A mobile X-ray system includes a movable base, a robotic arm mounted on the movable base, an X-ray source attached to the robotic arm, a radiation detector, one or more user interfaces, and a controller configured to determine a position of the X-ray source and a position of the detector and to automatically move the base and the robotic arm to align the X-ray source with the detector.

A mobile radiography apparatus has a moveable (e.g., wheeled) transport frame and an adjustable column mounted at the frame. A boom apparatus supported by the adjustable column can support an x-ray source assembly. Radiation or X-ray source assembly methods and/or apparatus embodiments can provide mobile radiography carts a capability to direct x-ray radiation towards a subject from one or a plurality of different source positions, where the X-ray source assembly includes a first x-ray power source and a second plurality of distributed x-ray sources disposed in a prescribed spatial relationship.

A method and system for acquiring, processing, storing, and displaying x-ray mammograms Mp tomosynthesis images Tr representative of breast slices, and x-ray tomosynthesis projection images Tp taken at different angles to a breast, where the Tr images are reconstructed from Tp images

A method and apparatus for setting an imaging environment of a medical apparatus based on one or more signals transmitted from a plurality of clients are provided. The method of setting an imaging environment of a medical apparatus based on one or more signals transmitted from a plurality of clients includes transmitting information regarding an imaging operation of the medical apparatus to the plurality of clients, receiving one or more response signals with respect to the information from the plurality of clients, and setting the imaging environment of the medical apparatus based on the one or more response signals.

A method is for operating a medical imaging system including at least two executable application programs. An embodiment includes: a) a computing device of the imaging system detecting at least one display device by its properties relevant to visual display; b) the computing device retrieving at least one particular application-specific requirement made of a display device, using the at least two application programs, for visual display of corresponding application program information on a display device; c) comparing the properties detected for each at least one display device and the retrieved requirement; and d) according to a result of the comparison, the computing device either assigning the application programs respectively to the at least one display device or activating an assignment facility for a user, to increase efficiency when operating the medical imaging system having the at least two executable application programs in a manner convenient to a user.

A method of controlling a medical apparatus which includes: establishing, by a mobile apparatus, a communication link between the mobile apparatus and the medical apparatus; when the communication link is established, detecting an operation mode of the mobile apparatus; determining a function corresponding to the detected operation mode from functions provided by the medical apparatus; and performing the determined function.

A mobile radiography apparatus has a moveable (e.g., wheeled) transport frame and an adjustable column mounted at the frame. A boom apparatus supported by the adjustable column can support an x-ray source assembly. Radiation or X-ray source assembly methods and/or apparatus embodiments can provide mobile radiography carts a capability to direct x-ray radiation towards a subject from one or a plurality of different source positions, where the X-ray source assembly includes a first x-ray power source and a second plurality of distributed x-ray sources disposed in a prescribed spatial relationship.

A tube arm assembly is rotatably connected to the floor mounted gantry of a breast imaging system. A support arm connected to the tube arm assembly can be independently rotated and positioned in a first angle, second angle, and a level position. A compression arm is configured to support a breast compression paddle and is linearly positionable on the support arm. Display screens and a sensor are disposed on an upper surface of the compression arm. Based on a signal received from the sensor, a controller is configured to change the read-ready orientation of each arm display.

Methods and systems for operating x-ray system. One system includes an x-ray source having a plurality of exposure parameters and a controller for the x-ray source. The controller for the x-ray source is configured to receive image characteristic information and automatically adjust the plurality of exposure parameters based on the image characteristic information. The image characteristic information can include an identifier of a predefined sequence of images, an identifier of an image type, a set of values of the plurality of exposure parameters, and a unique identifier of a holder for an x-ray receptor.

An X-ray fluoroscopic radiographing apparatus comprises a display unit that processes a received X-ray moving image and instantaneously displays the moving image; a storing unit that stores the received moving image as a non-processed raw image; an instructing unit that instructs the raw image to be referred to from the stored raw images; a second display unit that processes the instructed raw image and displays the processed raw image; a changing unit that changes the image process in the second display unit; a second storing unit that stores image process information obtained by the changing unit in association with the instructed raw image; a second instructing unit that instructs the raw image to be transferred from the stored raw images; and a transferring unit that executes the image process associated by the second storing unit to the instructed raw image and transfers the processed raw image to a destination.