CPC Class H04N

An image capturing apparatus includes an image capturing element, a first circuit board to mount the image capturing element on the first circuit board, a second circuit board facing the first circuit board, a fan, and a first flexible board electrically connect the first circuit board and the second circuit board. The image capturing element moves within a movable range in a direction different from an optical axis direction. The first flexible board is bent in an area that overlaps with the movable range of the image capturing element in the optical axis direction. When viewed from a direction orthogonal to an optical axis, an orientation of an exhaust opening of the fan is arranged toward an inner surface of a bending portion of the first flexible board closest to the first circuit board at a center position of the movable range of the image capturing element.

An object is to provide a display device having a function of emitting visible light and infrared light and an imaging function. Another object is to increase the definition without changing the density of imaging elements while the high resolution of an image displayed on a display device is kept. The display device has a layout in which a light-receiving region of an imaging element is provided between light-emitting regions of a plurality of light-emitting elements over one substrate. In the imaging function of the display device, as a means for increasing the definition of a captured image, the definition is increased without changing the density of imaging elements by capturing an image by time division.

Disclosed is a method for operating an endoscope system and an endoscope system comprising an image sensor and a processing device, the image sensor comprising an image sensor output, the processing device comprising an input connected to the image sensor output. The method comprising: consecutively receiving frames captured by the image sensor; receiving a first capture signal, indicative of an operator performing a first action associated with capturing a still image of the frames captured by the image sensor; storing a first plurality of frames of the frames captured by the image sensor; determining one or more quality properties of each of the first plurality of frames; and selecting a designated frame of the first plurality of frames based on the one or more quality properties.

A video endoscope that includes a handle with a housing and an interface portion rotatably mounted relative to the housing, and an elongate shaft with one or more electronic image sensors, wherein a proximal end section of the shaft is detachably connected to the interface portion of the handle, where the interface portion includes a first connector element electrically connected to an electric transmission element of the interface portion and the shaft includes a second connector element electrically connected to the one or more electronic image sensors, the first and second connector elements co-operating to form a detachable electrical connection, and where the handle includes an electrical connection assembly arranged at an exterior of the interface portion forming an electrical connection to at least one stationary electric and/or electronic component of the handle in a multiplicity of rotational positions of the interface portion relative to the housing.

A video imaging system is provided. The video imaging system is configured to maintain a video image displayed on a display unit in a predetermined orientation based upon a use. The video imaging system includes an endoscope, a camera head unit, a camera control unit configured to determine a focal distance, and a display control unit. The display control unit is configured to process the focal distance to determine a use. The use is processed by the display control unit so as to maintain the video image in the predetermined orientation. The contextual information may be focal distance, image data or endoscopic orientation.