Abstract: According to one embodiment, a video display apparatus having a smoothing processing unit inputs luminance signals of pixels which form an image, acquires histogram data by counting the numbers of pixels for respective levels of the input luminance signals, sets a correction amount for a change amount of the levels of luminance signals based on the acquired histogram data, corrects the change amount of the levels of luminance signals near a pixel to be processed based on the correction amount, and corrects the level of the input luminance signal for the pixel to be processed using the corrected change amount of the levels of luminance signals.

Abstract: According to one embodiment, a video processing apparatus includes a histogram generator, a tone curve generator, a blend parameter generator, and a blending module. The histogram generator generates a histogram based on a luminance level of a pixel of a video signal. The tone curve generator generates a first tone curve which controls a luminance value of the video signal based on the histogram. The blend parameter generator generates a blend parameter for blending the first tone curve and a prescribed tone curve, based on the histogram. The blending module blends the first tone curve and the prescribed tone curve based on the blend parameter to generate a second tone curve.

Abstract: According to one embodiment, a video signal processing device includes an input unit to which a brightness signal is input, a high band emphasis unit that extracts a first high band component from the brightness signal and outputs an output signal by adding the first high band component to the brightness signal, an acquisition unit that acquires a first histogram data of brightness levels for one frame of the input brightness signal, and a first processing unit that performs a high band emphasis processing on the input brightness signal based on the first histogram data.

Abstract: According to one embodiment, an edge-smoothing apparatus has a synthesizing unit that generates a main synthesized video signal representing different images, a flag-inserting unit that inserts ID flags into the video data items, respectively, an image-edge processing unit that outputs a reference synthesized video signal from the main synthesized video signal, and selects and outputs a plurality of edge-smoothing synthesized video signals in accordance with a selection signal. A flag decoder discriminates the ID flags and generates the selection signal to prevent the edge-smoothing synthesized video signals for the different images, from being processed together, and generates an edge-smoothing-parameter selecting signal in accordance with the ID flags. Edge-smoothing components are generated by using the reference synthesized video signal from the image-edge processing unit and the edge-smoothing synthesized video signals.

Abstract: According to one embodiment, a picture signal processing apparatus comprises an acquisition unit which acquires histogram data on each luminance level from luminance signals for one frame, a frequency converter unit which eliminates histogram data that corresponds to a no-image portion displayed so as to occupy a predetermined region in a screen from among the acquired histogram data, a creation unit which creates a nonlinear correction processing table for applying a nonlinear correction processing to the input luminance signal on the basis of the histogram data subjected to a frequency conversion processing, and a processing unit which applies a nonlinear correction processing to the input luminance signal on the basis of the created nonlinear correction processing table.

Abstract: An image signal is resolved into a plurality of frequency components whose spatial frequencies are different from each other; a variation component of the image signal is extracted based on each of the plurality of frequency components, an absolute value of the variation component being smaller than a predetermined reference value; a level difference amount of the image signal is calculated based on the extracted variation component; and the calculated level difference amount is subtracted from the image signal.

Abstract: According to one embodiment of the invention, a smoothing module is configured to smooth and reduce grayscale differences in a plain area of an input digital image signal according to a collection parameter. A histogram acquisition module is configured to acquire a histogram value of the input digital image signal for one frame. A histogram value buffer module is configured to buffer histogram values for a plurality of frames. A luminance level transition detection module is configured to detect an interval during which an image gradually changes from light to dark or from dark to light, based on the histogram values for a plurality of frames, and to output the correction parameter.

Abstract: According to one embodiment, a video processing apparatus includes a histogram generator, a tone curve generator, a blend parameter generator, and a blending module. The histogram generator generates a histogram based on a luminance level of a pixel of a video signal. The tone curve generator generates a first tone curve which controls a luminance value of the video signal based on the histogram. The blend parameter generator generates a blend parameter for blending the first tone curve and a prescribed tone curve, based on the histogram. The blending module blends the first tone curve and the prescribed tone curve based on the blend parameter to generate a second tone curve.

Abstract: According to one embodiment, in the case where a non-linear correction processing is performed in a direction in which an amplitude level of a luminance signal is heightened, an amplitude level correction processing is performed to a color signal on the basis of a first coefficient read from a first table prepared in advance in correspondence to the case. In the case where a non-linear correction processing is performed in a direction in which the amplitude level of the luminance signal is lowered, an amplitude level correction processing is performed to the color signal on the basis of a second coefficient read from a second table prepared in advance in correspondence to the case.

Abstract: According to one embodiment of the invention, a smoothing module is configured to smooth and reduce grayscale differences in a plain area of an input digital image signal according to a collection parameter. A histogram acquisition module is configured to acquire a histogram value of the input digital image signal for one frame. A histogram value buffer module is configured to buffer histogram values for a plurality of frames. A luminance level transition detection module is configured to detect an interval during which an image gradually changes from light to dark or from dark to light, based on the histogram values for a plurality of frames, and to output the correction parameter.

Abstract: According to one embodiment, an image display apparatus includes a display module configured to display an image, a reference image display controller configured to control display of a reference image performed by the display module, a reader configured to read acquired image data including the reference image displayed by the display module and an image of a surrounding area of the display module, and a correction module configured to detect the acquired images of the reference image and the surrounding area in the acquired image data and to correct an output image output by the display module based on the reference image, the acquired image of the reference image, and the acquired image of the surrounding area.

Abstract: Based on a first table in which a value of an input luminance signal is corresponded to a value of an output luminance signal acquired by performing nonlinear correction processing on the input luminance signal, there is created a second table in which a value of the input luminance signal is corresponded to a value of a color correction signal for performing amplitude control based on the nonlinear correction processing performed on the input luminance signal on an input color signal. The nonlinear correction processing is performed on the input luminance signal based on the first table and the amplitude control is performed on the input color signal based on the second table.

Abstract: According to one embodiment, an extraction module that extracts a high frequency component of a luminance signal, an acquisition module that acquires band histogram data according to amplitude levels with respect to one frame from the high frequency component of the luminance signal, a control module that applies gain control for contour correction processing based on a gain value provided from outside to the luminance signal, and a generation module that generates a gain value to be provided to the control module on the basis of the acquired band histogram data are included.

Abstract: According to one embodiment, a video display apparatus having a smoothing processing unit inputs luminance signals of pixels which form an image, acquires histogram data by counting the numbers of pixels for respective levels of the input luminance signals, sets a correction amount for a change amount of the levels of luminance signals based on the acquired histogram data, corrects the change amount of the levels of luminance signals near a pixel to be processed based on the correction amount, and corrects the level of the input luminance signal for the pixel to be processed using the corrected change amount of the levels of luminance signals.

Abstract: In the event that the maximum Imax of R, G, B color signals is detected and the maximum value Imax is equal to or higher than the suppression start level Vcs which is lower than a predetermined level to be restricted, a suppression gain is generated in accordance with the value of this maximum Imax, and by this suppression gain Gc, R, G, B color signals to be inputted are simultaneously suppressed. By this, color signals can be restricted to the predetermined range and outputted without impairing white balance.

Abstract: According to one embodiment, a hue signal and an actually measured saturation value are generated based on received first and second color signals and a saturation maximum value is generated based on a hue signal and received luminance signal. The first and second color signals are subjected to a correction process when the actually measured saturation value exceeds the saturation maximum value and the luminance signal and the first and second color signals that are subjected to the correction process are converted into R, G and B signals.

Abstract: An image signal is resolved into a plurality of frequency components whose spatial frequencies are different from each other; a variation component of the image signal is extracted based on each of the plurality of frequency components, an absolute value of the variation component being smaller than a predetermined reference value; a level difference amount of the image signal is calculated based on the extracted variation component; and the calculated level difference amount is subtracted from the image signal.

Abstract: An amplitude discrimination circuit separates a received video signal into a signal component with a minute amplitude level and other signal component with a high amplitude level. A contour correction circuit performs contour correction processing on a signal with the high amplitude level and a nonlinear processing circuit performs nonlinear processing after adding the signal with high amplitude level to an output from a delay circuit which delays the received video signal by the time required for the contour correction processing performed by the contour correction circuit. A minute amplitude contour correction circuit performs contour correction processing on the signal with the minute amplitude level and an adder circuit adds the signal with the minute amplitude level to an output from the nonlinear processing circuit after delaying the signal with the minute amplitude level by the time required for the nonlinear processing performed by a delay circuit.

Abstract: According to one embodiment, a video signal processing device includes an input unit to which a brightness signal is input, a high band emphasis unit that extracts a first high band component from the brightness signal and outputs an output signal by adding the first high band component to the brightness signal, an acquisition unit that acquires a first histogram data of brightness levels for one frame of the input brightness signal, and a first processing unit that performs a high band emphasis processing on the input brightness signal based on the first histogram data.

Abstract: According to one embodiment, an edge-smoothing apparatus has a synthesizing unit that generates a main synthesized video signal representing different images, a flag-inserting unit that inserts ID flags into the video data items, respectively, an image-edge processing unit that outputs a reference synthesized video signal from the main synthesized video signal, and selects and outputs a plurality of edge-smoothing synthesized video signals in accordance with a selection signal. A flag decoder discriminates the ID flags and generates the selection signal to prevent the edge-smoothing synthesized video signals for the different images, from being processed together, and generates an edge-smoothing-parameter selecting signal in accordance with the ID flags. Edge-smoothing components are generated by using the reference synthesized video signal from the image-edge processing unit and the edge-smoothing synthesized video signals.