Class / Patent application number | Description | Number of patent applications / Date published |
378054000 | Thickness or density analysis | 58 |
20080205595 | Method of Measuring Thickness of Thin Film Using Microwave - 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 (R | 08-28-2008 |
20080226027 | Estimating strengths of wooden supports - A method of estimating the strength of a wooden support wherein gamma rays ( | 09-18-2008 |
20080247509 | RADIATION IMAGE OBTAINING SYSTEM - (Problem) To obtain radiation images providing a tomogram which is higher in quality. | 10-09-2008 |
20090010385 | Method and Device for Monitoring Wall Thickness - 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. | 01-08-2009 |
20090034680 | CTS AND INSPECTING METHOD THEREOF - 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. | 02-05-2009 |
20090080608 | METHOD AND APPARATUS FOR MEASURING LONG BONE DENSITY OF SMALL-ANIMALS - 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. | 03-26-2009 |
20090180588 | Measurement method of layer thickness for thin film stacks - 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. | 07-16-2009 |
20090274269 | DETERMINATION OF HEAVY PARTICLE STOPPING POWER - 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. | 11-05-2009 |
20090285358 | Battery - A non-invasive multi-step process that includes tomography is applied to determine features of a battery. | 11-19-2009 |
20090323895 | Method and Apparatus for Treating Workpieces - 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. | 12-31-2009 |
20100046703 | WEIGHT INSPECTION APPARATUS AND WEIGHT INSPECTION SYSTEM PROVIDED THEREWITH - 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. | 02-25-2010 |
20100080352 | Single Well Nuclear Density Gauge - 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. | 04-01-2010 |
20100098212 | Methods and Devices for Quantitative Analysis of X-Ray Images - 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. | 04-22-2010 |
20100142674 | METHOD AND SUPPORT DEVICE FOR MEASURING JAWBONE MINERAL DENSITY - 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. | 06-10-2010 |
20100142675 | BONE MINERAL DENSITY ASSESSMENT USING MAMMOGRAPHY SYSTEM - 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. | 06-10-2010 |
20100150308 | X-RAY INSPECTION APPARATUS - 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. | 06-17-2010 |
20100158190 | ESTIMATING STRENGTHS OF WOODEN SUPPORTS - A method of estimating the strength of a wooden support wherein gamma rays ( | 06-24-2010 |
20100172471 | METHOD AND APPARATUS FOR CHARACTERIZING FLAME AND SPRAY STRUCTURE IN WINDOWLESS CHAMBERS - 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. | 07-08-2010 |
20110002443 | High Voltage X-Ray Generator and Related Oil Well Formation Analysis Apparatus and Method - 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. | 01-06-2011 |
20110026672 | THICKNESS MEASURER FOR METAL SHEET AND RELATIVE MEASURING METHOD - Thickness measurer for metal elements ( | 02-03-2011 |
20110069813 | RADIATION INSPECTION APPARATUS - 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. | 03-24-2011 |
20110158386 | METHOD AND SYSTEM FOR MEASURING VISCERAL FAT MASS USING DUAL ENERGY X-RAY ABSORPTIOMETRY - 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. | 06-30-2011 |
20110194672 | METHODS, SYSTEMS, AND COMPUTER PROGRAM PRODUCTS FOR MEASURING THE DENSITY OF MATERIAL INCLUDING A NON-NUCLEAR MOISTURE PROPERTY DETECTOR - 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. The material includes at least one of a pavement material, aggregate base material, concrete, and a soil material. An electromagnetic sensor is configured to determine a frequency response of the material to the electromagnetic field across the one or more frequencies. A second material property calculation function is configured to correlate the frequency response to a moisture property of the material and to calculate a value representing the moisture property. The material property gauge further includes a third material property calculation function configured to determine a material property of the material based on the value associated with the density of the material and the value representing the moisture property of the material. | 08-11-2011 |
20110222655 | X-RAY INSPECTION APPARATUS, X-RAY INSPECTION METHOD, X-RAY INSPECTION PROGRAM, AND X-RAY INSPECTION SYSTEM - 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. | 09-15-2011 |
20120087467 | X-RAY BASED DENSITOMETER FOR MULTIPHASE FLOW MEASUREMENT - Multiphase flow measuring unit for performing X-ray density measurements on a fluid flow, the unit comprising an X-ray source generating an X-ray beam within a chosen spectral range and a first detector aimed at the beam for detecting radiation scattered by or transmitted through the flow, the spectral range being a narrow, essentially monochromatic range. | 04-12-2012 |
20120207271 | ARTICLE INSPECTION DEVICE AND INSPECTION METHOD - The present invention discloses an article inspection device, comprising: an x-ray machine, a collimation unit, a transmission detector array and a scattering detector array. The scattering detector array comprising a plurality of same scattering detector modules arranged in a matrix of i-rows and j-columns. A transmission cross section of the article transmitted by the x-rays is divided into a plurality of same sub-regions arranged in a matrix of i-rows and j-columns. The plurality of scattering detector modules arranged in i-rows and j-columns correspond to the plurality of sub-regions arranged in i-rows and j-columns one by one for detecting pair production effect annihilation photons and Compton-effect scattering photons from the respective sub-regions. Obtaining atomic numbers of the respective sub-regions based on a ratio of the pair production effect annihilation photon count to the Compton-effect scattering photon count, so as to form a three-dimensional image of the article. In addition, the present invention further discloses an article inspection method. | 08-16-2012 |
20130039461 | Pre-Stressed Gamma Densitometer Window and Method of Fabrication - A gamma densitometer window comprises a plate of non-metallic, preferably gamma transparent, material. The window further comprises a metallic frame member fitted around the outer edge of the plate and adapted to pre-load the plate with a compressive stress that is sufficiently high such that the sum of the compressive stress, tensile stress and shear stress components generated in the plate under high-pressure conditions is always compressive. The window is fabricated by shrink fitting the metallic frame member around the outer edge of the plate at a shrink-fit temperature such that the metallic frame member applies a compressive stress to the plate at any temperature below the shrink-fit temperature | 02-14-2013 |
20130195245 | METHOD FOR CHARACTERIZING FLAME AND SPRAY STRUCTURES IN WINDOWLESS CHAMBERS - Method 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. Positioning a detector 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. Providing the detector with a plurality of sensors arranged in at least one row to capture a dimensionally distributed view of detected x-rays. Coupling a processor to an output of the detector to analyze the data which can be displayed in a suitable graphical or pictorial presentation, including processing the data to correct for any beam hardening of the x-rays as they pass through the closed metal wall, to apply the Maximum Likelihood Estimation method to generate on the display a reconstructed image of the gas density, and to use Inverse Radon Transforms for deconvolution. A dopant can be added to enhance the interaction with the x-rays. | 08-01-2013 |
20130243154 | MEASURING APPARATUS AND MEASURING METHOD - In accordance with an embodiment, a measuring apparatus includes an electromagnetic wave applying unit, a detecting unit, a data processing unit, a film structure transforming unit, and a film structure measuring unit. The electromagnetic wave applying unit generates electromagnetic waves to apply it to a periodic structure of films on a substrate. The detecting unit detects the electromagnetic waves scattered or reflected by the substrate. The data processing unit calculates a surface shape of the periodic structure. The film structure transforming unit calculates a virtual film structure regarding the internal structure of the periodic structure. The film structure measuring unit calculates the thickness of each layer constituting the periodic structure by fitting a first reflectance profile by actual measurement regarding the periodic structure to a second reflectance profile obtained by a simulation using the virtual film structure to restructure the shape of the periodic structure. | 09-19-2013 |
20130308753 | In-Situ Downhole X-Ray Core Analysis System - The disclosure includes an arrangement of X-ray generator(s) ( | 11-21-2013 |
20130315371 | BONE DENSITY MEASUREMENT - A method and device for determining a tissue density based on an x-ray image including a reference body. The method uses a device for receiving an X-ray image of a region of interest and information about a theoretical distribution of more or less dense tissue in the region of interest. Pixels of the X-ray image related to tissue are compared with a pixel related to a reference body. The actual distribution of tissue density is estimated based on the received information and the result of the pixel comparison. | 11-28-2013 |
20130343519 | PORTABLE DUAL-ENERGY RADIOGRAPHIC X-RAY PERIHPHERAL BONE DENSITY AND IMAGING SYSTEMS AND METHODS - Devices, tools, systems and methods for X-ray bone density measurement and imaging for radiography, fluoroscopy and related procedures. Portable, efficient peripheral bone density measurement and/or high resolution imaging and/or small field digital radiography of bone and other tissue, including tissue in the peripheral skeletal system, such as the arm, forearm, leg, hand and/or foot. | 12-26-2013 |
20140119506 | APPARATUS AND METHOD FOR ACQUIRING OPTIMAL MULTI-ENERGY X-RAY IMAGE - An apparatus and method for acquiring an optimal MEX image may include an X-ray source to generate an X-ray and to irradiate the X-ray, an energy identification detector to acquire a MEX image that is generated when the irradiated X-ray penetrates an object, and an optimal MEX processor to generate an optimal MEX parameter based on a characteristic of the object and to control at least one of the X-ray source and the energy identification detector based on the generated optimal MEX parameter. | 05-01-2014 |
20140126693 | METHOD AND DEVICE FOR IDENTIFYING A MATERIAL BY THE SPECTRAL ANALYSIS OF ELECTROMAGNETIC RADIATION PASSING THROUGH SAID MATERIAL - A method identifying a material, includes: measuring an electromagnetic radiation spectrum emitted through the material; determining at least one measurement energy band, and spectral coefficients of a comparison function in the measurement band, using the measured spectrum; estimating, using the determined spectral coefficients, a nature and/or thickness of the material based on a set of reference spectral parameters relating to reference materials and/or thicknesses and defined in reference bands. The estimating includes: prior selecting plural reference materials and/or thicknesses, as possible candidates, from comparing the spectral coefficients determined with at least one portion of the reference spectral parameters; estimating the nature and/or thickness of the material from comparing the spectral coefficients determined with the spectral parameters of at least one portion of the possible candidates, in at least one energy band common to the reference bands of the at least one portion of possible candidates and the measurement band. | 05-08-2014 |
20140146941 | METHOD AND DEVICE FOR DETERMINING THICKNESS OF ROLLING STOCK - Measurement accuracy during determination of the thickness of rolling stock, in particular a rolling strip or a metal plate, is remotely measured using a base measurement value for the thickness obtained by a radiation measurement system having a radiation source and a radiation detector, both carried by a holding mechanism. A reference measurement value for the thickness is measured by an ultrasonic measurement head that is likewise arranged on the holding mechanism. The reference measurement value is used to eliminate the influence of errors on the base measurement value. | 05-29-2014 |
20150377801 | X-RAY NONDESTRUCTIVE TESTING DEVICE - There is provided an X-ray nondestructive testing device which irradiates X-rays to an article, the article including a substrate having a predetermined X-ray absorption coefficient and a measurement target object disposed therein and having another X-ray absorption coefficient differing from that of the substrate, the device including: an X-ray source configured to irradiate the X-rays to the article; a detector configured to detect the transmission amounts of the X-rays passed through the article at at least paired different locations; a detection position specifying designator configured to specify the paired different locations as a set of paired locations based on a pre-stored design information; a driving mechanism configured to move the detector to the set of paired locations; and an operation calculator configured to calculate the thickness of the measurement target object based on the transmission amounts of the X-rays detected by the detector. | 12-31-2015 |
20160041110 | X-RAY TRANSMISSION INSPECTION APPARATUS AND EXTRANEOUS SUBSTANCE DETECTING METHOD - An X-ray transmission inspection apparatus is provided with: an X-ray source configured to irradiate a sample with an X-ray; a sample moving mechanism configured to continuously move the sample in a specific direction during irradiation with the X-ray from the X-ray source; a TDI sensor disposed at a side opposite to the X-ray source with the sample interposed therebetween and configured to detect the X-ray transmitted by the sample; and a polycapillary disposed between the X-ray source and the sample and configured to convert the X-ray radially emitted from the X-ray source into a parallel X-ray parallel to a thickness direction of the sample. | 02-11-2016 |
20160089105 | MEDICAL IMAGING APPARATUS AND CONTROL METHOD THEREOF - A medical imaging apparatus includes an X-ray radiation unit configured to radiate X-rays onto an object and onto a calibration phantom, which does not overlap the object, according to a first irradiating condition for a pre-shot; a detector configured to detect the X-rays having passed through the object and through the calibration phantom; and a controller configured to acquire calibration information by using a pre-shot image acquired from the detected X-rays, and determine a second irradiating condition for main imaging by using the calibration information. | 03-31-2016 |
20160133428 | Radiation Generator With Frustoconical Electrode Configuration - A radiation generator may include an elongate generator housing having a proximal end and a distal end, a target electrode within the elongate generator housing at the distal end thereof, a charged particle source within the elongate generator housing at the proximal end thereof to direct charged particles at the target electrode. A plurality of accelerator electrodes may be spaced apart within the elongate generator housing between the target electrode and the charged particle source to define a charged particle accelerator section. Each accelerator electrode may include an annular portion having a first opening therein, and a frustoconical portion having a base coupled to the first opening of the annular portion and having a second opening so that charged particles from the charged particle source pass through the first and second openings to reach the target electrode. | 05-12-2016 |
20160157806 | X-RAY IMAGING APPARATUS AND METHOD FOR CONTROLLING THE SAME - An X-ray imaging apparatus can include an X-ray detector configured to acquire X-ray data by detecting X-rays and an image processor configured to segment a first image generated based on the acquired X-ray data into two or more segmentation regions, to identify one or more materials present in one segmentation region of the two or more segmentation regions, and to acquire an image relating to an object which includes abnormal materials. | 06-09-2016 |
20160157811 | X-RAY APPARATUS AND SYSTEM - An X-ray apparatus includes a collimator comprising a lamp and configured to adjusting an irradiation region of X-rays radiated from an X-ray source; an image acquirer configured to acquire an object image by imaging an object while the lamp is turned on; and a controller configured to acquire an object distance based on the object image and acquire a thickness of the object based on a detector distance and the object distance. The object distance is a distance between the X-ray source and the object, and the detector distance is a distance between the X-ray source and an X-ray detector. | 06-09-2016 |
20160374637 | X-RAY APPARATUS AND CONTROLLING METHOD OF THE SAME - An X-ray apparatus including an X-ray source configured to radiate X-rays; a collimator configured to adjust an irradiation region of X-rays radiated from the X-ray source; an image acquirer configured to acquire an image by imaging an object; and a controller configured to detect, in the image, a marker projected on the object by the collimator, and to determine a source to object distance (SOD) based on a location of the marker in the image, wherein the SOD comprises a distance between the X-ray source and the object. | 12-29-2016 |
378055000 | With movable source or detector | 6 |
20100135458 | X-Ray Apparatus for Bone Density Assessment and Monitoring - The present invention relates to a dual energy X-ray apparatus and method for osteoporosis assessment and monitoring. The present invention takes a bone densitometry reading of a patient's wrist to assess osteoporosis and monitor bone loss condition by repeat measurements along with therapy. The bone densitometry system has an X-ray source, dual energy detectors, an arm-rest to place the patient's arm, a motion system to move the source-detector gantry along the patient's forearm, and a computer with a database to archive the wrist image, calculate the bone mineral density, maintain a history of patient information, and generate patient history reports. | 06-03-2010 |
20100284515 | Apparatus for Bone Density Assessment and Monitoring - The present invention relates to a dual energy X-ray apparatus and method for osteoporosis assessment and monitoring. The present invention takes a bone densitometry reading of a patient's wrist to assess osteoporosis and monitor bone loss condition by repeat measurements along with therapy. The bone densitometry system has an X-ray source, dual energy detectors, an arm-rest to place the patient's arm, a motion system to move the source-detector gantry along the patient's forearm, and a computer with a database to archive the wrist image, calculate the bone mineral density, maintain a history of patient information, and generate patient history reports. | 11-11-2010 |
20110058649 | TRANSVERSE SCANNING BONE DENSITOMETER AND DETECTOR USED IN SAME - A scanning bone densitometer includes an x-ray source to produce x-rays and an x-ray detector receiving x-rays emitted from the x-ray source. The x-ray detector includes a cadmium tellurium (CdTe) semiconductor. The scanning bone densitometer also includes a controller moving the x-ray source and the x-ray detector along a transverse scanning path to acquire a plurality of scan images of an object of interest. | 03-10-2011 |
20140093038 | RADIATION DETECTOR AND MEASUREMENT DEVICE FOR DETECTING X-RAY RADIATION - The invention relates to a radiation detector ( | 04-03-2014 |
20150063538 | SYSTEM AND METHOD OF X-RAY RADIATION REDUCTION - A system and method of reducing radiation exposure during an X-ray procedure comprising the steps of: inserting an automated collimation device onto an X-Ray machine; implementing infrared or ultrasonic measuring features into the collimation device; measuring the distance of the X-ray source to the anatomy of a patient; measuring the thickness of the anatomy of the patient; and automatically adjusting the distance and degree of radiation emission based upon the results of distance and thickness measurements. | 03-05-2015 |
20150338331 | METHODS, SYSTEMS, AND COMPUTER PROGRAM PRODUCTS FOR MEASURING THE DENSITY OF MATERIAL INCLUDING A NON-NUCLEAR MOISTURE PROPERTY DETECTOR - 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. 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 may calculate a value associated with the density of the material based upon the signal produced by the radiation detector. The material property gauge includes an electromagnetic moisture property gauge that determines a moisture property of the material. An electromagnetic field generator may generate an electromagnetic field where the electromagnetic field sweeps through one or more frequencies and penetrates into the material. An electromagnetic sensor may determine a frequency response of the material to the electromagnetic field across the several frequencies. | 11-26-2015 |
378056000 | With standardization | 10 |
20100014636 | Calibration Devices and Methods of Use Thereof - The present invention relates to calibration devices and to methods of using these devices. | 01-21-2010 |
20100246762 | SEEDLING COUNTER - A method and apparatus for counting seedlings. A seedling moves through a seedling counter, which comprises a spectral energy emitter and a spectral energy detector. When the spectral energy detector detects a sufficient attenuation of the spectral energy for a sufficient amount of time, the spectral energy detector indicates the presence of a seedling. The spectral energy detector detects irregularities in the received spectral energy to indicate faults in the apparatus. In one embodiment, the seedling counter is adapted to use X-ray energy. | 09-30-2010 |
20110206182 | METHOD FOR THICKNESS CALIBRATION AND MEASURING THICKNESS OF MATERIAL - A method for measuring the thickness of a first absorbing material in the presence of a second absorbing material is provided. The method comprises the steps as follow. The thickness (t | 08-25-2011 |
20120063568 | Calibration Devices and Methods of Use Thereof - The present invention relates to calibration devices and to methods of using these devices. | 03-15-2012 |
20120087468 | Methods and Devices for Quantitative Analysis of X-Ray Images - 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. | 04-12-2012 |
20130028375 | METHOD FOR MONITORING FOULING IN A COOLING TOWER - Fouling in the fill portion of a cooling tower is monitored by transmitting radiation through a cooling tower, detecting the amount of radiation that has penetrated the cooling tower, and calculating the density of the fill portion of the cooling tower based on the detected radiation. A higher than expected density indicates the presence of fouling on the fill portion of the cooling tower. A rate of fouling may be established by monitoring the density of the fill portion of the cooling tower over time. | 01-31-2013 |
20130129041 | DEVICE AND METHOD FOR DETERMINING THE WEIGHT OF PHARMACEUTICAL PRODUCTS BY MEANS OF AN X-RAY SOURCE - The invention relates to a device ( | 05-23-2013 |
20130170614 | BONE MINERAL DENSITY ANALYSIS METHOD, BONE MINERAL DENSITY ANALYSIS APPARATUS, AND RECORDING MEDIUM - From radiation images obtained by driving radiation tube with a plurality of tube voltages, including a normal tube voltage, a density gradient with respect to at least two sections of a reference substance having different radiation transmission characteristics is obtained for each of the plurality of tube voltages prior to obtaining a bone mineral density. If a radiation image captured for obtaining a bone mineral density is determined to have been captured under a tube voltage other than the normal tube voltage, an image signal representing the image and/or a bone mineral density analysis result is corrected so as to correspond to that which should have been obtained if the image had been captured under the normal tube voltage based on the relationship between the density gradient in the image and the density gradient in the radiation image captured under the normal tube voltage. | 07-04-2013 |
20140086386 | APPARATUS AND METHOD FOR ESTIMATING OBJECT INFORMATION - An apparatus and method for estimating object information is provided. The object information estimating apparatus includes a database which stores phantom information obtained by projecting a first energy X-ray on a phantom, an input unit which receives first object information obtained by projecting the first energy X-ray on an analysis object, and which receives information on a thickness of the analysis object, and an estimating unit which estimates second object information based on the phantom information, the first object information, and the information on the thickness. | 03-27-2014 |
20160000394 | ARITHMETIC PROCESSOR AND BONE DENSITY MEASURING DEVICE - An arithmetic processor for measuring bone density using a correspondence relationship between a luminance value of transmitted radiation and a thickness of a reference material is provided. The luminance value is obtained by applying radiation, which is emitted from a radiation source upon application of a tube voltage to the radiation source, to the reference material having different thicknesses and detecting the radiation transmitted through the reference material. The arithmetic processor includes: a generating unit that generates, based on the detected luminance value, a luminance profile representing the correspondence relationship; a normalizing unit that generates a normalized profile by normalizing the luminance profile based on a maximum value and a minimum value in the luminance profile; and a determining unit that determines whether or not each luminance value corresponding to each thickness in the normalized profile is within a range defined in advance by the tube voltage and each thickness. | 01-07-2016 |