An electronic device is provided. The electronic device includes a camera module, a first display, a second display, and at least one processor. The at least one processor may be configured to display a first screen and a second screen for displaying at least one function of a camera application on the first display facing in a first direction and the second display facing in a second direction opposite to the first direction, respectively, wherein at least one of the first screen or the second screen includes an image obtained through the camera module, identify a first input for selecting a first function of the camera application through the first screen, identify a second input related to a subject's gaze or gesture in a state in which the first function of the camera application is selected through the first screen, and display, on the second screen, in a state in which the first function of the camera application is selected through the first screen, an indication indicating that selection of the first function by the second input related to the subject's gaze or gesture is restricted.

An information processing apparatus obtains a plurality of processing steps concerning a work in installation or operation of a system including a plurality of apparatuses, and progress statuses of the plurality of processing steps, and causes a display unit to display a screen including information representing the plurality of processing steps and the progress statuses of the plurality of processing steps.

A camera has two or more color elements that are removable and replaceable. The color elements may include a lens, a color filter with a filter data interface, and an image sensor. A security processor includes a private key, firmware, and has storage room for one or more vegetation indices. The security processor securely decrypts, stores, and uses the indices. Firmware checks license terms and installed filters required in a selected index, and analyzes images based on a formula in the index, thresholds for the index value, and thresholds for an object's height above ground level. A positioning receiver (e.g. GPS) determines time and position, which the firmware uses for the license check and for the height AGL calculation. Differences in camera position allow determining a parallax calculation on correlated groups of pixels. The camera provides on-the-fly analysis, and tags and stores images for which alert conditions are met.

The present disclosure generally relates to user interfaces for adjusting simulated image effects. In some embodiments, user interfaces for adjusting a simulated depth effect is described. In some embodiments, user interfaces for displaying adjustments to a simulated depth effect is described. In some embodiments, user interfaces for indicating an interference to adjusting simulated image effects is described.

A user interface of an image capture device may provide options for a user to schedule future capture of visual content by the image capture device. The user may interact with the options to specify the start time and the capture duration for the future capture of visual content. Information on scheduled future capture of visual content may be presented on one or more displays.

An information processing apparatus includes a processor that performs arithmetic processing of a neural network, and a controller that is capable of setting, in the processor, a first inference parameter to be applied to processing for shooting control for shooting an image and a second inference parameter to be applied to processing for processing control of the image. The controller switches the first inference parameter having been set in the processor to the second inference parameter in response to settlement of a focus target.

A shooting method includes: obtaining a preview image collected by an image collection device; detecting a first relative distance and a first relative angle between a foreground of the preview image and the image collection device, and detecting a second relative distance and a second relative angle between a background of the preview image and the image collection device; determining a target shooting position of the image collection device based on the first relative distance, the first relative angle, the second relative distance and the second relative angle, wherein a picture obtained by shooting the foreground and the background at the target shooting position has a composition that matches with a set composition strategy; and displaying a prompt message about the target shooting position for prompting the image collection device to move to the target shooting position.

An electronic device includes a movable assembly. An optical proximity sensor is disposed on the movable assembly. The movable assembly may be spaced from a fixed assembly on the electronic device, and the movable assembly can move on a plane that is disposed in parallel relative to the fixed assembly. A light intensity of light that is from the optical proximity sensor and that is reflected by the fixed assembly may reflect a position of the movable assembly relative to the fixed assembly. Whether the movable assembly moves to a specified target position may be determined based on the light intensity of the light that is reflected by the fixed assembly and that is detected by the optical proximity sensor.

An image evaluation apparatus comprises an image capturing device configured to include a blur correction function, a vibration control unit configured to vibrate the image capturing device based on an input waveform, a vibration detection unit that detects the vibration of the image capturing unit, a memory storing instructions, and a processor executing the instructions causing the image evaluation apparatus to compare the input waveform with the waveform of the vibration detection result that was detected by the vibration detection unit, and perform a captured image evaluation that is an evaluation of the blur correction function based on a captured image result of a subject by the image capturing device, wherein the processor performs captured image evaluation in a case in which it has been determined that the difference of the waveform of the vibration detection result with respect to the input waveform is within a predetermined range.

A video distribution apparatus (corresponding to an information processing apparatus) is provided with a light emitting diode (LED) (a tally lamp) for indicating whether a video is selected as a video being distributed or a video in a standby state by a switcher, which receives the video. In a case where a control command is received from an infrared remote controller (corresponding to an external device), the video distribution apparatus determines whether the LED (the tally lamp) is in an ON state or an OFF state. In a case of the ON state, the video distribution apparatus disables a control command from the infrared remote controller. In a case of the OFF state, the video distribution apparatus performs processing according to the control command from the infrared remote controller.