Thickness Or Density Analysis Patents (Class 378/54)
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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
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Patent number: 7620145Abstract: Gamma rays, X-rays or ionizing irradiations from two radiation sources penetrate through a steel bar in a reinforced concrete structure. Images of the steel bar are thus projected on two films. Through geometric relationships between the images and the steel bar itself, thicknesses between the steel bar and surfaces of the reinforced concrete structure are obtained. The position of the steel bar obtained according to the present invention is reliable and accurate. And the data obtained can be used for structure safety.Type: GrantFiled: March 16, 2007Date of Patent: November 17, 2009Assignee: National Central UniversityInventors: Chung-Yue Wang, Peng-Ching Peng
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Publication number: 20090274269Abstract: A distribution of heavy particle stopping power is be determined. A distribution of effective atomic number of a three-dimensional space is accessed, and a distribution of an x-ray stopping power of the three-dimensional space is accessed. A conversion is applied to the distribution of the effective atomic number and the distribution of x-ray stopping power. A distribution of the heavy particle stopping power of the three-dimensional space is generated based on the conversion, the heavy particle stopping power being an indication of a depth of penetration for a heavy particle incident on the three-dimensional space.Type: ApplicationFiled: May 1, 2009Publication date: November 5, 2009Applicant: L-3 Communications Security and Detection Systems, Inc.Inventors: Andrew Dean Foland, Boris Oreper
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Publication number: 20090234251Abstract: A computer system for assessing dynamic bone quality is provided, including a memory that stores executable instructions, a central processing unit (CPU) capable of accessing the memory and executing the instructions to provide an output, and a receiver for receiving data input and transmitting it to the CPU, wherein the receiver is operably connected to: (1) a plurality of accelerometers, each accelerometer adapted to contact an exterior surface of a human subject at a load-bearing anatomical site and to receive input from each point of contact including acceleration response data; and (2) a force plate adapted to receive input including vertical ground reaction force data provided by a heel strike on the force plate, wherein the CPU executes the instructions to process the input data transmitted from the receiver to provide the output as a bone damping value. A method for assessing dynamic bone quality is also provided.Type: ApplicationFiled: March 12, 2009Publication date: September 17, 2009Inventors: Amit Bhattacharya, Nelson B. Watts
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Patent number: 7580505Abstract: The present invention discloses a method for inspecting an object using multi-energy radiations and an apparatus thereof. The method comprises the steps of: causing multi-energy radiations to interact with an object under inspection; detecting and recording detection values after an interaction between the multi-energy radiations and the object under inspection; substituting a portion of the detection values into a predetermined calibration function to obtain information comprising primary material attribute; and determining further material attributes of the object by applying a set of functions suitable for a energy band corresponding to the information. The present invention is applicable to the large container cargo inspection without opening containers at customs, ports and airports.Type: GrantFiled: December 29, 2006Date of Patent: August 25, 2009Assignees: Tsinghua University, Nuctech Company LimitedInventors: Kejun Kang, Haifeng Hu, Zhiqiang Chen, Yuanjing Li, Xuewu Wang, Chuanxiang Tang, Liming Wang, Yinong Liu, Yaohong Liu, Li Zhang, Jianmin Li, Huaqiang Zhong, Jianping Cheng, Huaibi Chen, Hua Peng, Yali Xie, Junli Li, Ning Kang, Qinghua Li
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Publication number: 20090207970Abstract: 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: February 2, 2009Publication date: August 20, 2009Applicant: Imaging Therapeutics, Inc.Inventor: Philipp Lang
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Publication number: 20090180588Abstract: Provided is a thin film stack inspection method capable of accurately measuring and inspecting layer thicknesses of thin film stacks. An X-ray having a long coherence length is used as an incident X-ray and the X-ray specular-reflected from a sample placed on a goniometer is partially bent by a prism. The X-ray bent by the prism and the X-ray going straight are made to interfere with each other to obtain interference patterns. Though being thin film stacks, the sample has a portion having no thin film and thus an exposed substrate. The X-ray not bent by the prism includes an X-ray specular-reflected from the exposed substrate. By changing the incident angle from 0.01° to 1°, the interference patterns of the specular-reflected X-ray are measured. Thus, layer thicknesses are measured using a change in a phase of the X-ray reflected from a film stack interface.Type: ApplicationFiled: November 13, 2008Publication date: July 16, 2009Inventors: Kazuhiro Ueda, Akio Yoneyama
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Patent number: 7558369Abstract: 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: May 8, 2007Date of Patent: July 7, 2009Assignee: Smith International, Inc.Inventors: Nephi Mourik, Ronald K. Eyre
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Publication number: 20090080608Abstract: 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: ApplicationFiled: September 4, 2008Publication date: March 26, 2009Inventors: Douglas L. Vizard, Douglas O. Wood, William E. McLaughlin, Gilbert Feke, Rao Papineni
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Patent number: 7508908Abstract: A CT method and an apparatus for liquid safety-detection with a radiation source relate to a radiation imaging detecting technology field. The invention comprises using a radiation source, a detector and data collector, a computer data processor; and the main steps are: 1) a liquid article to be detected being placed onto a rotary platform which is rotatable; 2) the ray emitted from the radiation source passing through the liquid article, and being received and formed into projection data by the detector and data collector; and 3) the projection data being transmitted to the computer data processor, which processes it to obtain the liquid density of the detected article, compares the result with the densities of dangerous articles in a current database, and then visually displays the detected information of the detected liquid article.Type: GrantFiled: November 23, 2005Date of Patent: March 24, 2009Assignees: Tsinghua University, Nuntech Company LimitedInventors: Haifeng Hu, Yuanjing Li, Kejun Kang, Zhiqiang Chen, Yinong Liu, Yulan Li, Li Zhang, Wanlong Wu, Ziran Zhao, Xilei Luo, Bin Sang
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Patent number: 7492859Abstract: System and methods for measuring the density, level, or interface position of a fluid or fluids in a vessel using gamma-ray backscatter are disclosed. The gamma-ray instruments disclosed may account for vessel wall buildup or deterioration. Methods disclosed herein include detecting gamma rays backscattered by a fluid from a gamma-ray source positioned proximate to a vessel with at least two gamma-ray detectors positioned proximate to the vessel and to each other; and determining a density, level, or interface value of the fluid based upon intensities of backscattered gamma rays received by the two or more gamma-ray detectors; wherein the vessel wall is subject to at least one of buildup and deterioration. The density, level, or interface may be a function of a ratio of the intensity of backscattered gamma rays received by two or more of the detectors.Type: GrantFiled: March 24, 2008Date of Patent: February 17, 2009Assignee: Thermo Fisher Scientific Inc.Inventors: Alex Kulik, Alexander Joseph Esin, Nikolay Baturin
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Publication number: 20090034680Abstract: A substrate for inspecting a thickness of contacts at least includes a dielectric layer, a first metal layer, and a second metal layer. The first metal layer which includes a circuit region and a testing region is formed on an upper surface of the dielectric layer, and the circuit region has a plurality of contacts. The second metal layer which has a hollowed region is formed on a lower surface of the dielectric layer, and the hollowed region is aligned with the testing region of the first metal layer to avoid the interference when the testing region is inspected.Type: ApplicationFiled: July 22, 2008Publication date: February 5, 2009Applicant: ADVANCED SEMICONDUCTOR ENGINEERING, INC.Inventor: Guo-Cheng Liao
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Patent number: 7480363Abstract: A digital radiography imaging system for acquiring digital images of an object, and a method for transforming digital images into an absolute thickness map characterizing the object under inspection. The system includes a radiation source for directing radiation through a desired region of the object, and a radiation detector having a plurality of sensing elements for detecting radiation passing through the object. Numerical data generated from each sensing element is calibrated, for example by correcting for variations in radiation paths between the source and detector, by correcting for variations in the spatial frequency response (MTF) of the detector, by correcting for variations in the geometric profile of the object under inspection, and by correcting for material contained in and/or around the object. The calibrated data is processed in order to generate and display an absolute thickness map of the object.Type: GrantFiled: April 18, 2005Date of Patent: January 20, 2009Assignee: GE Betz, Inc.Inventors: Brian W. Lasiuk, Thomas J. Batzinger, Manoharan Venugopal, Elizabeth L. Dixon, Michael R. Hopple, Nityanand Gopalika, Sivaramanivas Ramaswamy, Debasish Mishra, Rajashekar Venkatachalam, Vamishi Krishna Reddy Kommareddy
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Publication number: 20090010385Abstract: A method for detecting the wall thickness of a container such as a bottle made of PET, for example, in which the absorption of radiation along a first and a second test path of the measurement radiation is ascertained, whereby the test paths intersect the container at two points of intersection such that the two test paths have at least one point of intersection approximately in common. Further, a method for detecting the wall thickness of a container such as a bottle made of PET, for example, such that the wall thickness is detected in the transitional area of a side wall of the container to a bottom area of the container.Type: ApplicationFiled: July 5, 2006Publication date: January 8, 2009Applicant: KRONES AGInventors: Armin Ott, Stefan Piana, Christian Detrois
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Patent number: 7469033Abstract: A system for measuring the density of a fluid in a vessel, the system including: at least one gamma-ray source positioned proximate to the vessel; at least one gamma-ray detector positioned proximate to the vessel, wherein the at least one gamma-ray detector is configured to detect gamma rays backscattered by the fluid from the at least one gamma-ray source; and a translator for converting the detected gamma-ray backscatter to a density value. A method to determine properties of a fluid in a vessel, the method including: positioning a gamma-ray source proximate to the vessel; positioning a gamma-ray detector proximate to the vessel; detecting gamma rays backscattered by the fluid from the gamma-ray source with the gamma-ray detector; determining a density of the fluid based upon an intensity of backscattered gamma rays received by the gamma-ray detector.Type: GrantFiled: November 13, 2006Date of Patent: December 23, 2008Assignee: Thermo Fisher Scientific Inc.Inventors: Alex Kulik, Nikolay Baturin, Alexander Joseph Esin, Michael Masterov
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Publication number: 20080304620Abstract: 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: ApplicationFiled: February 11, 2008Publication date: December 11, 2008Applicant: University of MassachusettsInventor: Andrew Karellas
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Publication number: 20080247509Abstract: (Problem) To obtain radiation images providing a tomogram which is higher in quality. (Means for Solving the Problem) Thickness of the object is detected and the amount of radiation projected in the projecting directions so that the amount of radiation entering the radiation image detector is uniform according to the projecting direction and the thickness of the object.Type: ApplicationFiled: April 7, 2008Publication date: October 9, 2008Applicant: FUJIFILM CorporationInventor: Nobuhiko KASHIWAGI
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Publication number: 20080226027Abstract: 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: September 18, 2008Applicant: Institute of Geological and Nuclear SciencesInventor: Gavin Wallace
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Publication number: 20080226026Abstract: System and methods for measuring the density, level, or interface position of a fluid or fluids in a vessel using gamma-ray backscatter are disclosed. The gamma-ray instruments disclosed may account for vessel wall buildup or deterioration. Methods disclosed herein include detecting gamma rays backscattered by a fluid from a gamma-ray source positioned proximate to a vessel with at least two gamma-ray detectors positioned proximate to the vessel and to each other; and determining a density, level, or interface value of the fluid based upon intensities of backscattered gamma rays received by the two or more gamma-ray detectors; wherein the vessel wall is subject to at least one of buildup and deterioration. The density, level, or interface may be a function of a ratio of the intensity of backscattered gamma rays received by two or more of the detectors.Type: ApplicationFiled: March 24, 2008Publication date: September 18, 2008Applicant: THERMO FISHER SCIENTIFIC INC.Inventors: Alex Kulik, Alexander Joseph Esin, Nikolay Baturin
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Publication number: 20080205595Abstract: The present invention relates to a thickness measurement method for thin films using microwaves. In the method, the Q-factors of a dielectric resonator are measured. The effective surface resistance (RSeff) of a superconductor or a conductor film and the loss tangent of a dielectric are determined using the Q-factor. The penetration depth ? for the superconductor film is measured using a dielectric resonator with a small gap between the superconductor film at the top of the resonator and the rest. The intrinsic surface resistance of superconductor films for calibration is determined using the measured RSeff and ? while the intrinsic surface resistance of a conductor film for calibration is determined using the measured RSeff and the nature of the intrinsic surface resistance being equal to the intrinsic surface reactance.Type: ApplicationFiled: September 28, 2006Publication date: August 28, 2008Applicant: KONKUK UNIVERSITY INDUSTRIAL COOPERATION CORP.Inventors: Sang Young Lee, Jae Hun Lee, Hyun Kyung Han, Sang Geun Lee, Byung Woo Park
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Publication number: 20080175350Abstract: The present invention provides a method and system for detecting a material in an object to be analyzed in a radiographic imaging system. The method includes providing wide-field illumination of an object with partially monochromatic x-ray radiation from a divergent source without restrictively collimating the x-ray radiation. The x-ray radiation scattered by the object outside of a predetermined range of angles defined about a characteristic angle is rejected. The characteristic angle is a scattering angle about which a material of the object coherently scatters the incident x-ray radiation. In addition, the method includes the step of detecting coherently-scattered radiation, which is the x-ray radiation diffracted by the object within the predetermined range of angles defined about the characteristic angle.Type: ApplicationFiled: January 18, 2007Publication date: July 24, 2008Applicant: THE RESEARCH FOUNDATION OF STATE UNIVERSITY OF NEW YORKInventor: Carolyn A. MacDonald
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Patent number: 7387439Abstract: An apparatus and method calibration method, particularly to determine an x-ray generation technique to acquire a hand x-ray image using a mammography x-ray system for assessing Radiographic Absorptiometry (RA) based BMD (Bone Mineral Density).Type: GrantFiled: February 15, 2006Date of Patent: June 17, 2008Assignee: Carestream Health, Inc.Inventors: Chang-Ying J. Yang, Zhimin Huo
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Patent number: 7386337Abstract: Methods for correcting a bone density value for an effect of lead are disclosed. One method includes determining an apparent bone density in a patient; applying a correction factor to the apparent bone density, the correction factor being based on a blood lead level; and deriving a corrected bone density value for the patient.Type: GrantFiled: May 2, 2003Date of Patent: June 10, 2008Assignee: University of RochesterInventor: J. Edward Puzas
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Patent number: 7379529Abstract: 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 21, 2007Date of Patent: May 27, 2008Assignee: Imaging Therapeutics, Inc.Inventor: Philipp Lang
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Publication number: 20080089475Abstract: The present invention uses a penetrative radiation to form images of a reinforced concrete which has a steel bar. By recording a relationship between radioactive energies and thicknesses of the reinforced concrete, a radioactive energy curve for the reinforced concrete is built. The present invention can be used for an on-site detecting of a reinforced concrete.Type: ApplicationFiled: October 19, 2006Publication date: April 17, 2008Inventors: Chung-Yue Wang, Peng-Ching Peng
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Publication number: 20080082002Abstract: Methods and systems for computer assisted detection of arterial calcification, for example in the abdominal artery, by using measurements such as those conventionally taken with a dual x-ray energy bone densitometers at single energy or dual energy, or by a CT/QCT device for a localization of scout view, and for using the calcification assessment either alone or with other information to assess and report a risk of a cardiovascular event, alone or together with other information such as BMD and vertebral fracture risk.Type: ApplicationFiled: February 2, 2007Publication date: April 3, 2008Inventors: Kevin Wilson, Bral Herrington
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Publication number: 20080056443Abstract: Disclosed is a method and a device for security-inspection of liquid articles with radiations, which relate to the field of radiation inspection technology. The method comprises steps of acquiring original environment information, emitting radiation beams to transmit the liquid articles, receiving the radiation beams transmitted through the liquid articles to form multi-angle projection data, computing a radiation absorption coefficient of the liquid articles to be detected by inverse operation of the multi-angle projection data, based on the initial environmental information and the uniformity of the liquid articles, and comparing the radiation absorption coefficients with the preset data to get the relevant information of the liquid articles. Comparing with the prior art, the present invention is not subjected to affection of cuter package of the liquid article, and is advantageous of high anti-jamming high accuracy, high safety and reliability, low cost and small size.Type: ApplicationFiled: December 5, 2006Publication date: March 6, 2008Inventors: Haifeng Hu, Yuanjing Li, Kejun Kang, Zhiqiang Chen, Yinong Liu, Yulan Li, Li Zhang, Wanlong Wu, Ziran Zhao, Xilei Luo, Bin Sang
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Publication number: 20080043907Abstract: A method for measuring the wall thickness of a plastic sheathing of an electrical core or cable, in particular a power cable having at least one core, wherein the absorption capacity of the material surrounding the plastic sheathing approximates or is similar to that of the plastic sheathing, wherein the core or the cable is irradiated at a right angle to its extension on one side by x-ray radiation and the wall thickness of the encased core or cable is determined on the opposite side from the distribution of the intensity of the detected x-ray, characterized in that the material of the plastic sheathing or a plastic material surrounding the plastic sheathing is foamed prior to measuring the wall thickness for the purpose of modifying its absorption capacity.Type: ApplicationFiled: August 17, 2007Publication date: February 21, 2008Applicant: Sikora AGInventor: Harald Sikora
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Patent number: 7333925Abstract: A complex Fourier transform is performed on measured values of wall thickness at points in a cross section of a pipe in an axial direction, types of thickness deviation are classified, thickness deviation amount is calculated from the absolute value of the complex Fourier component, the position of a thick or thin portion of thickness deviation is calculated from the phase of the complex Fourier component, and manufacturing conditions of the pipe are adjusted based on these variables. The relationship r·exp(j?) between the thickness deviation amount r and phase ? of a first-order thickness deviation obtained for cross sections in the axial direction is subjected to a complex Fourier transform as a function of pipe longitudinal direction, the thickness deviation is further classified by the frequency of twist of the thickness deviation, and an action is taken to prevent the thickness deviation according to the classified thickness deviation.Type: GrantFiled: August 11, 2006Date of Patent: February 19, 2008Assignee: Sumitomo Metal Industries, Ltd.Inventor: Akihito Yamane
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Publication number: 20070274443Abstract: A fluid density determination apparatus and method comprising an X-ray generator emitting a high energy radiation signal and a low energy radiation signal; a sample cell housing a sample of interest and at least one of the high energy and low energy radiation signals being directed through the sample cell; and a radiation detector measuring the output radiation from the sample cell. Data gathered at the radiation detector using the high and low energy signals are used to calculate the density of the fluid sample of interest.Type: ApplicationFiled: May 25, 2006Publication date: November 29, 2007Applicant: SCHLUMBERGER TECHNOLOGY CORPORATIONInventors: JOEL LEE GROVES, ETIENNE VALLEE, PETER WRAIGHT
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Patent number: 7292674Abstract: 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, 2006Date of Patent: November 6, 2007Assignee: Imaging Therapeutics, Inc.Inventor: Philipp Lang
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Patent number: 7279676Abstract: A position sensitive radiation spectrometer for identifying, quantifying, and locating a radioactive source in a target. The position sensitive radiation spectrometer includes an array of gamma-ray detectors arranged along one or more dimensions of a container to be assayed. A known source placed at various calibration positions is used to establish counting efficiencies at various energy levels. From the counting efficiency and the actual count rate, the activity level of an unknown source relative to the calibration positions is calculated. The relative activity levels correlate to the position of unknown source and provide useful information about the actual distribution of radioactive material.Type: GrantFiled: May 11, 2005Date of Patent: October 9, 2007Assignee: Advanced Measurement Technology, Inc.Inventor: Timothy R. Twomey
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Patent number: 7280683Abstract: A method, machine-readable storage medium embodying computer-readable code and automated system for assaying or monitoring the extent of joint or bone deformity reported by a summarized score that may include joint space narrowing, bone erosion and periarticular osteoporosis in a joint-degenerative or joint-damaging disease in a subject are disclosed. From a digitized image of one of the subject's straight bone terminated with a joint such as fingers, coordinates of right and left bone contours of a selected middle or proximal phalange are determined, and these coordinates are in turn used to determine the coordinates of a minimum width in the middle region of the phalange and one or more apices in a region adjacent at least one side of a joint of the selected phalange. These latter coordinates are used in selecting a reference joint contour representing normal-bone contour for that phalange, or the contour of the patient phalange from an earlier x-ray image.Type: GrantFiled: July 22, 2003Date of Patent: October 9, 2007Assignee: Compumed, Inc.Inventors: Xiaoli Bi, Joon Shim
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Patent number: 7245697Abstract: 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: June 5, 2006Date of Patent: July 17, 2007Assignee: Imaging Therapeutics, Inc.Inventor: Philipp Lang
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Patent number: 7206376Abstract: A wellbore tool for measuring the density of a fluid flowing in a wellbore by a photon attenuation technique includes a tube defining a flow path for the fluid, a photon source at one end of the tube, and a photon detector arranged to receive photons which have passed along the tube. In a preffered implementation, a source which emits coincident photon pairs, preferably 22Na, is used. In this embodiment, the tube defining the fluid flow path has first and second relatively straight and aligned measurement portions disposed on opposite sides of the photon source, so that each measurement portion receives a respective photon of some of the coincident pairs for transmission longitudinally along it. Respective detectors at the other ends of the measurement portions receive respective ones of the photon pairs. The detected coincident photons are counted, and the density of the fluid is derived from the count rate.Type: GrantFiled: October 31, 2002Date of Patent: April 17, 2007Assignee: Schlumberger Technology CorporationInventor: John Barry Fitzgerald
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Patent number: 7203274Abstract: Methods and apparatuses for advanced, multiple-projection, dual-energy X-ray absorptiometry scanning systems include combinations of a conical collimator; a high-resolution two-dimensional detector; a portable, power-capped, variable-exposure-time power supply; an exposure-time control element; calibration monitoring; a three-dimensional anti-scatter-grid; and a gantry-gantry base assembly that permits up to seven projection angles for overlapping beams. Such systems are capable of high precision bone structure measurements that can support three dimensional bone modeling and derivations of bone strength, risk of injury, and efficacy of countermeasures among other properties.Type: GrantFiled: August 14, 2003Date of Patent: April 10, 2007Assignee: The Johns Hopkins UniversityInventors: Harry K. Charles, Jr., Thomas J. Beck, Howard S. Feldmesser, Thomas C. Magee
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Patent number: 7174000Abstract: In a method for measurement of the three-dimensional density distribution in a bone, a two-dimensional or three-dimensional image reproducing the quantitative density distribution in the bone is generated using a measurement arrangement that can rotate around an angle of at most 300°.Type: GrantFiled: July 14, 2005Date of Patent: February 6, 2007Assignee: Siemens AktiengesellschaftInventors: Jens Fehre, Bernd Granz, Thomas Mertelmeier
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Patent number: 7162010Abstract: The invention relates to a method to measure the entrance dose of a radiology apparatus of the type comprising an X-ray beam source, and a detector for the X-ray beam after it has passed an object of interest carried on a table placed between the source and the detector, wherein the X-ray beam source is placed above said table and wherein the distance between the X-ray beam source and the object is estimated taking into account the object's morphology, for determining said entrance dose. An attenuation-ratio is calculated depending on energy-levels of the X-ray beam leaving the X-ray beam source and arriving at the detector respectively, and that the object's thickness is calculated depending on said attenuation-ratio, said thickness together with the table-position defining said distance between the X-ray beam source and the object.Type: GrantFiled: December 2, 2002Date of Patent: January 9, 2007Assignee: Koninklijke Philips Electronics, N.V.Inventor: Matthijs Adriaansz
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Patent number: 7120225Abstract: 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 mineral density and bone structure from x-ray images.Type: GrantFiled: October 16, 2003Date of Patent: October 10, 2006Assignee: Imaging Therapeutics, Inc.Inventors: Philipp Lang, Daniel Steines
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Patent number: 7093469Abstract: A complex Fourier transform is performed on measured values of wall thickness at points in a cross section of a pipe in an axial direction, types of thickness deviation are classified, thickness deviation amount is calculated from the absolute value of the complex Fourier component, the position of a thick or thin portion of thickness deviation is calculated from the phase of the complex Fourier component, and manufacturing conditions of the pipe are adjusted based on these variables. The relationship r·exp(j?) between the thickness deviation amount r and phase ? of a first-order thickness deviation obtained for cross sections in the axial direction is subjected to a complex Fourier transform as a function of pipe longitudinal direction, the thickness deviation is further classified by the frequency of twist of the thickness deviation, and an action is taken to prevent the thickness deviation according to the classified thickness deviation.Type: GrantFiled: September 12, 2005Date of Patent: August 22, 2006Assignee: Sumitomo Metal Industries, Ltd.Inventor: Akihito Yamane
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Patent number: 7092486Abstract: System for measuring layer thicknesses of a multi-layer pipe by measuring with a detector array (2) the attenuation of an X-ray transmitted though the pipe. According to the invention the detector array (2) comprises an array of detector elements D1, D2, D3, D4 with a collimator for defining the field of radiation in front of each detector element. The collimator has a narrow diaphragm aperture setting the resolution when the position of the pipe walls is to be determined. The defined field of radiation has an extent sufficient to radiate the four detector elements D1, D2, D3, D4 in parallel. In a suitable signal processing of the output signals from the detector elements D1, D2, D3, D4, eg by using the method of least squares, the thicknesses of the different layers may be fairly accurately determined.Type: GrantFiled: April 22, 2002Date of Patent: August 15, 2006Assignees: Sciteq-Hammel A/S, FORCE TechnologyInventors: Finn Fallentin Olesen, Jørgen Fink, Bill Sejer Nielsen
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Patent number: 7076021Abstract: An apparatus for measurement of the thickness of thin layers by means of X-rays using an X-ray tube which emits X-rays which are directed at a layer to be measured, has at least one aperture apparatus arranged between the X-ray tube and the layer to be measured. The apparatus includes an area absorbing X-rays and an aperture opening. At least one aperture opening in the aperture apparatus has a geometric shape which, seen in the beam direction, projects an area which at least in places is matched to the geometry of the layer to be measured.Type: GrantFiled: December 17, 2003Date of Patent: July 11, 2006Assignee: Immobiliengesellschaft Helmut Fischer GmbH & Co. KGInventors: Helmut Fischer, Volker Rössiger
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Patent number: 7058159Abstract: The present invention relates to networked 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: June 6, 2005Date of Patent: June 6, 2006Assignee: Imaging Therapeutics, Inc.Inventors: Phillip Lang, Daniel Steines
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Patent number: 7050534Abstract: 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: August 20, 2002Date of Patent: May 23, 2006Assignee: Imaging Therapeutics, Inc.Inventor: Philipp Lang
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Patent number: 7020241Abstract: A method for the detection of a specific material in an object (1), especially in a piece of luggage, using electromagnetic beams, whereby the intensities of non-absorbed beams from at least three beam planes (5.1–5.2) in corresponding detector arrays (4.1–4.5) are measured and evaluated, using the following steps according to the invention: 1. generating an at least two-dimensional picture of the object (1) from the measured intensity values; 2. selecting one of the spatial regions displayed in the picture as a basis of the value of a material value, which is determined from intensity measurements, for examination; 3. determining at least one spatial-geometric value in the region to the examined from positional data of a two-dimensional picture and from intensity values using a stored value of a specific, absorption-influenced value of a suspected material. 4.Type: GrantFiled: September 21, 2002Date of Patent: March 28, 2006Assignee: Heimann Systems GmbHInventors: Knut Beneke, Joerg Nittikowski, Dirk Naumann, Hermann Ries, Uwe Siedenburg, Claus Meder, Stefan Ullrich
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Patent number: 6987832Abstract: In the calibration and alignment of an X-ray reflectometry (“XRR”) system for measuring thin films, an approach is presented for accurately determining C0 for each sample placement and for finding the incident X-ray intensity corresponding to each pixel of a detector array and thus permitting an amplitude calibration of the reflectometer system. Another approach involves aligning an angle-resolved X-ray reflectometer using a focusing optic, such as a Johansson crystal. Another approach relates to validating the focusing optic. Another approach relates to the alignment of the focusing optic with the X-ray source. Another approach concerns the correction of measurements errors caused by the tilt or slope of the sample. Yet another approach concerns the calibration of the vertical position of the sample.Type: GrantFiled: June 4, 2004Date of Patent: January 17, 2006Assignee: KLA-Tencor Technologies Corp.Inventors: Louis N. Koppel, Craig E. Uhrich, Jon Opsal
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Patent number: 6928140Abstract: A method for inspecting a golf ball comprising the steps of providing a golf ball comprising a core and a cover; providing at least one flat reference marker; abutting the golf ball against at least one marker; rotating the golf ball about a single axis; capturing an x-ray image of the golf ball and marker; and determining the eccentricity of the golf ball.Type: GrantFiled: April 16, 2004Date of Patent: August 9, 2005Assignee: Acushnet CompanyInventor: Paul A Furze
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Patent number: 6909771Abstract: The in vivo three component areal density composition of a patient along a transmitted x-ray beam is derived by raster-scanning a collimated x-ray beam across a bony region of the patient, with each point scanned at different energies, and using matrix equations with a priori spectra information to solve for the relative areal density of soft tissue, fat and bone.Type: GrantFiled: November 20, 2003Date of Patent: June 21, 2005Assignee: Board of Regents, The University of Texas SystemInventors: Robert G. Waggener, Elizabeth Wieckowska
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Patent number: 6904123Abstract: 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: February 27, 2002Date of Patent: June 7, 2005Assignee: Imaging Therapeutics, Inc.Inventor: Philipp Lang
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Patent number: 6879425Abstract: The invention relates to a device for determining and/or monitoring the density and/or the level (L) of a filling material in a container. A transmitting unit which emits radioactive radiation and a receiving unit which is arranged in such a way that it receives the radioactive radiation or the secondary radiation that is produced by the interaction of the radioactive radiation with the filling material are provided. A regulating/evaluating unit which determines the density and/or the level of the filling material in the container using the measuring data that is supplied by the receiving unit is also provided. The aim of the invention is to provide a device which enables the level or the density of a filling material in a container to be measured reliably. To this end, the receiving unit consists of individual detector units.Type: GrantFiled: August 23, 2001Date of Patent: April 12, 2005Assignee: Endress + Hauser GmbH + Co. KGInventors: Hartmut Damm, Joachim Neuhaus, Wolfgang Kämereit