CPC Class H04N

This display device includes a heat radiation member made of metal, configured to radiate heat generated from a light source portion, a rear housing arranged on the rear side of the heat radiation member, a substrate mounting member made of sheet metal, mounted with a circuit substrate, and a cover member covering the substrate mounting member from the rear side of the substrate mounting member in a state where the rear surface of the rear housing is exposed to the outside, while the heat radiation member is arranged to come into contact with the substrate mounting member.

A grain quality sensor comprising a photosite array, an illumination source, a filter, and an electronics module, wherein the illumination source directs light onto a crop sample, wherein the filter limits passage of light into different parts of the photosite array such that certain locations on the photosite array only receive certain wavelengths of light reflected or fluoresced by the crop sample, wherein an electronics module is electrically connected to the photosite array and capable of determining which parts of the photosite array received light and the wavelengths of the light received, wherein the electronics module can analyze the optical data received by the photosite array, and wherein the analysis of the optical data is used to determine the composition of the crop sample.

Systems, devices, and methods are provided for remote interaction with a subject in an environment. The device has audio-visual recording and transmitting functionality to provide an operator at a remote location with an audio-visual feed of the environment near the device. The device also has a light emission component which the operator controls and which projects light onto a surface in the environment in the vicinity of the device. The systems, devices, and methods provide operators with the ability to control the positions of the light emission by tracking movement at a remote device at the remote location.

A transmitting device includes: a first transmission unit; a second transmission unit having transmission lines each having a proximal end at which a transmitting-side connecting portion is provided; and a first switch for selecting a transmission line from the second transmission unit, to connect the selected transmission line to the first transmission unit. A receiving device includes: a third transmission unit having transmission lines each having a distal end at which a receiving-side connecting portion is provided; a fourth transmission unit; a second switch for selecting, from the third transmission unit, a transmission line including the receiving-side connecting portion optically connected to the transmitting-side connecting portion, to connect the selected transmission line to the fourth transmission unit; and a detection unit configured to detect whether a connection between the transmitting-side and receiving-side connecting portions is abnormal based on light amount of an optical signal transmitted through the fourth transmission unit.

An endoscope apparatus includes an observation optical system, a solid-state imaging element, a memory section, and an image processing section, wherein the memory section stores the information therein for specifying the image cutting-out region for the process of cutting out the image for display, which corresponds to an overlapping region in which a displayable pixel area of the solid-state imaging element and an imaging area of the optical image to be formed on the solid-state imaging element by the observation optical system overlap one another, and overlap one another when the center of the imaging area is matched with the center of the display area, as the image cutting-out information, and the image processing section expands the image for display to an image size of the display area, when an image size of the cut-out image for display becomes smaller than the image size of the display area.