A video image stabilization processing method and an electronic device are provided and related to the field of electronic technologies. The method includes: in a multi-view recording mode, cropping, by using a target object as a center, a video picture captured by a front-facing camera or a video picture with a large zoom ratio, to achieve picture stabilization; and compensating another video picture according to a motion feature of an electronic device, to achieve picture stabilization.

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.

The disclosure relates to a method for processing video data, apparatus, electronic equipment, and storage medium. The method for processing video data can include switching to a target anti-shake shooting mode in response to acquiring a switching operation in a video shooting interface; acquiring a video editing operation corresponding to the target anti-shake shooting mode; obtaining target video data by processing video data collected in real time based on the video editing operation; and outputting the target video data in the video shooting interface.

An image capture control apparatus includes reception unit configured to receive an instruction for ending recording of a moving image; and control unit configured to, when the instruction for ending is issued, perform control, in a case of a first shooting mode in which an image is displayed in a state being visible from a subject, to display an item for deleting a portion at a beginning or at an end of the moving image, in response to the instruction for ending, and to record the moving image to a recording medium in a state where the portion of the moving image has been deleted, and perform control, in a case of a second shooting mode, to not display the item, even when the instruction for ending has been given.

An indoor camera includes: an image capturing unit; a storage unit configured to store at least one detection area in association with stagnation times, the detection area that is a target area for detecting stagnation of a pet, and the stagnation times indicating the number of times when the pet enters the detection area and stagnates in the detection area; and a processor configured to detect a position of the pet and count the stagnation times of the pet in the detection area based on captured images. If determining, based on the captured images, that the pet stagnates in the detection area for a predetermined time period or longer, the processor increments and counts the stagnation times of the pet in the detection area and generates an action log including identification information of the detection area and information on the stagnation times.

A indicator is moved from a first position based on a line-of-sight input to a second position according to a moving operation performed on an operating member that receives a user operation different from the line-of-sight input, (a) calibration of an input position in accordance with the line of sight, on a basis of the first position and the second position, is not performed in a case where an instruction operation for executing specific processing at a position of the indicator is not performed, and (b) calibration of the input position in accordance with the line of sight is performed on a basis of the first position and the second position in a case where an instruction operation for executing the specific processing is performed in a state in which there is no additional moving operation, and a specific condition is satisfied.

The present disclosure relates to an imaging system, a control method, and a program that make it possible to implement setting for an external flash by an operation on a camera side. Setting coordination processing is executed in which: setting information of an external flash (13) is transmitted and received between a first communication unit (67A) and a second communication unit (47); a second display unit is caused to display a setting screen to be used for setting a setting item of the external flash; and the setting information changed by an operation on the second operation unit is caused to be transmitted from the imaging device (12) to the external flash (13) via the first communication unit (67A) and the second communication unit (47), and a setting for the external flash (13) is caused to be applied. The present technology can be applied to, for example, an imaging system (11) including an external flash (13) and an imaging device (12).

An electronic device and a controlling method thereof are provided. The electronic device includes a memory, a first camera including a first image sensor and at least one processor, and the at least one processor obtains a plurality of image frames by photographing surroundings of the electronic device through the first camera, sets a region of interest (ROI) on the plurality of image frames, obtains a motion identification map corresponding to each of the plurality of image frames and select at least one image frame from among the plurality of image frames based on the obtained motion identification map, identifies whether there is a motion of an object on the ROI set on the selected at least one image frame, and performs a Super Slow Motion (SSM) function through the first camera based on a result of the identification.

An image processing apparatus that can easily change the categories of the main object, comprises, an object detection unit for detecting an object categorized as one of at least two categories from an image, a setting unit for setting a first category as a priority category on an object having a predetermined priority among one of the objects detected by the object detection unit; and a region designation unit for designating a predetermined region on an object on a display screen, wherein the setting unit can change the priority category from the first category to a second category different from the first category when the predetermined region of the object designated by the region designation unit is the second category.

A method for an apparatus includes setting, as a first setting, a first item relating to a type of a detection target, setting, as a second setting, a second item relating to an AF area, executing object detection processing on an object of the type set in the first setting, executing focus detection processing based on information about the AF area set in the second setting, and storing the settings as a combination of the set first item and the set second item, wherein the stored settings are called by a user through a specific operation, and the object detection processing and the focus detection processing are executed based on the called settings.