First and second images are captured at first and second focal lengths, the second focal length being longer than the first focal length. Element sets are defined with a first element of the first image and a corresponding second element of the second image. Element sets are identified as background if the second element thereof is more in-focus than or as in-focus as the first element. Background elements are subtracted from further analysis. Comparisons are based on relative focus, e.g. whether image elements are more or less in-focus. Measurement of absolute focus is not necessary, nor is measurement of absolute focus change; images need not be in-focus. More than two images, multiple element sets, and/or multiple categories and relative focus relationships also may be used.

A phase filter 101 is configured to comprise an annular structure rotationally symmetrical about an optical axis, each annular zone including a cross-sectional shape of substantially parabola for uniformly extending incident rays of light on a focal plane and letting the rays overlap with each other.

Image processing device and method for processing images captured at different times. The method may comprise determining a location of a first area in a first image, determining in a second image captured at a different time than the first image, a location of a second area, wherein the first area and the second area include a same object, and determining a new background area in the second image based on the location of the first area and the location of the second area, wherein the new background area includes a portion of the second image included in the first area but not included in the second area.

A method and a device, such as an imaging device, for image processing for automatic detection of focus area are disclosed herein. In accordance with an embodiment, the device for image processing is the imaging device that is configured to extract a plurality of object features of a plurality of objects in a field-of-view (FOV) of the imaging device. A plurality of confidence maps are generated based on the extracted plurality of object features. The imaging device is further configured to determine a focus area corresponding to the FOV, based on the generated plurality of confidence maps by use of a pre-determined rule.

A camera system for providing images with simultaneous high resolution and large depth of field is provided. The system includes: a camera device having a field of view, the camera device configured to automatically acquire: a first image of the field of view at a first numerical aperture; and a second image of the field of view at a second numerical aperture smaller than the first numerical aperture; an image processing unit configured to combine the first image with the second image into a single image by: extracting a higher-resolution in-focus portion of the first image; and replacing a corresponding lower-resolution portion of the second image with the higher-resolution in-focus portion of the first image; and, a display device in communication with the image processing unit, the display device configured to render the single image.

An image preview method, apparatus, and terminal are disclosed to provide a technical solution in which a background blurring effect with respect to a current scene can be previewed in real time. A terminal device synchronously obtains preview images of a current scene from different angles in a dual-camera photographing preview mode by using a dual-camera module, calculates, in the preview images based on a phase difference generated by a distance and an angle of the dual-camera module, a depth of field of each pixel unit included in a preview image, obtains a foreground depth of field of a preset target area in the preview image, and determines, in the same preview image, an area including all pixel units having a depth of field beyond a range as a background area. The terminal device also performs blurring processing on the background area by using a preset blur coefficient, and outputs an image including the target area and a blurring-processed background area as a real-time preview image of the current scene.

A camera array, an imaging device and/or a method for capturing image that employ a plurality of imagers fabricated on a substrate is provided. Each imager includes a plurality of pixels. The plurality of imagers include a first imager having a first imaging characteristics and a second imager having a second imaging characteristics. The images generated by the plurality of imagers are processed to obtain an enhanced image compared to images captured by the imagers. Each imager may be associated with an optical element fabricated using a wafer level optics (WLO) technology.

An image processing apparatus includes a memory that stores instructions and a processor that executes the instructions to cause the image processing apparatus to function as a refocused-image generating unit generating a refocused image having a focus position changed by using image data including information indicating a direction and an intensity of a light beam entered from an object, and a depth-of-field setting unit setting a depth of field of the refocused image to be used for reproduction of a moving image based on a type of reproduction mode relating to the reproduction of the moving image.

A dual-aperture zoom digital camera operable in both still and video modes. The camera includes Wide and Tele imaging sections with respective lens/sensor combinations and image signal processors and a camera controller operatively coupled to the Wide and Tele imaging sections. The Wide and Tele imaging sections provide respective image data. The controller is configured to combine in still mode at least some of the Wide and Tele image data to provide a fused output image from a particular point of view, and to provide without fusion continuous zoom video mode output images, each output image having a given output resolution, wherein the video mode output images are provided with a smooth transition when switching between a lower zoom factor (ZF) value and a higher ZF value or vice versa, and wherein at the lower ZF the output resolution is determined by the Wide sensor while at the higher ZF value the output resolution is determined by the Tele sensor.

An image processing apparatus is provided that includes an acquisition unit configured to acquire a plurality of viewpoint images having different viewpoint; a calculation unit configured to calculate associated information associated with parallax from the plurality of viewpoint images; an image processing unit configured to generate an output image by performing an image process on image data based on the plurality of viewpoint images; a setting unit configured to set the image process using the image processing unit; and a determination unit configured to acquire the associated information, determine an effect of the image process for each area in the output image, and output the determination result.