Abstract:
An image capture apparatus according to the present invention includes: sequentially estimating a photographic scene; sequentially setting, based on the photographic scene sequentially estimated, a photographic scene that serves as a basis for judging a photographic condition; sequentially displaying, based on the photographic scene sequentially set, scene identification information indicating the photographic scene being set; and controlling, for each photographic scene, an update condition for determining an update timing of the photographic scene set by the scene setting unit or an update timing of the photographic scene displayed by the scene display unit, so that, with this configuration, it is possible to preferably set a timing or a condition relating to setting.
Abstract:
A low-resolution/high-framerate camera performs steady-basis imaging, and a server detects an area of a person, based on frame data from the low-resolution/high-framerate camera, and generates and outputs to a high-resolution/low-framerate camera imaging condition data. The high-resolution/low-framerate camera starts imaging based on the imaging condition data and outputs frame data to the server. The server performs trimming processing to extract from the frame data output from the high-resolution/low-framerate camera an area of a face of the person, recording of image data of the facial area, and sending of the image data to an external recognition device.
Abstract:
An image processing apparatus includes a processor which is an image processing processor that is configured to: perform beautiful skin processing, which is processing of beautifying a skin color, on a person portion included in an image, specify a first portion which is a skin color and is a non-makeup portion, and a second portion which is a skin color and a makeup portion, in the person portion of the image, acquire first skin color information which is information corresponding to the skin color of the specified first portion, and second skin color information which is information corresponding to the skin color of the specified second portion, and adjust the beautiful skin processing, on the basis of the acquired first skin color information and the acquired second skin color information.
Abstract:
An image processing device includes an acquirer which acquires a face image and a controller. The controller generates an image depicted by at least one of multiple kinds of parameter making up a color space on a basis of the face image acquired by the acquirer, detects a particular image region in the generated image by setting multiple sizes, and sets the detected image region as a region on which a designated processing is to be performed.
Abstract:
Determination is made whether or not a cross point coordinate of a zoom value and a degree of luminance belongs to the continuous imaging area of a two-dimensional coordinate plane. When the cross point coordinate is in a single imaging area, since the provability of shake occurrence is low, a first imaging processing is operated. In contrast, when the cross point coordinate is in the continuous imaging area, a shake correction flag representing the execution of the shake correction is set. A multiplane addition composition imaging is not performed uselessly under an imaging condition where the provability of shake occurrence is low. As a result, since the multiplane addition composition imaging is not performed without inevitability, it is possible to avoid a disadvantage that a useless addition processing is executed to thereby generate noise in a shot image stored in an image memory medium.
Abstract:
Determination is made whether or not a cross point coordinate of a zoom value and a degree of luminance belongs to the continuous imaging area of a two-dimensional coordinate plane. When the cross point coordinate is in a single imaging area, since the provability of shake occurrence is low, a first imaging processing is operated. In contrast, when the cross point coordinate is in the continuous imaging area, a shake correction flag representing the execution of the shake correction is set. A multiplane addition composition imaging is not performed uselessly under an imaging condition where the provability of shake occurrence is low. As a result, since the multiplane addition composition imaging is not performed without inevitability, it is possible to avoid a disadvantage that a useless addition processing is executed to thereby generate noise in a shot image stored in an image memory medium.