This application discloses an electronic device and a camera module thereof. The camera module includes a photosensitive chip, a first lens, a second lens, and a plurality of reflective members, where the photosensitive chip is a Bayer array sensor, the photosensitive chip includes a plurality of pixel regions arranged in rows and columns, each pixel region includes four sub pixel regions, fields of view of the first lens and the second lens are the same, and both the first lens and the second lens fit the photosensitive chip by using the plurality of reflective members; and a first image is generated through a first sub pixel region of the photosensitive chip based on light incident from the first lens, a second image is generated through a second sub pixel region of the photosensitive chip based on light incident from the second lens.

This application discloses an electronic device and a camera module thereof. The camera module includes a photosensitive chip, a first lens, a second lens, and a plurality of reflective members, where the photosensitive chip is a Bayer array sensor, the photosensitive chip includes a plurality of pixel regions arranged in rows and columns, each pixel region includes four sub pixel regions, fields of view of the first lens and the second lens are the same, and both the first lens and the second lens fit the photosensitive chip by using the plurality of reflective members; and a first image is generated through a first sub pixel region of the photosensitive chip based on light incident from the first lens, a second image is generated through a second sub pixel region of the photosensitive chip based on light incident from the second lens.

An electronic device and a camera apparatus are provided. The camera apparatus includes a lens, a driving member, and a photosensitive chip. The photosensitive chip is a Bayer array sensor. The photosensitive chip includes a plurality of pixel regions arranged in rows and columns, and each pixel region includes four pixel sub-regions. The photosensitive chip is connected to the driving member, and the driving member is configured to drive the lens to move between a first position and a second position relative to the lens. When the photosensitive chip is in the first position, light incident from the lens forms a first image in a first pixel sub-region of the photosensitive chip. When the photosensitive chip is in the second position, light incident from the lens forms a second image in a second pixel sub-region of the photosensitive chip.

An electronic device and a camera apparatus are provided. The camera apparatus includes a lens, a driving member, and a photosensitive chip. The photosensitive chip is a Bayer array sensor. The photosensitive chip includes a plurality of pixel regions arranged in rows and columns, and each pixel region includes four pixel sub-regions. The photosensitive chip is connected to the driving member, and the driving member is configured to drive the lens to move between a first position and a second position relative to the lens. When the photosensitive chip is in the first position, light incident from the lens forms a first image in a first pixel sub-region of the photosensitive chip. When the photosensitive chip is in the second position, light incident from the lens forms a second image in a second pixel sub-region of the photosensitive chip.

An electronic device and a photographing module thereof are provided. The photographing module includes a lens, a driving element, and a photosensitive chip, where the photosensitive chip is a Bayer array sensor, the photosensitive chip includes a plurality of sub-pixel regions, each sub-pixel region includes a filtering sub-layer and a photosensitive sub-layer, the photosensitive chip includes a photosensitive layer and a filtering array layer, and the driving element is capable of driving the filtering array layer to switch between a first position and a second position.

An electronic device and a photographing module thereof are provided. The photographing module includes a lens, a driving element, and a photosensitive chip, where the photosensitive chip is a Bayer array sensor, the photosensitive chip includes a plurality of sub-pixel regions, each sub-pixel region includes a filtering sub-layer and a photosensitive sub-layer, the photosensitive chip includes a photosensitive layer and a filtering array layer, and the driving element is capable of driving the filtering array layer to switch between a first position and a second position.

An electronic device includes at least one processor and a memory functionally connected to the at least one processor, where the memory can store instructions so that, when executed, the at least one processor acquires a first image, acquires a second image by applying a visual effect to the first image, acquires a third image by reversely applying the visual effect to the second image, acquires, on the basis of the first image and the third image, reconstruction information for reconstructing the first image and stores, in the memory, the second image, information about the visual effect and the reconstruction information.

A method for image enhancement includes capturing multiple input images of a scene, including at least a first input image having a first field of view (FOV) captured with a first focal depth and a second input image having a second FOV captured with a second focal depth. The input images in the sequence are preprocessed so as to align the images. The aligned images are processed in a neural network, which generates an output image having an extended depth of field encompassing at least the first and second focal depths.

A method for image enhancement includes capturing multiple input images of a scene, including at least a first input image having a first field of view (FOV) captured with a first focal depth and a second input image having a second FOV captured with a second focal depth. The input images in the sequence are preprocessed so as to align the images. The aligned images are processed in a neural network, which generates an output image having an extended depth of field encompassing at least the first and second focal depths.

Provided by the present disclosure are an image acquisition device, an image acquisition apparatus, an image acquisition method and a manufacturing method. The image acquisition device includes: image sensing member groups each including a plurality of image sensing members, and each image sensing member includes a photosensitive assembly with photosensitive components, and a lens assembly covering a photosensitive side of the photosensitive assembly; and shielding portions corresponding to the photosensitive components in a one-to-one correspondence. Each image sensing member group corresponds to a photography depth, and the plurality of image sensing member groups correspond to a plurality of photography depths. For the plurality of image sensing member groups at least one of following is included: the arrangement modes of the image sensing members in the image sensing member groups are different, and camera intrinsic parameters of the image sensing members in the image sensing member groups are different.