Class / Patent application number | Description | Number of patent applications / Date published |
378011000 | Source or detector translation within plane | 66 |
20080205584 | CT EXTREMITY SCANNER - A CT scanner according to the present invention is particularly adapted for scanning the extremities of a patient. The CT scanner includes an x-ray source and x-ray detector mounted for rotation and translation along an axis parallel to a table for supporting the patient's extremity. The source and detector are mounted opposite one another on an inner circumference of an inner ring. The inner ring is rotatable about the axis within an outer ring mounted on at least one carriage. The carriage is movable parallel to the axis. During scanning, the inner ring rotates within the outer ring while the rings and carriage move along the axis, thereby producing a helical scan of the extremity. | 08-28-2008 |
20080267345 | METHOD FOR INSPECTING PIPES, AND RADIOGRAPHIC NON-DESTRUCTIVE INSPECTION APPARATUS - The pipe inspection method and apparatus can be used to implement rapid, tomographic inspection of a pipe set up at a narrow location. The pipe inspection method of the present invention includes: a first step for scanning the pipe by translating a radiation source and radiation detector arranged opposedly to the pipe; a second step for the radiation detector to detect radiation that the radiation source has emitted, at given scanning distance intervals; a third step for creating a transmission image of the pipe, based on a radiation dose that the radiation detector has detected; and a fourth step for constructing a tomogram or stereoscopic image of the pipe, based on the transmission image. According to this invention, it is possible to provide the pipe inspection method and apparatus that can be used to implement rapid, tomographic inspection of the pipe set up at a narrow location. | 10-30-2008 |
20080285707 | System and Method for Medical Navigation - The invention relates to a system and a method for medical navigation. In order to reduce the time required for medical navigation for transcutaneous interventions, the invention proposes that the position of a medical instrument ( | 11-20-2008 |
20080298538 | System and Method for Laminography Inspection - A laminography inspection system comprises an irradiation source, a plurality of linear image detectors defining an image plane, a fixed table for placement of a test object in a stationary position between the irradiation source and the image detectors, and a computing device for processing a plurality of images of the test object acquired from the image detectors. The irradiation source and the image detectors perform a plurality of parallel linear scanning passes across the area of the test object to acquire images of the test object under different viewing angles. Based on the acquired image data, the computing device determines a warp compensation and generates a cross-sectional image of a selected section within the test object. | 12-04-2008 |
20090074130 | Method for creating, displaying, and analyzing X-ray images and apparatus implementing the method - A method for creating, displaying, and analyzing X-ray images of a plurality of objects is disclosed. The method comprising, for each of the objects recording three-dimensional X-ray image data of the object in a single measurement; creating a three-dimensional X-ray image of the object from the three-dimensional X-ray image data; creating one or two two-dimensional X-ray images of the object from the three-dimensional X-ray image data; displaying the one or two two-dimensional X-ray images of the object; and analyzing the one or two two-dimensional X-ray images of the object. For a subset of the plurality of objects the three-dimensional X-ray image of the object is displayed, wherein the subset of the plurality of objects is determined based on the step of, for each of the objects, analyzing the one or two two-dimensional X-ray images of the object. | 03-19-2009 |
20090080598 | BI-PLANE X-RAY IMAGING SYSTEM - A high-speed biplane radiography system for in-vivo assessment of joint function is provided. The system can acquire stereo-pair radiographic images at rates from 30-4000 frames per second of nearly any motion or joint. The radiographic equipment can be mounted in a gantry system that provides sufficient positioning flexibility for imaging different joints of a subject's body, along with an imaging area large enough for a variety of dynamic activities (e.g., walking, running, jumping, throwing, etc.). Three-dimensional (3D) bone positions can be determined using software for matching the bones in each X-ray image with 3D models developed from subject-specific CT (computed tomography) scans. This system can provide accurate (e.g., ±0.1 mm) assessment and direct 3D visualization of dynamic joint function, and can overcome limitations of conventional gate or motion analysis. | 03-26-2009 |
20090086886 | RADIATION IMAGE CAPTURING APPARATUS - A radiation image capturing apparatus includes an image capturing device having a tomosynthesis control mechanism for moving a radiation source and a radiation conversion panel, which are disposed on the respective opposite sides of a subject, respectively in opposite directions in synchronism with each other, a longitudinal direction moving mechanism for moving an image capturing range of the image capturing device in a longitudinal direction of the subject, an image reconstructing unit for generating a single three-dimensional image from a plurality of radiation images captured in a single image capturing range, an image joining unit for joining a plurality of three-dimensional images generated by the image reconstructing unit with respect to a plurality of image capturing ranges, in the longitudinal direction of the subject, and a projection image generating unit for generating a two-dimensional projection image on an arbitrary image plane based on a joined three-dimensional image. | 04-02-2009 |
20090185655 | COMPUTED TOMOGRAPHY METHOD - A computed tomography method and apparatus are provided wherein a radiation source moves circularly relative to an examination zone about an axis of rotation ( | 07-23-2009 |
20090185656 | CONE-BEAM CT HALF-CYCLE CLOSED HELICAL TRAJECTORY - A tomographic apparatus ( | 07-23-2009 |
20090238327 | FLY-BY SCANNING - A computed tomography system ( | 09-24-2009 |
20090252286 | X-RAY CT APPARATUS AND CONTROL METHOD OF X-RAY CT APPARATUS - An X-ray CT apparatus has an irradiate unit, a determination unit, and a displaying unit. The irradiate unit irradiates an X-ray. The determination unit determinates a tube current value modulation to extend to a body axis direction in a predetermined rotation angle of the irradiate unit based on an index value to show a dispersion of CT values in required area in a reconstructed image, and a scan condition. The displaying unit aligns and displays an image of the index value and an image of the tube current value modulation on an image used for positioning. | 10-08-2009 |
20090262885 | CONE BEAM COMPUTED TOMOGRAPHY WITH MULTIPLE PARTIAL SCANNING TRAJECTORIES - A computer tomography apparatus ( | 10-22-2009 |
20090304143 | Non-invasive method and apparatus to locate incision site for spinal surgery - A non-invasive means and method locates a target spinal segment on a patient prior to surgery. An apparatus comprises a frame; a plurality of laser diodes projecting planar beams and mounted on the perimeter of the frame; a radio-opaque cable attached to the frame at the location of a laser diode; optionally, a weight is attached to the cable; optionally a rod extends from the frame perimeter; and optionally a bombsight is included within the frame marked with crosshairs. The method comprises the steps of marking a patient's skin; placing the frame on the patient; turning on the laser diodes; rotating the frame until the until a line of visible light is perpendicular to the patient's spine; aligning the cable with the planar laser beam; providing an X-ray source; aligning the X-ray source with the planar laser beam and obtaining an X-ray. | 12-10-2009 |
20100040194 | SWEPT ANNODE CT SCANNER - A computed tomography method includes rotating an electron beam along an anode ( | 02-18-2010 |
20100067648 | RADIATION IMAGING APPARATUS AND METHOD FOR BREAST - A radiation imaging apparatus in which early recognition of breast cancer can be made possible by acquiring both a radiation tomographic image that accurately displays a tumor mass and a radiation planar image that accurately displays calcification. The apparatus includes an image processing unit for generating a tomographic image signal in a first imaging mode and generating a planar image signal in a second imaging mode, a computing unit for computing an imaging direction for obtaining a radiation planar image based on a location designated in a radiation tomographic image, and a control unit for controlling a rotational driving device and a radiation generating unit to obtain the radiation tomographic image in the first imaging mode, and controlling the rotational driving device according to the computed imaging direction and controlling the radiation generating unit to obtain the radiation planar image in the second imaging mode. | 03-18-2010 |
20100172465 | Tomographic image capturing apparatus and tomographic image capturing method - A tomographic image capturing apparatus includes a radiation source for applying radiation to a subject at a plurality of different angles with respect to the subject, a radiation detector for detecting the radiation which has passed through the subject at each of the different angles and converting the detected radiation into image data, a tomographic image reconstructing unit for processing the image data into a reconstructed tomographic image, and an image capturing sequence setting section for establishing an image capturing sequence of a tomosynthesis image capturing process and a simple image capturing process based on ordering information which represents the tomosynthesis image capturing process for acquiring the reconstructed tomographic image and the simple image capturing process for acquiring a simple captured image. | 07-08-2010 |
20100195789 | Radiographic image capturing system and radiographic image capturing method - Tomographic image data acquired by a tomosynthesis image capturing assembly are output from an image output unit to an image processor, and are processed for generating a reconstructed tomographic image. In this case, a part of data is selectively and step by step output from the image output unit to the image processor for reconstruction. Before generating a complete tomographic image, the interim result of the tomographic image is displayed on a display unit. | 08-05-2010 |
20100246755 | X-ray CT IMAGING APPARATUS - In an X-ray CT imaging, an X-ray generator ( | 09-30-2010 |
20110051887 | Method for Recording an Examination Object - A method is provided for recording an examination object using an x-ray recording system having an x-ray source and an x-ray detector rotatable about a common axis of rotation. X-ray detector is displaced in a first direction enclosing a first angle k between a perpendicular bisector from x-ray source to x-ray detector and a plane running through x-ray source and containing the axis, k≠0. First x-ray images are recorded in angular positions of x-ray source and x-ray detector displaced in the first direction in a first rotation. X-ray detector is displaced in a second direction enclosing a second angle m between the bisector and the plane, m≠0 and is on an opposite side from k. Starting points of the rotations are differed by an angle of displacement | 03-03-2011 |
20110058644 | SOURCE AND/OR DETECTOR POSITIONING SYSTEM - A medical imaging system includes a generally stationary gantry ( | 03-10-2011 |
20110075795 | Radiography apparatus - A radiation source and a detection means are moved relative to each other, thereby moving the radiation source to a plurality of positions. A subject is irradiated with radiation from the plurality of positions to obtain a plurality of radiographic images of the subject. A slice image of the subject is reconstructed from the plurality of radiographic images. At this time, a first mode for moving only the radiation source or a second mode for moving both of the radiation source and the detection means is selected based on the condition of radiography, and the plurality of radiographic images are obtained in the selected mode. | 03-31-2011 |
20110135053 | CALIBRATION METHOD FOR RING ARTIFACT CORRECTION IN NON-IDEAL ISOCENTRIC 3D ROTATIONAL X-RAY SCANNER SYSTEMS USING A CALIBRATION PHANTOM BASED ROTATION CENTER FINDING ALGORITHM - The present invention refers to 3D rotational X-ray imaging systems for use in computed tomography (CT) and, more particularly, to a fast, accurate and mathematically robust calibration method for determining the effective center of rotation (I) in not perfectly isocentric 3D rotational C-arm systems and eliminating substantially circular ring artifacts (RA) which arise when using such a CT scanner system for acquiring a set of 2D projection images of an object of interest to be three-dimensionally reconstructed. For this purpose, a C-arm based rotational CT scanner comprising at least one radiation detector (D) having an X-radiation sensitive surface exposed to an X-ray beam emitted by at least one X-ray tube (S), each rotating along a non-ideal circular trajectory (TF, T | 06-09-2011 |
20110235774 | METHOD OF AND APPARATUS FOR CONTINUOUS WAVE TOMOSYNTHESIS USING PHOTON COUNTING - Tomosynthesis data may be acquired from a radiation source that substantially continuously emits radiation while its position is varied relative to a photon counting x-ray detector. The detector detects photons comprised within the radiation and photon data indicative of the detected photons is generated. The photon data may comprise data related to a detected photon's detection time, detection location on the detector, energy level, and/or trajectory from the radiation source, for example. The photon data of various photons may be compiled into a plurality of bins and, through reconstruction and tomosynthesis techniques, produce synthesized images of various tomography planes of an object under examination. In this way, the tomosynthesis techniques rely on counting photons rather than measuring their energy to create synthesized images. | 09-29-2011 |
20110255657 | SEMICIRCULAR INVERSED OFFSET SCANNING FOR ENLARGED FIELD OF VIEW 3D - A computed tomography acquisition method, an imaging system, a computer readable medium provides laterally displacing a radiation detector ( | 10-20-2011 |
20120039434 | CARDIAC COMPUTED TOMOGRAPHY METHODS AND SYSTEMS USING FAST EXACT/QUASI-EXACT FILTERED BACK PROJECTION ALGORITHMS - The present invention provides systems, methods, and devices for improved computed tomography (CT). More specifically, the present invention includes methods for improved cone-beam computed tomography (CBCT) resolution using improved filtered back projection (FBP) algorithms, which can be used for cardiac tomography and across othertomographic modalities. Embodiments provide methods, systems, and devices for reconstructing an image from projection data provided by a computed tomography scanner using the algorithms disclosed herein to generate an image with improved temporal resolution. | 02-16-2012 |
20120039435 | X-ray imaging apparatus - In an X-ray imaging apparatus that performs X-ray CT imaging, an X-ray generator ( | 02-16-2012 |
20120039436 | COMBINED PANORAMIC AND COMPUTED TOMOGRAPHY APPARATUS - A combined imaging apparatus for x-ray imaging of a subject in multiple modes has a supporting structure having an extended rotary arm, wherein the rotary arm has a computed tomography detector and a panoramic imaging detector, both mounted adjacently against a movable platen. A detector positioning apparatus is actuable to translate the position of the movable platen to either of at least first and second positions with respect to an x-ray source. The first position disposes the computed tomography detector in the direct path of an x-ray source and the second position disposes the panoramic imaging detector in the direct path of the x-ray source. | 02-16-2012 |
20120140874 | Computer Tomography Imaging Device and Method - The present invention discloses a method for performing CT imaging on a region of interest of an object under examination, comprising: acquiring the CT projection data of the region of interest; acquiring the CT projection data of region B; selecting a group of PI line segments covering the region of interest, and calculating the reconstruction image value for each PI line segment in the group; and combining the reconstruction image values in all the PI line segments to obtain the image of the region of interest. The present invention further discloses a CT imaging device using this method and a data processor therein. Since the 2D/3D slice image of the region of interest can be exactly reconstructed and obtained as long as the X-ray beam covers the region of interest and the region B, it is possible to use a small-sized detector to perform CT imaging on the region of interest at any position of a large-sized object, which reduces to a great extent the radiation dose of the X-ray during the CT scanning. | 06-07-2012 |
20130077739 | Portable 3-Dimensional X-Ray Imaging System - An x-ray imaging system and method for providing three-dimensional data representing the contents of an object. An x-ray source and x-ray screen are used to acquire multiple x-ray images of the object from different perspectives. The different perspectives are obtained by placing the x-ray source at one end of a moveable arm. These images are processed by back-projecting each perspective image at known distances between the object and the x-ray source, and superimposing the back-projected images at each distance, thereby providing a set of image slices of the object along the z-axis. | 03-28-2013 |
20130294573 | METHOD OF AND APPARATUS FOR CONTINUOUS WAVE TOMOSYNTHESIS USING PHOTON COUNTING - Tomosynthesis data may be acquired from an ionizing radiation source that substantially continuously emits radiation while its position is varied relative to a photon counting detector. The detector detects photons comprised within the radiation and photon data indicative of the detected photons is generated. The photon data may comprise data related to a detected photon's detection time, detection location on the detector, energy level, and/or trajectory from the radiation source, for example. The photon data of various photons may be compiled into a plurality of bins and, through reconstruction and tomosynthesis techniques, produce synthesized images of various tomography planes of an object under examination. In this way, the tomosynthesis techniques rely on counting photons rather than measuring their energy to create synthesized images. | 11-07-2013 |
20140177787 | Digital Radiographic Device Having a Linear Scanner - An x-ray imaging apparatus comprises a platform connected to a frame, a sliding bar, a detector mounted on the sliding bar, an x-ray source, and a control system. The x-ray source includes a collimator to generate an x-ray exposure window. The control system is configured to slide the detector along the sliding bar and synchronously move the collimator to direct the x-ray exposure window to the first detector. The x-ray exposure window movements are registered to the detector movements. The detector interfaces with a processor that processes x-ray image data received from the detector, and generates at least one x-ray image from the x-ray image data. | 06-26-2014 |
20140205058 | RADIOGRAPHIC APPARATUS AND AN IMAGE PROCESSING METHOD THEREFORE - Initial values A | 07-24-2014 |
20150085973 | COMPUTED TOMOGRAPHY DEVICE BASED ON STRAIGHT TRAJECTORY AND X-RAY IMAGING DEVICE - A straight trajectory CT device can be used in radiation imaging. The device includes: a ray-generating unit that generates a ray within a specific range of field angle; a channel for an object to be inspected though which the object to be inspected passes; a first collimator; and a ray receiving unit provided on both sides of the channel for the object to be inspected. The ray beam is received by the ray receiving unit after penetrating the first collimator and the object to be inspected in order. The ray generating unit is static and the first collimator moves in the same direction as the ray receiving unit. This direction is parallel to the channel for the object to be inspected. The device can complete computed tomography with a minimum of one ray receiving unit, thereby simplifying the structure of the device and reducing its cost. | 03-26-2015 |
20150374321 | Digital Radiographic Device Having a Linear Scanner - An x-ray imaging apparatus comprises a platform connected to a frame, a sliding bar, a detector mounted on the sliding bar, an x-ray source, and a control system. The x-ray source includes a collimator to generate an x-ray exposure window. The control system is configured to slide the detector along the sliding bar and synchronously move the collimator to direct the x-ray exposure window to the first detector. The x-ray exposure window movements are registered to the detector movements. The detector interfaces with a processor that processes x-ray image data received from the detector, and generates at least one x-ray image from the x-ray image data. | 12-31-2015 |
20160047759 | HIGH-RESOLUTION COMPUTED TOMOGRAPHY - An x-ray imaging system ( | 02-18-2016 |
20160054239 | HELICAL COMPUTED TOMOGRAPHY - An x-ray imaging system may include an x-ray generator, one or more radiation detectors, a rotary stage, a linear translation stage, a motion control system, and a data acquisition system. The rotary stage has an axis of rotation arranged perpendicular to an axis of an x-ray beam emitted by the x-ray generator. The linear translation stage may be configured to move the rotary stage linearly along an axis aligned with the axis of rotation of the rotary stage. The motion control system may synchronize rotational motion of the rotary stage and linear motion of the linear translation stage. The data acquisition system may comprise processors configured to receive user input parameters. The processors may configure, based at least in part on the user input parameters, the x-ray imaging system to acquire radiographs. The processors may generate a three-dimensional image from the radiographs. | 02-25-2016 |
20160113607 | APPARATUS AND METHOD FOR TOMOSYNTHESIS IMAGE ACQUISITION - A method for image acquisition includes selectively concealing and exposing an x-ray source to a target object while the x-ray source travels along a first path and moving an x-ray detector along a second path in a first direction while the x-ray source is exposed to the target object. The method further includes moving the x-ray detector along the second path in a second direction generally opposite the first direction while the x-ray source is concealed from the target object. | 04-28-2016 |
378012000 | With electronic scanning | 6 |
20110026667 | FAST TOMOSYNTHESIS SCANNER APPARATUS AND CT-BASED METHOD BASED ON ROTATIONAL STEP-AND-SHOOT IMAGE ACQUISTION WITHOUT FOCAL SPOT MOTION DURING CONTINUOUS TUBE MOVEMENT FOR USE IN CONE-BEAM VOLUME CT MAMMOGRAPHY IMAGING - The present invention generally refers to computed tomography (CT) based imaging systems and, more particularly, to a fast 3D tomosynthesis scanner apparatus and CT-based method without focal spot motion during continuous tube movement around an object of interest (O) or tissue region (M) to be examined (herein also referred to as “object”), which may advantageously be used in cone-beam volume CT mammography imaging so as to avoid motion artifacts and blurring effects. According to the present invention, said 3D tomosynthesis scanner apparatus is adapted to perform a rotational step-and-shoot image acquisition procedure for acquiring a set of 2D projection images during a continuous rotational movement of an X-ray tube ( | 02-03-2011 |
20110110488 | COMBINED MULTI-DETECTOR CT ANGIOGRAPHY AND CT MYOCARDIAL PERFUSION IMAGING FOR THE DIAGNOSIS OF CORONARY ARTERY DISEASE - A computed tomography system has a support stage constructed and arranged to support a subject while under observation, an x-ray illumination system arranged proximate the support stage to illuminate the subject with x-rays, an x-ray detection system arranged proximate the support stage to detect x-rays after they pass through the subject and to provide signals based on the detected x-rays, and a data processing system in communication with the x-ray detection system to receive the signals from the x-ray detection system. The computed tomography system has a dynamic mode of operation and a scanning mode of operation. The data processing system extracts information concerning a dynamic process of the subject based on signals from both the dynamic mode and the scanning mode of operation. | 05-12-2011 |
20130028372 | X-Ray Scanners - The present application discloses an X-ray scanner having an X-ray source arranged to emit X-rays from source points through an imaging volume. The scanner may further include an array of X-ray detectors which may be arranged around the imaging volume and may be arranged to output detector signals in response to the detection of X-rays. The scanner may further include a conveyor arranged to convey an object through the imaging volume in a scan direction, and may also include at least one processor arranged to process the detector signals to produce an image data set defining an image of the object. The image may have a resolution in the scan direction that is at least | 01-31-2013 |
20130279645 | METHODS AND SYSTEMS FOR VOLUMETRIC RECONSTRUCTION USING RADIOGRAPHY - Methods and systems for use in generating a volumetric reconstruction of an object using scattered X-ray radiography. An X-ray beam is directed towards a point within a target object. Scattered X-rays are measured by detectors and measurement data is stored. The X-ray beam is directed towards different points. Measurement data associated with each point is analyzed using a ray tracing methodology to assign contrast values to each point. A volumetric image is generated therefrom. | 10-24-2013 |
20150043707 | 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. | 02-12-2015 |
20160128653 | RADIOLOGICAL IMAGING DEVICE WITH IMPROVED FUNCTIONALITY - A radiological imaging device including a gantry defining an analysis zone in which at least a part of the patient is placed, a source suitable to emit radiation, and a detector arranged to receive the radiation and to generate data signals based on the radiation received. The device also includes a horizontal gantry rotation apparatus having a ring to which the source and the detector are mounted and a rotational bearing member configured to rotate the ring. Also included is a control unit adapted to acquire an image from data signals received from the detector while the horizontal gantry rotation apparatus rotates the ring to scan the patient. The radiological imaging device can include at least one of a vertical gantry rotation apparatus, a lifter system, a roller support system, a cooling system, a source tilting device, and a translational apparatus configured to translation a position of the detector. | 05-12-2016 |
378013000 | Radial | 6 |
20080273653 | Method of constructing multi-tomographic image and digital 3 D X-ray photographing apparatus - Tomographic images in a plurality of radius places are obtained in one-time X-ray photographing, and a lot of information on the diagnose can be provided by forming a stereoscopic image with these obtained tomographic images, and thickness of radial and fineness of angular direction of tomographic image that can be obtained herein compared with prior art can be set arbitrary and can be adjusted thereby obtaining further imperceptible stereoscopic image. To this end, whole photographed images at respective divided unit angles that can be obtained in the digital dental panoramic radiography apparatus at the tomography in the circular orbit, are stored, after X-ray photographed, these photographed images are arranged substantially on the circular arc at the radius place of the tomographic image of the desired extracting part, tomographic images in radius location can be constructed by adding while shifting every photograph unit angle. | 11-06-2008 |
20090092224 | X-RAY CT APPARATUS - An X-ray CT apparatus enables decreasing the degradation of image quality and reducing futile exposure to X-ray in a helical shuttle scan. The X-ray CT apparatus comprises: a gantry rotating device having an X-ray generator for generating the X-ray and an X-ray detector for detecting the generated X-ray and transmitted through a subject; a gantry controller for performing the helical shuttle scan by reciprocally moving the gantry rotating device and the cradle; a scan condition setting device for setting the scan condition of the helical shuttle scan in a predetermined range in the direction of body axis of the subject; an X-ray projection data acquisition device for acquiring the X-ray projection data; a scan controller for controlling the scan as specified in the scan condition; and a image reconstruction device for performing the image reconstruction processing based on the X-ray projection data. | 04-09-2009 |
20100278299 | DENTAL X-RAY APPARATUS AND ASSOCIATED METHOD - A dental X-ray apparatus of the conical-beam digitized-tomography type includes: an X-ray generator emitting an X-ray beam towards an object and provided with a collimation element for collimating the emitted beam; an X-ray sensor having an active surface arranged opposite the generator; wherein the generator and the sensor can rotate simultaneously about a rotation axis, the sensor being oriented so that a longitudinal axis extending from the generator to the sensor through the rotation axis is perpendicular to the active surface of the sensor, the center of the sensor being transversally offset relative to the projection of the axis on the sensor's active surface, the arrangement of the collimation element and the sensor thus offset defining that the collimated beam illuminates the sensor's active surface while leaving a peripheral area of the surface that is faintly illuminated by the collimated beam relative to the rest of the active surface. | 11-04-2010 |
20120230465 | X-RAY CT DEVICE - According to one embodiment of the present invention, an X-ray CT device includes: a front dome cover and rear dome cover that include a fixed cover and a plurality of segmented movable covers; a slide mechanism that enables the movable covers to slide relative to the fixed cover; and a dome-diameter driving unit that controls the slide mechanism to change a dome diameter of a gantry dome. | 09-13-2012 |
20140126686 | X-ray Photography Apparatus - An X-ray photography apparatus including: a turning arm that supports an X-ray generator and an X-ray detector while the X-ray generator and the X-ray detector are opposed to each other so that a head of a patient can be interposed therebetween; and a moving mechanism that turns the turning arm about a turning axis with respect to the head and moves the turning arm in a direction perpendicular to the turning axis with respect to the head. The X-ray photography apparatus further includes: an image processor that generates an X-ray image based on an electric signal output from the X-ray detector; and a photographic region designation receiving part that designates part of a row of teeth along a dental arch as a pseudo intraoral radiography region. The image processor generates plural tomographic images by applying convolution and filtered back projection to X-ray image data obtained by pseudo intraoral radiography. | 05-08-2014 |
20160199010 | METHOD FOR RECORDING A TOMOSYNTHESIS DATA SET WITH AN X-RAY DEVICE, AND X-RAY DEVICE | 07-14-2016 |
378014000 | Fan beam translation | 17 |
20080226021 | Method and Apparatus to Facilitate Reconstructing an Image Using Fan-Beam Data - One provides ( | 09-18-2008 |
20090003515 | METHOD OF AND SYSTEM FOR VARIABLE PITCH COMPUTED TOMOGRAPHY SCANNING FOR BAGGAGE SCREENING - A method of and a system for variable pitch CT scanning for baggage screening and variable pitch image reconstruction are disclosed. The method comprises decelerating conveyor belt speed when additional time is needed to render a decision on a complex bag; accelerating conveyor belt speed to its normal speed when decisions are reached on undecided bags; generating cone-beam projection data at variable scanning pitch corresponding to variable conveyor belt speed; computing a tilt angle and a distance offset for each tilted slice using the pitch values at which the cone-beam projection data is acquired for that tilted slice; generating fan-beam projection data for each tilted slice using the tilted angle and the distance offset; generating correction projection data to compensate for the error between the source trajectory and the tilted reconstruction plane; generating the corrected fan-beam projection data by adding the correction projection data to the fan-beam projection data; reconstructing tilted slices using the corrected fan-beam projection data; and interpolating the reconstructed tilted slices into axial slices. | 01-01-2009 |
20090074131 | X-RAY CT EXAMINATION INSTALLATION AND CT METHOD OF EXAMINING OBJECTS - An X-ray CT examination installation, having an X-ray tube including a focus, that creates a fan beam or a conical beam which X-rays the whole of a detector at a fixed distance from the focus, and an examination carriage, for supporting an object to be examined, the carriage having an axis of rotation perpendicular to the fan beam, wherein the examination carriage can be fixed inside the fan beam close to an edge axis which meets the detector at the edge, and can be moved on a measuring line that centrally runs at an angle to a central axis which meets the detector. | 03-19-2009 |
20090122954 | Method for the extrapolation of truncated, incomplete projections for computed tomography - At least one embodiment of the present invention relates to a method for extrapolation of truncated, incomplete projections for computed tomography. At least one embodiment of the method is based on the use of CT units having multi-row detectors and scanning in spiral scan operation and includes at least the following. Firstly, scanning of an examination object with the aid of a beam. Secondly, detection of complete and incomplete projection data during a scan. Thirdly, the carrying out of a parallel rebinning for the detected projection data. Fourthly, determining incomplete, truncated projections based on analysis of the 3D signal path in the 3D sinogram belonging to each voxel in the object region. Fifthly, extrapolating the incomplete, truncated projections by continuing the terminated or discontinuous 3D signal paths according to | 05-14-2009 |
20090122955 | Method for the extrapolation of truncated, incomplete projections for computed tomography - A method is disclosed for extrapolation of truncated, incomplete projections for computed tomography. In at least one embodiment, the method includes the following method steps. Firstly, scanning of an examination object with the aid of a beam. Secondly, detection of complete and incomplete projection data during a scan. Thirdly, the carrying out of a parallel rebinning for the detected projection data by resorting and conversion of the projection data P(α, β, q) present in fan geometry into projection data P(θ, t, q) present in parallel geometry. Fourthly, for the complete parallel projections, projectionwise determination of mth moments, at least for m=0 and m=1, the following holding for the mth moment of a parallel projection P | 05-14-2009 |
20090154639 | SYSTEM AND METHOD FOR IMAGE RECONSTRUCTION FOR HELICAL CONE BEAM COMPUTED TOMOGRAPHY WITH FACTORIZED REDUNDANCY WEIGHTING - A method and system for computed tomography were weighted data is used to reconstruct an image. The apparatus includes an x-ray source producing a cone-beam of x-rays, an x-ray detector disposed to receive x-rays from the x-ray source, a data collection unit, and a processing unit for processing the data using a weighting function using contributions from fan-beam and cone-beam weighting functions. The apparatus can produce images with reduced artifacts. | 06-18-2009 |
20090161817 | FAN-BEAM COHERENT-SCATTER COMPUTER TOMOGRAPH - However, this requires additional collimating means and this reduces the photon flux applied to the detectors. Due to this, longer measuring times may be required. Furthermore, the geometry is incompatible to known cone-beam CT-scanners. According to an exemplary embodiment of the present invention, a cone-beam CSCT scanner is provided using energy resolving detectors with a collimator arranged on the detectors, which allows spatially-resolved reconstruction of the scattering function. Advantageously, this may allow for an improved scanning speed in baggage inspection or medical applications. | 06-25-2009 |
20090185657 | Registration method - The invention relates to a method for the geometric registration of an imaging device outside an object, in particular a radiation device, with a device emitting fan-shaped signals, in particular an ultrasound emitter, within the object, having the steps: recording a 3D image data record containing the device emitting fan-shaped signals using the imaging device outside the object; determining the position of the fan of the device emitting fan-shaped signals from the 3D image data record relative to the position of the imaging device outside the object; and determining a plane containing the fan as well as a line which is essentially perpendicular thereto, which connects the center point of the radiation source and the detector of the imaging device outside the object. | 07-23-2009 |
20090238328 | X-RAY TUBE WITH OSCILLATING ANODE - It is described an X-ray tube ( | 09-24-2009 |
20090245458 | EXTENSION OF THE Q-RANGE IN CSCT - According to an embodiment of the present invention, a reconstruction scheme for a CSCT is provided which is capable of reconstructing data acquired just over a half turn, i.e. 180° plus fan angle. The reconstruction scheme may provide for an extension of the reconstruction towards smaller and larger q-regions as compared with a 360°-reconstruction, if the short scan reconstruction technique is applied to a full scan data set. | 10-01-2009 |
20090296880 | DISTORTION CORRECTION METHOD FOR LINEAR SCANNING X-RAY SYSTEM - Imaging apparatus comprises a radiation source arranged to generate a divergent imaging beam and an associated radiation detector mounted on a C-arm which can rotate. A first drive is arranged to move the radiation source and the detector relative to a subject in a scanning direction to generate output signals from the detector, thereby performing a scan generating image data containing distortion in a direction transverse to the scanning direction. A second drive is arranged to rotate the C-arm, to change the orientation of the radiation source in a direction transverse to the scanning direction incrementally between repeated scans, thereby to generate a plurality of sets of image data. A processor, which can be a PC or a dedicated processor, is provided for processing each set of image data to obtain equivalent parallel imaging beam data therefrom, corresponding to a given angle in the divergent imaging beam, and for combining a plurality of said equivalent parallel imaging beam data to generate a synthesized parallel imaging beam image. The apparatus includes a display for generating a visual display of the synthesized parallel imaging beam image. The resulting synthesized image has the distortion removed and measurements can be made from the image. The invention extends to a method carried out with the apparatus. | 12-03-2009 |
20090316856 | Method and device for imaging tomography - An imaging method for imaging a region of investigation of an object, comprises the step of irradiating the region of investigation with at least one energy input beam along a plurality of projection directions, wherein the at least one energy input beam comprises a plurality of individual energy input beam components, wherein the energy input beam is shaped such that at least two of the energy input beam components have different cross-sections and groups of parallel energy input beam components being parallel to one of the projection directions provide a continuous irradiation of the region of investigation. Furthermore, a device for imaging the object is described. | 12-24-2009 |
20100208864 | X-RAY CT SYSTEM, A RECORDING MEDIUM THAT STORES CONTROL PROGRAM FOR THE SAME AND A METHOD OF DETERMINIG AN IMAGE RESULT IN CASE OF CAPTURING CT IMAGES - An imaging-condition setting part that sets a plurality of CT-image imaging conditions, including an electric amount for driving and controlling an X-ray tube during CT imaging, based on a scout image that has been imaged by irradiating X-rays from the X-ray tube, to a subject on a top board, that has been stopped at least one of said first position and said second position; and a calculating part that judges whether there are any detection elements that are expected to detect an X-ray dosage exceeding a predetermined value and outputs the judgment result when the X-ray tube is stopped at least one of the first position and the second position relative to the subject on the top board and X-rays are irradiated from the X-ray tube through driving and controlling based on the electric amount. | 08-19-2010 |
20110200165 | CONTRAST AGENT-REINFORCED RADIOTHERAPY HAVING HIGH-OUTPUT TUBES - The invention relates to the combination of intravascularly administered contrast media and low-energy x-ray radiation for radiation-therapeutic treatment of tumors. The contrast medium substances contain at least one radiation-absorbing element and are used for diagnosis and for a photoelectrically activatable dose increase in therapy. | 08-18-2011 |
20110222648 | SCANNER DEVICE AND METHOD FOR COMPUTED TOMOGRAPHY IMAGING - A scanner device for computed tomography imaging of an object, includes a measurement device including a source device arranged for irradiating the object with at least one beam and a detector device arranged for detecting radiation transmitted through the object, wherein the source device has a fixed position relative the detector device, and a carrier device accommodating the object in a position between the source device and the detector device, wherein the measurement device and the carrier device are capable of a scanning movement relative to each other, and the measurement device and the carrier device have a fixed spatial orientation during the scanning movement. Furthermore, a scanning method for computed tomography imaging of an object is described. | 09-15-2011 |
20150049856 | METHOD FOR RECORDING A COMPLETE PROJECTION DATA SET IN THE CENTRAL LAYER FOR CT RECONSTRUCTION USING A C-ARM X-RAY APPARATUS WITH A LIMITED ROTATION RANGE - A method for recording a scan from a series of 2D X-ray projections using a C-arm X-ray apparatus allows an analytical volume reconstruction of a disk-shaped region of interest. The C-arm X-ray apparatus has a coherent, flat focus trajectory comprising three sections on which the focus of the X-ray source is moved with recording of X-ray projection views. The X-ray source emits a cone beam in the direction of an imaging X-ray detector, such as in particular a flat panel detector FPD. In some implementations, the cone beam is configured as a fan beam with a fan angle in the plane of the focus trajectory, which contains the ROI with the virtual scan center in its center, wherein the central ray of the fan beam is located on the bisector of the fan angle, and stands vertically on the ray inlet window. Before the beginning of the scan, the C-arm is positioned in the orbital movement axis in a first extreme position in which the holder engages at one end of the C-arm with the X-ray source, and the adjustable holder of the C-arm is positioned in such a manner that the ROI is located outside of the circle segment formed by the C-arm and the central ray, and a first limiting beam of the fan beam, which starts from the focus point and which is located on the side of the central ray facing away from the C-arm, is tangential to the ROI. During the recording of the scan, the plane of the C-arm remains fixed in space. | 02-19-2015 |
20150313557 | CT Machine for Multi-Angle Scanning of Stationary Patients - A CT machine for scanning a stationary patient may provide for two-bar linkage articulated arms to move a CT gantry in an arbitrary trajectory. In one embodiment, the gantry may fit within a cavity to expose a central platform, which may support a patient for vertical scans in which the gantry housing rises from the cavity after the patient is so positioned. | 11-05-2015 |