Class / Patent application number | Description | Number of patent applications / Date published |
378146000 | Scanner | 14 |
20090080618 | X-RAY DIAGNOSTIC APPARATUS - When distance compute unit | 03-26-2009 |
20090097617 | MODULAR, IMAGING, LARGE X-RAY DETECTOR - The present invention relates to an area X-ray detector for the taking of a projectional radiographic X-ray image of an object exposed to X-ray radiation, comprising an areal X-ray image memory screen ( | 04-16-2009 |
20090190720 | MIRROR MOUNTING, ALIGNMENT, AND SCANNING MECHANISM AND SCANNING METHOD FOR RADIOGRAPHIC X-RAY IMAGING, AND X-RAY IMAGING DEVICE HAVING SAME - An X-ray imaging device and alignment/scanning system include at least one multilayer X-ray mirror mounted on a multi-axis adjustable mirror mount pivotable about a scanning axis. A mirror scanner is coupled with the mirror mount and synchronized with the X-ray source so that the mirror scanner moves the mirror mount about the scanning axis. The invention may include a plurality of mirrors, optionally in a stack, and preferably including first and second mirrors respectively adapted to reflect X-rays of first and second energies. A movable attenuation plate having a window selectively allows X-rays to be transmitted by one of the mirrors and blocks X-rays from the other mirror(s). Sets of the mirrors may be configured in blocks or interspersed. The mirror scanner may be operable at variable speeds to enable selective control of the scanning speed of the mirror. | 07-30-2009 |
20110091017 | VOLTAGE MEASUREMENT IN AN IMAGING SYSTEM - Methods and systems are generally described for measuring a voltage used by an imaging system to generate radiation used in imaging. In embodiments, different datasets are acquired using different degrees of attenuation of the radiation. The differently attenuated datasets are processed to derive a ratio of the differential attenuation. The attenuation ratio is processed to derive a measure of the voltage used by the imaging system to generate the radiation used to acquire the different datasets. | 04-21-2011 |
20110286582 | IMAGING SYSTEM AND CONTROL METHOD THEREFOR - An imaging system includes a plurality of imaging apparatuses, each of the imaging apparatuses includes a detector for performing an imaging operation for outputting image data corresponding to applied radiation or light and a controller for controlling the operation of the detector. The imaging apparatuses can independently perform an imaging operation and are movable in accordance with a relative positional relationship thereof. Sensing means obtain information indicative of the relative positional relationship between the imaging apparatuses. A control computer sends a control signal for determining operations of the imaging apparatuses to the controller. The control computer determines the operations of the imaging apparatuses by using the information obtained from the sensing means; and sets an appropriate scanning direction of each of the imaging apparatuses in accordance with the positional relationship thereof. | 11-24-2011 |
20120033793 | ADAPTIVE FRAME SCANNING SCHEME FOR PULSED X-RAY IMAGING - A method for adaptive frame scanning for pulsed x-ray imaging comprising the steps of: scanning lines on an image detector sequentially; receiving an indication that radiation is about to begin; waiting a fixed delay after the indication is received; suspending scanning after the fixed delay has lapsed; and resuming scanning of lines on the detector upon receiving an indication that radiation has stopped. By monitoring for completion of a frame a predetermined frame delay can be added before commencing the next line scan to accommodate jitter in the radiation pulse timing. | 02-09-2012 |
20120106714 | Versatile X-Ray Beam Scanner - Apparatus for interrupting and/or scanning a beam of penetrating radiation, such as for purposes of inspecting contents of a container. A source, such as an x-ray tube, generates a fan beam of radiation effectively emanating from a source axis, with the width of the fan beam collimated by a width collimator, such as a clamshell collimator. An angular collimator, stationary during the course of scanning, limits the extent of the scan, and a multi-aperture unit, such as a hoop, or a nested pair of hoops, is rotated about a central axis, and structured in such a manner that beam flux incident on a target is conserved for different fields of view of the beam on the target. The central axis of hoop rotation need not coincide with the source axis. | 05-03-2012 |
20120288066 | SCANNING DEVICE USING RADIATION BEAM FOR BACKSCATTER IMAGING AND METHOD THEREOF - Disclosed is a scanning device using radiation beam for backscatter imaging. The scanning device includes a radiation source; a stationary shield plate and a rotary shield body positioned respectively between the radiation source and the subject to be scanned, wherein the stationary shield plate is fixed relative to the radiation source, and the rotary shield body is rotatable relative to the stationary shield plate. The ray passing area permitting the rays from the radiation source to pass through the stationary shield plate is provided on the stationary shield plate, and ray incidence area and ray exit area are respectively provided on the rotary shield body. During the process of the rotating and scanning of the rotary shield body, the ray passing area of the stationary shield plate intersects consecutively with the ray incidence area and the ray exit area of the rotary shield body to form scanning collimation holes. Further, a scanning method using radiation beam for backscatter imaging is also provided. | 11-15-2012 |
20130108025 | Optical exit slit | 05-02-2013 |
20140029731 | RADIATION IMAGING APPARATUS - A radiation imaging apparatus comprising: a radiation detector; a field modulator that modulates the radiation that reaches the detector and is defined by a transmission function; a scanner system for changing the pose of at least the field modulator; and an image reconstruction section that receives a radiation reading from the radiation detector for each of a plurality of angular orientations of the field modulator, and is configured to process the received readings to derive an image representing the amount of radiation originating from each point in an image domain, wherein the transmission function of the field modulator comprises a low transmission region that attenuates radiation incident toward the detector from angular directions defined by that low transmission region, and a high transmission region that transmits to the detector radiation that is incident toward the detector from angular directions defined by that high transmission region, wherein said regions are arranged such that: for each incident angle in the high transmission region, there is at least one incident angle in the low transmission region that is separated therefrom by less than a first angle, wherein said first angle is 10 degrees; and for each incident angle in the high transmission region, the majority of other incident angles in the high transmission region are separated therefrom by more than a second angle, wherein said second angle is 20 degrees. | 01-30-2014 |
20140072106 | ZONE COMPENSATED MULTILAYER LAUE LENS AND APPARATUS AND METHOD OF FABRICATING THE SAME - A multilayer Laue Lens includes a compensation layer formed in between a first multilayer section and a second multilayer section. Each of the first and second multilayer sections includes a plurality of alternating layers made of a pair of different materials. Also, the thickness of layers of the first multilayer section is monotonically increased so that a layer adjacent the substrate has a minimum thickness, and the thickness of layers of the second multilayer section is monotonically decreased so that a layer adjacent the compensation layer has a maximum thickness. In particular, the compensation layer of the multilayer Laue lens has an in-plane thickness gradient laterally offset by 90° as compared to other layers in the first and second multilayer sections, thereby eliminating the strict requirement of the placement error. | 03-13-2014 |
20140093048 | ACTIVE ABSORBER FOR LOW-FREQUENCY VIBRATING STRUCTURES - An active vibration absorber is provided for damping vibrations of a cantilevered portion of a support structure. The vibration absorber comprises a mass, wherein the mass is coupled without using a spring and through a drive that is controlled by a control device of the vibration absorber to a fastening means for fastening the drive to a support structure to be damped, so that upon a movement of the mass relative to the fastening means an inertial force caused by this movement is directly transmitted through the drive to the fastening means, and wherein the control device comprises a motion sensor and the control device is adapted to control the drive in function of the signals from the motion sensor. The active vibration isolator has a purpose of damping especially low-frequency vibrating structures including more than one mass-spring element so that the vibration amplitude thereof is significantly reduced. | 04-03-2014 |
20140233707 | Versatile Beam Scanner with Fan Beam - A versatile beam scanner for generating a far-field scanned pencil beam, and, alternatively, a far-field pencil beam. An angle selector limits the angular extent of an inner fan beam emitted by a source of penetrating radiation. The source and angle selector may be translated, along a direction parallel to a central axis of a multi-aperture unit, in such a manner as to generate a scanned far-field pencil beam, when rings of apertures are interposed between the source and an inspected target, or, alternatively, a far-field fan beam, when no ring of apertures is interposed. | 08-21-2014 |
20160166225 | METHOD AND APPARATUS FOR CONTROLLING X-RAY EXPOSURE | 06-16-2016 |