A dual sensor imaging system and an imaging method thereof are provided. The dual sensor imaging system includes at least one color sensor, at least one infrared ray (IR) sensor, a storage device, and a processor. The processor is configured to load and execute a computer program stored in the storage device to: identify an imaging scene of the dual sensor imaging system; control the color sensor and the IR sensor to respectively capture multiple color images and multiple IR images by adopting multiple exposure conditions suitable for the imaging scene; adaptively select a combination of the color image and the IR image that can reveal details of the imaging scene; and fuse the selected color image and IR image to generate a scene image with details of the imaging scene.

An image sensor module includes an image sensor, the image sensor module being configured such that the image sensor outputs a plurality of images and the plurality of images having a plurality of exposure times different from each other, a reference image selector circuit outputting reference image selection information for selecting a reference image, from among the plurality of images, based on a reference brightness value, and an image compressor circuit outputting a compression image data including at least one packing data and the reference image, based on the reference image selection information. The at least one packing data respectively corresponds to at least one remaining image other than the reference image, from among the plurality of images, and is generated based on a ratio of an exposure time of a corresponding image to an exposure time of the reference image.

A camera body includes an infrared LED that applies infrared light toward a face of a user that is a subject, and an infrared detection camera. The camera body determines a first irradiation amount of the infrared LED and a second exposure condition of the infrared detection camera in accordance with an LED OFF image acquired by capturing an image of the subject in a first exposure condition used by the infrared detection camera without the infrared light applied toward the subject, acquires the LED OFF image and acquires an image (LED ON image) of the subject irradiated with a first irradiation amount in image capture in a second exposure condition used by the infrared detection camera, and detect a face direction of the subject by using a difference image between these images.

Provided are a photographing method and device, a mobile terminal and a storage medium. The method includes: responsive to detecting a photographing instruction, continuously acquiring a target number of frames of images meeting a preset photographing parameter, the target number being N and determined by a mobile terminal based on a present photographing scenario and N being a positive integer; and determining a target image according to image quality of the N frames of images and outputting the target image. Through the method, the mobile terminal is more intelligent.

The present disclosure relates to a method of performing, by an image processing circuit, an inference operation comprising: capturing first and second images using first and second values respectively of an image capture parameter; generating, for a first region of the first and second images, first and second estimates respectively of an image quality metric, wherein the image quality metric is dependent on the value of the image capture parameter; calculating first and second distances between the first and second estimates respectively and first and second target levels respectively; and supplying a result of the inference operation performed on the first region of either the first or second image selected based on the first and second distances.

A system for efficiently generating SPAD imagery with persistence is configurable to capture an image frame, capture pose data associated with the capturing of the image frame, and access a persistence frame. The persistence frame includes a preceding composite image frame generated based on at least two preceding image frames. The at least two preceding image frames are associated with timepoints that precede a capture timepoint associated with the image frame. The system is configurable to generate a persistence term based on (i) the pose data, (ii) a similarity comparison based on the image frame and the persistence frame, or (iii) a signal strength associated with the image frame. The system is configurable to generate a composite image based on the image frame, the persistence frame, and the persistence term. The persistence term defines a contribution of the image frame and the persistence frame to the composite image.

A system for adding persistence to SPAD imagery is configurable to capture, using a SPAD array, a plurality of image frames. The system is configurable to capture, using an IMU, pose data associated with the plurality of image frames. The pose data includes at least respective pose data associated with each of the plurality of image frames. The system is configurable to determine a persistence term based on the pose data. The system is also configurable to generate a composite image based on the plurality of image frames, the respective pose data associated with each of the plurality of image frames, and the persistence term. The persistence term defines a contribution of each of the plurality of image frames to the composite image.

An optical processing apparatus and a light source luminance adjustment method adapted to detect a rotational displacement and a pressing state are provided. The optical processing apparatus includes a light source unit, a processing unit, and an image sensing unit, wherein the processing unit is electrically connected to the light source unit and the image sensing unit. The light source unit provides a beam of light. The processing unit defines a frame rate, defines a plurality of time instants within a time interval, and sets the light source unit to a luminance value at each of the time instants. A length of the time interval is shorter than the reciprocal of the frame rate. The luminance values are different and are within a range. The image sensing unit captures an image by an exposure time length at each of the time instants, wherein the exposure time lengths are the same.

An image processing apparatus that composites a plurality of images that have been captured with different exposure amounts, the image processing apparatus comprising at least one processor and/or circuit configured to function as following units: a specification unit configured to specify a signal value indicating an upper limit value of an output dynamic range with respect to at least one of the plurality of images; and a decision unit configured to decide on composition percentages of the plurality of images based on the signal value specified by the specification unit.

An apparatus includes an image sensor configured to capture a plurality of images, 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 whether a flicker has occurred, and combine the plurality of images into a combined image. If the flicker occurs, the image sensor captures the plurality of images through application of different gains by performing one exposure. If the flicker does not occur, the image sensor captures the plurality of images by performing a plurality of exposures.