Entries |
Document | Title | Date |
20080309801 | INFRARED CAMERA SYSTEM AND METHOD - Infrared (IR) camera systems for and a method of obtaining infrared images of target subjects are provided. In one embodiment, an IR camera system ( | 12-18-2008 |
20090102951 | IMAGE PROCESSING APPARATUS AND METHOD FOR COLOR-NOISE REDUCTION - In a color-noise reduction circuit in which a color-difference signal of a target pixel is substituted in a random substitution circuit ( | 04-23-2009 |
20090122166 | Imaging device performing color image data processing - A color image sensor has a first, second, and third color component pixels. The third color component pixel includes more intensity information than the first and second color component pixels. A difference estimating section estimates difference in a signal level exerted on a pixel signal of the third color component pixel, using the pixel signal of a pixel peripheral to the third color component pixel. A correcting section corrects the pixel signal of the third color component pixel on the basis of the estimated difference. Accordingly, when the third color component is green in a Bayer array, a pixel signal of a green pixel in a row of red pixels becomes equal to the pixel signal of a green pixel in a row of blue pixels. Therefore, line crawling can be suppressed without smoothing an image. | 05-14-2009 |
20090135277 | IMAGE PICKUP APPARATUS - An image pickup apparatus including a chromatic aberration of magnification correction device to correct chromatic aberration of magnification of an image by converting coordinates of pixel data of multiple color components of the image using multiple first coordinate conversion memories corresponding to the multiple color components and a distortion correction device to correct distortion of the image corrected with regard to the chromatic aberration of magnification by converting coordinates of the pixel data of multiple color components of the image at one time using a second coordinate conversion memory shared by the multiple color components. | 05-28-2009 |
20090135278 | IMAGE PROCESSING DEVICE AND COMPUTER-READABLE STORAGE MEDIUM - An image processing device that processes an image signal in which at least one of a predetermined plural number of color signals intended to constitute the image signal in each pixel is missing in accordance with a pixel position comprises: a component separation unit that separates the color signal into a plurality of components including a first component U, which is a skeleton component, and a second component V obtained from the residual difference between the color signal and the first component; a first interpolation unit that interpolates the first component U such that the first component U in a pixel position in which the color signal is missing is interpolated; and a second interpolation unit that interpolates the second component V such that the second component V in a pixel position in which the color signal is missing is interpolated. | 05-28-2009 |
20090141150 | IMAGE PICKUP SYSTEM - In the image pickup system of the present invention, factors that have an effect on noise such as the signal level, temperature of the CCD during shooting, exposure time, gain and the like are dynamically acquired, the noise level of the CCD is estimated, for example, for each pixel by a noise estimating unit, and signal components equal to or less than this noise level in the video signals are suppressed by a noise reducing unit, so that a high-quality image that is substantially free of noise is obtained while preserving the edges of the image and the like. | 06-04-2009 |
20090167906 | FALSE COLOR SUPPRESSION METHOD FOR DIGITAL IMAGE - A false color suppression method for a digital image is described. The method is performed in a digital camera, for suppressing the false color of the digital image shot by the digital camera. The method includes separating a luminance part and a chrominance part of a digital image; extracting the chrominance part, and calculating a first color gamut component and a second color gamut component in the chrominance part; setting a critical value according to a photosensitivity during shooting by the digital camera; performing a corresponding pixel uniformization action on the pixel according to a relation between a difference between the pixel and adjacent neighboring pixels and the critical value respectively for the first color gamut component and the second color gamut component; and combining the uniformized chrominance part and the luminance part of the digital image to a suppressed image. | 07-02-2009 |
20090190008 | Image processing method, image processing apparatus, and imaging apparatus - A chromatic aberration of magnification is corrected by performing a coordinate transformation with respect to image data including chromatic aberration of magnification, which is obtained from a fisheye optical system, based on | 07-30-2009 |
20090195676 | IMAGE DISTORTION CORRECTING METHOD AND DEVICE - Device and method of correcting a distortion occurring at the time of displaying a high-resolution image on a low-resolution display unit are provided. The image distortion correcting method includes the steps of: analyzing color levels of all pixels of an input original image; determining a variation of the color levels depending on positions of the pixels; adjusting the variation of the color levels in a region where the variation departs from a predetermined threshold value; correcting the color levels of the pixels in accordance with the adjusted variation; and outputting the corrected image. Accordingly, it is possible to correct the image distortion occurring at the time of displaying an image input from an image sensor on a display module. | 08-06-2009 |
20090237532 | NOISE REDUCTION DEVICE AND DIGITAL CAMERA - The first array register stores neighboring pixels of the same color as the pixel of interest, which are sorted according to the size of the pixel value. The maximum signal comparison circuit compares the value obtained by adding the threshold ThB to the pixel value maxC, which is the (b | 09-24-2009 |
20090273690 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, CONTROL METHOD FOR IMAGE PROCESSING APPARATUS, AND STORAGE MEDIUM STORING CONTROL PROGRAM THEREFOR - An image processing apparatus capable of suppressing color fringing in a color image further effectively by image processing. A determination unit determines a region in which signal levels for a color plane in a color image produced by photoelectric conversion of an optical image of a subject exhibit a monotonic increase or a monotonic decrease, as a color fringing region in which color fringing occurs. An estimation unit estimates an intensity of the color fringing in the color fringing region determined by the determination unit. A removal unit deducts an estimate value of the intensity of the color fringing estimated by the estimation unit from the intensity of the color fringing in the color fringing region. | 11-05-2009 |
20100013963 | VIDEO CAMERA - Embodiments provide a video camera that can be configured to highly compress video data in a visually lossless manner. The camera can be configured to transform blue and red image data in a manner that enhances the compressibility of the data. The data can then be compressed and stored in this form. This allows a user to reconstruct the red and blue data to obtain the original raw data for a modified version of the original raw data that is visually lossless when demosacied. Additionally, the data can be processed in a manner in which the green image elements are demosaiced first and then the red and blue elements are reconstructed based on values of the demosaiced green image elements. | 01-21-2010 |
20100039539 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus and an image processing method are provided that enable accurate detection of color shift occurring due to chromatic difference of magnification. An image processing apparatus includes an image signal extraction unit to extract at least a part of an image signal from image data based on signal characteristics of the image signal, an edge detection unit to detect an edge portion in an image by the image data from a detection target that is the extracted image signal based on a luminance value of the image signal, and a color shift amount detection unit to detect a color shift amount by calculating a correlation of at least two color components contained in the image signal according to a distance from a reference position in the image. | 02-18-2010 |
20100053382 | IMAGE PROCESSING DEVICE FOR CORRECTING SIGNAL IRREGULARITY, CALIBRATION METHOD,IMAGING DEVICE, IMAGE PROCESSING PROGRAM, AND IMAGE PROCESSING METHOD - An image processing device of the present application includes an image acquisition unit, a slope generation unit, and a slope correction unit. The image acquisition unit takes in an image data generated by an imaging element. The slope generation unit generates a slope correction data correcting, in a slope-shape, a signal irregularity caused in the image data due to a manufacturing process of the imaging element. The slope correction unit corrects the signal irregularity within the image data using the slope correction data. | 03-04-2010 |
20100073523 | IMAGE PROCESSING DEVICE FOR CORRECTING IMAGE COLORS AND IMAGE PROCESSING PROGRAM - An image processing device of the present application detects a color drift of an input image, and includes a saturation reducing section and a color drift detecting section. The saturation reducing section reduces a saturation of the input image and generates a saturation reduction image. The color drift detecting section detects a color drift of the saturation reduction image. | 03-25-2010 |
20100085449 | Image Apparatus and Method and Program for Producing Interpolation Signal - An image apparatus has signal slicing unit for two-dimensionally slicing a signal from an imaging device; pixel correlation detection unit for detecting correlation between a center pixel of the signal sliced by the signal slicing unit and its peripheral pixels; correction unit for executing a correction processing for each pixel signal sliced on the basis of the degree of correlation; and synchronization unit for extracting each color signal at the center pixel position of the area sliced by using a signal after correction. | 04-08-2010 |
20100110238 | METHOD AND APPARATUS FOR CANCELING CHROMATIC ABERRATION - Provided are a method and apparatus for canceling chromatic aberration. In the method, only chrominance signals are filtered using an asymmetrical mask according to the characteristics of chromatic aberration occurring from among a luminance/chrominance coordinates system. Accordingly, it is possible to cancel chromatic aberration regardless of the characteristics of a lens and prevent the resolution of the original image from degrading. | 05-06-2010 |
20100128149 | Color filter array, image sensor including the color filter array and system including the image sensor - A color filter array includes a plurality of white filters, a plurality of yellow filters, a plurality of cyan filters and a plurality of green filters. The plurality of white filters transmits incident light. The plurality of yellow filters transmits a green component and a red component of the incident light. The plurality of cyan filters transmits the green component and a blue component of the incident light. The plurality of green filters transmits the green component of the incident light. An image sensor including the color filter array has high sensitivity and high SNR by increasing transmittance of the incident light. | 05-27-2010 |
20100157111 | PIXEL PROCESSING METHOD AND IMAGE PROCESSING SYSTEM THEREOF - A pixel processing method includes: determining a first difference magnitude according to a difference between a predetermined color component value of a target pixel and a predetermined color component of a surrounding pixel positioned on a first direction, determining a second difference magnitude according to a difference between the predetermined color component value of the target pixel and a predetermined color component of a surrounding pixel positioned on a second direction, generating a first determining value according to the predetermined color component values of a plurality of pixels positioned on the first direction and the first difference magnitude, generating a second determining value according to the predetermined color component values of a plurality of pixels positioned on the second direction and the second difference magnitude, and selecting a plurality of specific pixels to compute for a target color component value according to the first and second determining values. | 06-24-2010 |
20100157112 | Image processing apparatus, image processing method, and computer program product - An image processing apparatus includes a gamma transforming unit that performs gamma transformation on an image signal based on a luminance component of the image signal and so as to maintain an RGB ratio of the image signal; a correction-target-value calculating unit that calculates a correction target value as a target value for performing tone correction on the luminance component of the image signal, based on a structure of RGB components contained in an image signal obtained by the gamma transforming unit through the gamma transformation; and a tone correcting unit that performs tone correction on a value of the image signal based on the luminance component of the image signal and the correction target value. | 06-24-2010 |
20100194934 | IMAGE PROCESSING APPARATUS, PROGRAM, METHOD AND IMAGE CAPTURING SYSTEM - An image processing apparatus with extended dynamic range includes a first gradation-conversion-characteristics calculating unit that calculates first gradation conversion characteristics for each of a plurality of areas of input image signals; and a gradation conversion unit that performs gradation conversion on each of the areas of the image signals by using the first gradation conversion characteristics. A filter processing and reduction processing unit generates a plurality of band signals having mutually different frequency bands by multi-resolution conversion processing from the image signals subjected to the gradation conversion. A second gradation-conversion-characteristics calculating unit calculates second gradation conversion characteristics associated with the individual band signals from the first gradation conversion characteristics An NR processing unit performs processing for noise reduction on the individual band signals by using the second gradation conversion characteristics; and an adding unit combines the band signals subjected to the processing for noise reduction. | 08-05-2010 |
20100201850 | NOISE REDUCTION METHODS AND SYSTEMS FOR IMAGING DEVICES - Embodiments describe noise reduction methods and systems for imaging devices having a pixel array having a plurality of pixels, each pixel representing one of a plurality of captured colors and having an associated captured color pixel value. Noise reduction methods filter a captured color pixel value for a respective pixel based on the captured color pixel values associated with pixels in a window of pixels surrounding the respective pixel. Disclosed embodiments provide a low cost noise reduction filtering process that takes advantage of the correlations among the red, green and blue color channels to efficiently remove noise while retaining image sharpness. A noise model can be used to derive a parameter of the noise reduction methods. | 08-12-2010 |
20100220223 | NOISE REDUCTION SYSTEM, IMAGE PICKUP SYSTEM AND COMPUTER READABLE STORAGE MEDIUM - A noise reduction system for performing noise reduction processing for an image signal taken in from an image pickup system, includes a local area extracting unit which sequentially extracts, from the image signal, a local area including a target pixel for which the noise reduction processing is performed; a first noise reducing unit which performs random noise reduction processing for the local area; a second noise reducing unit which performs impulsive noise reduction processing for the local area; and a combining unit which combines an image signal which has been subjected to the noise reduction processing by the first noise reducing unit and an image signal which has been subjected to the noise reduction processing by the second noise reducing unit. | 09-02-2010 |
20100231758 | Image processing apparatus, image processing method and computer program - An image processing apparatus includes: a first noise removing part which performs color noise removing process for a first color image signal having a predefined color space, a transforming part which transforms the first color image signal subjected to the color noise removing process by the first noise removing part into a second color image signal having a color space including a luminance signal and a color difference signal, and a second noise removing part which performs color noise removing process for the second color image signal. | 09-16-2010 |
20100231759 | IMAGE PROCESSING APPARATUS - An image processing apparatus includes, a color correction unit performing color correction on RGB signals to generate color-corrected RGB signals; a YC conversion unit converting the color-corrected RGB signals into a first luminance signal and a color-difference signal; a Y conversion unit generating a second luminance signal based on the RGB signals; an edge combination unit combining the first luminance signal with the second luminance signal; an edge adjustment unit obtaining an edge-adjusted signal based on a result of the combining by the edge combination unit; and an adder adding the first luminance signal to the edge-adjusted signal. | 09-16-2010 |
20100231760 | IMAGE PROCESSING DEVICE AND IMAGE PROCESSING METHOD - An image processing method includes the following steps. First, noise of a first image is filtered, and the first image is converted to obtain a luminance signal. Second, the first image is stored and outputted. Third, a color space converting process is performed upon the first image according to the luminance signal to obtain a second image. Fourth, a linear computing is performed upon the second image to obtain a third image. Fifth, the color space converting process is performed according to a third image and the luminance signal to obtain and output a fourth image. Sixth, an error compensation is performed upon the first image and the fourth image, and the fourth image is outputted. Accordingly, a linear operating process and error compensation processing is performed upon the single image to filter the noise of the image, and thus a load of the system is reduced. | 09-16-2010 |
20100265366 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND COMPUTER-READABLE MEDIUM - An image processing apparatus includes an evaluation value calculation unit configured to acquire an evaluation value from image data, a reduction coefficient calculation unit configured to calculate a reduction coefficient based on the evaluation value, a reduction unit configured to subject the image data to image processing to reduce color bleeding in a target area in the image data based on the reduction coefficient, and a size change unit configured to change the size of the image data. The reduction coefficient calculation unit calculates the reduction coefficient to reduce the color bleeding in a target area in the image data when the evaluation value exceeds a threshold. The threshold is set so that the range of the evaluation value where the reduction coefficient is not calculated when the size change unit sets the size of the image data to a second value larger than a first value is made wider than the range of the evaluation value where the reduction coefficient is not calculated when the size change unit sets the size of the image data to the first value. | 10-21-2010 |
20100265367 | VIDEO CAMERA - Embodiments provide a video camera that can be configured to highly compress video data in a visually lossless manner. The camera can be configured to transform blue and red image data in a manner that enhances the compressibility of the data. The data can then be compressed and stored in this form. This allows a user to reconstruct the red and blue data to obtain the original raw data for a modified version of the original raw data that is visually lossless when demosacied. Additionally, the data can be processed in a manner in which the green image elements are demosaiced first and then the red and blue elements are reconstructed based on values of the demosaiced green image elements. | 10-21-2010 |
20100283874 | Non-Linear Transformations for Enhancement of Images - Imaging apparatus ( | 11-11-2010 |
20100309344 | CHROMA NOISE REDUCTION FOR CAMERAS - A system, apparatus, computer readable medium, and method for noise reduction in image capturing devices involving an edge-preserving blur window is disclosed. In one embodiment, the edge-preserving blur includes only those pixels in the blur window that are visually close to the blur window's current center pixel in its blurring calculation. Limiting the pixels considered in the blur to those that are visually close to the center pixel ensures that the image's colors are not blurred along color edges within the image. Light-product information taken from the image's metadata, for example, the camera sensor's gain level, may be used to adjust the blur filter parameters dynamically. This allows the method to perform the appropriate amount of processing depending on the lighting situation of the image that is currently being processed. | 12-09-2010 |
20100309345 | Radially-Based Chroma Noise Reduction for Cameras - A system, apparatus, computer readable medium, and method for radially-dependent noise reduction in image capturing devices involving an edge-preserving blur window are disclosed. In one embodiment, the edge-preserving blur includes only those pixels in the blur window that are within a threshold value of the blur window's current center pixel in its blurring calculation. By creating a threshold function that varies radially from the center of the image sensor's light intensity falloff function, a more appropriate threshold value can be chosen for each pixel, allowing for more noise farther from the center of the image, and allowing for less noise closer to the center of the image. Light-product information taken from the image's metadata may be used to scale the threshold value parameters dynamically. This allows the method to perform the appropriate amount of processing depending on the lighting situation of the image that is currently being processed. | 12-09-2010 |
20110001852 | IMAGING APPARATUS AND CONTROL METHOD THEREOF - An imaging apparatus includes, an imaging unit configured to output an image signal of a captured object, a processing unit configured to perform a signal processing on the image signal, wherein the processing unit includes a cyclic noise reduction unit configured to reduce a noise of the image signal, a parameter change unit configured to change a parameter concerning at least one of an imaging by the imaging unit and the signal processing, and a coefficient change unit configured to change a cyclic coefficient of the cyclic noise reduction unit. | 01-06-2011 |
20110050966 | APPARATUS FOR ANTI COLOR ROLLING - The subject matter discloses a color rolling reduction apparatus, comprising: an antenna ( | 03-03-2011 |
20110058072 | CAMERA SENSOR CORRECTION - Systems and methods for camera sensor correction are disclosed. In an exemplary embodiment, a method may include sampling a spectral response for a plurality of color channels at different spatial locations on a sensor. The method may also include applying a 4×4 color correction matrix at the different spatial locations in an image captured by the sensor. The method may also include converting the spectral response at each spatial location to match the spectral response of the sensor at any one location on the image. | 03-10-2011 |
20110063480 | IMAGE PROCESSING METHOD AND APPARATUS FOR BAYER IMAGES - Provided are a method and apparatus for processing Bayer images. The Bayer image processing method including interpolating red (R), green (G), and blue (B) image signals output in Bayer patterns; converting the interpolated RGB image signals to a luminance signal and chrominance signals; correcting phases of the chrominance signals based on the luminance signal; and removing aliasing of the luminance signal and aliasing of the phase-corrected chrominance signals. | 03-17-2011 |
20110069208 | Two Stage Detection For Photographic Eye Artifacts - A digital image acquisition device is for acquiring digital images including one or more preview images. A face detector analyzes the one or more preview images to ascertain information relating to candidate face regions therein. A speed-optimized filter produces a first set of candidate red-eye regions based on the candidate face region information provided by the face detector. | 03-24-2011 |
20110074985 | Method and Apparatus of Correcting Hybrid Flash Artifacts in Digital Images - A method for digital image eye artifact detection and correction include identifying one or more candidate red-eye defect regions in an acquired image. For one or more candidate red-eye regions, a seed pixels and/or a region of pixels having a high intensity value in the vicinity of the candidate red-eye region is identified. The shape, roundness or other eye-related characteristic of a combined hybrid region including the candidate red-eye region and the region of high intensity pixels is analyzed. Based on the analysis of the eye-related characteristic of the combined hybrid region, it is determined whether to apply flash artifact correction, including red eye correction of the candidate red-eye region and/or correction of the region of high intensity pixels. | 03-31-2011 |
20110090378 | IMAGE DEBLURRING USING PANCHROMATIC PIXELS - A method for determining a deblurred image from images captured using an image sensor comprising a two-dimensional array of light-sensitive pixels including panchromatic pixels and color pixels, the method comprising: receiving image sensor data from the image sensor for a sharp image of a scene captured with a short exposure time; receiving image sensor data from the image sensor for a blurred image of the scene captured with a longer exposure time than the sharp image; determining an interpolated sharp grayscale image from the sharp image; determining an interpolated blurred color image from the blurred image; determining an interpolated blurred grayscale image from the blurred image; determining a blur kernel responsive to the sharp grayscale image and the blurred grayscale image; determining a deblurred image responsive to the blurred color image and the blur kernel; and storing the deblurred image in a processor-accessible memory system. | 04-21-2011 |
20110090379 | IMAGE SENSING SYSTEM AND CORRECTION METHOD - An image sensing system comprises an image sensor having an image sensing surface, a filter arranged between the image sensing surface and an optical system which forms an image of an object on the image sensing surface, a sensor configured to detect a luminance of the object in a band in the vicinity of a cutoff wavelength of the filter relative to an average luminance of the object via the optical system, and a corrector configured to execute color shading correction of the image, sensed by the image sensor, using a color shading correction coefficient determined by the relative luminance detected by the sensor. | 04-21-2011 |
20110102646 | Solid-state imaging device, camera system, solid-state imaging device reading method and program - A solid-state imaging device includes: a pixel section formed by pixels having a photoelectric conversion function arranged in a matrix; a pixel driving section driving the operation of the pixels to allow a readout to be performed according to a readout mode; a readout circuit reading out signals from the pixels and outputting the signals as image data in a raw data format; and a logic section performing scaling and phase correction in preparation for a resolution conversion process on a signal output from the readout circuit. The logic section includes a resize portion performing a scaling process on the signal from the readout circuit according to a scaling factor N and a correction portion obtaining a distance Scaled_P between pixels of the same color which have been scaled from the scaling factor N, a readout factor B, and a distance P between pixels of different colors, obtaining the amount of correction to be made on a pixel to be corrected from the distance Scaled_P and the distance P, and performing phase correction according to the amount of correction. | 05-05-2011 |
20110149121 | IMAGING DEVICE - An imaging device includes: an optical system, for focusing light from subjects; color imaging element including a plurality of types of light receiving sections that detect light of different wavelength bands, for imaging focused images of the subjects; and an image processing section, for performing filtering processes to remove blur caused by the optical system from data output by the imaging element. The pitch among specified light receiving sections that contribute most to brightness signals is set smaller than that among other light receiving sections. The point spread diameter of the optical system on the specified light receiving sections is set to be greater than the pitch among the specified light receiving sections for wavelengths detected thereby, and less than the pitches among the other light receiving sections for wavelengths detected thereby. The image processing section performs the filtering process only on data output by the specified light receiving sections. | 06-23-2011 |
20110149122 | METHOD AND APPARATUS PROVIDING NOISE REDUCTION WHILE PRESERVING EDGES FOR IMAGERS - A method of reducing noise in an image including steps for obtaining a first value for a target pixel, obtaining a respective second value for each neighboring pixel surrounding the target pixel and having the same color as the target pixel, for each neighboring pixel, comparing a difference between said first value and said second value to a threshold value, and replacing the first value with an average value obtained from the first value and at all second values from the neighboring pixels which have an associated difference which is less than or equal to the threshold value based on a result of the comparing step. | 06-23-2011 |
20110181760 | IMAGE PROCESSING DEVICE - An image capturing element of an image capturing section | 07-28-2011 |
20110221937 | METHOD AND DEVICE FOR REDUCING IMAGE COLOR NOISE - A device and method for reducing color noise of an image by using a distance weight depending on a distance from a central pixel for each pixel of an image and an edge weight depending on the difference in luminance and chrominance with the central pixel is provided, which can effectively reduce the color noise of the image by using the correlation between the luminance and the chrominance and edge characteristics. | 09-15-2011 |
20110242372 | IMAGE PROCESSING APPARATUS AND IMAGE PICKUP APPARATUS - The image processing apparatus performs image processing on an input image produced by image pickup of a scene through an optical system, the scene including plural objects whose object distances are mutually different. The apparatus includes a filter acquisition part acquiring a chromatic aberration correction filter for an out-of-focus area in the input image and an image restoration filter, and a processing part performing chromatic aberration correction processing using the chromatic aberration correction filter and image restoration processing using the image restoration filter on the input image. The filter acquisition part acquires the chromatic aberration correction filter by using information on chromatic aberration of the optical system, information on an in-focus distance of the optical system in the image pickup of the scene, and information on the distances to the respective objects. | 10-06-2011 |
20110242373 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM FOR PERFORMING IMAGE RESTORATION - An image processing apparatus obtains a plurality of pre-restoration images of an object for chromatic components when these images are taken at a first in-focus position to a third in-focus position corresponding to the RGB chromatic components, obtains an image pickup state and an image restoration filter corresponding to the image pickup state for each chromatic component, restores the pre-restoration image at an in-focus position for each chromatic component utilizing the obtained image restoration filter, and synthesizes the restored images. | 10-06-2011 |
20110249154 | IMAGING APPARATUS AND IMAGING SIGNAL CORRECTING METHOD - An imaging apparatus includes : a lens mount section; an imager having an imaging plane on which an image having an image height obtained through a lens device mounted to the lens mount section is formed; an imaging process section correcting transverse chromatic aberration of an imaging signal obtained by the imager; and a control section determining an imager size in accordance with the diameter of the lens device mounted to the lens mount section and correcting a correction coefficient for the correction of transverse chromatic aberration at the imaging process section according to the size thus determined. | 10-13-2011 |
20110249155 | IMAGE PICKUP DEVICE - An image pickup device may include a stage moving a sample, a line sensor that comprises an imaging element including pixels arranged in a line shape, the line sensor scanning and acquiring an image of the sample, a spectrum detection unit that comprises a first light receiving element including a first color filter and a second light receiving element including a second color filter, the first color filter and the second color filter having different spectral transmittance distributions, the first light receiving element and the second light receiving element scanning a first portion of the sample so as to acquire spectrum information of the first portion, an optical system that introduces a light from the sample to the line sensor and the spectrum detection unit, and a correction device that corrects the image, which has been acquired by the line sensor, based on the spectrum information of the first portion. | 10-13-2011 |
20110261236 | IMAGE PROCESSING APPARATUS, METHOD, AND RECORDING MEDIUM - A blur characteristic of a captured image changes due to demosaicing at the time of blur correction of an image pickup optical system. As a result, favorable blur correction cannot be performed. Pieces of RAW data are input, correction coefficients for correcting a blur of RAW images represented by the pieces of RAW data are obtained with respect to a plurality of colors, the blur of the RAW images represented by the pieces of RAW data is corrected on the basis of the correction coefficients obtained with respect to the plurality of colors, corrected images are obtained, and a demosaic process is performed on the plurality of obtained corrected images, thereby generating output image data. | 10-27-2011 |
20110267509 | IMAGE PROCESSING METHOD AND IMAGE PROCESSING DEVICE - An imaging device made of a single-chip type including a RGB Bayer pattern color filter is where pixel signals outputted from the imaging device are inputted through a signal processing part to an image processing part. A correlation judgment part judges a correlation between the pixel signals, and an interpolation processing part performs a pixel interpolation process based on a correlation result. Thus, each pixel signal becomes a perfect signal having all R, G and B color components. Filter factors for a filter are determined based on the correlation result, and a filtering process is performed on the pixel signals subjected to the pixel interpolation. | 11-03-2011 |
20110292256 | KNEE CORRECTION DEVICE AND KNEE CORRECTION METHOD - According to one embodiment, a knee correction device includes a generator, a detector, a mixer, and a calculator. The generator generates a luminance signal from R, G, and B color signals. The detector detects a color signal having a maximum value among the R, G, and B color signals. The mixer mixes the luminance signal generated by the generator and the color signal detected by the detector, at a predetermined mixing ratio. The supply module supplies a coefficient for performing level compression on each of the R, C, and B color signals, based on an output of the mixer. The calculator performs level compression on the R, G, and B color signals by subjecting the coefficient supplied by the supply module and the R, G, and B color signals to a calculation. | 12-01-2011 |
20110292257 | IMAGE PROCESSING APPARATUS AND IMAGE PICKUP APPARATUS USING THE SAME - An image is obtained with reduced chromatic aberration as well as improved sharpness. | 12-01-2011 |
20110317045 | ADVANCED NOISE REDUCTION IN DIGITAL CAMERAS - A noise reduction apparatus for digital cameras is presented that includes groups of one or more connected non-linear filter units. Each of the filter unit groups are driven by decimated input image data at a different level of decimation and the output of at least one of these filter unit groups serves as one of a plurality of inputs to another filter unit group driven at a different decimation level. Filtered image data from one or more filter unit groups is adaptively combined in response to one or more image metrics related to one or more local regional image characteristics. | 12-29-2011 |
20120019691 | IMAGE PROCESSING APPARATUS, CAMERA MODULE, AND IMAGE PROCESSING METHOD - According to one embodiment, a selection unit selects a pixel value to be assigned to a target pixel according to a determination result of a defect determining unit. The defect determining unit performs defect determination according to the level of a signal-to-noise ratio (SNR) estimated by an SNR estimating unit. In the case where the defect determining unit determines that the target pixel is a defect, the selection unit outputs a pixel value according to the level of the SNR. | 01-26-2012 |
20120026368 | BINNING COMPENSATION FILTERING TECHNIQUES FOR IMAGE SIGNAL PROCESSING - Various techniques for applying binning compensation filtering to binned raw image data acquired by an image sensor are provided. In one embodiment, a binning compensation filter (BCF) includes separate digital differential analyzers (DDA) for vertical and horizontal scaling. A current position of an output pixel is determined by incrementing the DDA based upon a step size. Using the known output pixel position, a center source input pixel and an index corresponding to the between-pixel fractional position of the output pixel position relative to the input pixels may be selected for filtering. Using the selected center input pixel, one or more same-colored neighboring source pixels may be selected. The number of selected source pixels may depend on the number of taps used by the scaling logic, and may depend on whether horizontal or vertical scaling is being applied. Using the selected index, a set of filter coefficients may be selected from a filter coefficient lookup table, applied to the selected source pixels, and the results may be summed to determine a value for an output pixel having a position corresponding to the current position of the DDA. This process may be repeated for each input pixel and may be performed in both vertical and horizontal directions, thus ultimately producing a re-sampled set of image data that is spatially evenly distributed. | 02-02-2012 |
20120033109 | IMAGE CAPTURING SYSTEM AND COMPUTER READABLE RECORDING MEDIUM FOR RECORDING IMAGE PROCESSING PROGRAM - An image capturing system includes: a first noise reduction unit which roughly removes the effects of an edge component by performing edge-preserving adaptive noise reduction processing on a target pixel within a local region including the target pixel and the neighboring pixels extracted from an image signal acquired from a CCD; a noise estimation unit which dynamically estimates the noise amount with respect to the target pixel based upon the target pixel value thus subjected to the noise reduction processing by the first noise reduction unit; and a second noise reduction unit which performs noise reduction processing on the target pixel based upon the target pixel value thus subjected to the noise reduction processing by the first noise reduction unit and the noise amount thus estimated by the noise estimation unit. | 02-09-2012 |
20120038799 | IMAGE SENSOR AND IMAGE DATA PROCESSING METHOD USING THE SAME - An image sensor includes a storage unit configured to store at least a portion of image data, a homogeneous pixel determination unit configured to determine whether dead pixels exist in homogeneous pixels having the same color characteristic as a center pixel in a window of the image data, and an offset correction processing unit configured to calculate a difference value between the center pixel and homogeneous pixels determined as normal pixels by the homogeneous pixel determination unit, and correct a center pixel value by using the calculated difference value. | 02-16-2012 |
20120044391 | Image Sensor Apparatus And Method For Line Buffer Efficient Lens Distortion Correction - An image sensor apparatus is disclosed. The image sensor apparatus includes an image sensor for generating image data corresponding to an optical image. The image sensor apparatus also includes a color filter customized for a lens distortion model. A processor processes the image data with a plurality of distortion correction routines to generate a digital image. | 02-23-2012 |
20120069226 | IMAGE PROCESSING APPARATUS THAT CORRECTS FOR CHROMATIC ABERRATION FOR TAKEN IMAGE, IMAGE PICKUP APPARATUS, METHOD OF CORRECTING FOR CHROMATIC ABERRATION OF MAGNIFICATION THEREFOR, AND STORAGE MEDIUM - An image processing apparatus which is capable of accurately correcting for chromatic aberration of magnification in an area peripheral to a taken image using the taken image. Areas including edges in image data are extracted, and the amount of chromatic aberration of magnification is calculated as the amount of area chromatic aberration of magnification in each area with respect to each color component. Based on lens design values, chromatic aberration of magnification in each area is calculated as the amount of lens chromatic aberration of magnification. By using the amount of area chromatic aberration of magnification and the amount of lens chromatic aberration of magnification in adjacent areas next to an indefinite area matching predetermined conditions, the amount of lens chromatic aberration of magnification relating to the indefinite area is corrected to determine the amount of area chromatic aberration of magnification relating to the indefinite area. | 03-22-2012 |
20120081583 | ABERRATION CORRECTION APPARATUS, ABERRATION CORRECTION METHOD, AND PROGRAM - An aberration correction apparatus includes: a correction data holding section that holds correction data on a correction level used to correct chromatic aberration of magnification; a center position discrepancy data holding section that holds center position discrepancy data on the discrepancy between the center of an image area and the position of an aberration center of the chromatic aberration of magnification; an aberration center calculating section that selects one of the center position discrepancy data that corresponds to a combination of the discrepancy variation conditions in an imaging apparatus and calculates the position of the aberration center based on the selected center position discrepancy data; an image height calculating section; a magnification chromatic aberration correction level calculating section; and a pixel value correcting section. | 04-05-2012 |
20120081584 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, CONTROL METHOD FOR IMAGE PROCESSING APPARATUS, AND STORAGE MEDIUM STORING CONTROL PROGRAM THEREFOR - An image processing apparatus capable of suppressing color fringing in a color image further effectively by image processing. A determination unit determines a region in which signal levels for a color plane in a color image produced by photoelectric conversion of an optical image of a subject exhibit a monotonic increase or a monotonic decrease, as a color fringing region in which color fringing occurs. An estimation unit estimates an intensity of the color fringing in the color fringing region determined by the determination unit. A removal unit deducts an estimate value of the intensity of the color fringing estimated by the estimation unit from the intensity of the color fringing in the color fringing region. | 04-05-2012 |
20120086838 | METHOD AND APPARATUS FOR IMAGE NOISE REDUCTION USING NOISE MODELS - A method and apparatus for processing imager pixel signals to reduce noise. The processing includes receiving a target pixel signal, receiving at least one neighboring pixel signal, formulating a dynamic noise signal based at least in part on a value of the target pixel signal, and controlling a noise reduction operation using the dynamic noise signal. | 04-12-2012 |
20120105688 | IMAGE PROCESSING DEVICE, IMAGING DEVICE, AND IMAGE PROCESSING METHOD AND PROGRAM - An image processing device includes an input unit which inputs image data that is generated by an imaging element including specific pixels, first image generation pixels that are the image generation pixels adjacent to the specific pixels, and second image generation pixels that are the image generation pixels not adjacent to the specific pixels, and includes a luminance value generated by each of the pixels, and a color mixture correction unit which corrects color mixture such that a change value of luminance caused by light leaked from the specific pixels to the first image generation pixels is calculated based on luminance values of each of specific pixels adjacent to the first image generation pixels and correction of color mixture to the first image generation pixels caused by the leaked light is performed. | 05-03-2012 |
20120147225 | IMAGE PROCESSING METHOD - An image processing method for executing edge enhancement for an original image includes: extracting edge components based upon the original image; correcting the extracted edge components by attenuating the individual edge components so that a frequency distribution related to intensity of the edge components approximates a Gaussian distribution assuming a specific width; and executing edge enhancement for the original image based upon the corrected edge components. | 06-14-2012 |
20120169904 | IMAGE SIGNAL PROCESSING APPARATUS, IMAGE SIGNAL PROCESSING METHOD, AND PROGRAM - An image signal processing apparatus ( | 07-05-2012 |
20120206631 | IMAGE SENSOR COMPENSATION - Compensation is performed for an image capture device which includes an image sensor which has a tunable spectral response and which is tunable in accordance with a capture mask. The compensation is for spatial non-uniformity in color sensitivity of the image sensor. A default capture mask is applied to the image sensor, and a sample image is captured using the image sensor tuned by the default capture mask. Color of the sample image is analyzed to identify spatial non-uniformity in color sensitivity of the image sensor. A compensation capture mask is constructed. The compensation capture mask is constructed using calculations based on the identified spatial non-uniformity so as to compensate for spatial non-uniformity in color sensitivity of the image sensor. The compensation capture mask is stored in a memory of the image capture device for application of the compensation capture mask to the image sensor. | 08-16-2012 |
20120206632 | IMAGE SENSOR COMPENSATION - Compensation is performed for an image capture device which includes an image sensor which has a tunable spectral response and which is tunable in accordance with a capture mask. The compensation is for spatial non-uniformity in color sensitivity of the image sensor. A default capture mask is applied to the image sensor, and a sample image is captured using the image sensor tuned by the default capture mask. Color of the sample image is analyzed to identify spatial non-uniformity in color sensitivity of the image sensor. A compensation capture mask is constructed. The compensation capture mask is constructed using calculations based on the identified spatial non-uniformity so as to compensate for spatial non-uniformity in color sensitivity of the image sensor. The compensation capture mask is stored in a memory of the image capture device for application of the compensation capture mask to the image sensor. | 08-16-2012 |
20120212653 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND CAMERA MODULE - According to one embodiment, an image processing apparatus includes a color-difference signal correction unit. The color-difference signal correction unit includes a smoothing unit and a color edge extracting unit. The smoothing unit performs smoothing process on a color-difference signal to obtain a smoothed color-difference signal. The color edge extracting unit extracts a color edge component to be added to the smoothed color-difference signal. An edge coring unit which is included in the color edge extracting unit performs a coring process on a difference between the color-difference signal before the smoothing process is performed and the smoothed color-difference signal. | 08-23-2012 |
20120249844 | IMAGE PROCESSING APPARATUS AND METHOD OF CONTROLLING THE SAME - An image processing apparatus such as a digital camera and a method of controlling the same is provided. In one embodiment, the digital camera generates an HDR image by combining two of a plurality of images to be combined for normal HDR processing. Before image combining operation, the digital camera converts the tone characteristics of at least one of the two images so as to assign more tone values to a tone area of an entire tone area of the HDR image which is not properly covered by either of the two images than before conversion. | 10-04-2012 |
20120262609 | SOLID-STATE IMAGING DEVICE AND ELECTRONIC APPARATUS - A solid-state imaging device including a plurality of pixel units configured and disposed in an imaging area in such a way that a plurality of pixels corresponding to different colors are treated as one unit, the amount of shift of a position of each of the pixels in the pixel unit being set as to differ depending on distance from a center of the imaging area to the pixel unit and a color. | 10-18-2012 |
20120274816 | APPARATUS AND METHOD FOR PROCESSING IMAGE IN DIGITAL CAMERA - An apparatus for processing an image in a digital camera Includes an image signal collection unit configured to process an image collected from a lens into image information using a CMOS image sensor (CIS), and an image correction unit configured to compensate for an intensity in response to a compensation curve corresponding to the image information collected by the image signal collection unit and output an image signal compensated depending on the intensity. | 11-01-2012 |
20120281122 | METHOD AND APPARATUS FOR CANCELING CHROMATIC ABERRATION - Provided are a method and apparatus for canceling chromatic aberration. In the method, only chrominance signals are filtered using an asymmetrical mask according to the characteristics of chromatic aberration occurring from among a luminance/chrominance coordinates system. Accordingly, it is possible to cancel chromatic aberration regardless of the characteristics of a lens and prevent the resolution of the original image from degrading. | 11-08-2012 |
20130002908 | AXIAL CHROMATIC ABERRATION CORRECTION - A 9 pixel-by-9 pixel working window slides over an input Bayer image. For each such window, a demosaicing operation is performed. For each such window, corrective processing is performed relative to that window to produce relative differences for that window. For each such window for which relative differences have been produced, those relative differences are regulated. For each window, a maximum is found for that window's regulated relative differences; in one embodiment of the invention, this maximum is used to select which channel is sharp. For each window, the colors in that window are corrected based on the relative difference-based maximum found for that window. For each window, edge oversharpening is softened in order to avoid artifacts in the output image. The result is an output image in which axial chromatic aberrations have been corrected. | 01-03-2013 |
20130002909 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, PROGRAM,AND STORAGE MEDIUM FOR CORRECTING CHROMATIC ABERRATION - There is a problem in that when magnification chromatic aberration correction is carried out, the difference in reproducibility of high-frequency components, depending on the spatial position, between a color for which position shift correction is not performed and a color for which position shift correction is performed may influence the image quality of an output image. In order to perform magnification chromatic aberration correction, high-frequency components, which are lost due to the position shift correction of a color for which position shift correction is carried out, are extracted from a color for which position shift correction is not carried out, and are added to the color for which position shift correction is carried out. Therefore, the high-frequency components are restored in a pseudo manner. | 01-03-2013 |
20130010163 | IMAGE PROCESSING APPARATUS, IMAGING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - An image processing apparatus includes: an aberration amount generation unit that calculates an aberration amount of a different color component signal with reference to a position of a color component signal of a criterion color having pixels larger in number than a different color included in image data, based on a luminance value of a pixel signal included in the image data; and a correction unit that generates a color difference signal from the different color component signal and the color component signal of the criterion color and corrects chromatic aberration of the color component signal of the different color present between pixels of the criterion color using the color difference signal based on the aberration amount. | 01-10-2013 |
20130027591 | IMAGING ARRAY HAVING PHOTODIODES WITH DIFFERENT LIGHT SENSITIVITIES AND ASSOCIATED IMAGE RESTORATION METHODS - A pixel sensor array includes a plurality of pixel sensors having a first gain and a plurality of pixel sensors having a second gain less than the first gain. | 01-31-2013 |
20130038761 | IMAGING APPARATUS, METHOD OF PROCESSING CAPTURED IMAGE, AND PROGRAM FOR PROCESSING CAPTURED IMAGE - Two kinds of color images, obtained by a solid-state imaging device, having different color tones are combined with each other. A first captured color image due to a first pixel group (pixels in which spectral sensitivities of color filters are wide) of the solid-state imaging device is processed. A second captured color image due to a second pixel group (pixels in which spectral sensitivities of color filters are narrow) is processed. The level difference between captured image signals of the pixels of the first pixel group and captured image signals of the pixels of the second pixel group, and due to the spectral sensitivity difference between the color filters in which the spectral sensitivities are wide and narrow is obtained (steps S1 and S2). The level difference is corrected. The first captured color image and the second captured color image are combined with each other. | 02-14-2013 |
20130044243 | Red-Eye Filter Method and Apparatus - A digital image acquisition system having no photographic film, such as a digital camera, has a flash unit for providing illumination during image capture and a red-eye filter for detecting a region within a captured image indicative of a red-eye phenomenon, the detection being based upon a comparison of the captured image and a reference image of nominally the same scene taken without flash. In the embodiment the reference image is a preview image of lower pixel resolution than the captured image, the filter matching the pixel resolutions of the captured and reference images by up-sampling the preview image and/or sub-sampling the captured image. The filter also aligns at least portions of the captured image and reference image prior to comparison to allow for, e.g. movement in the subject. | 02-21-2013 |
20130050544 | IMAGE PROCESSING APPARATUS, IMAGE CAPTURE APPARATUS, AND IMAGE PROCESSING METHOD - An image processing apparatus and image processing method, which enable suppression of coloring that occurs in image recovery processing for a RAW image are disclosed. Pixel interpolation processing is executed for a predetermined reference color component of the RAW image. For each color component other than the reference color component, a first color difference is obtained using a pixel value of the color component and a corresponding pixel value of the reference color component after the pixel interpolation processing. After applying the image recovery processing to each color component, a second color difference is obtained in a similar manner to the first color difference, and a pixel value is corrected according to the difference between the first and second color differences determined before and after the image recovery processing. | 02-28-2013 |
20130057734 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, INFORMATION RECORDING MEDIUM, AND PROGRAM - There is provided an image processing apparatus including an image signal correction unit for performing a blur correction process on an image. The image signal correction unit includes a blur correction processing section configured to perform a blend process for a default filter and a coordinate position-corresponding high pass filter, which is generated according to an image height of a pixel to be subjected to blur correction, using a blend coefficient determined according to the image height of the pixel to be subjected to blur correction, and to perform a blur correction process using a filter generated through the blend process. | 03-07-2013 |
20130107083 | Method of Noise Reduction in Image and Device Thereof | 05-02-2013 |
20130107084 | METHOD AND APPARATUS FOR IMAGE PROCESSING | 05-02-2013 |
20130107085 | Correction of Optical Aberrations | 05-02-2013 |
20130135500 | Method for Correcting Image Data From an Image Sensor Having Image Pixels and Non-Image Pixels, and Image Sensor Implementing Same - A method for correcting image data, in particular for colour correction and cross-talk reduction of image data obtained by an image sensor comprising image pixels (R, G, B) and non-image pixels (F), the image pixels (R,G,B) being overlaid with a colour filter array (CFA) and having a different spectral sensitivity than the non-image pixels, comprises determining a set of colour components (rold, gold, bold) for the image pixels (R,G,B) based on raw image data (rraw, graw, braw) read only from the image pixels (R,G,B) of the image sensor ( | 05-30-2013 |
20130182153 | Method and Apparatus for ambient Light spectrum Detection in digital Photography - Digital camera or device with a digital camera unit is controlled in a process in which light spectrum power distribution is detected by a detector that has a plurality of narrow-band photo-electric sensors at locations spaced apart on an image capture unit of a digital camera unit. Each sensor has a given sensitive bandwidth within the frequency range of visible light. The number of the sensitive bandwidths is N that is greater than 3. A signal indicative of the light spectrum power distribution as detected by the detector is produced. | 07-18-2013 |
20130188077 | Detecting Red Eye Filter and Apparatus Using Meta-Data - A method of filtering a red-eye phenomenon from an acquired digital image including a multiplicity of pixels indicative of color, the pixels forming various shapes of the image, includes analyzing meta-data information, determining one or more regions within the digital image suspected as including red eye artifact, and determining, based at least in part on the meta-data analysis, whether the regions are actual red eye artifact. The meta-data information may include information describing conditions under which the image was acquired, captured and/or digitized, acquisition device-specific information, and/film information. | 07-25-2013 |
20130194462 | Methods and Apparatuses for Using Image Acquisition Data to Detect and Correct Image Defects - A method and device for detecting a potential defect in an image comprises acquiring a digital image at a time; storing image acquisition data, wherein the image acquisition data includes at least one of a position of a source of light relative to a lens, a distance from the source of light to the lens, a focal length of the lens, a distance from a point on a digital image acquisition device to a subject, an amount of ambient light, or flash intensity; determining dynamic anthropometric data, wherein the dynamic anthropometric data includes one or more dynamically changing human body measurements, of one or more humans represented in the image, captured at the time; and determining a course of corrective action based, at least in part, on the image acquisition data and the dynamic anthropometric data. | 08-01-2013 |
20130208151 | Methods and Apparatuses for Addressing Chromatic Aberrations and Purple Fringing - Methods and systems for detecting and correcting chromatic aberration and purple fringing are disclosed. Chromatic aberration can be addressed by separating an image into color planes and then adjusting these to reduce chromatic aberration by using a specific calibration image (calibration chart) as an empirical method to calibrate the image acquisition device. Purple fringing can be corrected by initially addressing color aberration resulting from the lateral chromatic aberration (LCA). The LCA is first removed and then the correction is extended to purple fringing. A discovery is relied upon that the purple fringing is created in the direction of the chromatic aberration and is more pronounced in the direction of the chromatic aberration. | 08-15-2013 |
20130222655 | IMAGE CAPTURE SYSTEM AND IMAGE PROCESSING METHOD APPLIED TO AN IMAGE CAPTURE SYSTEM - An image capture system comprises an image sensor module, a pre-processing unit, and an image processing unit, where the pre-processing unit comprises a de-noise module. The image sensor module is configured for capturing images corresponding to at least one scene and outputting raw image data accordingly. The pre-processing unit is coupled to the image sensor module, where the de-noise module is configured for executing de-noise operation on the raw image data in raw image domain to generate de-noised raw image data. The image processing unit is coupled to the pre-processing unit and configured for converting the de-noised raw image data into RGB image data in RGB domain. | 08-29-2013 |
20130229549 | Automatic Face and Skin Beautification Using Face Detection - Sub-regions within a face image are identified to be enhanced by applying a localized smoothing kernel to luminance data corresponding to the sub-regions of the face image. An enhanced face image is generated including an enhanced version of the face that includes certain original pixels in combination with pixels corresponding to the one or more enhanced sub-regions of the face. | 09-05-2013 |
20130242146 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus is configured to reduce a color blur in a color image, and includes a color blur process determination part configured to change at least one of a color blur that serves as a reduction object and an estimation method of an amount of the color blur according to at least one of a characteristic of an image and an imaging condition. | 09-19-2013 |
20130258143 | IMPULSE NOISE REMOVAL DESIGN FOR BAYER PATTERN IMAGE SENSOR - A system and method provide for an adaptive median filter with edge protection and four line buffers to remove the impulse noise for a Bayer pattern image. The system and method separates the Bayer pattern image data into different channels by color and applies the adaptive median filter to remove the impulse noise on each channel. The adaptive median filter has five threshold values that may be modified to achieve different light condition response based on the detected noise level of the image. Thus, proper threshold values with better brightness response to the input pixels may be applied and impulse noise may be suppressed effectively, while preserving image details. | 10-03-2013 |
20130278801 | Image Processing Device, Image Processing Method, Program, and Imaging Device - An image processing device includes: a coordinate conversion unit ( | 10-24-2013 |
20130300901 | IMAGE PROCESSING APPARATUS, METHOD FOR CONTROLLING THE SAME AND STORAGE MEDIUM - An image processing apparatus comprises a noise suppression unit configured to perform noise suppression processing to a plurality of color signals obtained by band dividing an image signal by color, a one-plane conversion unit configured to generate a one-plane image having one signal per pixel, from the plurality of color signals to which the noise suppression processing has been done by the noise suppression unit, a processing unit configured to perform image processing in which a frequency characteristic changes, with respect to the one-plane image, a noise extraction unit configured to extract a noise component from the image signal, and an adding unit configured to add the noise component extracted by the noise extraction unit to a signal obtained by the processing unit. | 11-14-2013 |
20130308018 | IMAGE PROCESSING APPARATUS, IMAGING APPARATUS, AND IMAGE PROCESSING METHOD - An image processing apparatus includes an acquisition unit configured to divide an image into a plurality of areas and to acquire an object distance and a defocus amount in each area, and a processing unit configured to obtain, for each area, a correction amount corresponding to the object distance and the defocus amount and to perform correction processing for correcting lateral chromatic aberration based on the correction amount. | 11-21-2013 |
20130321674 | Image Signal Processing Involving Geometric Distortion Correction - Systems and methods for correcting geometric distortion are provided. In one example, an electronic device may include an imaging device, which may obtain image data of a first resolution, and geometric distortion and scaling logic. The imaging device may include a sensor and a lens that causes some geometric distortion in the image data. The geometric distortion correction and scaling logic may scale and correct for geometric distortion in the image data by determining first pixel coordinates in uncorrected or partially corrected image data that, when resampled, would produce corrected output image data at second pixel coordinates. The geometric distortion correction and scaling logic may resample pixels around the image data at the first pixel coordinates to obtain the corrected output image data at the second pixel coordinates. The corrected output image data may be of a second resolution. | 12-05-2013 |
20130321675 | RAW SCALER WITH CHROMATIC ABERRATION CORRECTION - Systems and methods for down-scaling are provided. In one example, a method for processing image data includes determining a plurality of output pixel locations using a position value stored by a position register, using the current position value to select a center input pixel from the image data and selecting an index value, selecting a set of input pixels adjacent to the center input pixel, selecting a set of filtering coefficients from a filter coefficient lookup table using the index value, filtering the set of source input pixels to apply a respective one of the set of filtering coefficients to each of the set of source input pixels to determine an output value for the current output pixel at the current position value, and correcting chromatic aberrations in the set of source input pixels. | 12-05-2013 |
20130321676 | Green Non-Uniformity Correction - Systems and methods for correcting green channel non-uniformity (GNU) are provided. In one example, GNU may be corrected using energies between the two green channels (Gb and Gr) during green interpolation processes for red and green pixels. Accordingly, the processes may be efficiently employed through implementation using demosaic logic hardware. In addition, the green values may be corrected based on low-pass-filtered values of the green pixels (Gb and Gr). Additionally, green post-processing may provide some defective pixel correction on interpolated greens by correcting artifacts generated through enhancement algorithms. | 12-05-2013 |
20130329096 | Eye Defect Detection in International Standards Organization Images - A method and apparatus for providing image processing. For one embodiment of the invention, a digital image is acquired. One or more relatively large candidate red eye defect regions are detected in at least a portion of the image. Face detection is applied to at least a portion of the image to eliminate non-face regions and one or more relatively small candidate red eye defect regions are identified in at least a portion of the image not including the eliminated non-face regions. | 12-12-2013 |
20130329097 | IMAGE PROCESSING APPARATUS THAT CORRECTS FOR CHROMATIC ABERRATION FOR TAKEN IMAGE, IMAGE PICKUP APPARATUS, METHOD OF CORRECTING FOR CHROMATIC ABERRATION OF MAGNIFICATION THEREFOR, AND STORAGE MEDIUM - An image processing apparatus which is capable of accurately correcting for chromatic aberration of magnification in an area peripheral to a taken image using the taken image. Areas including edges in image data are extracted, and the amount of chromatic aberration of magnification is calculated as the amount of area chromatic aberration of magnification in each area with respect to each color component. Based on lens design values, chromatic aberration of magnification in each area is calculated as the amount of lens chromatic aberration of magnification. By using the amount of area chromatic aberration of magnification and the amount of lens chromatic aberration of magnification in adjacent areas next to an indefinite area matching predetermined conditions, the amount of lens chromatic aberration of magnification relating to the indefinite area is corrected to determine the amount of area chromatic aberration of magnification relating to the indefinite area. | 12-12-2013 |
20130342738 | Tone Mapping For Low-Light Video Frame Enhancement - A technique is provided for generating sharp, well-exposed, color images from low-light images. A series of under-exposed images is acquired. A mean image is computed and a sum image is generated each based on the series of under-exposed images. Chrominance variables of pixels of the mean image are mapped to chrominance variables of pixels of the sum image. Chrominance values of pixels within the series of under-exposed images are replaced with chrominance values of the sum image. A set of sharp, well-exposed, color images is generated based on the series of under-exposed images with replaced chrominance values. | 12-26-2013 |
20140002697 | APPARATUS AND METHOD OF REDUCING NOISE OF IMAGE | 01-02-2014 |
20140002698 | SIGNAL PROCESSING DEVICE, SIGNAL PROCESSING METHOD, PROGRAM, SOLID-STATE IMAGE SENSOR, AND ELECTRONIC APPARATUS | 01-02-2014 |
20140022421 | Image Processing Device, Imaging Device, Image Processing Method, Imaging Method, and Image Processing Program for Pseudo-Color Supression in an Image - An image processing device comprising
| 01-23-2014 |
20140055645 | IMAGE PROCESSING APPARATUS AND METHOD - First image data obtained by capturing an image of a subject under a first light condition, and second image data obtained by capturing an image of the subject under a second light condition different from the first light condition are input. The sampling positions of colors used to generate correction parameters are acquired. First color signal values are sampled from the sampling positions in the first image data, and second color signal values are sampled from the sampling positions in the second image data. Correction parameters used to correct the first image data which depends on the first light condition into image data which depends on the second light condition are generated based on the first and second color signal values. | 02-27-2014 |
20140063297 | IMAGING DEVICE AND DEFECTIVE PIXEL CORRECTION METHOD - Provided is an imaging device and a defective pixel correction method which can improve the accuracy of a defective pixel correction. In a case where a correction target pixel is a G pixel, a defective pixel correction unit determines whether there is an edge portion around the G pixel; when there is an edge portion, the defective pixel correction unit performs a defect correction by using G pixels adjacent to the G pixel in a X shaped direction; when there is no edge portion, it performs the defect correction using G pixels adjacent to the G pixel in the cross direction. | 03-06-2014 |
20140085515 | Image Processing Based on Moving Lens with Chromatic Aberration and Monochromatic Image Sensor - Embodiments of imaging devices of the present disclosure obtain color images from a monochromatic image sensor based on a series of several images taken at different focal positions of an optical imaging lens possessing a chromatic aberration. | 03-27-2014 |
20140111672 | IMAGE PROCESSING DEVICE AND IMAGE CAPTURE DEVICE - A first distortion correction unit generates one first output pixel based on two input pixels that are adjacent in a first direction out of a plurality of input pixels included in image data pieces of a captured frame. A second distortion correction unit generates one second output pixel based on two first output pixels that are adjacent in a second direction different from the first direction. The second distortion correction unit successively reads two first output pixels adjacent in the second direction from a storage unit based on input coordinates, which correspond to coordinate values of second output pixels, and generates the one second output pixel by applying linear interpolation processing to the read two first output pixels based on interpolation coefficient. | 04-24-2014 |
20140118579 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus includes a first pixel, a digitization unit, and a correction unit. The first pixel includes a first photoelectric conversion layer for outputting a first electrical signal in response to received incident light, including light of a first color, light of a second color, and light of a third color; and a second photoelectric conversion layer disposed under the first photoelectric conversion layer and for outputting a second electrical signal in response to light transmitted through the first photoelectric conversion layer. The digitization unit generates first original data by digitizing the first electrical signal and generates second original data by digitizing the second electrical signal. The correction unit generates first corrected data corresponding to the light of the first color and second corrected data corresponding to the light of the second color, by respectively correcting the first original data and the second original data. | 05-01-2014 |
20140118580 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM - Provided is an image processing device including an image processing unit that sets a RAW image in which a pixel value of a specific color is set in each pixel as an input image and reduces a noise component contained in the input image. The image processing unit includes a local region selection unit, a similar local region selection unit, a band separation unit, a band-classified noise reduction unit, a band combining unit, and a local region combining unit. | 05-01-2014 |
20140118581 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - Noise in RAW image data is reduced. Parameters including pixels used as a target area and reference pixels are determined in the RAW image data, based on color filter information for the RAW image data. The RAW image data is corrected based on the parameters thus determined. | 05-01-2014 |
20140118582 | IMAGE PROCESSING METHOD, IMAGE SIGNAL PROCESSOR, AND IMAGE PROCESSING SYSTEM INCLUDING THE SAME - An image processing method includes: receiving image data of a Bayer format comprising red color information, green color information, and blue color information, generating image data of a modified Bayer format by combining the green color information with the red color information and combining the green color information with the blue color information while downscaling the image data of the Bayer format to a target resolution, denoising the image data of the modified Bayer format, and generating RGB image data by demosaicing the denoised image data of the modified Bayer format. | 05-01-2014 |
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 |
20140160323 | Image Processing Method and Apparatus for Correcting an Image - The present disclosure relates to method and apparatus for image recovery and image correction. In an embodiment, the present disclosure relates to recovering images that are occluded due to some material in the optical path while capturing the images. The detection of noisy region is performed by taking the residual image between the images yielded by large sized and small sized Gaussian window smoothening filters on red, green and blue channels. The recovery of the image that alleviates the noise is obtained by point-wise multiplication of the above said residue image with a suitably synthesized Gaussian distributed co-efficient of same size. | 06-12-2014 |
20140198238 | RED-EYE FILTER METHOD AND APPARATUS - A digital image acquisition system having no photographic film, such as a digital camera, has a flash unit for providing illumination during image capture and a red-eye filter for detecting a region within a captured image indicative of a red-eye phenomenon, the detection being based upon a comparison of the captured image and a reference image of nominally the same scene taken without flash. In the embodiment the reference image is a preview image of lower pixel resolution than the captured image, the filter matching the pixel resolutions of the captured and reference images by up-sampling the preview image and/or sub-sampling the captured image. The filter also aligns at least portions of the captured image and reference image prior to comparison to allow for, e.g. movement in the subject. | 07-17-2014 |
20140267838 | Image Signal Processor Circuits and Methods for Correcting Crosstalk Artifacts - Methods and circuits can be provided to correct crosstalk artifacts by generating image data correction matrices for respective pixel locations in an image sensor, based on pre-calibration matrices associated with the respective pixel locations. The image data correction matrices can be applied to the respective pixel locations to reduce imaging crosstalk artifacts associated with at least one of disparity, luminance, and chrominance. | 09-18-2014 |
20140307129 | SYSTEM AND METHOD FOR LENS SHADING COMPENSATION - A method for performing lens shading compensation is provided. The method includes: receiving at least two series of source images of different exposure settings; performing first lens shading compensation on the at least two series of source images respectively; analyzing luminance distribution of the at least two series of compensated source images; composing a series of HDR images from the at least two series of compensated source images according to the luminance distribution; performing second lens shading compensation on the series of HDR image; and performing tone mapping on the series of compensated HDR images. A system for performing lens shading compensation is also provided. | 10-16-2014 |
20140347527 | IMAGE PROCESSING DEVICE PERFORMING FILTERING PROCESS ON IMAGE DATA USING FILTER COEFFICIENT - An image processing device includes an acquisition section, first conversion section, determination section, filtering section, and second conversion section. The acquisition section acquires first image data defined by a plurality of color components. The first conversion section converts, for each pixel data, the plurality of color components into converted pixel data defined by a luminance and a color difference. The determination section determines whether or not each converted pixel data is target pixel data having a black character attribute. The filtering section performs a filtering process on a luminance of each target pixel data using a filter coefficient to obtain processed pixel data defined by the luminance and the color difference. The filter coefficient enhances a difference in the luminance between the each target pixel data and neighboring pixel data. The second conversion section converts each processed pixel data into updated pixel data defined by the plurality of color components. | 11-27-2014 |
20140347528 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD, AND PROGRAM - An apparatus for and a method of executing noise reduction processing and defect compensation processing on an image in an RGBW arrangement are provided. In pixel value compensation processing of a color pixel that makes up image data in the RGBW arrangement that has each color pixel of R, G, and B and a white (W) pixel, the W pixel is interpolated at a position of an attention pixel that is a compensation target, and at a position of a reference pixel which has the same color as an attention pixel within a reference area, smoothing weight is calculated based on each pixel value of the interpolation W pixel, and thus a compensation pixel value of the attention pixel is calculated by executing smoothing processing to which the calculated smoothing weight is applied. Moreover, by applying the W pixel in the neighborhood of the color pixel, it is determined whether or not the color pixel is in a texture area, and only if the color pixel is not in the texture, defect compensation processing is executed. | 11-27-2014 |
20140354861 | CORRECTION OF IMAGE SENSOR FIXED-PATTERN NOISE (FPN) DUE TO COLOR FILTER PATTERN - Embodiments of an apparatus including a pixel array and a color filter array optically coupled to the pixel array, the color filter array including a plurality of tiled minimal repeating units. Processing circuitry is coupled to the pixel array to correct fixed pattern noise (FPN) in an image captured by the pixel array. The processing circuitry corrects the values of pixels that are part of a correction group, and wherein the corrections comprise a combination of a color ratio correction that is based on the ratios of selected colors within the minimal repeating unit, and one or more crosstalk corrections that are based on a chief ray angle (CRA) correction and the color ratio correction. | 12-04-2014 |
20140362261 | IMAGE-CAPTURING DEVICE AND METHOD HAVING IMAGE IDENTIFICATION MECHANISM - An image-capturing device having an image identification mechanism is provided. The image-capturing device comprises a first and a second flashlight modules, a processing module and an image-capturing module. The first and the second flashlight modules generate a first and a second color lights respectively according to a first and a second currents. The processing module controls the first and the second flashlight modules to flash light at an object sequentially within a time interval. The image-capturing module generates a first frame according to the object and the first color light and generates a second frame according to the object and the second color light. The processing module subtracts the pixels in the first and the second frames to retrieve a foreground area. A color difference between the first and the second frames for each the pixels in the foreground area is larger than a threshold value. | 12-11-2014 |
20140375849 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PROCESSING METHOD AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM STORING IMAGE PROCESSING PROGRAM - The image processing apparatus includes an estimator configured to estimate an amount of a color blur of each of multiple color components included in a color image, and a processor configured to perform a color blur reduction process to reduce, from the color image, the color blur of each color component by using the estimated amount of the color blur thereof. The apparatus further includes a decider configured to acquire a hue formed by the color blurs of the color components and to decide, depending on the hue, an order of the color components on which the color blur reduction processes are performed. | 12-25-2014 |
20150009368 | IMAGING DEVICE - An imaging device is provided with a lens distortion correction function that requires less circuit scale and does not degrade image resolution. | 01-08-2015 |
20150015748 | IMAGE SIGNAL CORRECTING DEVICE, IMAGING DEVICE, IMAGE SIGNAL CORRECTING METHOD, AND PROGRAM - An image signal correcting device ( | 01-15-2015 |
20150042848 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND ELECTRONIC APPARATUS - According to an embodiment of the present disclosure, a part estimated to have a high degree of generation of false color for predetermined parts of an input image imaged by different exposure times at a predetermined spatial period is detected. A false color intensity value indicating an estimated degree of generation of false color is calculated for each of the predetermined parts. A high dynamic range image is generated by executing processing to merge long-time exposure pixels and short-time exposure pixels making up the input image. False color correction processing is executed according to the intensity of the false color intensity value, to the high dynamic range image. | 02-12-2015 |
20150049222 | METHOD OF ELIMINATING COLOR CAST OF IMAGE IN PHOTOGRAPHIC DEVICE - A method of eliminating a color cast of image in photographic device includes: obtaining a color cast image; determining a color temperature of the color cast image; analyzing a brightness ratio among a first primary color, a second primary color, and a third primary color of the color cast image; choosing one parameter group from a plurality of color cast calibration parameter groups according to the color temperature; calibrating the brightness ratio among the first primary color, the second primary color, and the third primary color of the color cast image via the chosen color cast calibration parameter group. | 02-19-2015 |
20150049223 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM - Provided is an image processing apparatus including an image signal correction section that performs an image correction process. The image signal correction section performs a direction determination process of detecting a direction having a minimum pixel value gradient as a pixel value gradient direction in a pixel area including a target pixel; a defect detection process of calculating a Laplacian based on a pixel value of a reference pixel in a minimum gradient direction detected in the direction determination process with respect to the target pixel, and determining presence or absence of a defect of the target pixel; and a defect correction process of performing calculation of a corrected pixel value, which is obtained by applying the pixel value of the reference pixel in the direction detected in the direction determination process, with respect to a target pixel from which a defect has been detected in the defect detection process. | 02-19-2015 |
20150054991 | ADVANCED NOISE REDUCTION IN DIGITAL CAMERAS - A noise reduction apparatus for digital cameras is presented that includes groups of one or more connected non-linear filter units. Each of the filter unit groups are driven by decimated input image data at a different level of decimation and the output of at least one of these filter unit groups serves as one of a plurality of inputs to another filter unit group driven at a different decimation level. Filtered image data from one or more filter unit groups is adaptively combined in response to one or more image metrics related to one or more local regional image characteristics. | 02-26-2015 |
20150062387 | Tone Mapping For Low-Light Video Frame Enhancement - A technique is provided for generating sharp, well-exposed, color images from low-light images. A series of under-exposed images is acquired. A mean image is computed and a sum image is generated each based on the series of under-exposed images. Chrominance variables of pixels of the mean image are mapped to chrominance variables of pixels of the sum image. Chrominance values of pixels within the series of under-exposed images are replaced with chrominance values of the sum image. A set of sharp, well-exposed, color images is generated based on the series of under-exposed images with replaced chrominance values. | 03-05-2015 |
20150077597 | IMAGING DEVICE, IMAGE PROCESSING DEVICE, AND IMAGE PROCESSING METHOD - An imaging device includes a photography optical system, and a single plate-type imaging element in which a plurality of pixels including two-dimensionally arranged photoelectric conversion elements and having a different underlayer layout are repeatedly arranged in a predetermined pattern, and color filters on the plurality of pixels, determination unit determines that a ghost is generated when an output level of one of the plurality of pixels and an output level of the same color pixel in the vicinity of the one pixel, which is the other pixel having a different underlayer layout from the one pixel, are different within a range in which the output levels do not exceed a predetermined threshold, and correction unit reducing a difference of the output level between the one pixel and the same color pixel in the vicinity when the determination unit determines that the ghost is generated. | 03-19-2015 |
20150092089 | System And Method For Under Sampled Image Enhancement - A system and method are provided for acquiring a first image and a second image, where the first image has a higher optical density than the second image, and combining the first image with the second image to generate an output image with reduced aliasing artifacts. | 04-02-2015 |
20150092090 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING SYSTEM, AND IMAGE PROCESSING METHOD - An image processing apparatus includes a reference image signal outputting unit that outputs a reference image signal in which color information of a plurality of colors is included in a chart image in a display plane or a time axis, a color display information detection unit that detects color display information of an image displayed on a displaying unit based on the reference image signal, a profile generation unit that generates a display characteristic profile of the displaying unit using the detected color display information and the color information of the chart image, a display characteristic correcting unit that generates a color correction image signal obtained by correcting an image signal to be output which is input from a modality based on the display characteristic profile, and a standardization processing unit that converts the generated color correction image signal to a standardization image signal. | 04-02-2015 |
20150092091 | PROCESSING DEVICE, IMAGE PICKUP DEVICE AND PROCESSING METHOD - A processing device which obtains distance information of a subject, including: a calculation unit configured to calculate the distance information of the subject from a difference in blur degree of a plurality of images photographed by an imaging optical system; a correcting unit configured to correct the distance information using correction data in accordance with an image height in the imaging optical system; and an extraction unit configured to extract at least one frequency component from each of the plurality of images, wherein the calculation unit calculates the distance information from a difference in blur degree in the plurality of images in the at least one frequency component; and the correcting unit corrects the distance information using correction data in accordance with an image height in the at least one frequency component. | 04-02-2015 |
20150097994 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PICKUP SYSTEM, IMAGE PROCESSING METHOD, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An image processing apparatus ( | 04-09-2015 |
20150103212 | IMAGE PROCESSING DEVICE, METHOD OF PROCESSING IMAGE, AND PROGRAM - There are provided a device and method that correct a false color occurring in a locally highlighted region in an image. A false color pixel is detected in data conversion processing of generating an RGB array image from an RGBW array image, low-band signals corresponding to respective RGBW colors that are different according to whether a pixel is a false color pixel, and the RGBW array is converted by interpolation processing to which the calculated low-band signals are applied to generate the RGB array image. The interpolation processing is performed using the low-band signals on an assumption that a W low-band signal mW, and RGB respective low-band signals mR, mG, and mB have a proportional relation in a local region. When a pixel of interest is a false color pixel, the low-band signal is calculated by an application of a low-pass filter having a coefficient in which a contribute rate of pixel values in the vicinity of the pixel of interest is made relatively lower than that of separated pixels. | 04-16-2015 |
20150146049 | IMAGE PROCESSING DEVICE, IMAGE PICKUP DEVICE, COMPUTER, IMAGE PROCESSING METHOD AND NON TRANSITORY COMPUTER READABLE MEDIUM - An image reduction processing section | 05-28-2015 |
20150304618 | IMAGE PROCESSING DEVICE AND IMAGE PROCESSING METHOD - A device includes a processor configured to execute a process including extracting a pixel value of each of a plurality of areas of a same color that are arranged at different positions on a color chart that is captured in an image, and specifying by using the extracted pixel values of the areas and arrangement positions of the areas of the same color an area that has a pixel value that corresponds to a function that expresses fluctuation of pixel values according to a position due to non-uniformity of an illumination environment that fluctuates the pixel values at a constant rate in one direction, and correcting a pixel value of a correction target area between the areas of the same color according to the pixel value of the specified area. | 10-22-2015 |
20150334267 | Color Correction Device, Method, and Program - It is made possible to easily correct the color tone changing from region to region in an image without the need of preparing a color chart for each region where the color tone changes due to factors such as light source change. A color correction device comprises: moving object detection means | 11-19-2015 |
20150334359 | IMAGE PROCESSING DEVICE, IMAGE CAPTURE DEVICE, IMAGE PROCESSING METHOD, AND NON-TRANSITORY COMPUTER-READABLE MEDIUM - An image processing device includes a demosaicing process device, a luminance system image data acquisition device that acquires luminance system image data as image data regarding the luminance, a point image restoration process execution device, an information acquisition device that acquires control information concerning execution of the point image restoration process on the basis of imaging information concerning an imaging condition of a subject, and a point image restoration process control device. | 11-19-2015 |
20150341604 | RAW SCALER WITH CHROMATIC ABERRATION CORRECTION - Systems and methods for down-scaling are provided. In one example, a method for processing image data includes determining a plurality of output pixel locations using a position value stored by a position register, using the current position value to select a center input pixel from the image data and selecting an index value, selecting a set of input pixels adjacent to the center input pixel, selecting a set of filtering coefficients from a filter coefficient lookup table using the index value, filtering the set of source input pixels to apply a respective one of the set of filtering coefficients to each of the set of source input pixels to determine an output value for the current output pixel at the current position value, and correcting chromatic aberrations in the set of source input pixels. | 11-26-2015 |
20150373288 | METHODS TO COMPENSATE MANUFACTURING VARIATIONS AND DESIGN IMPERFECTIONS IN A DISPLAY DEVICE - A display device includes (a) a non-volatile memory containing corrective data for compensating input image data received; (b) display hardware receiving control and data signals for displaying an image; and (c) an image processing circuit that retrieves the corrective data from the non-volatile memory to generate the data signals for the display hardware, after applying the corrective data to each color component of each pixel in the input image data. | 12-24-2015 |
20160065925 | COLOR-MIXTURE-RATIO CALCULATION DEVICE AND METHOD, AND IMAGING DEVICE - When a color-filter-array of a color-imaging-element is a Bayer-array, outputs of pixels prior to color-mixture correction are acquired from the color imaging element when red light is incident onto the color-imaging-element through a photography optical system, the outputs of the green pixels adjacent to the red pixels, among the acquired outputs of each pixel, are regarded as components of color mixture caused by the red pixels, and ratios of color mixture are calculated. In a central portion of an imaging surface of the color-imaging-element, ratios of color mixture, which do not depend on directions of the color mixture caused by the red pixels, are calculated. In end portions of the imaging surface of the color-imaging-element, separate ratios of color mixture according to the directions of the color mixture caused by the red pixels are respectively calculated. The calculated ratios of color mixture are subjected to interpolation calculation. | 03-03-2016 |
20160073076 | SATURATED PIXEL RECOVERY IN LIGHT-FIELD IMAGES - According to various embodiments, the system and method disclosed herein process light-field image data so as to mitigate or remove the effects of pixel saturation in light-field images. A light-field image may be captured with a light-field image capture device with a microlens array. The light-field image may be demodulated, and then a recovered value for each saturated pixel of the demodulated light-field image may be obtained. This may be done by comparing a saturated value of each saturated pixel with reference values of reference pixels proximate the saturated pixel and, if the proximate pixels have a higher reference value than the saturated value, setting the saturated pixel to the reference value. This process may be carried out iteratively until recovered values are obtained for the saturated pixels. A demodulated, saturation-recovered light-field image may then be generated and displayed with the recovered values for the saturated pixels. | 03-10-2016 |
20160080711 | IMAGE PROCESSING METHOD, IMAGE-PICKUP APPARATUS AND IMAGE PROCESSING APPARATUS USING THE METHOD, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM STORING IMAGE PROCESSING PROGRAM USING THE METHOD - A non-transitory computer-readable storage medium storing an image processing program that causes a computer to execute an image processing method comprising acquiring step of acquiring an input image generated by image pickup through an optical system, generating step of generating a point spread function by using coefficient data of a function approximating a point spread function corresponding to an image-pickup condition of the optical system, and providing step of providing unsharp mask processing to the input image using a filter generated based on information of the point spread function generated by using the coefficient data. The filter is a filter having two-dimensional data. | 03-17-2016 |
20160080713 | PIXEL MIXING DEVICE AND METHOD FOR CONTROLLING OPERATION OF SAME - It is determined whether an image before pixel mixture has a high frequency. In a partial image obtained by an imaging device having a Bayer array, a Gr pixel which indicates a green component and is arranged in the same row as an R pixel indicating a red component is distinguished from a Gb pixel which indicates a green component and is arranged in the same row as a B pixel indicating a blue component. The Gr pixels and the Gb pixels which are distinguished from each other are separately mixed. When an image before pixel mixture has a high-frequency component, the level of the Gr pixel and the level of the Gb pixel are different from each other after pixel mixture. It is determined whether the image before pixel mixture has a high-frequency component on the basis of the level of the Gr pixel and the level of the Gb pixel after pixel mixture. | 03-17-2016 |
20160088277 | IMAGING DEVICE AND IMAGING METHOD - An imaging device includes an optics, an image sensor, and a processor including hardware. The optics includes a first pupil and a second pupil. The image sensor includes a first-color filter that has first transmittance characteristics, a second-color filter that has second transmittance characteristics, and a third-color filter that has third transmittance characteristics. The processor is configured to implement a correction process that corrects a pixel value that corresponds to a first color and a pixel value that corresponds to a third color based on a component value that corresponds to the overlapping region of the first transmittance characteristics and the third transmittance characteristics, and a phase difference detection process that detects the phase difference between an image formed by the corrected pixel value that corresponds to the first color and an image formed by the corrected pixel value that corresponds to the third color. | 03-24-2016 |
20160094784 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, COMPUTER PROGRAM AND IMAGING APPARATUS - The present invention provides an image processing apparatus that can prevent incorrect correction of an image, which originates in blurring, in image processing of a re-focus image. The image processing apparatus includes: a data acquiring unit which acquires light field data formed by an imaging unit having a pupil dividing function of an exit pupil of an imaging optical system for forming an optical image of an object; an image processing unit which performs a set image processing of image data; an image forming unit which forms the image data to be subjected to the set image processing, using the light field data; and a control unit which controls the image processing unit, to perform the set processing of the image data formed, to form the light field data corrected according to the predetermined image processing. | 03-31-2016 |
20160100148 | METHOD AND SYSTEM OF LENS SHADING COLOR CORRECTION USING BLOCK MATCHING - A system, article, and method to provide lens shading color correction using block matching. | 04-07-2016 |
20160112659 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD, AND PROGRAM - An apparatus for and a method of executing noise reduction processing and defect compensation processing on an image in an RGBW arrangement are provided. In pixel value compensation processing of a color pixel that makes up image data in the RGBW arrangement that has each color pixel of R, G, and B and a white (W) pixel, the W pixel is interpolated at a position of an attention pixel that is a compensation target, and at a position of a reference pixel which has the same color as an attention pixel within a reference area, smoothing weight is calculated based on each pixel value of the interpolation W pixel, and thus a compensation pixel value of the attention pixel is calculated by executing smoothing processing to which the calculated smoothing weight is applied. Moreover, by applying the W pixel in the neighborhood of the color pixel, it is determined whether or not the color pixel is in a texture area, and only if the color pixel is not in the texture, defect compensation processing is executed. | 04-21-2016 |
20160142656 | IMAGE PICKUP APPARATUS, IMAGE PROCESSING APPARATUS, AND STORAGE MEDIUM STORING IMAGE PROCESSING PROGRAM - An image pickup apparatus is characterized in that it includes an imaging element having imaging pixels and focus detecting pixels, a determining unit determining an amount of noise superimposed on an image obtained by driving the imaging element, and a pixel interpolation unit executing the interpolation processing from among a plurality of interpolation processing with different processing contents in accordance with a determination result of the amount of noise determined by the determining unit, with respect to the image, to generate interpolation pixel values with respect to the focus detecting pixels. | 05-19-2016 |
20180027149 | IMAGE PROCESSING METHOD AND IMAGE PROCESSING APPARATUS FOR EXECUTING IMAGE PROCESSING METHOD | 01-25-2018 |