Patent application number | Description | Published |
20110234861 | IMAGING DEVICE - An imaging device comprising a single photographing optical system, an image sensor having a plurality of pixels for obtaining a plurality of viewpoint images by photo-electrically converting a luminous flux passing through different regions of the photographing optical system, and a shading correction part for conducting a shading correction to the plurality of viewpoint images. The shading correction part varies the amount of shading correction based on light-reduction property for one viewpoint image among the plurality of viewpoint images with respect to the amount of shading correction based on light-reduction property for the other viewpoint image among the plurality of viewpoint images. | 09-29-2011 |
20130100251 | IMAGE CAPTURING DEVICE AND IMAGE CAPTURING METHOD - Present invention provides an imaging element that includes a first pixel group and a second pixel group, a pickup execution control unit that performs pixel addition by exposing the first pixel group and the second pixel group of the imaging element during the same exposure in a case of pickup in an SN mode and performs pixel addition by exposing the first pixel group and the second pixel group of the imaging element during different exposure times in a case of pickup in a DR mode, a diaphragm that is arranged in a light path through which the light fluxes which are incident to the imaging element pass, and a diaphragm control unit that, in the case of pickup in the DR mode, sets the diaphragm value of the diaphragm to be a value which is greater than that of the case of pickup in the SN mode. | 04-25-2013 |
20130107017 | IMAGE CAPTURING DEVICE AND IMAGE CAPTURING METHOD | 05-02-2013 |
20130141539 | MONOCULAR STEREOSCOPIC IMAGING DEVICE - The monocular stereoscopic imaging device according to one aspect of the presently disclosed subject matter includes: an imaging optical system including a zoom lens and a diaphragm; a pupil dividing unit configured to divide a light flux having passed through a imaging optical system into multiple light fluxes; an imaging unit configured to receive the multiple light fluxes, so as to continuously acquire a left-eye image and a right-eye image; and a controlling unit configured to control a zoom lens driving unit to move the zoom lens in accordance with an instruction of changing the focus distance, and configured to control the diaphragm driving unit to maintain at a substantially constant level a stereoscopic effect of the left-eye image and the right-eye image three-dimensionally displayed on a display unit before and after the zoom lens is moved. | 06-06-2013 |
20130314510 | IMAGING DEVICE AND IMAGING METHOD - An imaging device, comprising: a single imaging optical system; an imaging unit; a diaphragm unit; a diaphragm control unit; an imaging control unit; a parallax information calculation unit configured to calculate parallax information based on the pair of viewpoint images outputted from the imaging unit at the first point or points of time; a plane image generation unit configured to generate a plane image based on the pair of viewpoint images outputted from the imaging unit at the second point of time; and a blurring processing unit configured to determine target pixels in the plane image which are to be subjected to blurring processing, based on the parallax information calculated by the parallax information calculation unit, and to perform blurring processing on the determined target pixels in the plane image. | 11-28-2013 |
20140022359 | STEREOSCOPIC IMAGING APPARATUS AND STEREOSCOPIC IMAGING METHOD - At a first point in time, the amount of opening of a diaphragm is controlled in such a manner that parallax is obtained in a plurality of images that are output as a result of imaging, whereby a parallax image is acquired. At a second point in time, the diaphragm is controlled in such a manner that the amount of opening thereof is made smaller than at the first point in time, whereby a planar image is acquired. Parallax information is calculated based upon the plurality of images acquired at the first point in time, and the planar image acquired at the second point in time is created. This stereoscopic imaging apparatus creates a stereoscopic image comprising parallax information and a planar image. | 01-23-2014 |
20140022422 | COLOR IMAGING ELEMENT, IMAGING DEVICE, AND STORAGE MEDIUM STORING A CONTROL PROGRAM FOR IMAGING DEVICE - Interpolation precision of phase difference detection pixels is raised. An image pickup device includes: a color filter disposed with a repeating basic array pattern configured by 3×3 pixel square arrays of a first array pattern and a second array pattern disposed symmetrically about a point; a first phase difference detection pixel that is placed at a position of a pixel corresponding to 1 corner portion out of the 4 corner portions of at least one array pattern in 1 pair of the first array pattern and the second array pattern out of 2 pairs of the first array pattern and the second array pattern configuring the basic array pattern; and a second phase difference detection pixel that is placed at a position of a pixel corresponding to 1 corner portion out of the 4 corner portions in the array pattern, out of the first array pattern. | 01-23-2014 |
20140022423 | COLOR IMAGING ELEMENT, IMAGING DEVICE, AND STORAGE MEDIUM STORING AN IMAGING PROGRAM - An image pickup device includes: a color filter having repeatedly disposed basic array patterns configured with first and second array patterns disposed symmetrically about a point, wherein the first array pattern has a first filter placed at the 4 corner and center pixels of a 3×3 pixel square array, a second filter placed in a line at the horizontal direction center of the square array, and a third filter placed in a line at the vertical direction center of the square array, and the second array pattern has the same placement of the first filter as the first array pattern and has placement of the second filter and placement of the third filter swapped over to that of the first array pattern; and phase difference detection pixels placed at positions corresponding to the first filter at a top and bottom edge sides in the array pattern. | 01-23-2014 |
20140022445 | COLOR IMAGING ELEMENT, IMAGING DEVICE, AND STORAGE MEDIUM STORING AN IMAGING PROGRAM - An image capturing element is provided with: a color filter in which a basic arrangement pattern having first and second arrangement patterns arranged to be symmetrical about a point is repeated. The first arrangement pattern comprises first filters arranged on pixels in 2×2 arrangement located at the upper-left portion and a pixel located at the lower-right in a 3×3 pixel square arrangement, second filters arranged on the center and lower end lines in the vertical direction of the square arrangement, and third filters arranged on the center and right lines in the horizontal direction of the square arrangement. The second arrangement pattern comprises the first filters having the same arrangement as in the first arrangement pattern, and the second filters and the third filters having the arrangements interchanged with each other compared to the arrangements in the first arrangement pattern. | 01-23-2014 |
20140022446 | COLOR IMAGING ELEMENT, IMAGING DEVICE, AND STORAGE MEDIUM STORING AN IMAGING PROGRAM - Interpolation precision of phase difference detection pixels is raised. An image sensor ( | 01-23-2014 |
20140022614 | COLOR IMAGING ELEMENT, IMAGING DEVICE, AND STORAGE MEDIUM STORING A CONTROL PROGRAM FOR IMAGING DEVICE - The precision of phase difference AF control is raised. An image pickup device includes a color filter that is provided with repeatedly disposed basic array patterns configured with a first array pattern and a second array pattern disposed symmetrically about a point, wherein the first array pattern includes a first filter placed over 2×2 pixels at the top left and a pixel at the bottom right of a 3×3 square array, a second filter placed over a right end pixel of a vertical direction center line of the square array and over a left end pixel a lower edge line, and a third filter placed over a pixel at the right end of the vertical direction upper edge line of the square array and over a center pixel of the lower edge line, and the second array pattern has the same placement of the first filter as that in the first array pattern and has a placement of the second filter and a placement of the third filter swapped over therefrom; and phase difference detection pixels that are placed at positions corresponding to 2 pixels that are adjacent in the horizontal direction out of the 2×2 pixels of at least one side of the upper side or lower side disposed first and second array patterns out of the 2 first array patterns and the 2 second array patterns configuring the basic array pattern. | 01-23-2014 |
20140028806 | IMAGING DEVICE AND IMAGING METHOD - An imaging device, comprising: an imaging unit having first pixels configured to photoelectrically convert a subject image which is imaged with a photographic lens and to output a first image signal, and second pixels configured to be placed discretely between the first pixels so as to photoelectrically convert each of a plurality of subject images which come from divided pupil regions formed by dividing a pupil region of the photographic lens and to output second image signals having a phase difference; an imaging control unit; a parallax information calculation unit; a plane image generation unit; and a blurring processing unit configured to determine target pixels in the plane image which are to be subjected to blurring processing, based on the parallax information calculated by the parallax information calculation unit, and to perform blurring processing on the determined target pixels in the plane image. | 01-30-2014 |
20140028895 | IMAGING APPARATUS AND DRIVING METHOD THEREOF - An imaging apparatus with a solid-state imaging device having phase difference detection pixels arranged on a light receiving surface acquires the size of a main subject image by identifying the main subject image picked on the light receiving surface of the solid-state imaging device, sets an AF region subjected to autofocus processing in accordance with an image size, and selects a phase difference AF mode (step S | 01-30-2014 |
20140043508 | COLOR IMAGING ELEMENT, IMAGING DEVICE, AND STORAGE MEDIUM STORING AN IMAGING PROGRAM - An image pickup device includes: a color filter having basic array patterns with first and second array patterns disposed symmetrically, wherein the first array pattern has a first filter at the 4 corner and center pixels of a 3×3 pixel square array, a second filter in a line at the horizontal direction center of the square array, and a third filter placed in a line at the vertical direction center of the square array, and the second array pattern has the same placement of the first filter as the first array pattern and has placement of the second filter and placement of the third filter swapped to that of the first array pattern; and phase difference detection pixels placed on pixels corresponding to positions of centers of at least 1 pair of patterns out of 2 pairs of the first array pattern and the second array pattern. | 02-13-2014 |
20140049668 | IMAGING DEVICE AND IMAGING METHOD - An imaging device includes a control unit provided to perform first control or second control on the same type of plural pixel rows as phase difference pixel rows which are arranged in parallel in a column direction at regular intervals, in which pixel rows on which the first control is performed and pixel rows on which the second control is performed are alternately arranged in parallel in the column direction, in the first control, a signal is not read out from each pixel of the pixel rows to be controlled but a signal is read out from each pixel of two pixel rows which are adjacent to the pixel row to be controlled, in the second control, a signal is read out from each pixel of the pixel row to be controlled, and the control unit performs the first control at least on the phase difference pixel rows. | 02-20-2014 |
20140092220 | IMAGE CAPTURING ELEMENT CAPTURING STEREOSCOPIC MOVING IMAGE AND PLANAR MOVING IMAGE AND IMAGE CAPTURING APPARATUS EQUIPPED WITH THE SAME - A plurality of pixels 2 are arranged in a square lattice form, the color filters of RGB are arranged in a Bayer arrangement and a pair of a first phase difference detection pixel 3 which acquires a captured image signals for a right eye and a second phase difference detection pixel 4 which acquires a captured image signals for a left eye are provided on discrete and periodic positions in the square lattice form, the first phase difference detection pixel 3 is provided among the respective pixels of the square lattice form at 2n+1-pixel (n=1, 2, . . . ) intervals both in a horizontal direction and a vertical direction, and the second phase difference detection pixel 4 of the pair is provided on a pixel having the same color filter and spaced apart from the first phase difference detection pixel by two pixels. | 04-03-2014 |
20140204262 | IMAGING DEVICE, FINDER, AND DISPLAY METHOD THEREFOR - A display method for a finder includes, when at least one of a blown-out-highlight region and a blocked-up-shadow region is detected in an image signal indicating a subject image, setting a region corresponding to the detected region of a shutter unit placed in an optical path of an optical view finder in a non-light-shielding state, and setting regions other than the detected region in a light-shielding state; and superposing a subject image passing through the shutter unit and a subject image displayed on a display unit based on the image signal each other so that superposed subject images are made visible. | 07-24-2014 |
20140307139 | IMAGING ELEMENT AND IMAGING APPARATUS - It is an imaging element in which pixels which are photoelectric conversion elements are placed at respective square lattice positions, in which, when, in a predetermined region where pixels of the imaging element are placed, a plurality of pairs are arranged in a first line which is any one line among lines and a second line which is parallel to the first line, each pair having pair pixels which are first and second phase difference detection pixels placed adjacent to each other to detect a phase difference among the pixels of the imaging element, the pairs in the first line are placed to be spaced apart from each other by at least two pixels, and the pairs in the second line are placed at positions, which correspond to positions where the pair pixels in the first line are spaced apart from each other. | 10-16-2014 |
20140313380 | COLOR IMAGING ELEMENT AND IMAGING APPARATUS - A color imaging element, includes a color filter array, in which the color filter array includes an array pattern of a 3×3 pixel group in which first filters corresponding to a green color and second filters corresponding to red and blue colors are arrayed, and the first filters are placed at a center and 4 corners in the 3×3 pixel group, and the array pattern is repeatedly placed in horizontal and vertical directions, and in a pixel group within a predetermined area of the color imaging element, phase difference detection pixels for acquiring phase difference information are placed in entire components of one direction among components in the horizontal direction and components in the vertical direction in the pixel group. | 10-23-2014 |