An apparatus includes an image sensor configured to capture a plurality of images different in in-focus position, at least one memory configured to store instructions, and at least one processor in communication with the at least one memory and configured to execute the instructions to determine a predetermined value of exposure in advance, control exposure so that the image sensor captures the plurality of images with the exposure less than the predetermined value, and correct brightness of at least a part of the plurality of images based on the predetermined value.

A method for processing images by an information handling system includes receiving image data including first frames captured using a first exposure at a first frame rate and second frames captured using a second exposure at a second frame rate. The first frame rate is greater than the second frame rate. The method includes merging each second frame of the second frames with each first frame of a corresponding plurality of the first frames to generate a corresponding plurality of merged frames. Each merged frame of the corresponding plurality of merged frames may have a dynamic range of tonal values greater than each dynamic range of tonal values of each frame merged to form the merged frame.

Provided are an image zooming method and an image zooming apparatus for optical zooming by using a plurality of lenses with different focal lengths. The image zooming method includes capturing an identical scene via a plurality of lenses; obtaining a first image and a second image of the identical scene that have different resolving powers; determining a first area of the first image and a second area of the second image which corresponds to the first area; and generating a composite image the second area and a remaining area of the first image from which the first area is excluded.

A “Best of Burst Selector,” or “BoB Selector,” automatically selects a subjectively best image from a single set of images of a scene captured in a burst or continuous capture mode, captured as a video sequence, or captured as multiple images of the scene over any arbitrary period of time and any arbitrary timing between images. This set of images is referred to as a burst set. Selection of the subjectively best image is achieved in real-time by applying a machine-learned model to the burst set. The machine-learned model of the BoB Selector is trained to select one or more subjectively best images from the burst set in a way that closely emulates human selection based on subjective subtleties of human preferences. Images automatically selected by the BoB Selector are presented to a user or saved for further processing.

Systems and methods for high dynamic range imaging using array cameras in accordance with embodiments of the invention are disclosed. In one embodiment of the invention, a method of generating a high dynamic range image using an array camera includes defining at least two subsets of active cameras, determining image capture settings for each subset of active cameras, where the image capture settings include at least two exposure settings, configuring the active cameras using the determined image capture settings for each subset, capturing image data using the active cameras, synthesizing an image for each of the at least two subset of active cameras using the captured image data, and generating a high dynamic range image using the synthesized images.

Embodiments are directed to an electronic device including a camera module capturing a video, a memory, and a processor sequentially storing, in the memory, each of a plurality of frames respectively focused during the video capture on a plurality of frame areas selected from the video.

An example method includes determining, by a controller of an image capture system, a plurality of sets of exposure parameter values for one or more exposure parameters. The plurality of sets of exposure parameter values are determined at an exposure determination rate. The method further includes capturing, by an image capture device of the image capture system, a plurality of images. Each image of the plurality of images is captured according to a set of exposure parameter values of the plurality of sets of exposure parameter values. The method also includes sending, by the controller of the image capture system to an image processing unit, a subset of the plurality of images. Each subset of images is sent at a sampling rate, and the sampling rate is less than the exposure determination rate.

Wireless chargers for cameras include a body, a power circuit in the body, a charging coil connected to the body, the charging coil electrically connected to the power circuit, and the charging coil operable to generate a current in response to positioning adjacent to the wireless charger. The body may include a lens mount configured to receive interchangeable lenses, and the charging coil may be on a body surface opposite the lens mount. The body may include a display, and the charging coil may underly the display. The charging coil may be registered with a periphery of the display. The body may have a forward side including a lens, and a rear side including a display, and the charging coil may be proximate the rear side.

Wireless chargers for cameras include a body, a power circuit in the body, a charging coil connected to the body, the charging coil electrically connected to the power circuit, and the charging coil operable to generate a current in response to positioning adjacent to the wireless charger. The body may include a lens mount configured to receive interchangeable lenses, and the charging coil may be on a body surface opposite the lens mount. The body may include a display, and the charging coil may underly the display. The charging coil may be registered with a periphery of the display. The body may have a forward side including a lens, and a rear side including a display, and the charging coil may be proximate the rear side.

Various systems and methods for an all-in-focus implementation are described herein. A system to for operating a camera, comprising an image sensor in the camera to capture a sequence of images in different focal planes, at least a portion of the sequence of images occurring before receiving a signal to store an all-in-focus image, a user interface module to receive, from a user, the signal to store an all-in-focus image, and an image processor to fuse at least two images to result in the all-in-focus image, wherein the at least two images have different focal planes.