Patent application number | Description | Published |
20090274266 | X-RAY DETECTOR AND X-RAY CT APPARATUS - An X-ray detector includes a single-layered semiconductor substrate having an array of detection cells which directly convert photons of X-rays into electrical signals; a first data collecting device which collects data with respect to the array of detection cells in a photon counting mode; and a second data collecting device which collects data with respect to the array of detection cells in a current measuring mode. | 11-05-2009 |
20120012742 | CALIBRATION DEVICE FOR LOCATION OF CT X-RAY GENERATOR AND DETECTOR, CALIBRATION METHOD USING THE CALIBRATION DEVICE, AND CALIBRATION METHOD FOR CT SYSTEM - A calibration device for location of a CT X-ray generator and detector includes a splitting window, a splitting window bracket configured to support the splitting window, an integral bracket, and a spring including a first end connected to the splitting window bracket and a second end connected to the integral bracket. | 01-19-2012 |
20120106818 | APPARATUS AND METHOD FOR IMAGE RECONSTRUCTION AND CT SYSTEM - A method for image reconstruction using projection data obtained by an asymmetric detector includes dividing the projection data into Regions | 05-03-2012 |
20130195341 | METHOD FOR SORTING CT IMAGE SLICES AND METHOD FOR CONSTRUCTING 3D CT IMAGE - A method for sorting CT image slices comprising, if no image slice comprises a target respiratory phase at a couch position, determining a target breathing feature value corresponding to the target respiratory phase based on a respiratory motion curve of a scanned patient, searching from a plurality of image slices at the couch position for one or more image slices comprising a breathing feature value close to the target breathing feature value to serve as candidate image slices, and selecting, based on a breathing feature value difference between the breathing feature value of each of the candidate image slices and the target breathing feature value and/or an image difference between each of the candidate image slices and at least one reference image slice, a single image slice from the candidate image slices for constructing the 3D CT image for the target respiratory phase. | 08-01-2013 |
20140146936 | METHOD AND SYSTEM FOR GATED RADIATION THERAPY - A method and system for a gated radiation therapeutic system is provided. The method comprises performing a 4D-CT scan to obtain CT images, and processing the CT images to extract a characteristic signal, wherein the characteristic signal is associated with respiratory phases within the patient's breathing cycle and has a correlation relation with the external signal of the gated radiation therapy. The method further comprises controlling a radiation beam for the gated radiation therapy based on the correlation relation between the characteristic signal and the external signal. The system comprises a 4D-CT scanner for performing a 4D-CT scan to obtain CT images and a characteristic signal extracting component for processing the CT images to extract a characteristic signal. The system further comprises a radiation control component for controlling a radiation beam for the gated radiation therapy based on the correlation relation between the characteristic signal and the external signal. | 05-29-2014 |
20140147026 | METHOD AND SYSTEM FOR AUTOMATICALLY DETERMINING A LOCALIZER IN A SCOUT IMAGE - A method and system for automatically determining a localizer in a scout image. The method comprises obtaining a 3D model best matched to an object to be scanned and projecting a localizer in the best matched 3D model onto a scout image of the object to be scanned to obtain an optimal localizer. The system comprises an obtaining device for obtaining a 3D model best matched to an object to be scanned and a determining device for projecting a localizer in the best matched 3D model onto a scout image of the object to be scanned to obtain an optimal localizer. | 05-29-2014 |
20140148685 | METHOD AND APPARATUS FOR NAVIGATING CT SCAN WITH A MARKER - A method for a CT scan of a body part, wherein a marker is positioned on the body part. The method comprises: positioning a marker on the body part; performing a scout scan of the area which contains the body part, to acquire a scout image; detecting the marker in the scout image to acquire position information of the marker; and using the position information to navigate the CT scan. | 05-29-2014 |
20140185745 | COLLIMATOR FOR USE IN A CT SYSTEM - A collimator for use in a CT system made of an X-ray absorbing material, the collimator comprises an imaging aperture having a first width for passage of a first X-ray beam, the first X-ray beam being used for X-ray imaging, and a tracking aperture having a second width for passage of a second X-ray beam, the second X-ray beam being used for X-ray beam tracking. | 07-03-2014 |
20140211908 | Method and Apparatus for Data Conversion in an Unequal Gamma Angle CT System - A method and apparatus for data conversion in an unequal γ angle CT system. The method for imaging in a CT system having a flat module detector array includes obtaining fan beam projection data of an object from a CT scan, obtaining a geometric structure parameter of the flat module detector array; rebinning data from the fan beam projectiondata to parallel beam projection data based on the geometric structure parameter to convert the fan beam projection data into the parallel beam projection data, and generating a CT image from the parallel beam projection data. | 07-31-2014 |
20140211925 | GEOMETRY CALIBRATION ALGORITHM FOR LARGE FLAT MODULE DETECTOR CT SCANNER - A method for geometric calibration of a CT scanner, including, for each row of at least one row of detector cells, establishing a complete geometric description of the CT scanner, including at least one unknown geometric parameter, establishing a description of a forward projection function using the complete geometric description, acquiring actual projection coordinates of a calibration phantom placed in a scanning field of view (SFOV) on a current row of detector cells and corresponding to a plurality of angles, acquiring calculated projection coordinates of the calibration phantom on the current row of detector cells and corresponding to the plurality of angles using the description of the forward projection function, and acquiring a calibrated value for the at least one unknown geometric parameter by evaluating the at least one unknown geometric parameter based on the acquired actual projection coordinates and calculated projection coordinates via a nonlinear least square fitting algorithm. | 07-31-2014 |