Abstract: A characteristic image display apparatus including a controller that comprises a band-like image creation section configured to create a single-color small image according to characteristics of an object in a captured image. The band-like image creation section incorporates the single-color small image created according to the characteristics of the object in the captured image into a plurality of small images created on the basis of the captured image, so as to create a band-like image in which a plurality of small images are arranged.

Abstract: A manufacturing device holds a lens unit on a Z axis that is orthogonal to a chart surface of a measurement chart, holds an image pickup element unit on the Z axis, picks up an image of the measurement chart by an image pickup element while changing a Z-axis direction position of the image pickup element unit held on the Z axis in a state in which current is applied to a second lens drive unit and a third lens drive unit of the lens unit held on the Z axis, adjusts the position and a tilt of the image pickup element unit relative to the lens unit on the basis of image pickup signals that are obtained in the case where the image of the measurement chart is picked up, and fixes the image pickup element unit to the lens unit.

Abstract: An imaging device comprises a number of light sources, a camera, a processor and a platen. As an object is moved over the platen each of the light sources illuminates the platen sequentially, with the principal axis of illumination of each light source intersecting the plane of the platen at a different place. The camera captures a series of images of the object, each captured image corresponding to the illumination of the platen by a different light source. The processor then generates a composite image from the series of images that compensates for the reflection of light from the platen associated with the principal axis of illumination.

Abstract: Methods and apparatus for supporting zoom operations using a plurality of optical chain modules, e.g., camera modules, are described. Switching between use of groups of optical chains with different focal lengths is used to support zoom operations. Digital zoom is used in some cases to support zoom levels corresponding to levels between the zoom levels of different optical chain groups or discrete focal lengths to which optical chains may be switched. In some embodiments optical chains have adjustable focal lengths and are switched between different focal lengths. In other embodiments optical chains have fixed focal lengths with different optical chain groups corresponding to different fixed focal lengths. Composite images are generate from images captured by multiple optical chains of the same group and/or different groups. Composite image is in accordance with a user zoom control setting. Individual composite images may be generated and/or a video sequence.

Abstract: Provided is an image processing method, an image processing apparatus, and the like according to which the influence of moiré can be suppressed without incurring a decrease in image resolution. An image is captured in a state in which moiré, which appears when capturing an image in-focus, has appeared, a first image is generated by removing a spatial frequency component corresponding to the moiré from the captured image using a high-pass filter, an image is captured out-of-focus by the camera, a second image is generated by applying a low-pass filter to the captured image, and a third image in which the moiré is eliminated or suppressed is generated by compositing the first image and the second image.

Abstract: An image system is provided. The system comprises: a pixel unit configured to have a plurality of pixels, each of the plurality of pixels including at least a white pixel; a crosstalk amount calculating unit configured to calculate an evaluation value of crosstalk amount included in an output signal from a pixel to be corrected in the pixel unit; a crosstalk correction coefficient calculating unit configured to calculate a crosstalk correction coefficient based on the evaluation value output from the crosstalk amount calculating unit; and a crosstalk correcting unit configured to eliminate crosstalk amount included in the output signal of the pixel to be corrected, using the crosstalk correction coefficient.

Abstract: The type of lens attached to the lens attaching portion is determined. In a case of the multiple-property lens being attached to the lens attaching portion, a plurality of images corresponding to the plurality of areas is generated. In a case of the typical lens being attached thereto, one image is generated from imaging signals of all pixels of the directional sensor. In the case of the multiple-property lens being attached to the lens attaching portion, performed is correction of removing, from an image generated in correspondence with one area of the plurality of areas, influence of a luminous flux passing an area other than the one area. In the case of the typical lens being attached thereto, a difference in sensitivity for each pixel of a plurality of types of pixels is corrected.

Abstract: Image transport includes receiving, at an accessory camera device, an asynchronous operation request from an electronic device for a first quantity of image data, determining, by the accessory camera device, a second quantity of image data that the accessory camera device is capable of transmitting to the asynchronous operation request, transmitting an indication of the second quantity of image data to the electronic device, and sending a response comprising the second quantity of image data to the electronic device.

Abstract: The present invention relates to a method for enhancing media content of a picture (303), wherein the method comprises: filming a scene (102); taking a picture of said scene (106); storing said taken picture and a video (111), the taken picture being associated with said stored video. Said stored video corresponds to a video captured during the filming of said scene, a start or an end of said stored video being function of a time when said picture is taken.

Abstract: An approach is provided to control digital imaging system. In the approach, isolated camera settings pertaining to a first camera body are configured. The first camera body is included in a camera group that includes two or more camera bodies. Each of the cameras in the camera group is controlled by a human operator. Shared camera settings that pertain to each of the cameras in the camera group are also configured. When an adjustment is received at the camera body from the human operator, the approach checks whether the adjustment is a shared group setting. If the adjustment is a shared setting, the system wirelessly transmits the adjustment over the wireless transmitter/receiver to the other camera bodies included in the camera group.

Abstract: An approach is provided to control digital imaging system. In the approach, isolated camera settings pertaining to a first camera body are configured. The first camera body is included in a camera group that includes two or more camera bodies. Each of the cameras in the camera group is controlled by a human operator. Shared camera settings that pertain to each of the cameras in the camera group are also configured. When an adjustment is received at the camera body from the human operator, the approach checks whether the adjustment is a shared group setting. If the adjustment is a shared setting, the system wirelessly transmits the adjustment over the wireless transmitter/receiver to the other camera bodies included in the camera group.

Abstract: An illumination module can comprise a circuit board, a semiconductor-based light source mounted to the circuit board, an encasing mounted to the circuit board, and one or more optical surfaces at least partially contained within the encasing. The semiconductor-based light source can emit light in a first illumination pattern. The one or more optical surfaces can be collectively configured to receive the light from the edge-emitting semiconductor-based light source. The one or more optical surfaces can further be collectively configured to condition and redirect the light, and to output the conditioned and redirected light from the illumination module in a second illumination pattern different from the first illumination pattern.

Abstract: An imaging element which outputs a pair of image signals corresponding to a pair of luminous fluxes which pass through different pupil areas of a photographing optical system, the imaging element includes a first pixel cell group including a plurality of first pixel cells for obtaining the pair of image signals and a second pixel cell group including a plurality of second pixel cells for obtaining the pair of image signals. The first pixel cell includes a first photoelectric converting unit and a first micro lens which is provided above the first photoelectric converting unit. The second pixel cell includes a second photoelectric converting unit and a second micro lens which is provided above the second photoelectric converting unit. The first micro lens and the second micro lens are disposed with different regularities.

Abstract: An information processing apparatus, information processing method, and program are disclosed. In the information processing apparatus, circuitry is configured to transmit an input command to at least one of a plurality of imaging devices that are associated with the information processing apparatus, the command being executable as a synchronous operation or an asynchronous operation based on information relating to at least one of the imaging devices. The information may, for example, be the number of the imaging devices to which the input command is transmitted. In that example, when the number of the imaging devices is below a threshold amount, the input command is transmitted as the synchronous operation, and when the number of the imaging devices is above the threshold amount, the input command is transmitted as the asynchronous operation.

Abstract: An imaging optical system includes an objective lens configured to focus light having a first wavelength band and light having a second wavelength band, an optical shutter module configured to reflect the light having the first wavelength band, which is focused by the objective lens, without modulating the light having the first wavelength band and to modulate the light having the second wavelength band, which is focused by the objective lens, and reflect the modulated light having the second wavelength band, and an image sensor configured to respectively sense the light having the first wavelength band and the modulated light having the second wavelength band, which are reflected by the optical shutter module, and to output a first image signal with respect to the light having the first wavelength band and a second image signal with respect to the modulated light having the second wavelength band.

Abstract: Embodiments of the present invention provide a photographing processing method, a device and a computer storage medium. The method includes: receiving at least one instruction for selecting at least one object to be removed in a live view image according to a preset order; acquiring a live view image with selected object to be removed; and removing the at least one object to be removed in the live view image with selected object to be removed sequentially according to the preset order to obtain a photograph.

Abstract: An image capture control apparatus comprises a display control unit that performs control so as to display, on a display unit, a live view image captured by an image capturing unit in any of a plurality of display states that include normal magnification display and enlarged display that is enlarged more than the normal magnification display, and a control unit that performs control so as to, in a case where a first operation is performed during the enlarged display of the live view image, switch to the normal magnification display and execute AF processing based on a first AF method, and in a case where a second operation is performed during the enlarged display of the live view image, maintain the enlarged display and execute AF processing based on a second AF method.

Abstract: A hybrid camera sensor offers efficient image sensing by periodically evaluating pixels at a certain frame rate and disregarding values of pixels that have changed less than a threshold amount. Because only a fraction of pixels in the camera sensor may change values from frame to frame, this can result in faster readout times, which can optionally enable increased frame rates.

Abstract: Embodiments relate to color correction circuit operations performed by an image signal processor. The color correction circuit computes optimal color correction matrix on a per-pixel basis and adjusts it based on relative noise standard deviations of the color channels to steer the matrix.

Abstract: A method of detecting and correcting flicker. A video stream of a scene at various instances of time is captured by an image capture device. A local spatio-temporal feature extraction technique is applied, by a processor, to regions of the capture scene within each frame. Candidate flickering region detection is applied, by a classifier, to identify candidate regions. Corresponding candidate regions are tracked over time to detect illumination differences within each analyzed region. An illumination correction technique is applied to the candidate regions where flickering is detected. A flicker-free video is output on a display device.