Entries |
Document | Title | Date |
20080205590 | METHOD AND SYSTEM FOR BINOCULAR STEROSCOPIC SCANNING RADIOGRAPHIC IMAGING - In a binocular steroscopic scanning radiographic imaging method, X-rays emitted by the same radiation source are used. The X-rays pass through a double-slit collimator to form two X-ray beam sectors, which are symmetric or asymmetric and have an angle between them. The X-ray beam sectors, after penetrating through an object under detection, are received by the left and right detector array, respectively, then converted into electric signals to be inputted to the respective image acquisition systems, and received by a computer processing system for image processing and displaying. A system corresponding to the method comprises a radiation source, a beam controller, two mutually connected arms of detector arrays, image acquisition systems connected respectively to each of the detector arrays and a computer processing system. The present invention can display the transmission images detected by each of the detector arrays as well as tomograms with different depth reconstructed from the transmission images according to the principle of parallax. The present invention is convenient, fast in detection and realizes with low cost the recognition of objects of different depths. | 08-28-2008 |
20090092228 | IMAGING GEOMETRY FOR IMAGE-GUIDED RADIOSURGERY - A system and method for stereoscopically imaging a patient at multiple locations with a radiation treatment system using a common imaging center. | 04-09-2009 |
20090207971 | DISPLAYING RECORDINGS IN A SUPERIMPOSED OR ORIENTED WAY - A method for the superimposed depiction, on at least one screen, of overlapping recordings of a region to be imaged which is recorded in at least two recording steps, wherein multiple markers are fixedly provided in the region to be imaged, such that at least two recordings can be spatially produced, offset with respect to the markers, using an x-ray apparatus, wherein the recordings are registered relative to the marker, and the image data of accordingly registered recordings is mutually oriented by means of a common imaging protocol and depicted on the at least one screen in a superimposed way. | 08-20-2009 |
20090238334 | PHASE-CONTRAST X-RAY IMAGING - A stereoscopic phase-contrast X-ray imaging system ( | 09-24-2009 |
20100034349 | METHOD FOR CLEANING AN EUV LITHOGRAPHY DEVICE, METHOD FOR MEASURING THE RESIDUAL GAS ATMOSPHERE AND THE CONTAMINATION AND EUV LITHOGRAPHY DEVICE - Components ( | 02-11-2010 |
20100091943 | Apparatus and method for image processing - An image processing apparatus and an image processing method. The image processing apparatus includes an image obtaining unit to obtain a plurality of X-ray images using a plurality of X-rays corresponding to each of a plurality of energy bands being different from each other, a first processing unit to generate a plurality of material images using the plurality of X-ray images, and a second processing unit to generate a high contrast X-ray image using at least one of the plurality of material images. | 04-15-2010 |
20100278301 | STEREOSCOPIC X-RAY SYSTEM AND METHOD - Disclosed are systems and methods for obtaining stereoscopic x-ray images. The method includes taking two digital x-ray views of the same object from differing positions. The included angle between the axes of the x-rays for each position generally coincides with that formed by a pair of eyes viewing the object, though larger angles can be used. The x-rays can be taken by two x-ray generators within a single housing or within separate but attached housings. The generators are spaced apart and aimed at the object to form the appropriate angle. Care is taken not to move the object. Preferably, the x-ray generators have dual collimators to take the views. In this case, the time between taking the two x-rays need only be as long as the image capture time of the sensor being used, which lessens the chance of the object moving. | 11-04-2010 |
20110075799 | Radiographic image capturing apparatus and radiographic image capturing method - In a radiographic image capturing apparatus, a biopsy region positional information calculator calculates a three-dimensional position of a biopsy region in an object to be examined based on two radiographic images which are acquired in a stereographic image capturing process, an irradiated field calculator calculates a new irradiated field covering the biopsy region based on the calculated three-dimensional position of the biopsy region and two angles at which a radiation source is disposed in the stereographic image capturing process, and a collimator controller controls a collimator to change the irradiated field of the radiation to the new irradiated field in a next stereographic image capturing process. | 03-31-2011 |
20120014506 | STEREO X-RAY INSPECTION APPARATUS AND METHOD FOR FORMING THREE-DIMENSIONAL IMAGE THROUGH VOLUME RECONSTRUCTION OF IMAGE ACQUIRED FROM THE SAME - A stereo x-ray inspection apparatus and a method for forming a three-dimensional image through volume reconstruction of an image acquired from the same are disclosed. The apparatus includes one x-ray generator and two detectors to acquire two images. The x-ray generator and detectors are arranged in the form of a right-angled triangle, to easily achieve mathematical development and analysis. One of the detectors, which does not just oppose the x-ray generator, is movable and rotatable, to acquire images under the condition that only one detector is moved in accordance with the size of an object, and thus to simplify control operation for the apparatus, so that a more accurate image from an object moving at high speed is acquired. | 01-19-2012 |
20120027169 | RADIOLOGICAL IMAGE RADIOGRAPHING AND DISPLAYING METHOD AND APPARATUS - A stereoscopic image radiographing apparatus performing both an equal-magnification radiographing operation and an enlarged radiographing operation displays a stereoscopic image with a magnitude of parallax suitable for both radiographing operations without changing two focal positions of radiation. Two radiological images are relatively moved and displayed in a parallax direction which is obtained by projecting an extending direction of a straight line connecting two focal positions onto the corresponding radiological image based on the angle formed by two radiographing directions of two radiological images constituting the stereoscopic image and the enlargement ratio thereof. | 02-02-2012 |
20120069960 | Portable radiation imaging system, portable radiation source holder used therein, and set of instruments for radiation imaging - In an X-ray imaging system, an X-ray source has a lightweight and small-sized X-ray tube. The X-ray tube is a fixed anode X-ray tube without having a target rotating mechanism. The X-ray tube uses a cold cathode electron source, which does not need a filament and a heater. An image acquisition control device moves the X-ray source to each of plural positions predetermined on a cross bar of a holder by control of a drive source of a shift mechanism. Whenever the X-ray source reaches each position, the X-ray source emits X-rays to an object, and a cassette detects the X-rays transmitted through the object to take an image. Based on data of taken plural images, tomographic image, which puts emphasis on a region of interest inside the object, is produced. | 03-22-2012 |
20120076260 | Image processing apparatus and method, computer executable program, and radiation imaging system - In three dimensional X-ray imaging, a user interface is for search support with plural images, which are obtained by imaging an object upon applying X-rays thereto from an X-ray source. There is a display region for selecting two parallax images of one image pair among the plural images. Right and left buttons are for determining a direction to shift a view center of an image pair by selection from first and second directions in which an irradiation angle changes. A moving area image and line segment are for setting a small search area limited within an initial search area by considering the determined first or second direction, a first image pair specified previously, and a current second image pair in multi-stage binary search. Two parallax images of a third image pair are acquired from the small search area, to raise efficiency in search from the initial search area. | 03-29-2012 |
20120076261 | RADIOLOGICAL IMAGE DISPLAYING APPARATUS AND METHOD - Provided is a technique of making auxiliary lines easy to view when displaying a stereoscopic image using radiological images. Auxiliary lines are added on two radiological images for displaying a stereoscopic image, respectively. The auxiliary lines are made up of a plurality of grids appearing to be arranged in the depth direction, and, on the auxiliary lines that constitute a grid on a rear side, intersections with the auxiliary lines that constitute a grid on a front side and the near portion of the intersections are removed. In this way, the intersections of the grids can be viewed easily. | 03-29-2012 |
20120076262 | RADIOLOGICAL IMAGE DISPLAYING DEVICE AND METHOD - The stereoscopic effect of auxiliary lines for making a stereoscopic effect easy to figure out is matched with the stereoscopic effect of a subject included in a stereoscopic image when displaying a stereoscopic image using a radiological image. Auxiliary lines are added to two radiological images for displaying a stereoscopic image. The auxiliary lines are formed by arraying a plurality of grids so as to be viewed in the depth direction. The auxiliary lines are generated according to the compression thickness when compressing the subject to radiograph the subject, the radiographing technique, and the compression pressure when compressing the subject to radiograph the subject. | 03-29-2012 |
20120082293 | RADIOGRAPHIC IMAGING DEVICE - There is provided a radiographic imaging device including: a radiation source that irradiates radiation and can move to a directly-facing position at which the radiation source directly faces the object of imaging in a directly-facing direction, a first diagonal incidence position that is at an angle to the directly-facing position, and a second diagonal incidence position that is at an angle at a side opposite the first diagonal incidence position to the directly-facing position; a radiation detector; and a control section that acquires radiologist information relating to an radiologist and, on the basis of the acquired radiologist information, selects one of the first diagonal incidence position and the second diagonal incidence position, wherein the radiographic imaging device captures radiographic images at the directly-facing position and at one of the first diagonal incidence position and the second diagonal incidence position selected by the control section. | 04-05-2012 |
20120183121 | METHOD OF RADIO-SYNTHETIC EXAMINATION OF SPECIMENS - The invention relates to a method of continuous non-destructive examination of specimens by so-called radio-synthesis, which can be integrated into the process for managing the life cycle of said specimens. This method operates by means of at least one X-ray source and of at least one digital sensor forming a pair with said source, source and sensor moving along opposite and homothetic trajectories inside a motion space, for each real-time generation of at least one cross section of each specimen. | 07-19-2012 |
20120224669 | ADAPTIVE SCANNING OF MATERIALS USING NUCLEAR RESONANCE FLUORESCENCE IMAGING - A method for detecting nuclear species in a sample by adaptive scanning using nuclear resonance fluorescence may comprise illuminating the target sample with photons from a source; detecting a signal in an energy channel; determining a scan evaluation parameter using the signal detected; determining whether the scan evaluation parameter meets a detection efficiency criterion; adjusting one or more system parameters such that the scan evaluation parameter meets the detection efficiency criterion; and comparing the signal in an energy channel to a predetermined species detection criterion to identify a species detection event. In another embodiment, detecting a signal in an energy channel may further comprise detecting photons scattered from the target sample. In another embodiment, detecting a signal in an energy channel may further comprise detecting photons transmitted through the target sample and scattered from at least one reference scatterer. | 09-06-2012 |
20120281808 | METHOD FOR GEOMETRICALLY CORRECT ASSOCIATION OF 3D IMAGE DATA OF A PATIENT - In a method for geometrically correct association of at least two 3D image data of a patient, a marker field that defines a reference and is dimensionally stable and can be imaged in an x-ray image, is fixed in a stationary position relative to the patient. An x-ray apparatus is brought into first and second 3D acquisition positions. In each of the 3D acquisition positions, the x-ray apparatus acquires first 2D x-ray images for the associated 3D image data in various positions. The first and second 3D acquisition positions are selected such that a second 2D x-ray image that includes an image of at least a portion of the marker field is acquired in at least one respective position. The respective attitudes of the 3D acquisition position and the 3D image data in the reference system are determined from the image of the marker field in the second 2D x-ray image. First and second image data are geometrically correctly associated with one another according to their respective attitude. | 11-08-2012 |
20130034203 | 2D/3D REGISTRATION OF A DIGITAL MOUSE ATLAS WITH X-RAY PROJECTION IMAGES AND OPTICAL CAMERA PHOTOS - A method for preparing an image simulating the anatomy of a small subject test animal, and an apparatus for producing said image and an anatomical atlas for co-registering therewith, comprising the generation of two or more non-tomographic images of the test animals is described. Examples of the non-tomographic imaging modalities and the images generated include, but are not limited to one or more x-ray sources and resultant of x-ray projections, photographic cameras and resulting digital or optical images and surface scanners and resultant surface scans. The subject animal is positioned at a focal point in a carrier in an imaging enclosure. A combination of one or more of the non-tomographic images taken from different angles within the enclosure are combined and through an iterative process co-registered with the previously generated digital atlas of the anatomy of the same or similar test animals. | 02-07-2013 |
20130108017 | METHOD AND APPARATUS FOR GENERATING A THREE-DIMENSIONAL MODEL OF A REGION OF INTEREST USING AN IMAGING SYSTEM | 05-02-2013 |
20130136229 | X-Ray Scanning System - This specification discloses methods and systems for generating a stereo image of an object that is positioned within an imaging volume. The object is positioned within the imaging volume. Two stationary X-ray source points are selected and activated. X-rays from both stationary X-ray source points are transmitted through the object being scanned and detected using detector elements positioned across the imaging volume and opposite the stationary X-ray source points. Image data sets from the X-rays detected by the detector elements are generated and then combined to produce the stereo image. | 05-30-2013 |
20130163719 | STEREO X-RAY IMAGING APPARATUS AND STEREO X-RAY IMAGING METHOD - Provided is a stereo imaging apparatus that generates X-rays from a plurality of different focal positions and that acquires a plurality of X-ray images from an X-ray detector, the stereo imaging apparatus including X-ray generation controlling means for controlling irradiated areas of X-rays so that an irradiated area in a detection area of the X-ray detector based on X-rays applied from a first focal position is included in an irradiated area in the detection area based on X-rays applied from a second focal position. | 06-27-2013 |
20130195241 | IMAGE RECONSTRUCTION SYSTEM, APPARATUS, AND METHOD EMPLOYING NON-SEQUENTIAL SCANNING SCHEME USING REAL-TIME FEEDBACK - An image reconstruction system, apparatus, and method employing a non-sequential scanning scheme using real-time feedback are provided. A projection information generating unit is configured to generate at least one piece of projection information by the X-ray irradiated to the object in the at least one viewpoint. A projection information comparing unit is configured to compare predicted intermediate projection information with measured intermediate projection information from the generated projection information. The predicted intermediate projection information is predicted from pieces of projection information generated from different viewpoints, and the measured intermediate projection information is measured in an intermediate viewpoint corresponding to the predicted intermediate projection information. A determining unit is configured to determine whether to irradiate the X-ray to the object in an additional viewpoint. An image reconstructing unit is configured to reconstruct the generated projection information, and to acquire an image representing the object. | 08-01-2013 |
20130230136 | MEDICAL IMAGE DISPLAY APPARATUS AND X-RAY DIAGNOSIS APPARATUS - A medical image display apparatus according to an embodiment includes a display unit, a generating unit, and a display controlling unit. The display unit three-dimensionally displays a group of disparity images generated from three-dimensional medical image data. The generating unit determines a display position of the group of disparity images to be three-dimensionally displayed on the display unit in terms of a depth direction with respect to a display surface of the display unit and generates the group of disparity images from the three-dimensional medical image data so as to realize the determined display position. The display controlling unit three-dimensionally displays the group of disparity images and two-dimensionally displays a medical image different from the group of disparity images, on the display unit. | 09-05-2013 |
20130230137 | X-RAY SYSTEM AND METHOD FOR GENERATING 3D IMAGE DATA - The present invention relates to an X-ray system and method for generating 3D image data. The X-ray system comprises a radiation detector, a movable X-ray tube assembly and a control unit, wherein in a working state of the system the radiation detector is detachably positioned in a spatially fixed manner and the X-ray tube assembly can be moved into relative positions relative to the radiation detector. Projection images recorded in the relative positions can be processed together with the coordinates of the relative positions using an iterative reconstruction technique or other image processing methods so as to obtain 3D X-ray images. The X-ray tube assembly is attached to a motor-driven movable stand arm and can be displaced using a control unit. The stand base of the movable stand can be positioned in a spatially fixed manner, so that it has a defined fixed position relative to the radiation detector. | 09-05-2013 |
20130243153 | Automatically Determining 3D Catheter Location and Orientation Using 2D Fluoroscopy Only - A method for automatically determining the 3D position and orientation of a radio-opaque medical object in a living body using single-plane fluoroscopy comprising capturing a stream of digitized 2D images from a single-plane fluoroscope ( | 09-19-2013 |
20130294574 | Methods and Systems for the Rapid Detection of Concealed Objects - This invention is directed towards finding, locating, and confirming threat items and substances. The inspection system is designed to detect objects that are made from, but not limited to, special nuclear materials (“SNM”) and/or high atomic number materials. The system employs advanced image processing techniques to analyze images of an object under inspection (“OUI”), which includes, but is not limited to baggage, parcels, vehicles and cargo, and fluorescence detection. | 11-07-2013 |
20130294575 | DYNAMIC BIPLANE ROENTGEN STEREOPHOTOGRAMMETRIC ANALYSIS - A medical imaging system includes a first x-ray image detector, a first x-ray generator, and a motorized turntable. The first x-ray image detector and the first x-ray generator are each mounted on a base and positioned opposite each other such that x-rays are projected from the first x-ray generator to the first x-ray image detector through a first imaging volume. The motorized turntable is positioned below the first imaging volume and between the first x-ray image detector and the first x-ray generator and is configured to rotate an imaging subject within the imaging volume. | 11-07-2013 |
20130315368 | Handheld X-Ray System for 3D Scatter Imaging - Handheld imaging systems and methods for using such systems to create a 3D image of a desired object using scattered radiation are described. The handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a fan beam or cone beam, and multiple detector elements for detecting backscattered radiation from the object, where each detector element has a different view of the object and collects an image of the object that is different than the other detector elements. Alternatively, the handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a pencil beam of radiation, and a detector configured to detect backscattered radiation from the object, wherein the detector and the radiation source are oriented off-axis relative to each other. The handheld imaging apparatus are used to irradiate a desired object to obtain multiple two dimensional images of the object and then creates a three dimensional image of the object using the multiple two dimensional images. Other embodiments are described. | 11-28-2013 |
20130315369 | Handheld X-Ray System for 3D Scatter Imaging - Handheld imaging systems and methods for using such systems to create a 3D image of a desired object using scattered radiation are described. The handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a fan beam or cone beam, and multiple detector elements for detecting backscattered radiation from the object, where each detector element has a different view of the object and collects an image of the object that is different than the other detector elements. Alternatively, the handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a pencil beam of radiation, and a detector configured to detect backscattered radiation from the object, wherein the detector and the radiation source are oriented off-axis relative to each other. The handheld imaging apparatus are used to irradiate a desired object to obtain multiple two dimensional images of the object and then creates a three dimensional image of the object using the multiple two dimensional images. Other embodiments are described. | 11-28-2013 |
20130322594 | STEREOSCOPIC X-RAY IMAGING APPARATUS - A stereoscopic X-ray imaging apparatus includes: right and left X-ray tubes; a diaphragm unit in which right and left openings are formed through which X-rays radiated by the right and left X-ray tubes pass, respectively; an X-ray sensor on which the X-ray radiated by each of the right and left X-ray tubes is projected; a controller configured to control positions and sizes of the right and left openings; and right and left visible light sources configured to radiate a visible light to the X-ray sensor in the same area as each of the right and left X-ray tubes through each of the right and left openings. Spectra of the visible light emitted by the right and left visible light sources are different from each other. | 12-05-2013 |
20140010345 | X-RAY DIAGNOSTIC APPARATUS - To provide an X-ray diagnostic apparatus capable of providing a stereoscopic perspective image in the form of a video image while reducing exposure dose. An X-ray diagnosis apparatus according to an embodiment includes: a main row X-ray source group including a plurality of X-ray sources; an X-ray detection section disposed opposite to the X-ray sources; a timing controller that controls a switching timing of the X-ray sources and an X-ray generation position; an image acquisition section that acquires output image data from the X-ray detection section in synchronization with the switching timing; and a stereoscopic image display section that displays the output image data as a plurality of images having different disparities. | 01-09-2014 |
20140016743 | METHOD FOR DETERMINING A DISTANCE BY X-RAY IMAGING, AND X-RAY DEVICE - A method for determining a distance between a first point and a second point on an object under examination inside the body of a person under examination by way of x-ray imaging by an x-ray device. The method includes the recording of x-ray images at different relative positionings of the x-ray device, which contain the first and the second point respectively. The relative positionings are substantially shifted in relation to one another in parallel to a central beam. Stereo reconstruction is carried out to define a 3D position of the first point and of the second point. The distance between the first point and the second point is determined from the 3D position of the first point and the 3D position of the second point. | 01-16-2014 |
20140079182 | PATIENT HEAD SUPPORT APPARATUS FOR IMAGING - A support apparatus for positioning a patient's head in an imaging apparatus. A main body has opposing first and second sides and supports first and second holding members for positioning against the patient's head. The first holding member has a first reference position along the first side of the main body and is coupled to a first transport apparatus that extends outward from the main body. The second holding member has a second reference position along the second side of the main body and is coupled to a second transport apparatus that extends outward from the main body. An extension locking mechanism within the main body locks the position of the second transport apparatus when the first holding member is moved from the first reference position and locks the position of the first transport apparatus when the second holding member is moved from the second reference position. | 03-20-2014 |
20140093036 | TOMOGRAPHIC IMAGE GENERATION DEVICE AND METHOD - Radiographic images for different imaging directions taken by applying radiation to a subject from the different imaging directions are obtained, and a plurality of tomographic images of the subject are generated based on the obtained plurality of radiographic images. Then, compression processing in the direction perpendicular to slice planes of the generated tomographic images is applied to the tomographic images to generate compressed tomographic images, wherein a range of the imaging directions is obtained, and a compression rate of the compression processing is set based on the obtained range of the imaging directions. | 04-03-2014 |
20140098936 | NONDESTRUCTIVE EXAMINATION OF STRUCTURES HAVING EMBEDDED PARTICLES - A system comprises a structure having particles embedded at a level within the structure, and X-ray imaging apparatus for capturing images of the particles at the level. | 04-10-2014 |
20140105355 | SYSTEMS, DEVICES, AND METHODS FOR QUALITY ASSURANCE OF RADIATION THERAPY - Systems, devices, and methods for quality assurance for verification of radiation dose delivery in arc-based radiation therapy devices using a 3D gamma evaluation method. | 04-17-2014 |
20140112435 | METHOD AND APPARATUS FOR PROVIDING THREE-DIMENSIONAL (3D) IMAGE - Provided is a method and apparatus for providing a three-dimensional (3D) image. A plurality of first projection images may be created by detecting X-rays which are emitted toward an object at different angles. A plurality of second projection images with respect to a partial volume of the object may be created by applying a forward projection and interpolation to at least one of the plurality of first projection images. A left image and a right image may be selected from among the plurality of second projection images, and the selected left image and right image may be displayed for a user as a 3D projection image. | 04-24-2014 |
20140177792 | 3D IMAGING WITH MULTIPLE IRRADIATION FREQUENCIES - Imaging methods, apparatus and systems are provided for using different irradiation frequencies to generate a composite three-dimensional image. One exemplary method for imaging a semiconductor device involves irradiating the semiconductor device with a first frequency of electromagnetic radiation, obtaining a first radiation response from the semiconductor device in response to the first frequency of electromagnetic radiation, irradiating the semiconductor device with a second frequency of electromagnetic radiation, obtaining a second radiation response from the semiconductor device in response to the second frequency of electromagnetic radiation, and generating a composite image of the semiconductor device based at least in part on the first radiation response and the second radiation response. | 06-26-2014 |
20140185748 | X-RAY IMAGING APPARATUS, X-RAY DETECTION DEVICE, AND X-RAY IMAGE GENERATION METHOD - An X-ray imaging apparatus includes an X-ray emitter that emits X-rays to an object at a plurality of positions; a detector that detects X-rays having passed through the object and converts the detected X-rays into electric signals; and an image processor that is configured to generate X-ray images at the plurality of positions by reading out the electric signals, acquire volume data of the object using the X-ray images, and reproject the acquired volume data by using different bands of energy spectrums to acquire reconstructed reprojection images of different energy bands. | 07-03-2014 |
20140185749 | X-RAY IMAGING APPARATUS, X-RAY IMAGE GENERATION METHOD, AND 3D IMAGING APPARATUS - The X-ray imaging apparatus includes an X-ray source that emits X-rays to an object at different original-view positions, an X-ray detector that acquires original-view images by detecting X-rays having passed through the object, and an image controller that reconstructs a 3D volume image representation of the object from the original-view images and generates close-view images by virtually emitting X-rays to the 3D volume image representation of the object at a shorter distance than a distance between the X-ray source and the object. | 07-03-2014 |
20140185750 | X-RAY IMAGING APPARATUS AND METHOD OF GENERATING STEREOSCOPIC IMAGE - Disclosed herein are an X-ray imaging apparatus and a method for generating a stereoscopic image by using the apparatus. The stereoscopic image generation method includes emitting first X-rays toward a target object at a first emission angle, detecting the first X-rays which have propagated through the target object in order to acquire a first X-ray image, emitting second X-rays toward the target object at a second emission angle which is different from the first emission angle, detecting the second X-rays which have propagated through the target object in order to acquire at least a second X-ray image, and generating a stereoscopic image based on the first X-ray image and the at least second X-ray image. | 07-03-2014 |
20140205061 | X-RAY IMAGING APPARATUS, MEDICAL IMAGE PROCESSING APPARATUS, X-RAY IMAGING METHOD AND MEDICAL IMAGE PROCESSING METHOD - According to one embodiment, an X-ray imaging apparatus includes an X-ray image acquisition unit, a control system and a display processing part. The X-ray image acquisition unit is configured to acquire X-ray image data of an object using at least one imaging system. The control system is configured to control the imaging system to acquire frames of X-ray image data corresponding to mutually different directions by moving the imaging system. At least one of the frames of the X-ray image data are acquired during a movement of the imaging system. The display processing part is configured to generate stereoscopically visible image data based on the frames of the X-ray image data. | 07-24-2014 |
20140241494 | System and Method for Reconstructing the Surface Topography of an Object Embedded Within a Scattering Medium - Methods of reconstructing the surface topography of an object embedded in a scattering medium are provided, with example methodologies including: imaging an object embedded in a signal scattering medium using a scattered signal detector; detecting changes in the magnitude of a plurality of scattered signals obtained from multiple fields of view within the medium; and constructing an image of the surface topography of the object based on said plurality of detected signal magnitude changes. A plurality of system, apparatus, control means, evaluation methods, and materials and components useful for practicing the methods are also disclosed. | 08-28-2014 |
20140321612 | C-ARM SYSTEM WITH EXTENDED FIELD OF VIEW - The present invention relates to a C-arm X-ray imaging system. In order to provide C-arm systems with an extended three-dimensional field of view, a C-arm X-ray imaging system ( | 10-30-2014 |
20140369464 | X-RAY IMAGING APPARATUS AND CONTROL METHOD THEREOF - Disclosed herein are an X-ray imaging apparatus and a control method thereof in which a clear 3D volume of an object may be acquired when the 3D volume of the object is reconstructed from X-ray images acquired by radiating X-rays to the object. The X-ray imaging apparatus includes an image processing unit configured to acquire a plurality of X-ray images of an object from converted electrical signals, group the plurality of X-ray images into groups of X-ray images acquired from the same cardiac phase, and perform image reconstruction of each of the groups acquired as a result of the grouping. | 12-18-2014 |
20150063537 | X-RAY IMAGING APPARATUS AND CONTROL METHOD THEREOF - Disclosed herein is an X-ray imaging apparatus including: an X-ray generator including a first X-ray source configured to irradiate a first X-ray onto an object, and at least one second X-ray source spaced apart from the first X-ray source and configured to irradiate at least one second X-ray onto the object; an X-ray detector configured to detect the first X-ray which has propagated through the object and the at least one second X-ray which has propagated through the object; and an image processor configured to produce a first X-ray image of the object based on the detected first X-ray, to produce at least one second X-ray image of the object based on the detected at least one second X-ray, and to produce a stereoscopic image of the object based on the first X-ray image and the at least one second X-ray image. | 03-05-2015 |
20150071404 | GRADUAL X-RAY FOCAL SPOT MOVEMENTS FOR A GRADUAL TRANSITION BETWEEN MONOSCOPIC AND STEREOSCOPIC VIEWING - The present invention relates to monoscopic and stereoscopic X-ray viewing. In order to provide an improved fluent work flow for X-ray viewing with an improved visual perception of depth information, it is provided to generate an electron beam from a cathode arrangement towards a target area of an anode; to deflect the electron beam such that the electron beam hits the anode at different target spots ( | 03-12-2015 |
20150071405 | DIRECT CONTROL OF X-RAY FOCAL SPOT MOVEMENT - The present invention relates to providing spatial information of a volume of interest of an object. In order to reduce complexity of a work flow in a hospital environment when X-ray imaging is used, an X-ray imaging system ( | 03-12-2015 |
20150085975 | X-RAY DIAGNOSTIC APPARATUS, MEDICAL IMAGE PROCESSING APPARATUS, AND IMAGE PROCESSING METHOD - An X-ray generation unit irradiates a subject with X rays. The X-ray detection unit detects the X rays. An image data generation/processing unit generates data of an original image based on output from the X-ray detection unit, and generates a first image data and a second image data based on the data of the original image. A display unit displays one of the first image and the second image as a right-eye image and the other as the left-eye image. One image of the first image and the second image has, when compared with the other image, a high resolution concerning at least one resolution of a plurality of resolutions of different kinds. | 03-26-2015 |
20150117601 | X-RAY SOURCE WITH MODULE AND DETECTOR FOR OPTICAL RADIATION - The present invention relates to an X-ray source for irradiating an object to be imaged with X-ray radiation, wherein the X-ray source is moveable into a plurality of defined recording positions relative to the object to be imaged. A module is arranged directly on the X-ray source, said module being designed to project a marking onto the object to be imaged and/or to check a position of the object to be imaged and/or of the marking, wherein the module for checking the position of the object to be imaged and/or of the marking comprises a detector for optical radiation. In addition, the present invention relates to an X-ray device comprising the X-ray source and a method for using the X-ray device. | 04-30-2015 |
20150117602 | STEREOSCOPIC IMAGING SYSTEMS AND METHODS - A stereoscopic imaging system and method is disclosed. In one aspect the system includes a ray source that emits a plurality of ray fanbeams. The system includes columns of detectors. Each column of detectors is arranged at a preset angle with respect to the ray source. The detectors detect a strength of a ray fanbeam penetrating an object under inspection. The detectors form a transmission images when the object intersects, or moves along a direction intersecting with, the ray fanbeams. The system includes a reconstruction apparatus that uses any two of the formed transmission images as a binocular image. The reconstruction apparatus calculates depth information of the object on the transmission images. The reconstruction apparatus superposes and fuses the calculated depth information to obtain 3D information. The reconstruction apparatus performs 3D reconstruction so that the detected object can be presented in a stereoscopic manner from different view angles. | 04-30-2015 |
20150342546 | X-RAY DIAGNOSTIC APPARATUS - An X-ray diagnostic apparatus according to one embodiment comprises: an X-ray tube, an X-ray detector, a supporting arm configured to support the X-ray tube and the X-ray detector in directions to face each other, a moving mechanism configured to move the supporting arm around a plurality of rotation axes and processing circuitry configured to set an imaging sequence concerning a plurality of left-eye imaging positions with respect to the object and a plurality of right-eye imaging positions respectively corresponding to the plurality of left-eye imaging positions and configured to control the moving mechanism to move the supporting arm in accordance with the set imaging sequence. The imaging sequence includes a sequence of continuously performing imaging at at least two of the plurality of left-eye imaging positions or a sequence of continuously performing imaging at at least two of the plurality of right-eye imaging positions. | 12-03-2015 |
20150342548 | X-RAY DIAGNOSTIC APPARATUS - According to one embodiment, an X-ray diagnostic apparatus includes an X-ray tube that generates X-rays, an X-ray detector that detects X-rays generated from the X-ray tube and transmitted through an object, a supporting mechanism supports the X-ray tube and the X-ray detector in directions to face each other, a display displays an X-ray image concerning the object based on an output from the X-ray detector, position specifying circuitry specifies a position of the face of a user who is visually recognizing the display, and moving circuitry moves the supporting mechanism to an imaging position corresponding to the specified position of the face of the user. | 12-03-2015 |
20150351713 | IMAGE REGION MAPPING DEVICE, 3D MODEL GENERATING APPARATUS, IMAGE REGION MAPPING METHOD, AND IMAGE REGION MAPPING PROGRAM - An X-ray image acquiring unit, by irradiating a blood vessel through which contrast medium is passing with X-rays of equal intensity at first and second photographing angles, acquires first and second X-ray images. An absorption property acquiring unit acquires, from brightness of the contrast medium, an X-ray absorption property in a first image region corresponding to a portion of the blood vessel in the first X-ray image. An absorption property acquiring unit acquires, from brightness of the contrast medium, an X-ray absorption property of each of plural second image regions corresponding to a portion of the blood vessel in the second X-ray image as candidate corresponding image regions of the first image region. A similarity degree calculator calculates a similarity degree between the acquired absorption properties. A corresponding region determiner determines the second image region having the maximum similarity degree as a corresponding region of the first image region. | 12-10-2015 |
20150366526 | MONOCHROMATIC X-RAY METHODS AND APPARATUS - According to some aspects, an x-ray apparatus for imaging and/or radiation therapy is provided, the x-ray apparatus comprises an electron source capable of generating electrons, at least one first target arranged to receive electrons from the electron source, the at least one first target comprising material that, in response to being irradiated by the electrons, emits broad spectrum x-ray radiation, at least one second target arranged to receive at least some of the broad spectrum x-ray radiation, the at least one second target comprising material that, in response to irradiation by broad spectrum x-ray radiation from the first target, emits monochromatic x-ray radiation, and at least one detector positioned to detect at least some of the monochromatic x-ray radiation emitted from the at least one second target. According to some aspects, a relatively low cost, relatively small footprint x-ray apparatus for generating monochromatic x-ray radiation suitable for medical/clinical purposes and appropriate for use in existing medical facilities such as hospitals and/or small clinical settings is provided. | 12-24-2015 |
20150377803 | Handheld X-Ray System for 3D Scatter Imaging - Handheld imaging systems and methods for using such systems to create a 3D image of a desired object using scattered radiation are described. The handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a fan beam or cone beam, and multiple detector elements for detecting backscattered radiation from the object, where each detector element has a different view of the object and collects an image of the object that is different than the other detector elements. Alternatively, the handheld imaging apparatus can contain a housing, a radiation source for irradiating an object with a pencil beam of radiation, and a detector configured to detect backscattered radiation from the object, wherein the detector and the radiation source are oriented off-axis relative to each other. The handheld imaging apparatus are used to irradiate a desired object to obtain multiple two dimensional images of the object and then creates a three dimensional image of the object using the multiple two dimensional images. Other embodiments are described. | 12-31-2015 |
20160181053 | X-RAY IMAGING SYSTEMS AND DEVICES | 06-23-2016 |