An image capturing apparatus having a touch panel mounted on a display unit on the rear side of its housing is provided with a posture detection unit; a first gripping unit positioned on side of the housing when the posture is a normal position; a second gripping unit positioned on side of the housing when the posture is a vertical position; a first operating member operable by a finger of a hand that is gripping the first gripping unit; a second operating member operable by a finger of a hand that is gripping the second gripping unit; and a control unit that displays a first button for deactivating operations from the second operating member on the display screen, and receives input to the first button via the touch panel. The display position of the first button on the display unit is set based on a first virtual circle for which the center point has been set in the range of the first gripping unit or the second gripping unit, and the radius of the first virtual circle is a tangential line that reaches from the center point to the outer edge of the display unit, cutting across the display unit.

A terminal apparatus capable of shifting to a power-saving mode with high accuracy in a case where a user puts the terminal apparatus in a bag or pocket A luminance distribution acquisition section acquires luminance distribution around the terminal apparatus. A storage area stores a learned model generated from time series information including the luminance distribution acquired by the luminance distribution acquisition section. A determination section determines, based on the time series information and the learned model, whether a user operation of the terminal apparatus has bee terminated or in progress. A power supply section shifts the terminal apparatus to the power-saving mode according to a result of the determination performed by the determination section.

In an example in accordance with the present disclosure, an electronic device is described. The electronic device includes a camera to capture an image of a user facing the electronic device. An image analyzer of the electronic device determines a characteristic of the user from the image of the user. The electronic device also includes a presentation controller. The presentation controller 1) selects a presentation characteristic based on a determined characteristic of the user and 2) alters a display of the electronic device based on a selected presentation characteristic.

An imaging element includes: a memory that stores captured image data obtained by imaging a subject at a first frame rate; an image processing circuit that performs processing on the captured image data; and an output circuit that outputs output image data obtained by performing the processing on the captured image data to an exterior of the imaging element at a second frame rate, wherein the image processing circuit performs cut-out processing with respect to one frame of the captured image data, the cut-out processing including cutting out partial image data indicating an image of a part of the subject in the captured image data from a designated address in the memory, the output image data includes image data based on the partial image data that is cut out from the captured image data, and the first frame rate is a frame rate higher than the second frame rate.

An electronic component comprising: an electronic substrate that includes an electronic element and a first connection terminal a package member that is disposed on the electronic substrate; and a circuit member that includes a second connection terminal, wherein the circuit member is disposed between the package member and the electronic substrate, and extends from the position between the package member and the electronic substrate outward beyond the edge of the electronic substrate; the electronic component includes a connecting member that is disposed between the circuit member and the electronic substrate, and electrically connects the second connection terminal and the first connection terminal, an adhesive member that is disposed between the circuit member and the package member, and joins the circuit member to the package member; the connecting member, the circuit member, and the adhesive member are located between the package member and the electronic substrate.

A light emitting device comprising a plurality of pixels is provided. Each of the plurality of pixels includes a light emitting element, a first transistor having a drain region connected to the light emitting element, and a second transistor having a drain region connected to a gate electrode of the first transistor. The plurality of pixels include a first pixel and a second pixel, which are adjacent to each other in a first direction. A source region of the second transistor of the first pixel and a source region of the second transistor of the second pixel share one diffusion region, and a source region, a gate electrode, and the drain region of the first transistor of the first and second pixels are sequentially arranged in one of a positive direction and a negative direction in the first direction.

A light emitting apparatus comprising a plurality of pixels with different light emitting colors, each of the plurality of pixels includes a light-emitting element configured to emit light with one of at least three different light emitting colors, a driving transistor configured to supply a current to the light-emitting element in accordance with a voltage supplied to a gate, a write transistor configured to supply a signal voltage from a signal line to the gate of the driving transistor, and a capacitance at a connection portion between the driving transistor and the write transistor, wherein the capacitance is different for each light emitting color, and is larger in a pixel of a light emitting color in which a peak current flowing through the light-emitting element is larger.

An apparatus includes a calculation unit that calculates a plurality of defocus amounts corresponding to a plurality of focus detecting frames obtained by dividing an area corresponding to a display frame, and a selection unit that selects one focus detecting frame which corresponds to one defocus amount used for an AF control. The selection unit changes an AF operation for selecting the one focus detecting frame based on the number of low contrast frames to the number of focus detecting frames or based on reliability selected from part of the area and a ratio of focus detecting frames having a high reliability in the area, or performs an AF operation for selecting the one focus detecting frame so that a high contrast frame is prioritized over a low contrast frame.

An example electronic device includes a display; at least one sensor; at least one camera; and a processor operably connected to the display, the at least one sensor, and the at least one camera, wherein the processor executes an augmented reality (AR) application, obtains image data of surroundings of the electronic device by using the at least one camera, generates a 3D space coordinate system on the basis of the obtained image data, obtains a first input of selecting a 3D object, obtains a second input of selecting a first point on the display, maps the first point to a first coordinate of the 3D space coordinate system, generates a 3D path connecting the first coordinate of the 3D space coordinate system to a second coordinate of the 3D space coordinate system, on the basis of movement of the electronic device detected by the at least one sensor and movement of the second input on the display, and arranges the 3D object on a plurality of coordinates on the 3D path.

Video display systems comprising a video display and a camera assembly are shown and described. In one example, video cameras may be stowed in and deployed from a compartment proximate the upper surface of the display and configured to deploy in an arc-like motion and for rotation about a center of the video camera housing itself. In other examples, video cameras may be aligned with openings in the frame of the television screen and operatively connected to shutter plates that selectively admit light to or block light from the camera. In a further example, video cameras may be provided on motorized mounts that are attached to the frame to collect multiple images for video processing tasks to enhance the video image in a variety of ways.