Patent application number | Description | Published |
20090304151 | Radiographic image data correction method and apparatus and radiography apparatus - Offset correction based on offset correction data is performed on radiographic image data that have been read out from a radiation image detector, and the offset correction data are updated. In the offset correction method, correction data for low-frequency components and correction data for high-frequency components, as the offset correction data, are generated based on offset image data that have been read out from the radiation image detector while the radiation image detector is not irradiated with radiation. Further, the correction data for low-frequency components and the correction data for high-frequency components are separately updated. | 12-10-2009 |
20090324123 | Image processing method, image processing apparatus, and image processing program - The amount of time spent extracting linear noise components is reduced, when removing linear noise components from an image. A reduced image is generated, by reducing a radiation image in at least one of the vertical and horizontal directions. A linear noise image that represents linear noise components in the Y direction is generated, by extracting linear noise components from the reduced image. Thereafter, the generated linear noise image is enlarged to the image size of the original image; the linear noise components are removed from the radiation image, employing the enlarged linear noise image. | 12-31-2009 |
20110054943 | Radiography management system and method - When radiography is performed on a patient at a radiography apparatus, first, a past collected radiation dose for the patient and a past collected radiation dose for a region of the patient on which radiography will be performed are extracted from a database. | 03-03-2011 |
20120068079 | RADIATION IMAGING APPARATUS AND STEREOSCOPIC IMAGE DISPLAY METHOD - A high quality stereo image is displayed by a radiation imaging apparatus that obtains an image for two dimensional observation and two images for stereo display while using a grid. An input section | 03-22-2012 |
Patent application number | Description | Published |
20090252397 | Imaging system and image defect correcting method - An imaging system comprises: an imaging unit for producing an image within a given field of view; an image defect detector for detecting a defective area from a first image that is produced by the imaging unit without a subject in the given field of view; a size enlarging unit for forming a deemed defective area having an enlarged size consisting of pixels of the first image corresponding to a defective area detected by the image defect detector and at least one of pixels adjacent to these pixels; and an image defect correcting unit for correcting a second image produced by the imaging unit with a subject located within the given view of field according to a deemed defective area formed by the size enlarging unit. | 10-08-2009 |
20100246921 | Radiographic image correction method and radiographic imaging apparatus - A radiographic image correction method comprises the steps of: previously producing and storing a preparatory image by removing a radiographic image without the subject obtained by radiography using one of a plurality of target/filter combinations causing a least significant inconsistent density from a radiographic image without the subject obtained by radiography using one of the target/filter combinations causing a most significant inconsistent density, producing and storing a first correction image without the subject obtained by radiography using the target/filter combination causing the least significant inconsistent density, and combining the first correction image with the preparatory image to produce and store a second correction image, and correcting shading of a radiographic image obtained by radiographing the subject by removing one of the first and the second correction image depending upon the target/filter combination used for radiographing the subject from the radiographic image obtained by radiographing the subject. | 09-30-2010 |
20100246922 | Image correction method and image correction device - An image correction method comprises the steps of: median-processing the original image in a direction normal to a direction in which the streak unevenness extends to produce a median-processed image, subtracting the median-processed image from the original image to produce a subtraction image, threshold-processing a part of the subtraction image having a density exceeding a given threshold to reduce the density and produce a threshold-processed image, frequency-processing the threshold-processed image using a one-dimensional low-pass filter in the direction in which the streak unevenness extends to produce a processing image, and subtracting the processing image from the original image to remove the streak unevenness from the original image. | 09-30-2010 |
20100252743 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, IMAGE PROCESSING PROGRAM, AND INFORMATION STORAGE MEDIUM HAVING IMAGE PROCESSING PROGRAM STORED THEREIN - A first leakage current value output from each signal line is stored in a storage unit, with a charge corresponding to an emitted radiation being held in a radiographic image detector, when the radiation is uniformly emitted to the radiographic image detector. A second leakage current value is acquired which is output from each signal line, with a charge corresponding to the radiation dose being held in the radiographic image detector, when the radiation passing through an object is emitted to the radiographic image detector. When the first and second leakage current values are equal to each other for each line corresponding to each signal line, all pixels on the line are determined to belong to a background area (lines A and C). When the second leakage current value is smaller than the first leakage current value and larger than a predetermined value, it is determined that there are the object areas and the background areas on the line (lines B, D, and E), and the total number of pixels in the background area on the line is calculated from the ratio of the first leakage current value to the second leakage current value. In this way, the distribution of the object area and the background area in the image which is held in the radiographic image detector when the radiation passing through the object is emitted is estimated before the reading of the image from the radiographic image detector is completed. | 10-07-2010 |
20120076267 | RADIOLOGICAL IMAGE RADIOGRAPHING APPARATUS AND METHOD - Disclosed is a technique for correcting a pixel defect in the capture of two radiological images with parallax therebetween. Radiation beam is directly radiated to a radiation detector | 03-29-2012 |
20120082295 | Radiographic imaging apparatus, radiographic imaging system, image processing device, and computer-readable recording medium for storing program - There is provided a radiographic imaging apparatus including: a radiation source configured to separately emit high energy radiation and low energy radiation by virtue of inverse Compton scattering; an imaging section configured to separately capture a radiographic image with the high energy radiation and a radiographic image with the low energy radiation that are emitted from the radiation source onto a same site to be imaged; and an image processing section configured to perform image processing in which an energy subtraction image is produced by performing a weighting calculation such that the radiographic image captured with the high energy radiation and the radiographic image captured with the low energy radiation by the imaging section are weighted for corresponding pixels according to a distance from a center of the radiation emitted from the radiation source. | 04-05-2012 |
20130068952 | RADIATION DETECTION ELEMENT, RADIOGRAPHIC IMAGE DETECTION PANEL AND RADIOGRAPHIC IMAGING DEVICE - There is provided a radiation detection element including: a radiation detection section that is formed from plural pixels that is of the same size and arrayed two-dimensionally while adjacent to one another, and that detects radiation passed through an object of imaging; plural scan lines that transfer signals that carry out switching control of switching elements provided respectively at the plural pixels; and plural data lines that are disposed so as to intersect the scan lines, and that transfer electric signals read-out by the switching elements, wherein the radiation detection section is made into a shape in which a pair of opposing sides is longer than another pair of opposing sides, and each of the pixels is made into a shape that is short in a short side direction of the radiation detection section and long in a long side direction of the radiation detection section. | 03-21-2013 |
20140161229 | RADIOGRAPHIC IMAGING DEVICE AND RADIOGRAPHIC IMAGING METHOD - The present invention provides a radiographic imaging device and a radiographic imaging method that secure high sensitivity and raising resolution. Namely, a radiographic imaging device includes: a radiation detection element including plural same sized hexagonal shaped pixels that detect radiation and are arrayed in honeycomb pattern; and a pixel density conversion section that performs interpolation processing such that first image data obtained from the radiation detection element is converted into second image data representing an image of plural pixels arrayed in square grid pattern, wherein d1max is d2max or greater, and d1max is a value of the root of (2×S1) or lower, wherein d1max denotes the length of a longest diagonal of the hexagonal shaped pixels, S1 denotes the surface area of the hexagonal shaped pixels, and d2max denotes the length of a diagonal of the square lattice of the second image data. | 06-12-2014 |
20140161230 | RADIOGRAPHIC IMAGING DEVICE AND RADIOGRAPHIC IMAGING METHOD - A radiographic imaging device includes a radiation detection element including plural same sized hexagonal shaped pixels that detect radiation and are arrayed in a honeycomb pattern, and a pixel density conversion section that performs interpolation processing such that first image data obtained from the radiation detection element is converted into second image data representing an image in which plural pixels are arrayed in a square grid pattern, wherein when d1max denotes the length of the longest diagonal of the hexagonal shaped pixels, S1 denotes the surface area of the hexagonal shaped pixels, and d2max denotes the length of the diagonals of the square grid of the second image data, d1max is equal to or greater than d2max, and d2max is equal to or greater than the value of the square root of S1. | 06-12-2014 |
20140241508 | RADIATION IRRADIATION DEVICE, RADIATION IRRADIATION METHOD AND PROGRAM STORAGE MEDIUM - A radiation irradiation device is provided that includes: a metal target that emits bremsstrahlung X-rays as a radiation beam due to irradiation with an electron beam; a radiation shielding member that includes a slit-shaped radiation passage portion and that is disposed downstream of the metal target in the radiation beam emission direction and is disposed such that a portion of the radiation beam passes through the radiation passage portion and the radiation beam incident to regions other than the radiation passage portion is blocked; and an electron beam generating device that irradiates, onto the metal target, an electron beam such that a diameter at a generation point of the emitted radiation beam is smaller than a length of an entry portion of the radiation passage portion along a length direction of the entry portion. | 08-28-2014 |
Patent application number | Description | Published |
20100014772 | Signal line correction method and apparatus - A method for use with a radiation image detector, including the steps of detecting a faulty signal line having a signal amount less than a predetermined threshold value based on radiation image signals read out from the detector, setting a signal line adjacent to the faulty signal line as an abnormal signal line and a signal line adjacent to the abnormal signal line and having a normal amount of signal as a reference signal line, calculating the difference between a signal read out by the abnormal signal line and a signal read out by the reference signal line as a correction amount, calculating a low frequency component correction amount by removing a high frequency component from the calculated correction amount, and performing a correction on the signal read out by the abnormal signal line by adding the calculated low frequency component correction amount to the signal. | 01-21-2010 |
20120075293 | ADJUSTMENT METHOD OF STEREOSCOPIC DISPLAY, ADJUSTMENT DEVICE USED THEREFORE, STEREOSCOPIC IMAGE DISPLAY METHOD, AND DISPLAY DEVICE USE THEREFORE - In an adjustment method of a stereoscopic display used for stereoscopic display and an adjustment device used therefore, the burden on an observer can be reduced. An adjustment method of a stereoscopic display having a light output unit for a right eye which outputs a light signal for the right eye and a light output unit for a left eye which outputs a light signal for the left eye includes: performing first measurement for measuring the luminance of the light signal for the right eye; performing second measurement for measuring the luminance of the light signal for the left eye; acquiring first and second representative luminance values corresponding to each other by the first and second measurements, respectively; and adjusting an output of the light output unit such that a difference between the first and second representative luminance values falls within a predetermined range. | 03-29-2012 |
20120177181 | RADIOGRAPHIC IMAGING DEVICE AND RADIOGRAPHIC IMAGING SYSTEM - There is provided a radiographic imaging device including: a radiation source that irradiates radiation generated by inverse Compton scattering; a first grating at which first members that diffract or absorb radiation are formed side by side such that pitches thereof are larger where distances from a center position of the radiation irradiated from the radiation source are larger, the first grating diffracting or absorbing radiation irradiated from the radiation source with the first members; a second grating that is disposed at a position at which Talbot interference is produced by the radiation diffracted or absorbed by the first grating, and at which second members that absorb radiation are formed side by side such that pitches thereof are larger where distances from the center position of the radiation irradiated from the radiation source are larger; and a radiation detector that detects radiation that has passed through the second grating. | 07-12-2012 |
20130300737 | STEREOSCOPIC IMAGE GENERATING APPARATUS, STEREOSCOPIC IMAGE GENERATING METHOD, AND STEREOSCOPIC IMAGE GENERATING PROGRAM - At least one of parallax images for left and right eyes to be fusionally displayed to perform stereopsis using binocular parallax is generated at low resolution or low sharpness of such a degree that a subject in the parallax image is observable as a stereoscopic image when an observer observes the subject in an observation mode in which the two fusionally displayed parallax images are stereoscopically viewable, and also of such a degree that the subject is recognizable as a plane image when an observer observes the subject in an observation mode in which the two fusionally displayed parallax images are not stereoscopically viewable. | 11-14-2013 |
20130331682 | BREAST IMAGE CAPTURING APPARATUS - In a breast image capturing apparatus having an arm section for moving a radiation source in a left-right direction in front of a subject, providing a shielding member for preventing radiation from being applied to the face of the subject on an arm section, and supporting the shielding member movably relative to the arm section when the face of the subject is abutted to the shielding member and fixedly relative to the arm section when the face of the subject is not abutted to the shielding member. | 12-12-2013 |
20130336444 | RADIOGRAPHIC IMAGING METHOD AND APPARATUS - In a case where a series of operations of an imaging sequence are continuously performed when an imaging switch is continuously in ON state, if the imaging switch is turned into OFF state only for a given period and the given period is not more than a predetermined threshold value, control is exerted such that part of the operations of the imaging sequence is continuously performed. | 12-19-2013 |
20140022247 | RADIOLOGICAL BREAST IMAGE DISPLAY METHOD, RADIOLOGICAL BREAST IMAGE DISPLAY APPARATUS, AND PROGRAM - Generating a right-eye image by combining a right-side capturing image (4° capturing image) of a right breast with a left-side capturing image (0° capturing image) of a left breast rotated by 180° such that the chest walls of the breasts face to each other and a left-eye image by combining a left-side capturing image (0° capturing image) of the right breast with a right-side capturing image (4° capturing image) of the left breast rotated by 180° such that the chest walls of the breasts face to each other. Based on the right-eye and left-eye images generated in the manner described above, displaying a stereoscopic image on a monitor. | 01-23-2014 |
20140027650 | RADIOGRAPHIC IMAGING METHOD, RADIATION DETECTOR AND RADIOGRAPHIC IMAGING APPARATUS - A radiation detector for detecting irradiated radiation that includes: a converting layer for converting radiation irradiated from a radiation source capable of irradiating radiation from two imaging directions, which are different from each other, into electric charges; and a plurality of pixel electrodes for collecting the converted charges. In the radiation detector, when at least one of the two imaging directions forms a specified angle θ with respect to the direction that is orthogonal to the detector plane of the radiation detector, the thickness d of the converting layer and the sizes p of the pixel electrodes satisfy the condition: d·tan θ01-30-2014 | |
20140161341 | IMAGE REPRODUCING SYSTEM AND IMAGE FILE GENERATING APPARATUS - With respect to two images of an image for a right eye and an image for a left eye constituting a stereoscopic image, and which have been obtained at a mammography apparatus, a computer sets one of the two images, as a main image, and the remaining image as a sub-image. Further, a password releasable exclusively by an image reproducing terminal that copes with reproduction of a stereoscopic image file is set for the sub-image, and the two images are stored in a stereoscopic image file. | 06-12-2014 |
20140213895 | RADIATION IMAGE DISPLAY METHOD AND APPARATUS - Two radiation images are acquired by emitting radiation to a subject from two imaging directions that form a first imaging angle, and two radiation images are acquired imaged from two imaging directions that form a second imaging angle. The radiation images of the first imaging angle are displayed as two-dimensional images while the radiation images of the second imaging angle are displayed as a stereoscopic image. Designation of a predetermined position in the radiation images that are displayed as two-dimensional images is received to obtain position information. The obtained position information in the radiation images of the first imaging angle is projected onto the radiation images of the second imaging angle based on the position information and three-dimensional position information is obtained. Based on the three-dimension position information, markers are displayed on the radiation images of the second imaging angle which are displayed as a stereoscopic image. | 07-31-2014 |