Abstract: At least one image of a moving object is acquired using an image acquisition device equipped with an automatic focussing system. A distance between the object and the device when the effective acquisition of the image occurs is estimated based on the estimated speed and on the period of time separating a time of actuation triggering the process for acquiring the at least one image from the time of acquisition of the said effective acquisition, and the taking into account of the said distance by the automatic focussing system.

Abstract: An image device transfers charges of a previous frame from the holding units to the amplification units, during a read-out period of each frame, the read-out period includes a period in which a plurality of overflow transistors are in an on-state and a first period in which a plurality of photoelectric conversion units accumulate charges, and, during a second period following the first period, the plurality of photoelectric conversion units of the plurality of pixels accumulate charges while the plurality of holding units of the plurality of pixels hold the charges accumulated during the first period. During the first and second periods, each of the plurality of pixels performs a plurality of times of charge transfers from the photoelectric conversion unit to the holding unit. The plurality of times of charge transfers including a charge transfer performed at the end of the second period.

Abstract: A pixel cell has four maskless phase detection photodiodes sharing the same readout amplifier, microlens and filter color. The four photodiodes are configured to operate in two adjacent pairs wherein the two adjacent pairs of photodiodes are separated by a light guide and are positioned under the single microlens such that light incident in a first direction is collected in a first pair of photodiodes of the two adjacent pairs of photodiodes and light incident in a second direction is collected in a second pair of photodiodes of the two adjacent pairs of photodiodes. The microlens has a plano-convex shape which causes light to be incident in two directions on photodiodes positioned under each of two sides of the microlens.

Abstract: A method to test the fidelity of a depth-imaging camera to depth-change abruptness of an imaged subject includes digitally generating, with the depth-imaging camera, a machine-readable calibration depth image of a calibration subject arranged in a field of view of the depth-imaging camera. The method includes machine processing the calibration depth image in a spatial domain to obtain a machine-readable measure of the fidelity in the spatial domain, and machine processing the measure of the fidelity in the spatial domain to obtain a measure of the fidelity in a frequency domain.

Abstract: An electronic device is provided which includes a housing, a first camera module disposed on a first portion of the housing to face in a first direction, and having a first lens cover protruding in a convex shape from an outer surface of the housing, and a second camera module disposed on a second portion of the housing, which is positioned to be opposite to the first portion of the housing, to face in a second direction that is opposite to the first direction, and having a second lens cover protruding in a convex shape from an outer surface of the housing.

Abstract: An apparatus for illuminating a scene to be captured includes an illumination source configured to illuminate the scene; an adaptive optical element configured to be controlled to change an illumination in the scene by the illumination source; and a controller configured to determine an illumination pattern corresponding to the scene, and configured to control the adaptive optical element to change the illumination in the scene by the illumination source based on the determined illumination pattern.

Abstract: Aspects of present principles are directed to methods and apparatus for tone mapping a high dynamic range image. The apparatus includes a processor for performing the following and the method includes the following: obtaining a luminance component of the high dynamic range image; determining an HDR to HDR tone mapper curve; determining a tone compressed image by applying the HDR to HDR tone mapper curve to the luminance component of the high dynamic range image; wherein the HDR to HDR tone mapper curve comprises a first part for dark and mid-tone levels, and a second part for highlights.

Abstract: An image sensor includes a sensing layer for sensing a light beam and a number of pixel groups. Each of the pixel groups includes a yellow filter unit allowing a green light component and a red light component of the light beam to pass through, a green filter unit allowing the green light component of the light beam to pass through, and a blue filter unit allowing a blue light component of the light beam to pass through.

Abstract: An imaging device, comprising: at least one unit pixel cell; and a voltage application circuit that generates at least two different voltages, each of the at least one unit pixel cell comprising: a photoelectric conversion layer having a first surface and a second surface being on a side opposite to the first surface, a pixel electrode located on the first surface, an auxiliary electrode located on the first surface, the auxiliary electrode being separated from the pixel electrode and electrically connected to the voltage application circuit, an upper electrode located on the second surface, the upper electrode opposing to the pixel electrode and the auxiliary electrode, a charge storage node electrically connected to the pixel electrode, and a charge detection circuit electrically connected to the charge storage node.

Abstract: A photographing apparatus includes a position estimation unit and a photographing control unit. The position estimation unit is configured to use a long-term template of a target to be tracked and a short-term template of the target to be tracked, which are created from a past taken image, to estimate a position of the target to be tracked in a current taken image. The long-term template is a template updated at a longer interval, and the short-term template is a template updated at a shorter interval. The photographing control unit is configured to control photographing on the basis of the position estimated by the position estimation unit.

Abstract: An auto-focus method including at a same moment, collecting a first image of a first object using a first image shooting unit, collecting a second image of the first object using a second image shooting unit, calculating M pieces of first depth information of M same feature point pairs in corresponding areas in the first image and the second image, determining whether confidence of the M pieces of first depth information is greater than a threshold, obtaining focusing depth information according to N pieces of first depth information in the M pieces of first depth information when the confidence of the M pieces of first depth information is greater than the threshold, obtaining a target position of a first lens of the first image shooting unit according to the focusing depth information, and controlling the first lens to move to the target position.

Abstract: An imaging apparatus and method for multi-spectral imaging is described. The imaging apparatus includes an imaging element that takes an image of a subject, a multi-spectral filter that has a plurality of spectral filters dispersing incident light on the imaging element by predetermined wavelength regions, and a drive unit that drives the multi-spectral filter without stopping the individual spectral filters and continuously switches the spectral filters to cover an opening in the imaging element. The imaging apparatus detects whether a boundary between adjacent ones of the plurality of spectral filters included in the multi-spectral filter is in a position to block the opening in the imaging element, and performs signal processing for invalidating an image output from the imaging element in a period in which it is detected that the boundary between the spectral filters is in the position to block the opening in the imaging element.

Abstract: Provided are an imaging apparatus, a flicker detection method, and a flicker detection program that can accurately detect a flicker even in a case in which an image of a bright object is captured. A digital camera directs a MOS imaging element 5 to perform a plurality of imaging operations at an arbitrary frame rate and compares captured image signals which are read from the imaging element 5 for frame periods F1 and F2 based on the frame rate to detect whether a flicker has occurred. The end time of a signal reading period in the frame period F1 is before the end time of the frame period F1 and the end time of a signal reading period in the frame period F2 coincides with the end time of the frame period F2.

Abstract: A current mode sigma-delta modulator comprises an input node; a comparator that compares a voltage of the input node to a reference voltage and outputs a comparison result; an integrating capacitor connected to an input of the comparator; and a switched capacitor circuit connected at a first end to the input node, the input of the comparator, and the integrating capacitor, and connected at a second end to an output of the comparator. The current mode sigma-delta modulator is a component of an analog-to-digital converter.

Abstract: An imaging apparatus that records separately shot two images as one image file includes a clip image shooting mode that creates the one image file having one of the separately shot two images as a supplemental image of the other of the separately shot two images as a main image.

Abstract: Camera simulation is extended to multi-camera systems. One aspect relates combine computer-graphics, single-camera simulation, multi-camera image signal processor (ISP) are combined to simulate and optimize a multi-camera system. Scene modeling is performed using synthetic computer generated scenes. The computer-graphics images are generated, taking into account the camera-intrinsic and camera-extrinsic parameters.

Abstract: The description relates in particular to a method for temporal denoising of image sequences with the aid of at least two sensors of different types. The description also relates to an optronics device, a computer program and a storage medium for the implementation of such a method.

Abstract: A color preview image is generated, preferably in real-time, for a plenoptic imaging system. The raw plenoptic image has a structure containing superpixels and also contains different color channels. For a principal color channel, a center view is generated by determining the pixel value for a center view of the superpixel, i.e. at the centroid of the superpixel. For each of the other color channels, the ratio of that color channel to the principal color channel is calculated for each superpixel. A center view for each non-principal color channel is determined by multiplying the color ratios times the pixel values for the principal color center view. These center views for the principal and non-principal color channels are combined into a color preview image. The calculations preferably can be performed in real-time at video rates.

Abstract: An image pickup apparatus is capable of displaying a crop area and assist lines in a finder. The assist lines are displayed by one or more segments. A processor performs control to illuminate and to stop illuminating the segments, to display the assist lines only within the crop area while displaying the crop area, when displaying both of the crop area and the assist lines. Further, the processor performs control to illuminate and to stop illuminating the segments, not to display a line in proximity to the crop area among the assist lines.

Abstract: A photometric apparatus includes a photometry unit (AE sensor) configured to measure object light, and a first display unit (intra-viewfinder liquid crystal display unit) arranged on an optical path of the object light to the photometry unit and configured to display a plurality of display items. The first display unit is configured to display a first display item (automatic white balance) among the plurality of display items in a position farther from a center of a photometry range by the photometry unit than a position of a second display item (incandescent lamp display) having a display area smaller than a display area of the first display item.