Patent application number | Description | Published |
20090153693 | IMAGE-PICKUP APPARATUS - The image-pickup apparatus includes an image acquiring part respectively photoelectrically converting first and second object images respectively formed by first and second light fluxes into first image data and second image data, the first and second light fluxes being formed by dividing a light flux from an image-pickup optical system by a pupil divider, and photoelectrically converting a third object image formed by a third light flux of the light flux from the image-pickup optical system into third image data, the third light flux being not divided by the pupil divider, and a split image generating part which generates split image data to be displayed in the third image data. The split image generating part generates the split image data based on the first image data and the second image data, and adds color information extracted from the third image data to the split image data. | 06-18-2009 |
20090153720 | IMAGE PICKUP APPARATUS AND DISPLAY CONTROL METHOD FOR THE SAME - An image pickup apparatus of the present invention comprises an image obtaining part configured to photoelectrically convert a first object image and a second object image formed by light fluxes divided by a pupil divider among light fluxes from an image pickup optical system to generate a first image and a second image, a displaying part configured to display images, and a processing part configured to cause the displaying part to display a superimposed image formed by superimposing the first and second images on each other. | 06-18-2009 |
20110027474 | Reflecting screen, method of manufacturing the same, and reflection-type projection system - A reflecting screen | 02-03-2011 |
20120113314 | IMAGE-PICKUP APPARATUS - The image-pickup apparatus includes an image acquiring part respectively photoelectrically converting first and second object images respectively formed by first and second light fluxes into first image data and second image data, the first and second light fluxes being formed by dividing a light flux from an image-pickup optical system by a pupil divider, and photoelectrically converting a third object image formed by a third light flux of the light flux from the image-pickup optical system into third image data, the third light flux being not divided by the pupil divider, and a split image generating part which generates split image data to be displayed in the third image data. The split image generating part generates the split image data based on the first image data and the second image data, and adds color information extracted from the third image data to the split image data. | 05-10-2012 |
20120162466 | IMAGE PICKUP APPARATUS HAVING IMAGE PICKUP ELEMENT THAT INCLUDES PIXELS USED AS BOTH FOCUS DETECTION PIXELS AND IMAGE PICKUP PIXELS - An image pickup apparatus | 06-28-2012 |
20120162488 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD OF INTERPOLATING DEFECTIVE PIXEL OF IMAGE PICKUP ELEMENT TO PERFORM IMAGE PROCESSING - An image processing apparatus includes a first defect interpolation unit that interpolates a defective pixel using a pixel value of a first pixel near a specific first pixel or a pixel value of a second pixel near a specific second pixel, a second defect interpolation unit that interpolates the defective pixel using a rate of pixel values of a first pixel and a second pixel in the same micro lens near the specific first pixel and the specific second pixel, an in-focus level evaluation unit that evaluates an in-focus level using outputs of the first and second pixels, a synthesis rate switching unit that switches a synthesis rate of outputs of the first and second defect interpolation units, and a signal processing unit that generates a shot image using an output of the synthesis rate switching unit. | 06-28-2012 |
20120162493 | FOCUS DETECTION APPARATUS AND FOCUS DETECTION METHOD - A focus detection apparatus comprises: an image sensor that receives images that are formed by light that passes through different pupil regions of a photographing optical system including a focus lens, and outputs a pair of image signals; a control unit that controls to acquire a pair of image signals from the image sensor at first and second lens positions of the focus lens; a conversion unit that, by multiplying a shift amount between a pair of images representing the pair of image signals by a conversion coefficient, converts the shift amount to a defocus amount; and a calculation unit that calculates the conversion coefficient based on displacement amounts of respective ones of the pair of images representing the pair of image signals acquired at the first and second lens positions, and a displacement amount of the focus lens from the first lens position to the second lens position. | 06-28-2012 |
20120200735 | IMAGE-PICKUP APPARATUS AND METHOD OF CONTROLLING THE SAME - An image-pickup apparatus includes an image-pickup element including a plurality of image-pickup pixels configured to photoelectrically convert light from an image-pickup lens and to generate an image of an object, and a plurality of focus detection pixels each configured to receive light which has passed through an area of a part of an exit pupil of the image-pickup lens, a flicker correction value generator configured to generate a flicker correction value for correcting a flicker in an image signal output from the image-pickup pixels, and a flicker corrector configured to correct a flicker in a focus detection signal output from the focus detection pixels based on the flicker correction value. | 08-09-2012 |
20130235276 | IMAGE PROCESSING APPARATUS, FOCUS DETECTION APPARATUS, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An image processing apparatus processes an image signal from an image pickup element including a plurality of pixels for one microlens, and the image processing apparatus includes a saturation detector configured to detect whether an output value of each of the plurality of pixels reaches a saturation level, and a saturation corrector configured to correct an output value of a saturation pixel that reaches the saturation level and an output value of an adjacent pixel that shares the same microlens with the saturation pixel. | 09-12-2013 |
20130265295 | PIXEL INFORMATION MANAGEMENT APPARATUS AND IMAGE CAPTURE APPARATUS USING THE SAME - The present invention relates to a pixel information management apparatus that is capable of efficiently storing information on defective pixels of imaging pixels and information on evaluation pixels in the same format. Pixel information having a region that contains information indicating whether the pixel is a defective pixel of the imaging pixels or an evaluation pixel, a region that contains information that depends on whether the pixel is a defective pixel of the imaging pixels or an evaluation pixel, and a region that contains information for specifying a position of the pixel is stored, and a relative distance from another defective pixel of the imaging pixels or another evaluation pixel is stored as the information for specifying the pixel position, the relative distance being a distance that conforms to a predetermined pixel scan rule. | 10-10-2013 |
20130286275 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS HAVING THE SAME, AND IMAGE PROCESSING METHOD - An image processing apparatus for processing image signals which are obtained from an image pickup element in which a plurality of photoelectric conversion units are arranged correspondingly to a microlens detects whether or not the image signal from each photoelectric conversion unit corresponding to one microlens reaches a saturation level, and controls whether or not a correlation of the image signals from a plurality of photoelectric conversion units including the photoelectric conversion units is used for an operation of an image shift amount which is performed by a correlation operation unit. | 10-31-2013 |
20130293763 | FOCUS DETECTION APPARATUS AND IMAGE PICKUP APPARATUS THAT PERFORM FOCUS DETECTION USING PHASE DIFFERENCE METHOD - A focus detection apparatus which is capable of estimating each of signals from a plurality of split PDs, which are included in a sum signal from split PDs, by performing a computation to thus detect saturation with respect to each split PD. With respect to each unit pixel cell having a plurality of PDs sharing one micro lens, saturation of a pixel signal read out in a non-destructive manner from one of the PDs is detected. Based on a first luminance signal and a sum pixel signal obtained by summing signals output from the PDs, another pixel signal output from another one of the PDs is estimated. Saturation of the estimated pixel signal is detected, and a second luminance signal is generated. Based on the first and second luminance signals, the amount of defocus for an optical unit is calculated. | 11-07-2013 |
20130308011 | IMAGE PICKUP APPARATUS AND IMAGE PROCESSING METHOD - An image pickup apparatus having an obtaining unit for obtaining a pixel signal of a first image and a pixel signal of a second image having a parallax to the first image performs a position adjustment to the first and second images having the parallax, subtracts the pixel signal of the second image from the pixel signal of the first image with respect to a corresponding pixel, and obtains a specular reflection light component, thereby specifying light source color. | 11-21-2013 |
20130335547 | SIGNAL PROCESSING APPARATUS FOR FOCUS DETECTION, SIGNAL PROCESSING METHOD, AND IMAGE PICKUP APPARATUS - A signal processing apparatus for obtaining a correlation between an A-image signal and a B-image signal which are output from an image pickup unit to be input and calculating a defocus amount includes: a near-in-focus detection unit for detecting a pixel signal in an in-focus state between the A- and B-image signals; and a correlation operation unit for operating a correlation between the A- and B-image signals, wherein the correlation operation unit has a mode for excluding the detected pixel signal in the in-focus state from a subject of the correlation operation in accordance with a detection result of the near-in-focus detection unit. | 12-19-2013 |
20140043523 | IMAGE PICKUP APPARATUS AND METHOD FOR CONTROLLING THE SAME - A shift amount between a plurality of image signals that is obtained from pixels in each of which a plurality of photoelectric conversion units are provided is computed from an amount of correlation based on a difference value between the plurality of image signals. Also, if the difference value that is used for computing the amount of correlation is not less than a predetermined upper limit, a predetermined value that is not more than the upper limit is used as the difference value. | 02-13-2014 |
20140125847 | IMAGE PROCESSING APPARATUS AND CONTROL METHOD THEREFOR - A direction being across the defective pixel and along which pixels used to calculate a signal level of a defective pixel are located, is determined. A ratio between signal levels of pixels that are adjacent to the defective pixel and that have a different color from the defective pixel, and signal levels of pixels that are adjacent to pixels being located along the determine direction with respect to the defective pixel and having the same color as the defective pixel and that have a different color from the defective pixel, is acquired. A value obtained by multiplying an average value of the signal levels of the pixels used to calculate the signal level of the defective pixel by the calculated ratio is output as the signal level of the defective pixel. | 05-08-2014 |
20140146196 | FOCUS DETECTION APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PICKUP SYSTEM, ANDFOCUS DETECTION METHOD - A focus detection apparatus performs focus detection of a phase difference method by using signals from an image pickup element including a first pixel and a second pixel sharing one micro lens, and the focus detection apparatus includes a first saturation detector configured to detect saturation of a first signal obtained from the first pixel, a second saturation detector configured to detect saturation of a second signal obtained from the second pixel, a luminance generating portion configured to generate luminance signals of the first signal and the second signal after detecting the saturations of the first signal and the second signal are detected, and a processor configured to perform a correlation calculation based on the luminance signals. | 05-29-2014 |
20140146197 | IMAGE PICKUP ELEMENT, IMAGE PICKUP APPARATUS, AND IMAGE PICKUP SYSTEM - An image pickup element includes a first pixel, a second pixel, and a third pixel that share one microlens, a first boundary that is provided between the first pixel and the second pixel, and a second boundary that is provided between the first pixel and the third pixel, and when a charge amount of the first pixel is saturated, a first charge amount from the first pixel to the second pixel via the first boundary is larger than a second charge amount from the first pixel to the third pixel via the second boundary. | 05-29-2014 |
20140146218 | FOCUS DETECTION APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PICKUP SYSTEM, FOCUS DETECTION METHOD, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - A focus detection apparatus performs focus detection by a phase difference method using an image pickup element including first and second pixels, the focus detection apparatus includes a correlation data calculator which calculates correlation data between pixel data obtained from the first pixels and the second pixels in ranges of image data, a detector which detects a saturated pixel having a level of at least a predetermined value in each of the ranges, an adding processor which performs an addition processing of the correlation data calculated in each of the ranges based on a detection result, and a defocus amount calculator which calculates a defocus amount based on a result of the addition processing, and the adding processor performs the addition processing using correlation data obtained from a first range in which the number of the saturated pixels is less than a predetermined number. | 05-29-2014 |
20140204251 | SIGNAL PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, AND IMAGE PICKUP SYSTEM - A signal processing apparatus which processes signals obtained from an image pickup element including a plurality of first pixels sharing a first microlens and a plurality of second pixels sharing a second microlens, the first pixels and the second pixels having saturation characteristics different from each other, and the signal processing apparatus includes a saturation detector configured to detect a saturated pixel whose charge amount has reached a saturation level among the first pixels and the second pixels, and an estimating portion configured to estimate the charge amount of the saturated pixel using a nearby pixel of the saturated pixel. | 07-24-2014 |
20140253786 | IMAGE PICKUP APPARATUS, IMAGE PICKUP SYSTEM, SIGNAL PROCESSING APPARATUS, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An image pickup apparatus includes an image pickup element including a plurality of focus detection pixels configured to generate a pair of image signals based on light beams passing through pupil regions different from each other in an image pickup optical system, a detection unit configured to detect a base line length of the plurality of focus detection pixels and a pupil division direction based on position information of a focus detection region in the image pickup element and information relating to the image pickup optical system, and a calculation unit configured to calculate a phase difference in the pupil division direction by using the pair of image signals. | 09-11-2014 |
20140285707 | IMAGING APPARATUS AND METHOD FOR CONTROLLING THE SAME - In a configuration in which a non-saturated readout value of a division pixel is subtracted from an addition signal of division pixels, an imaging apparatus capable of performing focus detection with respect to a saturated signal is provided. The imaging apparatus includes a subtraction unit and a suppression unit. The subtraction unit obtains the second image signal by subtracting the first image signal output from the image sensor from an addition signal acquired as a sum of the first image signal and the second image signal output from the image sensor, and the suppression unit suppresses the first image signal to a value equal to or less than a predetermined value. | 09-25-2014 |
20140354875 | IMAGE CAPTURING APPARATUS AND CONTROL METHOD THEREFOR - An image capturing apparatus comprises an image sensor including a photoelectric conversion portion configured to receive light beams having passed through a portion of a pupil area of an imaging lens and output an image signal, a control unit configured to output, from the photoelectric conversion portion, a plurality of image signals captured by shifting a focus position of the imaging lens, an acquisition unit configured to acquire an image shift amount on an image sensing plane of the image sensor, which corresponds to a shift amount when shifting the focus position of the imaging lens; and a calculation unit configured to calculate a correction coefficient for shading on the image sensing plane based on the image shift amount by comparing signals corresponding to the same object among the plurality of image signals. | 12-04-2014 |