Patent application number | Description | Published |
20080309790 | WHITE BALANCE ADJUSTMENT DEVICE AND WHITE BALANCE ADJUSTMENT METHOD - To determine white balance convergence in a reliable manner, a white balance adjustment device for adjusting white balance of an input image supplied sequentially in time is provided. The white balance adjustment device comprises first and second integrating units. Each of the integrating units corrects a color component of a preceding input image based on mutually different correction parameter values. The integrating units respectively compute first and second integration values by integrating corrected color components. The first and second values to be used to correct the color component of a subsequent input image are determined by a correction parameter determining unit. The correction parameter determining unit changes the first and second values according to magnitude relationship between the first and second integration values and a benchmark value of the integration value. An image which has undergone the white balance adjustment is generated by correcting the color component of the image with a third value established between the first and second values. | 12-18-2008 |
20080309791 | VIDEO CAMERA AND FLICKER REDUCTION METHOD IN VIDEO CAMERA - To reduce flicker appropriately according to illumination condition of an imaging subject, a video camera is provided. The video camera includes an imaging unit for generating a subject image; a superimposing image generator for generating a superimposing image; an image synthesizer for synthesize the subject image and the superimposing image to generate a synthesized image; a video signal generator for generating a video signal from the synthesized image so as to display the synthesized image. The video camera also includes a flicker reduction unit to reduce flicker caused by luminance fluctuation of a light source. The flicker reduction unit has a plurality flicker reduction modes. The mode setting unit makes the superimposing image generator to generate a settings screen as the superimposing image for assisting selection of one of the flicker reduction modes. | 12-18-2008 |
20090016638 | DEFECTIVE PIXEL DETECTOR, IMAGING DEVICE, AND DEFECTIVE PIXEL DETECTION METHOD - In a defective pixel detector | 01-15-2009 |
20090027519 | NOISE REDUCTION DEVICE, NOISE REDUCTION METHOD AND VIDEO CAMERA - A noise reduction device to reduce noise of a video image including multiple input frame images is provided. The noise reduction device includes: a motion detector that detects a dynamic region and a static region other than the dynamic region within the video image; and a temporal smoothing processing unit that generates temporally-smoothed frame images by applying a temporal smoothing process to the multiple input frame images, the temporal smoothing process keeping number of color component contained in each pixel, the each pixel constituting an individual frame image of the multiple input frame images and containing only a part of a plurality of color components. A temporal smoothing level for a static region pixel belonging to the static region is set to be higher than the temporal smoothing level for a dynamic region pixel belonging to the dynamic region. | 01-29-2009 |
20100026861 | IMAGE CAPTURE DEVICE AND IMAGE PROCESSING METHOD FOR THE SAME - The image capture device includes defect information storage unit in which defective pixel data is stored in advance; signal conversion unit adapted to covert pixel values of an image signal output from image capture unit to pixel values from which defective values are excluded; a defective pixel establishing unit, an image signal storage unit for storing defective values in terms of frame units chronologically and in order of address; and second comparison unit. The first comparison unit acquires defective pixel data in frame units in several increments from the defect information storage unit and compares the data with the image signal; once all of the defective pixel data has been acquired and compared, comparison of the image signal data and the defective pixel data will stop, and a comparison process will be carried out by the second comparison unit. | 02-04-2010 |
20110181736 | PRESENTATION DEVICE - The presentation device comprises an operation receiving portion adapted to receive an operation for setting a shooting parameter for the purpose of capturing an image, an image capture portion for capturing an image based on the shooting parameter, a transmitting portion for transmitting the captured image wirelessly to an image output device, and a detecting portion for detecting wireless connection status. The operation receiving portion suspends reception of the operations if the detecting portion detects a lost wireless connection. | 07-28-2011 |
20110181745 | PRESENTATION SYSTEM - The presentation device comprises an image capture portion for capturing an image, and a transmission portion for wireless serial transmission of the captured images. The image output device comprises a reception portion for wireless serial reception of the images from the presentation device, an output portion for outputting the received images, and a measurement portion for measuring wireless signal strength. The output portion compares the signal strength with a threshold value established through an operation by the user, and if the signal strength exceeds the threshold value, serially outputs the images serially received by the reception portion so as to outputs a moving image, or if signal strength is equal to or less than the threshold value, continuously outputs a single previously received image so as to outputs a still image. | 07-28-2011 |
Patent application number | Description | Published |
20120013649 | Driving method of image display device - An image display device includes an image display panel configured of pixels made up of first, second, third, and fourth sub-pixels being arrayed in a two-dimensional matrix shape, and a signal processing unit into which an input signal is input and from which an output signal based on an extension coefficient is output, and causes the signal processing unit to obtain a maximum value of luminosity with saturation S in the HSV color space enlarged by adding a fourth color, as a variable, and to obtain a reference extension coefficient based on the maximum value, and further to determine an extension coefficient at each pixel from the reference extension coefficient, an input signal correction coefficient based on the sub-pixel input signal values at each pixel, and an external light intensity correction coefficient based on external light intensity. | 01-19-2012 |
20130027441 | METHOD OF DRIVING IMAGE DISPLAY DEVICE - A method of driving an image display device including (A) an image display panel in which pixels each having first to fourth subpixels displaying first to third primary colors and fourth color, respectively are arranged in a two-dimensional matrix, and (B) a signal processor, in an i-th image display frame, in the signal processor, first to fourth subpixel output signals are obtained on the basis of at least first to fourth subpixel input signals and a corrected expansion coefficient α′ | 01-31-2013 |
20130241810 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus includes an image display unit and a luminance control unit. The image display unit includes pixels arranged in a matrix, each of which is formed of a first sub-pixel, a second sub-pixel, a third sub-pixel, and a fourth sub-pixel, and performs image display. The luminance control unit adjusts a ratio between a generation amount of first luminance generated by the first sub-pixel, the second sub-pixel, and the third sub-pixel and a generation amount of second luminance generated by the fourth sub-pixel. Over all input tones, the luminance control unit makes the generation amount of the second luminance lower than the generation amount of the first luminance and generates the second luminance so that a function representing a luminance value of the second luminance is continuous. | 09-19-2013 |
20130251285 | IMAGE PROCESSOR AND IMAGE PROCESSING METHOD - Disclosed herein is an image processor including: a random number sequence generation section adapted to generate a random number sequence; a random number-superimposed luminance variable generation section adapted to generate a random number-superimposed luminance variable by superimposing the random number sequence on a luminance variable; and a random number-superimposed image signal generation section adapted to generate a random number-superimposed image signal by superimposing the random number-superimposed luminance variable on an image signal. | 09-26-2013 |
20140347410 | DRIVING METHOD OF IMAGE DISPLAY DEVICE - An image display device includes an image display panel configured of pixels made up of first, second, third, and fourth sub-pixels being arrayed in a two-dimensional matrix shape, and a signal processing unit into which an input signal is input and from which an output signal based on an extension coefficient is output, and causes the signal processing unit to obtain a maximum value of luminosity with saturation S in the HSV color space enlarged by adding a fourth color, as a variable, and to obtain a reference extension coefficient based on the maximum value, and further to determine an extension coefficient at each pixel from the reference extension coefficient, an input signal correction coefficient based on the sub-pixel input signal values at each pixel, and an external light intensity correction coefficient based on external light intensity. | 11-27-2014 |
Patent application number | Description | Published |
20140125689 | DISPLAY DEVICE, ELECTRONIC APPARATUS, AND DRIVE METHOD FOR DISPLAY DEVICE - According to an aspect, a display device includes an image display panel on which pixels each including sub-pixels for displaying a first color, a second color, a third color, and a fourth color are arranged, and a signal processing unit that converts an input value of an input signal for an input HSV color space into an output signal for an extended HSV color space. The signal processing unit divides the extended HSV color space into a plurality of spaces, sets limit proportion values different from each other with respect to at least two spaces of the divided spaces respectively, calculates an extension coefficient α with respect to the input signal by using the input signal and a limit proportion value set with respect to a space according to the input signal, and calculates the output signal based on at least the input signal and the extension coefficient α. | 05-08-2014 |
20140168284 | DISPLAY DEVICE, DRIVING METHOD OF DISPLAY DEVICE, AND ELECTRONIC APPARATUS - According to an aspect, a display device includes a first sub-pixel, a second sub-pixel, a third sub-pixel; and a fourth sub-pixel. A signal obtained based on at least an input signal for the first sub-pixel and an extension coefficient is supplied to the first sub-pixel. A signal obtained based on at least an input signal for the second sub-pixel and the extension coefficient is supplied to the second sub-pixel. A signal obtained based on at least an input signal for the third sub-pixel and the extension coefficient is supplied to the third sub-pixel. A signal obtained based on at least the input signal for the first sub-pixel, the input signal for the second sub-pixel, the input signal for the third sub-pixel, and the extension coefficient is supplied to the fourth sub-pixel. The extension coefficient varies based on at least a saturation of the input signals. | 06-19-2014 |
20140218386 | COLOR CONVERSION DEVICE, DISPLAY DEVICE, AND COLOR CONVERSION METHOD - According to an aspect, a color conversion device includes a signal processing unit and a signal output unit. When a color specified in a predetermined color space by color data based on input signals is a color outside a defined color gamut defined in the color space, the signal processing unit generates in-defined-gamut data, and when the color specified in the color space by the color data based on the input signals is a color on a border of or inside the defined color gamut, the signal processing unit does not convert the color data based on the input signals into color data of a color different from that specified by the color data based on the input signals, and generates in-defined-gamut data identical to the color data based on the input signals, and. The signal processing unit generates output signals based on the in-defined-gamut data. | 08-07-2014 |
20140267471 | DISPLAY DEVICE, ELECTRONIC APPARATUS, DRIVING METHOD OF DISPLAY DEVICE, AND SIGNAL PROCESSING METHOD - According to an aspect, a display device includes: an image display panel; a signal processing unit; and a signal processing circuit. The signal processing unit calculates an extension coefficient α for an input signal, calculates an output signal of a first sub-pixel, calculates an output signal of a second sub-pixel, calculates an output signal of a third sub-pixel, calculates an output signal of a fourth sub-pixel, and calculates a control signal. The signal processing circuit performs filtering processing on the control signal by a set first time constant to calculate and output a light-source device control signal, when the control signal is smaller than a set threshold value, and performs filtering processing on the control signal by a set second time constant to calculate and output the light-source device control signal, when the control signal is equal to or larger than the threshold value. | 09-18-2014 |
20140285539 | DISPLAY DEVICE AND ELECTRONIC APPARATUS - According to an aspect, a display device includes: an image display panel; a color conversion device including a signal processing unit and a signal output unit; a planar light-source device; and a light-source-device control unit. The signal processing unit includes a color conversion circuit that converts an input signal in a reference color area into a converted input signal generated in a definition color area where a chromaticity point of at least one of a first color, a second color, and a third color is inside of a reference color area, and a four-color generation circuit that generates an output signal and a light-source-device control signal from the converted input signal. The signal output unit outputs the drive signal to each sub-pixel based on the output signal. The light-source-device control unit outputs a drive voltage for emitting white light on the planar light-source device based on the light-source-device control signal. | 09-25-2014 |