Thickness Or Density Analysis Patents (Class 378/54)
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Publication number: 20110284731Abstract: Methods and related systems are described for gamma-ray detection. A gamma-ray detector is made depending on its properties and how those properties are affected by the data analysis. Desirable properties for a downhole detector include; high temperature operation, reliable/robust packaging, good resolution, high countrate capability, high density, high Z, low radioactive background, low neutron cross-section, high light output, single decay time, efficiency, linearity, size availability, etc. Since no single detector has the optimum of all these properties, a downhole tool design preferably picks the best combination of these in existing detectors, which will optimize the performance of the measurement in the required environment and live with the remaining non-optimum properties.Type: ApplicationFiled: May 19, 2010Publication date: November 24, 2011Applicant: SCHLUMBERGER TECHNOLOGY CORPORATIONInventors: Bradley A. Roscoe, James A. Grau, Markus Berheide, Kenneth E. Stephenson
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Patent number: 8031836Abstract: The present invention relates to network enabled analysis of x-ray images. Also described are devices comprising calibration phantoms; methods of using these devices; methods of formulating databases containing information regarding x-ray images; the databases themselves; and methods of manipulating the information and databases.Type: GrantFiled: December 30, 2009Date of Patent: October 4, 2011Assignee: ImaTx, Inc.Inventors: Philipp Lang, Daniel Steines
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Publication number: 20110222655Abstract: An X-ray inspection apparatus previously acquires and stores a mask thickness in a cream solder printing as a thickness of the solder applied on the board. In a cross-section parallel to a board surface, a range in a height direction is set as an inspection target from the mask thickness of the inspection target board, and the number of cross-sections is specified. The X-ray inspection apparatus measures an area and roundness of the solder in an inspection window for each cross-section. When the minimum values of the area and roundness are not lower than reference values, the X-ray inspection apparatus determines that the soldering of the inspection window is nondefective. When one of the minimum values of the area and roundness is lower than the reference value, the X-ray inspection apparatus determines that the soldering of the inspection window is defective.Type: ApplicationFiled: February 22, 2011Publication date: September 15, 2011Applicant: OMRON CORPORATIONInventors: Kiyoshi Murakami, Hironori Kasahara
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Patent number: 8019048Abstract: A window arrangement on a pressure pipe, with a casing in the train or at the end of the pressure pipe, said casing featuring flanges on diametrically opposing sides having radially directed passages, whose axes are standing perpendicular to the longitudinal axis of the pressure pipe and are located in a measurement plane for an x-ray measurement device, an x-ray source being associated to the one passage on the outer side and a receiver sensitive to X-rays to the other passage, and with window plates that are transmissive for X-rays which are sealingly arranged in the associated passage and are fixed in the passage with the aid of a fastening member and which consist of a material which is resistant against high temperatures and process-due etchings by chemically aggressive substances.Type: GrantFiled: August 14, 2009Date of Patent: September 13, 2011Assignee: Sikora AGInventors: Harald Sikora, Ralf Seidel
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Publication number: 20110194672Abstract: The subject matter described herein includes methods, systems, and computer program products for measuring the density of a material. According to one aspect, a material property gauge includes a nuclear density gauge for measuring the density of a material. The nuclear density gauge includes a radiation source adapted to emit radiation into a material and a radiation detector operable to produce a signal representing the detected radiation. A first material property calculation function is configured to calculate a value associated with the density of the material based upon the signal produced by the radiation detector. The material property gauge further includes an electromagnetic moisture property gauge configured to determine a moisture property of the material. The electromagnetic moisture property gauge includes an electromagnetic field generator configured to generate an electromagnetic field where the electromagnetic field sweeps through one or more frequencies and penetrates into the material.Type: ApplicationFiled: April 18, 2011Publication date: August 11, 2011Inventor: Robert Ernest Troxler
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Publication number: 20110185868Abstract: A system for cutting blocks of food product into bars of substantially equal weight. The system includes a cutter conveyor configured to receive incoming blocks of food product and move the blocks along an in-line processing path in a plane for cutting; a programmable logic controller coupled to the cutter conveyor; and, multiple stations associated with the cutter conveyor. One such station is a camera vision system configured to create an image of the slab portion, and further including a camera controller coupled to the vision system and the PLC, and configured to determine an optimized cut solution of the slab portion from the image and data related to the food product, and is configured to provide the cut solution to the PLC. The PLC is configured to control the cutting of the food product, based on the optimized cut solution, into bars of substantially equal weight.Type: ApplicationFiled: January 29, 2010Publication date: August 4, 2011Inventor: Richard J. Schmidt
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Patent number: 7991110Abstract: A weight inspection apparatus includes a weight obtaining unit, an irradiation unit, a detection unit and an estimated weight calculation unit. The weight obtaining unit is configured to obtain an actual weight of an inspection target object. The irradiation unit is configured to irradiate the inspection target object with energy waves. The detection unit is configured to detect the energy waves irradiated at the inspection target object. The estimated weight calculation unit is configured to calculate an estimated weight of the inspection target object based on a result of detection by the detection unit. The deviation amount calculation unit is configured to calculate a difference between the actual weight obtained by the weight obtaining unit and the estimated weight obtained by the estimated weight calculation unit.Type: GrantFiled: February 6, 2008Date of Patent: August 2, 2011Assignee: Ishida Co., Ltd.Inventor: Osamu Hirose
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Patent number: 7991111Abstract: An apparatus and method for determining the density and other properties of a formation surrounding a borehole using a high voltage x-ray generator. One embodiment comprises a stable compact x-ray generator capable of providing radiation with energy of 250 keV and higher while operating at temperatures equal to or greater than 125° C. In another embodiment, radiation is passed from an x-ray generator into the formation; reflected radiation is detected by a short spaced radiation detector and a long spaced radiation detector. The output of these detectors is then used to determine the density of the formation. In one embodiment, a reference radiation detector monitors a filtered radiation signal. The output of this detector is used to control at least one of the acceleration voltage and beam current of the x-ray generator.Type: GrantFiled: September 14, 2010Date of Patent: August 2, 2011Assignee: Schlumberger Technology CorporationInventors: Peter Wraight, Arthur J. Becker, Joel L. Groves, Christian Stoller
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Publication number: 20110184251Abstract: The present invention relates to systems, compositions, and methods for using bone mineral density ratios as a predictor of osteoarthritis. In particular, the present invention relates to comparing ratios of bone mineral density involving bones that are periarticular to determine a risk assessment for features of osteoarthritis.Type: ApplicationFiled: August 25, 2009Publication date: July 28, 2011Applicant: TUFTS MEDICAL CENTERInventors: Grace H. Lo, Timothy E. McAlindon
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Patent number: 7986766Abstract: A nuclear density gauge has an elongated transmission chamber adjacent to an elongated source chamber so that they can both be installed through a single nozzle on a high pressure vessel, making an airtight seal with the nozzle. The shape and position of the source chamber allows the positioning of a radiant energy source inside the vessel, a distance from one end of the transmission chamber. The radiation emitted by the radiant energy source travels through contents of the high pressure vessel and then through the elongated transmission chamber to a detector. The method of use of the gauge or multiple gauges, and the adaptation of vessels for such gauges, are also disclosed.Type: GrantFiled: September 30, 2008Date of Patent: July 26, 2011Inventor: Bonaventure Cahill
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Patent number: 7978815Abstract: This invention relates to a compact density measuring instrument for measuring density of fluids in a volume in a container, especially in a fluid flow in a pipe, the instrument comprising a radiation source in the gamma range positioned on one side of the fluid and a detector positioned on the opposite side of the fluids for receiving said radiation, and the fluid being contained in the container, wherein the source is positioned in a source housing, said source housing being at least partially fitted into a corresponding recess in the container wall, said source housing comprises a source holder containing the gamma source positioned in the holder axis and comprising a coaxial opening from the source through one end of the holder, said one end adapted to be aimed toward the fluid.Type: GrantFiled: August 28, 2007Date of Patent: July 12, 2011Assignee: Roxar Flow Measurement ASInventor: Stein-Arild Tjugum
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Publication number: 20110158386Abstract: Methods and system for measuring visceral fat mass are provided. One method includes acquiring dual-energy two-dimensional (2D) scan information from a dual-energy X-ray scan of a body and generating a dual-energy X-ray image of the body using the 2D scan information. The method further includes identifying a region of interest using the dual-energy X-ray image and determining a subcutaneous fat mass for each of a plurality of sections of the region of interest. The method also includes determining a visceral fat mass for the region of interest based on the determined subcutaneous fat mass for each of the plurality of sections.Type: ApplicationFiled: December 31, 2010Publication date: June 30, 2011Applicant: GENERAL ELECTRIC COMPANYInventors: Randall K. Payne, Wynn K. Wacker, James A. Wear, David L. Ergun, Howard S. Barden
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Patent number: 7965813Abstract: A method and system for determining the bone mineral density of a body extremity. An image of a body extremity is acquired using a mammography x-ray system whereby a bone mineral density can be performed on the image. The system for determining the bone mineral density of a body extremity includes: a support for supporting the body extremity; a detector for capturing an image of the body extremity; and an x-ray source adapted to project an x-ray beam through the body extremity toward the detector, the x-ray source having a voltage of no more than about 45 kVp and having a target/filter combination of rhodium/rhodium, molybdenum/molybdenum, molybdenum/rhodium, or tungsten/rhodium.Type: GrantFiled: January 29, 2010Date of Patent: June 21, 2011Assignee: Carestream Health, Inc.Inventors: Zhimin Huo, Chang-Ying J. Yang, Mark S. Purdum
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Publication number: 20110069813Abstract: A radiation inspection apparatus includes a conveying unit configured to convey a sheet-like sample, a radiation source configured to emit radiation to the sheet-like sample, a line sensor configured to measure a physical property of the sheet-like sample, the liner sensor disposed to be opposed to the radiation source across the sheet-like sample, and a gas ejecting unit configured to eject gas to the sheet-like sample to reduce vertical conveyance swinging produced by a tension of the sheet-like sample, the gas ejecting unit placed in close proximity to at least one side face of the line sensor.Type: ApplicationFiled: September 10, 2010Publication date: March 24, 2011Applicant: YOKOGAWA ELECTRIC CORPORATIONInventors: Yasushi ICHIZAWA, Hirohiko OBINATA
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Patent number: 7907757Abstract: A computer readable medium is embedded with a program configured to receive or generate a PAI, and/or use the PAI in a diagnostic application.Type: GrantFiled: November 24, 2006Date of Patent: March 15, 2011Assignees: General Electric Company, Duke UniversityInventors: Thomas Louis Toth, Bernice Eland Hoppel, Rendon Clive Nelson, James George Colsher, Timothy Garvey Turkington, Lisa Mei-ling Ho
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Publication number: 20110026672Abstract: Thickness measurer for metal elements (11), comprising a source device (20), able to emit a bundle (F) of ionizing radiations, at a predetermined or predeterminable intensity, a receiver device (24), disposed on an opposite side with respect to the metal element (11) and suitable to detect the residual intensity of the bundle (F) of ionizing radiations. The measurer comprises a cooling device, associated with the source device (20). The cooling device comprises a heat pump element (30), to remove heat from the source device (20) so as to keep the source device (20) at a predetermined and controlled temperature. The thickness measurer also comprises detection means (46, 124) for the direct or indirect detection of the intensity, or the variation in intensity, of the bundle (F) emitted by the source device (20). The detection means (46, 124) is associated with the heat pump element (30), in order to keep the emission of the bundle (F) of ionizing radiations stable.Type: ApplicationFiled: April 1, 2009Publication date: February 3, 2011Applicant: DANIELI AUTOMATION SPAInventor: Lorenzo Ciani
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Patent number: 7881424Abstract: A method for calibrating a dual-energy CT system and an image reconstruction method are disclosed to calculate images of atomic number and density of a scanned object as well as its attenuation coefficient images at any energy level. The present invention removes the effect from a cupping artifact due to X-ray beam hardening. The method for calibrating a dual-energy CT system is provided comprising steps of selecting at least two different materials, detecting penetrative rays from dual-energy rays penetrating said at least two different materials under different combinations of thickness to acquire projection values, and creating a lookup table in a form of correspondence between said different combinations of thickness and said projection values.Type: GrantFiled: March 11, 2008Date of Patent: February 1, 2011Assignees: Tsinghua University, Nuctech Company LimitedInventors: Li Zhang, Zhiqiang Chen, Gnowei Zhang, Jianping Cheng, Yuanjing Li, Yinong Liu, Yuxiang Xing, Ziran Zhao, Yongshun Xiao
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Patent number: 7869569Abstract: A system for spectroscopic imaging of bodily tissue in which a scintillation screen and a charged coupled device (CCD) are used to accurately image selected tissue. Applications include the imaging of radionuclide distributions within the human body or the use of a dual energy source to provide a dual photon bone densitometry apparatus that uses stationary or scanning acquisition techniques. An x-ray source generates x-rays which pass through a region of a subject's body, forming an x-ray image which reaches the scintillation screen. The scintillation screen reradiates a spatial intensity pattern corresponding to the image, the pattern being detected by a CCD sensor. The image is digitized by the sensor and processed by a controller before being stored as an electronic image. A dual energy x-ray source that delivers two different energy levels provides quantitative information regarding the object being imaged using dual photon absorptiometry techniques.Type: GrantFiled: February 11, 2008Date of Patent: January 11, 2011Assignee: University of MassachusettsInventor: Andrew Karellas
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Publication number: 20110002443Abstract: An apparatus and method for determining the density and other properties of a formation surrounding a borehole using a high voltage x-ray generator. One embodiment comprises a stable compact x-ray generator capable of providing radiation with energy of 250 keV and higher while operating at temperatures equal to or greater than 125° C. In another embodiment, radiation is passed from an x-ray generator into the formation; reflected radiation is detected by a short spaced radiation detector and a long spaced radiation detector. The output of these detectors is then used to determine the density of the formation. In one embodiment, a reference radiation detector monitors a filtered radiation signal. The output of this detector is used to control at least one of the acceleration voltage and beam current of the x-ray generator.Type: ApplicationFiled: September 14, 2010Publication date: January 6, 2011Inventors: Peter Wraight, Arthur J. Becker, Joel L. Groves, Christian Stoller
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Patent number: 7860212Abstract: A weight inspection apparatus includes a weight obtaining unit, an irradiation unit, a detection unit and an estimated weight calculation unit. The weight obtaining unit is configured to obtain an actual weight of an inspection target object. The irradiation unit is configured to irradiate the inspection target object with energy waves. The detection unit is configured to detect the energy waves irradiated at the inspection target object. The estimated weight calculation unit is configured to calculate an estimated weight of the inspection target object based on a result of detection by the detection unit. The deviation amount calculation unit is configured to calculate a difference between the actual weight obtained by the weight obtaining unit and the estimated weight obtained by the estimated weight calculation unit.Type: GrantFiled: February 6, 2008Date of Patent: December 28, 2010Assignee: Ishida Co., Ltd.Inventor: Osamu Hirose
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Patent number: 7848893Abstract: The invention is a method for estimating a skeletal maturity value of a human from a radiograph of one or more bones in the hand. The borders of the bones are represented by shape points, which are subjected to principal component analysis (PCA). Image intensities are sampled at points located relative to the shape point, and also compressed with PCA. From the features a skeletal maturity value is determined.Type: GrantFiled: May 29, 2006Date of Patent: December 7, 2010Inventor: Hans Henrik Thodberg
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Patent number: 7840247Abstract: Methods of predicting bone or joint disease in a subject are presented. The method may include determining one or more micro-structural parameters, one or more macroanatomical parameters or biomechanical parameters of a joint in the subject. At least two of the parameters are combined to predict the risk of bone or articular disease. Additionally, methods of determining the effect of a candidate agent on any subject's risk of developing bone or joint disease are presented.Type: GrantFiled: January 7, 2004Date of Patent: November 23, 2010Assignee: ImaTx, Inc.Inventors: Siau-Way Liew, Philipp Lang, Daniel Steines
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Patent number: 7839970Abstract: A dental or orthopedic densitometry modeling system includes a computer with a digital memory adapted for storing patient densitometry information, an input and an output. A dental or orthopedic input device includes energy source and an energy sensor, both of which can be either external or intraoral to the patient. The sensor transfers densitometry signals to the computer, which creates, stores and compares digital densitometry models. A densitometry modeling method includes the steps of creating a densitometry database consisting of dental or orthopedic information and obtaining current dental or orthopedic densitometry information from a patient. The current information is compared to the database, which can include the patient's previous densitometry models, and an updated patient densitometry model is created.Type: GrantFiled: September 12, 2005Date of Patent: November 23, 2010Inventor: Ronald E. Massie
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Patent number: 7817781Abstract: An apparatus and method for determining the density and other properties of a formation surrounding a borehole using a high voltage x-ray generator. One embodiment comprises a stable compact x-ray generator capable of providing radiation with energy of 250 keV and higher while operating at temperatures equal to or greater than 125° C. In another embodiment, radiation is passed from an x-ray generator into the formation; reflected radiation is detected by a short spaced radiation detector and a long spaced radiation detector. The output of these detectors is then used to determine the density of the formation. In one embodiment, a reference radiation detector monitors a filtered radiation signal. The output of this detector is used to control at least one of the acceleration voltage and beam current of the x-ray generator.Type: GrantFiled: July 15, 2009Date of Patent: October 19, 2010Assignee: Schlumberger Technology CorporationInventors: Peter Wraight, Arthur J. Becker, Joel L. Groves, Christian Stoller
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Patent number: 7801268Abstract: Methods for nondestructively measuring a characteristic within an ultra-hard polycrystalline construction comprises projecting a beam of energy from an emitter onto the construction. The energy is directed to a target region within the ultra-hard polycrystalline construction and passes through the construction where it is received by a detector. The target region can be within a diamond body of the construction, and can relate to an interface between two or more regions within the diamond body. The energy that is received by the detector is evaluated for the purpose of determining the desired measurement characteristic. In an example embodiment, the measured characteristic can be the interface of between two or more regions and the distance from a surface of the construction to the interface. The method can be used to generate an average distance within the construction, and to provide a visual image of the same in a nondestructive manner.Type: GrantFiled: July 6, 2009Date of Patent: September 21, 2010Assignee: Smith International, Inc.Inventors: Nephi Mourik, Ronald K. Eyre
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Patent number: 7792247Abstract: The invention relates to a sensor device for a packaging machine in which at least one conveyor of a packaging machine which displaces at least one material to be packed and to be detected, to various stations of the packaging machine. According to the invention, at least one x-ray source and one detector are provided for irradiating the material which is to be detected and which is arranged between the x-ray source and the detector.Type: GrantFiled: February 22, 2006Date of Patent: September 7, 2010Assignee: Robert Bosch GmbHInventors: Ralf Schmied, Walter Bauer, Werner Runft, Florian Bessler
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Publication number: 20100215229Abstract: A method of generating an indication of at least one characteristic of a patient's bone mineral density. The method comprises obtaining at least one measurement of a width of a patient's inferior mandibular cortex and generating said indication based upon said at least one measurement. The at least one measurement is obtained at a location along the inferior mandibular cortex between the ante-gonion and a point on the inferior mandibular cortex defined with reference to the mental foramen.Type: ApplicationFiled: September 9, 2008Publication date: August 26, 2010Applicant: THE UNIVERSITY OF MANCHESTERInventors: Philip Daniel Allen, Keith Horner, Jim Graham, Hugh Devlin
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Publication number: 20100214555Abstract: The material strength of extensive objects can be determined efficiently by using two distance measurers, wherein a first distance measurer determines the distance to a first main surface of the object and a second distance measurer determines the distance to a second main surface object opposing the first main surface. If potential measurement errors due to the extensive geometry are avoided by determining a reference distance between the first distance measurer and the second distance measurer by a reference unit via X-radiation, the thickness of the object between the first main surface and the second main surface can be determined with high accuracy and velocity.Type: ApplicationFiled: December 6, 2007Publication date: August 26, 2010Applicant: Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V.Inventors: Peter Schmitt, Guenther Kostka
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Patent number: 7769131Abstract: A method of estimating the strength of a wooden support wherein gamma rays (4) are transmitted and detected parallel to a neutral axis (5) through a cross section of the support. It also includes a method of locating regions of unsound wood in a wooden support using detection of transmitted gamma rays (4), as well as apparatus suitable for conducting both methods.Type: GrantFiled: September 6, 2007Date of Patent: August 3, 2010Assignee: Institute of Geological and Nuclear SciencesInventor: Gavin Wallace
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Patent number: 7769424Abstract: Based on the fact that by causing an appropriate current flow on a virtual curved surface between a current source and an observation surface, an electromagnetic field generated by the current source can be recovered, and that as the curved surface comes closer to the true current source, current distribution on the curved surface becomes smaller, Bayesian estimation of the current source that recovers the observed data is performed. In this estimation, the fact that the model posterior probability attains the maximum when the curved surface includes the current source is utilized, that is, the model posterior probability is considered, to estimate the position of the current source including the depth direction. When observation data obtained by other observation means is available simultaneously, such information is incorporated in hierarchical prior distribution for Bayesian estimation, to enable estimation with higher precision.Type: GrantFiled: December 27, 2002Date of Patent: August 3, 2010Assignees: Japan Science and Technology Agency, Advanced Telecommunications Research Institute InternationalInventor: Masa-aki Sato
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Patent number: 7769213Abstract: An apparatus is disclosed for predicting bone fracture risk in an osteoporotic patient. The apparatus comprises a Dual X-ray Absorptiometry scanner for scanning a body area of the patient and producing a Dual X-ray Absorptiometry image of the body area, and image analysis means for analyzing pre-determined aspects of the Dual X-ray Absorptiometry image. The apparatus further comprises data comparison means comprising a database of comparative data sets from Dual X-ray Absorptiometry images of control subjects to predict the risk of bone fracture in the patient. The image analysis means preferably analyses the shape of a body past using an Achieve Shape Model or analyses the texture of a body past using Fourier Transforms and Principal Component Analysis.Type: GrantFiled: November 1, 2004Date of Patent: August 3, 2010Assignee: Aberdeen University Research and InnovationInventors: Jennifer Susan Gregory, Richard Malcolm Aspden, David Macaulay Reid
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Publication number: 20100172471Abstract: Apparatus for detecting variations in gas density within a volume surrounded by a closed metal wall opaque to optical light includes a source of x-rays positioned at a selected location outside the closed metal wall. A detector is positioned outside the closed metal wall at a location suitable to detect x-rays from the source passing entirely through a portion of the volume surrounded by the closed metal wall. The detector has a plurality of sensors arranged in at least one row to capture a dimensionally distributed view of detected x-rays. A processor coupled to an output of the detector analyzes the data which can be displayed in a suitable graphical or pictorial presentation. The closed metal wall can define a housing for a flame, spray or other gaseous distribution. The entirety of the apparatus, excluding the display, can be located with a radiation shield, made of lead or other suitable material to prevent any stray output of x-rays. A dopant can be added to enhance the interaction with the x-rays.Type: ApplicationFiled: September 17, 2009Publication date: July 8, 2010Inventors: Yudaya R. Sivathanu, Jongmook Lim, Ye Mi
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Publication number: 20100163466Abstract: We provide an apparatus and method for analysing a security document. An x-ray source is adapted to illuminate at least one inspection region of the security document when located at an inspection position. An x-ray detector adapted to receive x-rays from the at least one inspection region of the document and to generate a corresponding detector response. A processor analyses the detector response and generates an output signal indicative of the structure of the document in the at least one inspection region.Type: ApplicationFiled: June 6, 2007Publication date: July 1, 2010Applicant: DE LA RUE INTERNATIONAL LIMITEDInventors: Ronald Bruce Blair, Alexandre Gret
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Patent number: 7746976Abstract: A method and system for determining the bone mineral density of a body extremity. An image of a body extremity is acquired using a mammography x-ray system whereby a bone mineral density can be performed on the image. The system for determining the bone mineral density of a body extremity includes: a support for supporting the body extremity; a detector for capturing an image of the body extremity; and an x-ray source adapted to project an x-ray beam through the body extremity toward the detector, the x-ray source having a voltage of no more than about 45 kVp and having a target/filter combination of rhodium/rhodium, molybdenum/molybdenum, molybdenum/rhodium, or tungsten/rhodium. An attenuation filter separate from the target/filter combination may be provided between the source and the body extremity, between the body extremity and the detector, or both.Type: GrantFiled: December 21, 2006Date of Patent: June 29, 2010Assignee: Carestream Health, Inc.Inventors: Zhimin Huo, Chang-Ying J. Yang, Mark S. Purdum
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Publication number: 20100158190Abstract: A method of estimating the strength of a wooden support wherein gamma rays (4) are transmitted and detected parallel to a neutral axis (5) through a cross section of the support. It also includes a method of locating regions of unsound wood in a wooden support using detection of transmitted gamma rays (4), as well as apparatus suitable for conducting both methods.Type: ApplicationFiled: September 6, 2007Publication date: June 24, 2010Applicant: Institute of Geological and Nuclear SciencesInventor: Gavin Wallace
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Publication number: 20100150308Abstract: An X-ray inspection apparatus includes an X-ray radiating part, an X-ray detecting part, a mass estimation unit and a mass class determination unit. The X-ray radiating part is configured and arranged to radiate X-rays to an inspection target. The X-ray detecting part is configured and arranged to detect the X-rays radiated from the X-ray radiating part that transmitted through the inspection target. The mass estimation unit is configured to estimate a mass of the inspection target based on an amount of the X-rays detected by the X-ray detecting part. The mass class determination unit is configured to determine which mass class among a plurality of mass classes within a preset range the inspection target belongs to based on the mass of the inspection target estimated by the mass estimation unit.Type: ApplicationFiled: December 4, 2009Publication date: June 17, 2010Applicant: ISHIDA CO., LTD.Inventors: Masao TSUNO, Kiyoshi MIYAZAKI, Shinya YAMAMOTO, Yasuji YAMAMOTO, Yasuhiro YAMAMOTO, Tetsuji MATSUMURA, Koji KATAYAMA
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Publication number: 20100142675Abstract: A method and system for determining the bone mineral density of a body extremity. An image of a body extremity is acquired using a mammography x-ray system whereby a bone mineral density can be performed on the image. The system for determining the bone mineral density of a body extremity includes: a support for supporting the body extremity; a detector for capturing an image of the body extremity; and an x-ray source adapted to project an x-ray beam through the body extremity toward the detector, the x-ray source having a voltage of no more than about 45 kVp and having a target/filter combination of rhodium/rhodium, molybdenum/molybdenum, molybdenum/rhodium, or tungsten/rhodium.Type: ApplicationFiled: January 29, 2010Publication date: June 10, 2010Inventors: Zhimin Huo, Chang-Ying J. Yang, Mark S. Purdum
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Publication number: 20100142674Abstract: There are provided a method and support device for measuring jawbone mineral density using a jawbone X-ray image. The method for measuring jawbone mineral density includes: obtaining a jawbone X-ray image using a support device for jawbone; defining a region of interest from the obtained jawbone X-ray image; and measuring jawbone mineral density from the defined region of interest. Therefore, the support device for measuring jawbone mineral density may be useful to measure jawbone mineral density with a jawbone X-ray imaging device, which has been widely used in dental clinics, by using the method.Type: ApplicationFiled: July 21, 2009Publication date: June 10, 2010Inventors: Soo Yeul LEE, Jeong Won LEE, Seung Hwan KIM, Seon Hee PARK
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Publication number: 20100111395Abstract: An X-ray image analyzing system, including: an X-ray source for radiating an X-ray; an X-ray detector for detecting an X-ray image radiated onto an x-ray image detection surface, wherein phase contrast X-ray simple imaging is capable of being performed determining a trabecular bone index computing region, computing a trabecular bone index indicating a state of a trabecula from image data in the trabecular bone index computing region, determining a bone-flesh boundary index computing region by a second region determination method different from the first region determination method, and computing a bone-flesh boundary index indicating smoothness of a bone-flesh boundary from image data in the bone-flesh boundary index computing region.Type: ApplicationFiled: April 8, 2008Publication date: May 6, 2010Applicant: KONICA MINOLTA MEDICAL & GRAPHIC, INC.Inventor: Yasuaki Tamakoshi
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Patent number: 7706501Abstract: A method and apparatus are disclosed for measuring long bone density of small animals. A phosphor screen or plate is provided of a type that transduces incident ionizing radiation to emitted light. A small animal is positioned before the phosphor screen or plate and exposed to soft X-radiation having an energy level in the range of 11 to 16 Kev. Light emitted by the phosphor screen or plate is captured using a digital camera and a digital X-ray image is prepared of a long bone of the animal. The X-ray image is transformed into an X-ray density image and a region of interest is defined on the long bone in the X-ray density image. At least one row of pixels is scanned within the region of interest of the X-ray density image. A nonlinear least squares analysis of data obtained from the scanning step is conducted using a cylindrical model for the long bone within the region of interest.Type: GrantFiled: September 4, 2008Date of Patent: April 27, 2010Assignee: Carestream Health, Inc.Inventors: Douglas L. Vizard, Douglas O. Wood, William E. McLaughlin, Gilbert Feke, Rao Papineni
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Publication number: 20100098212Abstract: The present invention relates to network enabled analysis of x-ray images. Also described are devices comprising calibration phantoms; methods of using these devices; methods of formulating databases containing information regarding x-ray images; the databases themselves; and methods of manipulating the information and databases.Type: ApplicationFiled: December 30, 2009Publication date: April 22, 2010Applicant: IMAGING THERAPEUTICS, INC.Inventor: Philipp Lang
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Publication number: 20100080352Abstract: A nuclear density gauge has an elongated transmission chamber adjacent to an elongated source chamber so that they can both be installed through a single nozzle on a high pressure vessel, making an airtight seal with the nozzle. The shape and position of the source chamber allows the positioning of a radiant energy source inside the vessel, a distance from one end of the transmission chamber. The radiation emitted by the radiant energy source travels through contents of the high pressure vessel and then through the elongated transmission chamber to a detector. The method of use of the gauge or multiple gauges, and the adaptation of vessels for such gauges, are also disclosed.Type: ApplicationFiled: September 30, 2008Publication date: April 1, 2010Applicant: OHMART/VEGA CORPORATIONInventor: Bonaventure Cahill
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Patent number: 7676023Abstract: The present invention relates to network enabled analysis of x-ray images. Also described are devices comprising calibration phantoms; methods of using these devices; methods of formulating databases containing information regarding x-ray images; the databases themselves; and methods of manipulating the information and databases.Type: GrantFiled: May 22, 2007Date of Patent: March 9, 2010Assignee: Imaging Therapeutics, Inc.Inventor: Philipp Lang
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Publication number: 20100046714Abstract: A window arrangement on a pressure pipe, with a casing in the train or at the end of the pressure pipe, said casing featuring flanges on diametrically opposing sides having radially directed passages, whose axes are standing perpendicular to the longitudinal axis of the pressure pipe and are located in a measurement plane for an x-ray measurement device, an x-ray source being associated to the one passage on the outer side and a receiver sensitive to X-rays to the other passage, and with window plates that are transmissive for X-rays which are sealingly arranged in the associated passage and are fixed in the passage with the aid of a fastening member and which consist of a material which is resistant against high temperatures and process-due etchings by chemically aggressive substances.Type: ApplicationFiled: August 14, 2009Publication date: February 25, 2010Applicant: SIKORA AGInventors: Harald Sikora, Ralf Seidel
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Publication number: 20100046703Abstract: A weight inspection apparatus includes a weight obtaining unit, an irradiation unit, a detection unit and an estimated weight calculation unit. The weight obtaining unit is configured to obtain an actual weight of an inspection target object. The irradiation unit is configured to irradiate the inspection target object with energy waves. The detection unit is configured to detect the energy waves irradiated at the inspection target object. The estimated weight calculation unit is configured to calculate an estimated weight of the inspection target object based on a result of detection by the detection unit. The deviation amount calculation unit is configured to calculate a difference between the actual weight obtained by the weight obtaining unit and the estimated weight obtained by the estimated weight calculation unit.Type: ApplicationFiled: February 6, 2008Publication date: February 25, 2010Applicant: ISHIDA CO., LTD.Inventor: Osamu Hirose
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Patent number: 7660453Abstract: The present invention relates to methods and devices for analyzing x-ray images. In particular, devices, methods and algorithms are provided that allow for the accurate and reliable evaluation of bone structure from x-ray images.Type: GrantFiled: August 20, 2002Date of Patent: February 9, 2010Assignee: Imaging Therapeutics, Inc.Inventor: Philipp Lang
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Publication number: 20100017172Abstract: A method of determining the feasibility of a proposed structure analysis process is disclosed. The process involved the electron beam excitation of x-rays from a multi-layered structure. The method comprises generating predicted x-ray data represents the x-ray excitation response of the multi-layered structure according to one or more sets of process conditions. The x-ray data are generated using structure data defining the structure and composition of the layers. The effects upon the x-ray data of changes to the structure data are then analysed in accordance with one or more predetermined feasibility criteria, so as to determine the feasibility of performing the proposed structure analysis process upon the multi-layered structure.Type: ApplicationFiled: May 16, 2007Publication date: January 21, 2010Applicant: Oxford Instruments Analytical LimitedInventors: Peter John Statham, Charles Penman
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Publication number: 20090323895Abstract: An electron beam is used to generate x-ray radiation in a workpiece, which radiation emerges on the workpiece back at sufficiently thin points of the workpiece and is detected by means of an x-ray radiation detector. Based on the x-ray radiation intensity and the momentary beaming-in position of the electron beam, the surface structure on both sides as well as the local material thickness can be determined. Based on such values, workpieces and/or workpiece treating systems can be adjusted, and vertical material removal in a material-removing workpiece treating system can be controlled.Type: ApplicationFiled: May 30, 2007Publication date: December 31, 2009Applicants: Eads Deutschland GmbH, pro beam AG-Co. KgaAInventors: Alois Friedberger, Thorsten Loewer, Soeren Fricke, Ulrich Schmid
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Patent number: 7639781Abstract: An x-ray tool for determining a characteristic of an oilfield fluid. The tool may include a generator portion housing a collimator about a target from which x-rays are emitted. In this manner x-rays may be attenuated right at the target such that a majority of shielding otherwise necessary for safety concerns may be eliminated. Rather, by employing the target within the collimator, shielding of the generator may be limited to a single shielding plate within the generator portion that is positioned parallel to the target at the opposite end of an x-ray tube therebetween. As a result of this configuration, an x-ray tool for analysis of oilfield fluids may be provided with a minimum weight of shielding material. Thus, hand-held user friendly embodiments may be safely employed at the oilfield.Type: GrantFiled: January 18, 2008Date of Patent: December 29, 2009Assignee: Schlumberger Technology CorporationInventors: Rod Shampine, Joel L. Groves, Anthony Durkowski, Etienne Vallee, Peter Wraight
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Publication number: 20090285358Abstract: A non-invasive multi-step process that includes tomography is applied to determine features of a battery.Type: ApplicationFiled: May 12, 2009Publication date: November 19, 2009Inventors: Erin L. Ballard, Craig Buckland, Yang Cao, Javit A. Drake, Thomas Dufresne, Richard E. Durkot, Paul Graham, Joseph H. Nurre, Philip Trainer, Darren Trokhan, Jonathan Tse