetween. The communication element is configured to allow the computer device to be spaced apart from the measuring device, thereby allowing the computer device to be prepared, to include the parameter and to manipulate the data, in spaced apart relation with respect to the measuring device. An associated method is also provided.Type: ApplicationFiled: February 6, 2012Publication date: May 31, 2012Inventor: Robert E. Troxler
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Publication number: 20120084046Abstract: An apparatus and method for determining plasma parameters such as plasma electron density ne. The probe apparatus includes an LC resonance probe comprising an inductive element and a capacitive element connected in series. The capacitive element of the probe can be in the form of a parallel plate capacitor, a cylindrical capacitor, a spherical capacitor, or any other suitable capacitor. The configuration of the probe apparatus gives it a characteristic resonance frequency ?R0 which can be determined by a circuit analysis device. When the capacitive element of the probe apparatus is placed in a plasma, the probe exhibits a new resonance frequency ?R, which is different from ?R0 because of the dielectric constant ? of the plasma. The difference in resonance frequencies can be used to determine plasma density ne, when n e = m e ? ? 0 e 2 ? ( ? R 2 - ? R ? ? 0 2 ) .Type: ApplicationFiled: September 30, 2011Publication date: April 5, 2012Applicant: The Government of the United States of America, as represented by the Secretary of the NavyInventors: David R. Boris, David D. Blackwell, David N. Walker, Richard F. Fernsler, Scott G. Walton
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Patent number: 8116950Abstract: A machine system includes a compactor having a frame, at least one compacting element coupled with the frame, and a sensing system configured to output signals including electronic data indicative of a varying response of material within a work area to interaction of the compactor therewith. The machine system further includes an electronic control unit coupled with the sensing system and configured to link the electronic data with location data for the work area, and further configured to assign each one of at least two different compaction targets to different regions of the work area responsive to linking the electronic data with the location data. The machine system may further include a computer readable memory storing a compaction interaction planning algorithm, whereby the electronic control unit determines a compactor interaction plan for navigating the compactor within the work area.Type: GrantFiled: October 7, 2008Date of Patent: February 14, 2012Assignee: Caterpillar Inc.Inventor: Katherine C. Glee
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Publication number: 20120034434Abstract: A relative density of a light-shielding film made of MoSi, which is given by relative density=(actual density/theoretical density)×100, is obtained using a density (actual density) calculated by an XRR method and a theoretical density obtained from a material composition. By obtaining a dense film having a relative density greater than 94%, the thickness of an alterated layer, caused by exposure light, at a surface of the MoSi film can be made not more than 2.0 nm so that the dimensional change of a transfer pattern can be made small.Type: ApplicationFiled: April 9, 2010Publication date: February 9, 2012Applicant: HOYA CORPORATIONInventors: Osamu Nozawa, Kazuya Sakai
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Patent number: 8010312Abstract: A measuring system includes at least one temperature sensor placed at a temperature measuring point, to deliver at least one temperature measurement signal influenced by the local temperature of a medium to be measured. At least one pressure sensor is placed at a pressure measuring point, and delivers at least one pressure measurement signal influenced by the local pressure in the medium. At least one flow sensor is placed at a flow measuring point, and delivers at least one flow measurement signal influenced by the local flow parameter. Measuring electronics calculates, based on the temperature measurement signal, the pressure measurement signal, and the flow measurement signal, at least one density measured-value, representing, instantaneously, a local density of the medium at a virtual density measuring point, the virtual density measuring point being spaced from the pressure measuring point and/or from the temperature measuring point along the flow axis.Type: GrantFiled: June 30, 2008Date of Patent: August 30, 2011Assignee: Endress + Hauser Flowtec AGInventor: Rainer Höcker
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Publication number: 20110184668Abstract: An apparatus for level measuring in a flexible tank with a level sensor for non-contact detection of the level of the liquid in the tank, which detects the surface of the liquid across a flexible wall of the tank, and means for holding the level sensor in a position above the flexible wall of the tank.Type: ApplicationFiled: December 9, 2010Publication date: July 28, 2011Applicant: HANSACONSULT INGENIEURGESELLSCHAFT MBHInventors: Leszek JUCHNIEWICZ, Dirk WILSHUSEN, Nils WINKLER
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Publication number: 20110172948Abstract: A method for determination of interface particles used in a particle method is proposed. According to the present invention, the method for determination includes a density acquiring step of acquiring density in a predetermined range based on a determining-target particle, a first discriminating step of comparing the density with a predetermined threshold, a second discriminating step of determining a symmetry of an arrangement of the other particles within a predetermined range based on the determining-target particle, and a determining step of determining the determining-target particle as an interface particle in the case that the density determined by the first discriminating step is found to be smaller than the predetermined threshold and the arrangement of the other particles determined by the second discriminating step is found to be asymmetrical.Type: ApplicationFiled: September 8, 2009Publication date: July 14, 2011Applicant: Kyoto UniversityInventors: Hitoshi Gotoh, Abbas Khayyer
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Publication number: 20110166820Abstract: A balanced drumstick system and method permanently reposition the longitudinal center of gravity of a plurality of wood drumsticks to common new specified location to create custom sets of balanced wood drumsticks. The system and method automate the repositioning of the longitudinal center of gravity of wood drumsticks to increase accuracy and to decrease time to create sets of custom wood drumsticks.Type: ApplicationFiled: September 3, 2010Publication date: July 7, 2011Inventor: David James Hughlett
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Patent number: 7953558Abstract: Disclosed embodiments of the present invention provide means to obtain correct gas density and flux measurements using (i) gas analyzer (open-path, or closed-path gas analyzers with short intake tube, for example 1 m long, or any combination of the two); (ii) fast temperature or sensible heat flux measurement device (such as, fine-wire thermocouple, sonic anemometer, or any other device providing fast accurate gas temperature measurements); (iii) fast air water content or latent heat flux measurement device (such as, hygrometer, NDIR analyzer, any other device providing fast accurate gas water content measurements); (iv) vertical wind or sampling device (such as sonic anemometer, scintillometer, or fast solenoid valve, etc.) and (v) algorithms in accordance with the present invention to compute the corrected gas flux, compensated for T-P effects.Type: GrantFiled: September 3, 2009Date of Patent: May 31, 2011Assignee: Li-Cor, Inc.Inventors: George Burba, Dayle McDermitt, Anatoly Komissarov, Tyler G. Anderson, Liukang Xu, Bradley A. Riensche
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Patent number: 7945395Abstract: The actual density of liquids is determined with a flexural oscillator that is excited at two different natural vibrations. The presence of air/gas inclusions or other inhomogeneities in a liquid is detected and their influence can be eliminated. In an initial step, the periods of the inherent vibrations and of at least one vibration damping value of the natural vibrations are determined for liquids having different densities ? and viscosities. Liquid densities as well as the difference between them and between the vibration damping values are determined from this. An inclusion-free curve (KB) which reflects the functional dependence F(??) between the relative density differences and the vibration damping differences is calculated and the exact function determined; i.e. the gas/air inclusion-free curve (KB) is expanded by introducing a deviation bandwidth (ab) to form an inclusion-free curve area (KF), which is stored.Type: GrantFiled: November 13, 2008Date of Patent: May 17, 2011Assignee: LABOR FUER MESSTECHNIK Dr. Hans Stabinger GmbHInventors: Helmut Heimel, Ulrike Rakusch, Klaus Ritzmann, Hans Stabinger
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Patent number: 7941286Abstract: Systems and techniques for varying a scan rate in a measurement instrument. The techniques may be used in scanning probe instruments, including atomic force microscopes (AFMs) and other scanning probe microscopes, as well as profilometers and confocal optical microscopes. This allows the selective imaging of particular regions of a sample surface for accurate measurement of critical dimensions within a relatively small data acquisition time.Type: GrantFiled: November 28, 2006Date of Patent: May 10, 2011Assignee: Asylum Research CorporationInventors: Roger B. Proksch, Roger C. Callahan
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Patent number: 7904271Abstract: The present invention relates to a method for determining activity of a catalyst in a polymerization process, said polymerization process comprising the steps of feeding a catalyst and a diluent into a storage vessel, to form a concentrated settled catalyst, feeding said concentrated settled catalyst into a mixing vessel equipped with mixing means and feeding hydrocarbon diluent into said mixing vessel, to form a diluted catalyst slurry, feeding said diluted catalyst slurry into a polymerization reactor via a volumetric pump, and feeding at least one monomer into said polymerization reactor to form a polymer.Type: GrantFiled: March 6, 2007Date of Patent: March 8, 2011Assignee: Total Petrochemicals Research FeluyInventors: Daniel Siraux, Alain Brusselle
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Publication number: 20110035182Abstract: The subject matter described herein includes methods, systems, and computer program products for measuring the density of a sample construction material. According to one aspect, a nuclear density gauge is disclosed for measuring the density of a sample construction material. The material measurement gauge includes a radiation source positioned for emitting radiation into a sample construction material. A radiation detector is positioned apart from the radiation source and configured to detect radiation from the sample construction material and to produce a signal representing the detected radiation. A non-nuclear moisture property detector is configured to determine a moisture property of the sample construction material and to produce a signal representing the moisture property. A material property calculation function is configured to calculate a property value associated with the sample construction material based upon the signals representing the detected radiation and the moisture property.Type: ApplicationFiled: October 22, 2010Publication date: February 10, 2011Inventor: Robert Ernest Troxler
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Publication number: 20100332178Abstract: A specific gravity measuring tool comprises a portable handheld housing supporting a plurality of electrodes at a fixed known spacing thereon and a display for displaying a determined specific gravity thereon. The electrodes are arranged to be penetrated into the object to be measured, for example a potato. The electrodes include a first pair across which an electrical potential is arranged to be generated, and a second pair across which an electrical potential is arranged to be sensed. A processor of the tool is arranged to calculate electrical impedance using the electrical potential generated across said first pair of the electrodes, the electrical potential sensed at said second pair of electrodes, and the known spacing between the electrodes so that the specific gravity can be determined using a predetermined relationship between electrical impedance and specific gravity.Type: ApplicationFiled: August 26, 2008Publication date: December 30, 2010Inventors: Kelly Beaulieu, Philip Maurice Church
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Patent number: 7840363Abstract: System and method for determining total mill flow (TMF) in a biofuel production process. Measured slurry flow and density values from a process fed by mill(s), backset, and at least one water source, are received. The slurry includes biomass solids and water. Measured backset flow and density values, and a backset composition value are received, as well as a slurry composition value indicating % biomass solids of the slurry is received. A quantity of biomass solids and/or water of the slurry determined based on the slurry flow, density, and composition, and a quantity of the biomass solids and/or water of the backset determined based on the backset flow and density, backset composition, and a system filter characterizing time delays and lags between measurements of the backset flow and biomass slurry flow. Total mill flow is determined based on the quantities of biomass solids and/or water of the slurry and backset.Type: GrantFiled: March 20, 2008Date of Patent: November 23, 2010Assignee: Rockwell Automation Technologies, Inc.Inventors: Brian K. Stephenson, Patrick D. Noll, Maina A. Macharia
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Patent number: 7835882Abstract: The present invention provides a method of online analysis of mineral waste content of a slurry in a mineral separation process, said method including the steps of: measuring the density of said slurry (10); measuring the concentration of solids in said slurry (12); calculating the density of solids in said slurry from said slurry density and said solids concentration (20); and calculating said mineral waste content from said solids density (22). The present invention also provides an online analyzer for mineral waste content of a slurry in a mineral separation process.Type: GrantFiled: September 20, 2006Date of Patent: November 16, 2010Assignee: Newcastle Innovation LimitedInventor: Noel William Alexander Lambert
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Publication number: 20100211330Abstract: A method and system for determining a packing property of a particulate composition. The method includes: obtaining size information relating to the particulate material; determining neighbor information from the size information; determining contact information from the size information; and determining a packing property from the neighbor information and the contact information, thereby enabling determination of the characteristic properties of the particulate composition. The method can be executed by use of a computer system to execute computer software instructions applied to data obtained on the particulate composition to determine a variety of properties of the particulate composition.Type: ApplicationFiled: January 12, 2010Publication date: August 19, 2010Inventors: Jasna Brujic, Eric Corwin, Maxime Clusel
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Publication number: 20100198542Abstract: The subject matter described herein includes methods, systems, and computer program products for measuring the density of a sample construction material. According to one aspect, a nuclear density gauge is disclosed for measuring the density of a sample construction material. The material measurement gauge includes a radiation source positioned for emitting radiation into a sample construction material. A radiation detector is positioned apart from the radiation source and configured to detect radiation from the sample construction material and to produce a signal representing the detected radiation. A non-nuclear moisture property detector is configured to determine a moisture property of the sample construction material and to produce a signal representing the moisture property. A material property calculation function is configured to calculate a property value associated with the sample construction material based upon the signals representing the detected radiation and the moisture property.Type: ApplicationFiled: August 3, 2009Publication date: August 5, 2010Inventor: Robert Ernest Troxler
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Patent number: 7769549Abstract: A method for on-line acoustic detection of the quality of foams and aerated fluids whereby at least one emitter/receiver pair is placed in a close vicinity to the foam flow. At least one acoustic pulse is emitted and the time within which the acoustic pulse travels from the emitter to the receiver is recorded. Sound speed in the foam is determined by analyzing an acoustic response of the receiver and a pressure in the foam is also measured.Type: GrantFiled: December 20, 2007Date of Patent: August 3, 2010Assignee: Schlumberger Technology CorporationInventors: Arkady Yurevich Segal, Marc Jean Thiercelin