Abstract: An information processing device including at least one processor, wherein the processor is configured to: acquire positional information indicating a position of a compression member, which is configured to be movable in a plane direction of a contact surface with a breast, in the plane direction in a mammography apparatus that irradiates the breast compressed by the compression member with radiation to capture a radiographic image; and perform control to direct an image projection unit, which projects a projection image onto a projection surface of the compression member, to project the projection image onto the projection surface of the compression member whose position has been specified on the basis of the positional information.

Abstract: A control device including: at least one processor, wherein the processor is configured control an image projection unit which projects a projection image onto a projection surface of a compression member and an irradiation field projection unit which projects a range of an irradiation field of radiation using visible light in a mammography apparatus which irradiates a breast compressed by the compression member with the radiation to capture a radiographic image such that projection of the projection image and projection of the range of the irradiation field are switched.

Abstract: A control device including: at least one processor that is configured to detect whether or not compression of a breast by a compression member in a mammography apparatus is completed and perform control to direct an image projection unit, which projects a projection image onto a projection surface of the compression member, to stop the projection of the projection image onto the projection surface in a case in which it is detected that the compression is completed.

Abstract: A compression member which compresses a breast placed between a radiation source and a radiation detector, wherein at least a partial region of at least one surface of the compression member that does not come into contact with the breast is roughened. A support member and a mammography apparatus are also provided.

Abstract: A TFT biosensor includes a gate electrode (silicon substrate), a reference electrode, and enzyme that is fixed to an insulating substrate spatially separated from the gate electrode and the reference electrode. A pH variation in the vicinity of an ion-sensitive insulating film is induced by a reaction between the enzyme and a sensing object material. The TFT biosensor can detect a concentration of the sensing object material with high sensitivity by detecting the pH variation as a threshold voltage shift of characteristics of a gate-source voltage to a source-drain current.

Abstract: A TFT biosensor includes a gate electrode (silicon substrate), a reference electrode, and enzyme that is fixed to an insulating substrate spatially separated from the gate electrode and the reference electrode. A pH variation in the vicinity of an ion-sensitive insulating film is induced by a reaction between the enzyme and a sensing object material. The TFT biosensor can detect a concentration of the sensing object material with high sensitivity by detecting the pH variation as a threshold voltage shift of characteristics of a gate-source voltage to a source-drain current.

Abstract: A TFT biosensor includes a gate electrode (silicon substrate), a reference electrode, and enzyme that is fixed to an insulating substrate spatially separated from the gate electrode and the reference electrode. A pH variation in the vicinity of an ion-sensitive insulating film is induced by a reaction between the enzyme and a sensing object material. The TFT biosensor can detect a concentration of the sensing object material with high sensitivity by detecting the pH variation as a threshold voltage shift of characteristics of a gate-source voltage to a source-drain current.

Abstract: A TFT biosensor includes a gate electrode (silicon substrate), a reference electrode, and enzyme that is fixed to an insulating substrate spatially separated from the gate electrode and the reference electrode. A pH variation in the vicinity of an ion-sensitive insulating film is induced by a reaction between the enzyme and a sensing object material. The TFT biosensor can detect a concentration of the sensing object material with high sensitivity by detecting the pH variation as a threshold voltage shift of characteristics of a gate-source voltage to a source-drain current.

Abstract: A display apparatus (100) comprises: a video selection section (105) that selects video based on the outputs of a video 1 detection section (111), video 2 detection section (112), mode management section (104), seat sensor (301) and seat sensor (302); two screen combining section (106) that combines the screens of video 1 and video 2 inputted from video input terminals (101 and 102) based on in accordance with control signal from the video selection section (105); and a landscape LCD panel (120) that displays the video signals outputted from the two screen combining section (106), and displays video inputted to the video input terminals (101 and 102) in a full screen or in two left and right screens on the landscape LCP panel, in accordance with detection results in the video 1 detection section (111) and video 2 detection section (112) . For example, the single-screen display and dual-screen display are automatically switched by plugging in and unplugging connection cables (510 and 520).

Abstract: A display apparatus including; a display setting section (101) that sets, based on a relative position of a viewer with respect to a screen for displaying an image, at least one display position of the image in the screen; an expansion section (107, 108) that expands an inputted image at an expansion rate in accordance with a direction from which the viewer views the image to be displayed on the display position set by the display setting section; and a display section (111) that displays the image expanded by the expansion section.

Abstract: A display apparatus (100) comprise a display section (110) that displays image on a display screen; a viewer position reading section (520) that reads a relative position of at least one viewer with respect to the display screen; a glare detection section (111 to 114) that detects light reflected from external light toward the viewer to output the detected result as glare information; and an image quality correction section (500) that corrects image quality of the display section based on the glare information outputted by the glare detection section.

Abstract: A wide display (200) displays video obtained from a content source on a screen (230) in single-screen display mode or in dual-screen display mode. A video processing apparatus (600) switches the mode of video display from dual-screen display mode to single-screen display mode when a plurality of same videos are displayed on split screens (210) and (220) formed by splitting the screen (230) of the wide display (200).

Abstract: Problem: To expand an image or video at predetermined expansion rates, thereby enabling a viewer to view the image or video at the original aspect ratio when viewing the image or video from an oblique direction, making the image or video easy to see. Solving means: View direction detection section 101 detects the direction from which a viewer, who is a fellow passenger of a vehicle, views the display surface of display section 105. Expansion rate control section 103 controls expansion rates so as to select the expansion rates that correspond to the detected direction from which the viewer views the display surface and expand the image or video using the selected expansion rates. Signal processing section 104, in accordance with the control performed by expansion rate control section 103, expands the image or video at the expansion rates selected by expansion rate control section 103. Display section 105 displays the expanded image or video.