Proposed is an apparatus for marking an irradiation area for a hand-held X-ray device, the device including an upper cover, a lower cover, an X-ray radiation unit, a radiation tube, the apparatus, and a lower support, the apparatus including: a cylindrical member; a reflector; a PCB guide; a PCB; an LED light source; and a fastening screw, wherein light emitted from the LED light source is reflected by the reflector and marks the irradiation area on a subject in front of the reflector.

A console includes a CPU and a GPU. Of the CPU and GPU, the CPU acquires an image to be processed, which is an object to be subjected to a support process that is a diagnosis support process or an imaging support process, and distributes a process to any one of the CPU, the GPU, or another GPU to execute the support process according to the content of the support process executed for the image to be processed.

The invention relates to a problem of setting mutual position of an anatomy being imaged and imaging means of a computed tomography imaging apparatus so that specifically the very volume of the anatomy desired to be imaged actually is imaged. To further the positioning, a positioning tool in a form of a three-dimensional virtual positioning model (40), generated from the anatomy to be imaged, is shown on a display from which the volume (41) of the anatomy desired to be imaged can be pointed, selected or defined.

The invention relates to a problem of setting mutual position of an anatomy being imaged and imaging means of a computed tomography imaging apparatus so that specifically the very volume of the anatomy desired to be imaged actually is imaged. To further the positioning, a positioning tool in a form of a three-dimensional virtual positioning model (40), generated from the anatomy to be imaged, is shown on a display from which the volume (41) of the anatomy desired to be imaged can be pointed, selected or defined.

The present disclosure relates to a system and method for locating a target subject associated with an X-ray system. The X-ray system may include an X-ray source, a detection component, an arm, and a platform. The X-ray system may also include a first positioning component, a second positioning component, or a third positioning component. The first positioning component may be configured to determine a target point where a region of interest (ROI) of the target subject locates. The second positioning component may be configured to locate the target subject. The third positioning component may be configured to obtain location information of a target device associated with the target subject in real-time.

Proposed is an apparatus for marking an irradiation area for a hand-held X-ray device, the device including an upper cover, a lower cover, an X-ray radiation unit, a radiation tube, the apparatus, and a lower support, the apparatus including: a cylindrical member; a reflector; a PCB guide; a PCB; an LED light source; and a fastening screw, wherein light emitted from the LED light source is reflected by the reflector and marks the irradiation area on a subject in front of the reflector.

Proposed is an apparatus for marking an irradiation area for a hand-held X-ray device, the device including an upper cover, a lower cover, an X-ray radiation unit, a radiation tube, the apparatus, and a lower support, the apparatus including: a cylindrical member; a reflector; a PCB guide; a PCB; an LED light source; and a fastening screw, wherein light emitted from the LED light source is reflected by the reflector and marks the irradiation area on a subject in front of the reflector.

An apparatus, for dose measurement designed for use in an x-ray device, is disclosed. In an embodiment, the apparatus includes a mirror element designed to inject a light field into an x-ray beam penetrating through the mirror element; and a measuring device to measure radiation-induced changes to a carrier material. The carrier material is part of the mirror element and/or another component of the apparatus, which lies in the radiation field of the x-ray device when used normally in an x-ray device. A corresponding method for dose measurement and to an x-ray device is also disclosed.

Methods and systems for X-ray and fluoroscopic image capture and, in particular, to a versatile, multimode imaging system incorporating a handheld X-ray emitter operative to capture non-invasive images of a target; a stage operative to capture static X-ray and dynamic fluoroscopic images of the target; a system for the tracking and positioning of the X-ray emission to improve safety of obtaining X-ray images as well as improve the quality of X-ray images. Where the devices can automatically limit the field of the X-ray emission.

Methods and systems for X-ray and fluoroscopic image capture and, in particular, to a versatile, multimode imaging system incorporating a handheld X-ray emitter operative to capture non-invasive images of a target; a stage operative to capture static X-ray and dynamic fluoroscopic images of the target; a system for the tracking and positioning of the X-ray emission to improve safety of obtaining X-ray images as well as improve the quality of X-ray images. Where the devices can automatically limit the field of the X-ray emission.