A system having an X-ray imaging device for capturing an X-ray image on an imaging film, and a device for reading out the imaging film. The imaging film includes a data carrier, and the X-ray imaging device and/or readout device comprises includes a data device that has a write/read device for writing, on the data carrier, imaging parameters relating to the X-ray image capture and for reading information that is stored on the data carrier, the write/read device being configured to transmit the read information to the readout device such that the imaging parameters in force when capturing the X-ray image are available to the readout device for an imaging film readout. A method for providing information for a readout device is also provided.

A radiographic imaging system includes a radiographic detector having a scanning device to obtain patient identifying information. The detector is programmed to display the patient identifying information in human readable form and to access additional information about the patient stored in networked databases.

A radiographic imaging system includes an irradiating apparatus, a first clock, a radiographic imaging apparatus, a second clock and a hardware processor. The irradiating apparatus generates radiation. The first clock keeps time and works with the irradiating apparatus. The radiographic imaging apparatus generates image data based on received radiation. The second clock keeps time and works with the radiographic imaging apparatus. The hardware processor (i) obtains a clock value of the first clock at a predetermined time point and a clock value of the second clock at the predetermined time point respectively as first clock information and second clock information, (ii) makes a determination as to whether a specific condition is met based on the obtained first clock information and the obtained second clock information, and (iii) in response to the specific condition being met, performs a specific output.

In the radiography system, a camera image of the usage environment in which the electronic cassette is used is captured. An in-image cassette region of the electronic cassette is detected from the camera image. The cassette ID of the electronic cassette is acquired from the in-image cassette region. The acquired cassette ID is collated with the cassette ID of the use cassette set in the console to check whether the use cassette is present.

Provided are an X-ray imaging apparatus, an X-ray detector, and an X-ray imaging system. The X-ray imaging apparatus includes: an X-ray radiation device configured to emit X-rays; a receptor into which a first X-ray detector configured to detect the emitted X-rays is inserted; an X-ray detector sensing interface configured to detect whether the first X-ray detector has been inserted into the receptor, acquire first identification information of the first X-ray detector inserted into the receptor, and generate first position information indicating that the first X-ray detector has been inserted into the receptor; an output interface configured to output information about the first X-ray detector; and a controller configured to control the output interface to output the first position information and the first identification information, wherein the first identification information is identification information set by a workstation of an X-ray imaging system including the X-ray imaging apparatus.

A method is used to calibrate a light unit, including at least one light source, the light unit being part of a medical imaging apparatus. In an embodiment, the method includes positioning a calibration phantom at a calibration position, in particular a first calibration position; arranging the light source so that its beam illuminates the photodetector at least partially; starting or continuing the recording of light intensities using the photodetector; modulating the signal of the light source at least once; rotating the light beam around a given rotation axis while recording the rotational position; synchronizing the time values of the rotational position of the light beam and the acquired signal intensities using the modulation of the light signal; and mapping the rotational position, in particular the rotation angle, of the light beam to a spatial position using the light intensities recorded by the photodetector.

A controller generates, based on a position of a marker in an X-ray image, an intermediate image in which a device inserted into a subject's body is displayed. After the generation of the intermediate image, the controller matches the marker of the X-ray image with a marker of the intermediate image based on the position of the marker in the X-ray image and a position of a marker in the intermediate image to align the X-ray image and the intermediate image with each other every time the X-ray image is newly generated. The controller then controls the display to display an overlaid image generated by overlaying the X-ray image and the intermediate image aligned with each other.

A system for dental X-ray imaging includes an intra oral imaging plate. A tag is attached directly to the intra oral imaging plate. The tag attached directly to the intra oral imaging plate is configured to have tag information remotely read from the tag or the tag is configured to have tag information written to the tag. The tag information is configured to control a portion of the system adapted to perform at least one operation controlled by the tag information.

A structured dental x-ray detector implements an array of holes or channels filled with at least one of polycrystalline, amorphous, or nano-particle semiconductor x-ray or gamma ray converter materials. Readout electronics are configured for acquiring and analyzing signals from the detector; e.g., operating in a signal integration or photon detecting mode, or in a photon detecting mode with energy resolution. In dental application, a protective shell or frame can be provided to encapsulate the detector and readout electronics, with a wired or wireless communications link to a computer system configured for image data post-processing and storage of the readout signals, with an electronic display for the image data.

The present invention relates to monitors. In order to facilitate mounting a monitor, a suspendable monitor (10) is provided for a ceiling suspended monitor system. The suspendable monitor comprises a video display (12), a structural frame (14), and a system interface (16). The video display is mounted to a front surface (18) of the structural frame. The system interface is mounted to the structural frame at one end and mountable to the ceiling suspended monitor system at the other end for suspending the suspendable monitor.