Abstract: A photographing method and apparatus are provided. The photographing method includes: identifying a photographing distance and a photographing angle with respect to the external device based on timings of signals transmitted and received through a communication connection; acquiring a scene image based on an output of a camera of the photographing device; identifying a current composition model based on the photographing distance, the photographing angle and the scene image; acquiring a set of photographing parameters that are associated with the current composition model; identifying a focal length based on the photographing distance and the current composition model; displaying a preview image based on the output of the camera, the photographing parameter and the current composition model; outputting the preview image as a photographing result based on a photographing instruction; and updating the set of photographing parameters based on the photographing parameter.

Abstract: An electronic image stabilization (EIS) method includes: obtaining video frames derived from an output of an image sensor, wherein each of the video frames has a full field of view (FOV) of the image sensor; obtaining motion information of the video frames; dynamically estimating, by a processing circuit, EIS margins according to FOV variation of a plurality of cropped images within the video frames respectively; and applying stabilization correction to the cropped images according to the motion information and the EIS margins, to generate a plurality of stabilized images.

Abstract: The present disclosure provides an image display method, a mobile terminal, and a non-transitory computer-readable storage medium. The method includes: acquiring a target image in a preview picture in response to a photographing instruction; and displaying the target image at a present position on a screen of the mobile terminal, and increasing a size of the target image from a first size to a second size during the displaying.

Abstract: The disclosed imaging device includes pixels each including a photoelectric convertor, a focus controller controlling a focal position of light, and a pixel controller controlling charge accumulation in the photoelectric convertors and readout of signals from the pixels. The pixels include a first pixel outputting signal corresponding to light in a first wavelength band and a second pixel outputting signal corresponding to light in a second wavelength band. The pixel controller executes, during one frame, a first period of accumulating charge in the photoelectric convertor of the first pixel in a state that the light in the first wavelength band is focused on, a second period of accumulating charge in the photoelectric convertor of the second pixel in a state that the light in the second wavelength band is focused on, and a third period of reading out signals corresponding to amount of charge generated in the photoelectric convertors.

Abstract: Proposed is an information processing device, an information processing method, and an information processing program capable of improving convenience of a user regarding photographing performed for calculating a head-related transfer function. An information processing device according to the present disclosure includes: a determination unit that determines whether or not the size of an area occupied by a side face of a user in a photographing area is within a threshold value; a photographing unit that photographs the side face of the user in a case where it is determined that the size of the area occupied by the side face of the user is within the threshold value; and a photographing control unit that presents a function of manually photographing to the user in a case where the side face of the user has not been photographed within a predetermined period.

Abstract: Image capture devices and methods may use field variable tone mapping for 360 content. An image capture device may comprise an image sensor and a processor. The image sensor may capture a hyper-hemispherical image that includes an image circle portion. The processor may perform local tone mapping (LTM) on a first area of the image circle portion and perform global tone mapping (GTM) on a second area of pixels of the image circle portion. The GTM may be performed on a condition that a portion of a predefined area of pixels overlaps with a stitch line. The processor may be configured to stitch the hyper-hemispherical image and a second hyper-hemispherical image at the stitch line to obtain a processed image. The processor may be configured to display, store, output, or transmit the processed image.

Abstract: Provided herein may be an image sensing device and a method of operating the same. The image sensing device may include an image sensor configured to acquire an image including a plurality of pixel values, a memory configured to store reference gain values of each of a plurality of block areas included in the image, and an image processor configured to calculate gain values included in each of the plurality of block areas using the reference gain values and to output a correction image in which the reference gain values and the gain values are applied to the plurality of pixel values, wherein the block areas include a first block area and a second block area having a shorter distance from a center of the image than the first block area and having a size greater than that of the first block area.

Abstract: A terminal having a camera and a method of processing an image in the camera are disclosed. The method includes collecting, using a camera, a user image captured at a user focal length and a link image captured at a selective focal length, and storing the user image and the link image by linking the link image with the user image. Using this method, a user can capture a subject and circumstances around the subject when the image is captured.

Abstract: An image recording apparatus includes a recording control unit that records a captured image acquired by the camera image acquisition unit in an image file for each of front cameras, and the degree-of-importance determination unit that determines a degree of importance of each of the plurality of image files. The recording control unit continues to record the captured image in a first image file, and executes close processing on the first image file at a timing based on a recordable duration time during which the captured image is continuously recorded in the first image file as an image file having the highest degree of importance when an electric power supply from a main power unit is cut off and the electric power supply source is switched by an electric power supply source switching unit.

Abstract: Provided are a vision sensor, an image processing device including the same, and an operating method of the vision sensor. The vision sensor includes a pixel array including a plurality of pixels, a synchronization control module configured to receive a synchronization signal from an external image sensor and generate an internal trigger signal based on the synchronization signal, an event detection circuit configured to receive the internal trigger signal and detect whether an event has occurred in the plurality of pixels and generate event signals corresponding to pixels in which the event has occurred, and an interface circuit configured to receive the event signals and transmit to an external processor vision sensor data based on the trigger signal and at least one of the event signals, where the vision sensor data includes matching information for timing image frame information generated by the image sensor and the event signals generated by the vision sensor.

Abstract: An optical element driving mechanism is provided. The optical element driving mechanism includes a fixed part, a movable part, a driving assembly, and a positioning assembly. The movable part is movably disposed on the fixed part. The movable part is connected to an optical element. At least a portion of the driving assembly is disposed on the fixed part. The positioning assembly is disposed on the fixed part or the movable part to limit the movable part at an extreme position relative to the fixed part.

Abstract: A camera module includes a lens driving device having a housing, a first circuit board disposed below the housing, a filter disposed on an upper surface of the first circuit board, a second circuit board disposed below the first circuit board, an image sensor disposed on the second circuit board and coupled to a lower surface of the first circuit board, and a first adhesive member disposed between the lower surface of the first circuit board and an upper surface of the second circuit board, and electrically connecting the first circuit board and the second circuit board. A lower surface of the image sensor is higher than the upper surface of the second circuit board.

Abstract: Various embodiments include a camera having one or more bumper arrangements to cushion lateral movement of one or more camera components. In some embodiments, the bumper arrangement(s) may cushion lateral movement of a moveable platform as the moveable platform approaches a stationary structure. According to some embodiments, the bumper arrangement(s) may include one or more bumper features attached to (and/or defined by) the moveable platform and/or the stationary structure.

Abstract: A method of operating an electronic device includes displaying a preview image in response to execution of a camera application, extracting feature information from the preview image, converting user input to an input value in response to the user input generated on the preview image, setting a depth based on the feature information and the input value, and generating a result image in accordance with the depth in response to execution of an imaging operation.

Abstract: An image capturing mechanism is provided, including a base module, a ball element, and a movable module. The base module has a frame, a substrate movably disposed in the frame, and an image sensor disposed on the substrate. The ball element is disposed between the frame and the substrate, whereby the image sensor and the substrate are movable relative to the frame. The movable module is configured to hold an optical element and is movably connected to the base module.

Abstract: A remote control device for generating setting signals for a lens setting motor of a motion picture camera comprises a base part and an operating element rotatable relative to the base part for setting control commands for the lens setting motor; a position encoder for detecting a respective rotational position of the operating element and generating corresponding position signals; an evaluation and control device that is configured to determine setting signals for the lens setting motor in dependence on the position signals in accordance with a mapping rule; and an output device for transmitting the setting signals to the motion picture camera. In this respect, the mapping rule corresponds to at least one mathematical functional relationship and the remote control device has an input device via which the mathematical functional relationship can be configured by user input. A marking ring for a remote control device has a memory in which a readable coding is stored.

Abstract: A non-uniformity correction (NUC) calibration method comprises obtaining image data for a plurality of images with an image sensor, wherein each image in the plurality of images is obtained at a different respective global pixel gain setting and global expose in the image sensor; and using the image data for non-uniformity correction calibration to compute pixel NUC values for the pixels in the image sensor. The method can further include storing the pixel NUC values and obtaining further image data corrected by the stored pixel NUC values. In embodiments, the method can include moving a platform based on the further image data. In certain embodiments, the platform can be a guided munition.

Abstract: A shooting method that includes: adjusting a sound volume of a collected sound according to a focusing distance in the image collection process, and displaying volume information corresponding to the sound volume on an image preview interface.

Abstract: A gimbal photographing device includes a fuselage; a folding mechanism, connected to the fuselage; and a gimbal camera, connected to the folding mechanism. The gimbal camera is foldable and unfoldable relative to the fuselage via the folding mechanism. A power switch is disposed on the fuselage. The folding mechanism includes a base connected to the gimbal camera. When the gimbal camera is unfolded relative to the fuselage, the base is configured to abut against the power switch to turn on the gimbal photographing device.

Abstract: A method for displaying a preview image, includes: obtaining a real-time image collected by an imaging device of a mobile terminal without turning on a flashlight; determining at least one target area in the real-time image; determining a distance between the mobile terminal and an entity corresponding to each of the at least one target area; determining a brightness enhancement degree for each of the at least one target area respectively according to the distance corresponding to each of the at least one target area and a flashlight parameter of the mobile terminal; and performing brightness enhancement on each of the at least one target area respectively according to the brightness enhancement degree for each of the at least one target area, and displaying the brightness-enhanced real-time image as a preview image.