FR2876208A1 - Image display method, e.g. for liquid crystal display, involves correcting video level of video image pixels, before displaying, by multiplying level by positive coefficient which is function of black image display period and image period - Google Patents

Abstract

Image displaying method involves generating a black image for each image period and displaying the black image before or after video images for reducing blurred edge effects. A video level of pixels of the video images is corrected before display of the video images by multiplying the video level by a positive coefficient, greater than one, which is a function of a period of display of the black image and the image period. An independent claim is also included for an image display panel having illumination cells.

Description

METHOD FOR DISPLAYING IMAGES IN A HOLD-TYPE DEVICE

  The present invention relates to a method of displaying images in a holding type display device, such as a liquid crystal display (LCD) or organic light-emitting diode (OLED) device.

  In the hold-type display devices, the video information relating to an image pixel is addressed and stored in a cell responsible for displaying that pixel for a period of the so-called addressing video frame, and then displayed during the rest of the video frame called the display period. The duration of the addressing period is generally much shorter than that of the display period. Moreover, this display of video information during almost the entire video frame is necessary to obtain a correct light output with this type of displays. This has the advantage of avoiding the flickering problems that exist with CRT monitors since the display constantly emits light. By cons, the rendering of moving objects is much worse as shown in Figures 1A to 1C.

  These figures represent a transition between a gray level 255 and a gray level 0 on two consecutive video frames, N and N + 1. In these figures, the ordinate axis represents the time axis and the abscissa axis represents the pixels. In Figure 1A, the transition between the two gray levels is fixed. In Figure 1 B, it moves 2 pixels to the left between the two frames and in Figure 1 C, it moves 2 pixels to the right. The eye temporally integrates the gray levels by following the oblique lines shown in the figures because it tends to follow the movement of the transition. The eye then perceives a gray level as represented by the graph at the bottom of the figures. The result of the integration results in the appearance of a fuzzy transition between the gray levels 255 and 0. This transition has a width of about 2 pixels. The width of this transition depends mainly on the amplitude of the movement. This defect of fuzzy contours is known as the "blurring effect" in English.

  For these type of maintenance screens, it is known to insert a black period in the video frame to limit the width of this fuzzy band. Figures 2A to 2C illustrate the insertion of a black period during the video frame in the example of Figures 1A to 1C. The black period is inserted at the beginning of the video frame.

  Among the known methods for introducing this black period, one of them consists in considering this black period as a black image to be inserted between 2 source video images. This method consists of addressing a second time during the image period all the cells of the display panel with information corresponding to a zero video level. A limitation of this method is to reduce the maximum luminance level that the screen can provide. A proportion of 25% black in the frame causes a 25% decrease in the maximum luminance as illustrated in FIG. 3. The video level restored will be directly proportional to the ratio of black introduced in the frame and this for all levels. In FIG. 3, an input video level A gives a video level A '(= A) without black frame insertion and a video level A "(less than A') with insertion of a black frame for 25% of the frame. the image period (duration of the video frame) This results in a loss of 25% of luminance: A "is equal to 75% of A '.

  The invention proposes a new method making it possible to avoid at least in part this loss of luminance.

  The invention relates to a method for displaying images in a maintenance-type display panel, each of said video images being displayed during an image period. According to the invention, during each image period, a dark image is displayed in addition to the video image displayed during said image period to reduce fuzzy edge effects and the video level of the pixels of the video image is corrected, before displaying to compensate at least in part for the loss of luminance caused by the display of a dark image during the image period.

  The correction of the video level of the pixels of the video image consists, for example, in multiplying them by a positive coefficient greater than 1, which is a function of the duration of display of the dark image and the image period According to one embodiment preferred, the correction of the video level of the pixels of the video image is to multiply them by a coefficient P, P and D respectively designating the duration of the image period and the

P - D

  display time of the dark image. The maximum video level displayable by the panel is assigned to the pixels of the video image having a video level after correction greater than the maximum displayable video level.

  On the other hand, for pixels whose video level after correction exceeds the maximum video level displayable by the panel, the level of the corresponding pixels in the dark image displayed during the same image period is determined to compensate for at least part of the luminance loss. not compensated by the correction of the video level. For pixels whose video level after correction is less than or equal to the maximum video level displayable by the panel, the level of the corresponding pixels in the dark image displayed during the same frame period is zero.

  The non-zero video level assigned to a pixel of the dark image is determined according to the corrected video level of the corresponding pixel of the video image displayed during the same image period.

  If A denotes the level of a pixel of the video image such that A P exceeds the maximum video level displayable, the video level which

P-D

  assigned to it after correction is the maximum displayable MAX video level and the nonzero video level assigned to the corresponding pixel in the dark image displayed during the same image period, equals P ÉA - MAX. The invention also relates to a maintenance-type image display panel, comprising a plurality of light cells and control means for controlling the display of video images by said cells, each video image being displayed during a period of time. picture period. This panel further comprises means for generating a dark image for each image period and displaying it, via the control means, before or after the video image to reduce fuzzy edge effects and a correction circuit for correcting, before display, the video level of the pixels of the video image so that it compensates at least in part for the loss of luminance caused by the display of a dark image during the image period.

  According to a particular embodiment, the correction circuit comprises a calculation circuit for multiplying the video level of the pixels of the video image by a positive coefficient greater than 1, which is a function of the display duration of the dark image and the image period.

  Furthermore, the correction circuit assigns to the pixels of the video image having a video level after correction greater than the maximum video level displayable by the panel said maximum displayable video level.

  With regard to the pixels of the dark image, the correction circuit calculates and further affects the pixels of the dark image corresponding to pixels of the video image pixels having a video level after correction greater than or equal to the maximum video level. (MAX) display by the panel, a video level to compensate at least in part the loss of luminance not compensated by the correction of the video level and other pixels of the image dark a zero video level.

  The invention will be better understood on reading the description which follows, given by way of non-limiting example, and with reference to the appended drawings in which: FIGS. 1A to 1C, already described, illustrate the presence of fuzzy outlines when images comprising moving objects are displayed by a holding type display panel, - Figures 2A to 2C, already described and compared to Figures 1A-1C, illustrate the reduction of these fuzzy outlines when a black frame is inserted between two video images; - Figure 3 shows the video levels rendered by the panel when a black frame is inserted; FIG. 4 shows the correction to be made to a video level A so that the maximum luminance of the panel is not reduced by the insertion of the black frame; FIG. 5 illustrates the use of a non-black frame for the pixels whose video levels are higher than the maximum video level that can be displayed after correction.

  The invention consists in correcting, before display, the video level of the pixels to compensate at least in part for the loss of luminance caused by the insertion of the black image in the video frame.

  The correction made to the video level is illustrated in FIG. 4. The video level A of a pixel of the image to be displayed is transformed before display into a video level B so that the video level rendered by this pixel is identical to that rendered by a video level pixel A without black image insertion. If P denotes the duration of the video frame (or frame period) and D corresponds to the duration of the black frame, the video level B is equal to PE A. PD Level B is displayed for a duration (PD) which is smaller than the image period P. The output video level is therefore equal to A (_ PD PA).

P P-D

  Since it is not possible to increase the video level of all the pixels of the image by a factor P, the method of the invention also allows PD to no longer systematically insert a black image to reduce the fuzzy contours but inserting a dark image whose pixels have: a zero video level if the video level of the corresponding pixel in the video image displayed during the same video frame is, after correction, less than or equal to the maximum video displayable level; and - not zero otherwise.

  We are talking about a dark image since not all the pixels of this image necessarily have a zero video level. The non-zero video level of certain pixels of the dark image will make it possible to compensate for the loss of luminance that is not compensated for by the correction of the video level of the pixels of the video image. This preferred embodiment is illustrated in FIG.

  Level A is transformed into a level B higher than the maximum level that can be displayed MAX. To fully restore the video level A, it is expected to assign the MAX level in the video image and assign to the corresponding pixel in the dark image a level AA to compensate for the loss of luminance not compensated by the correction.

  Level AA is defined as follows: AA =. (A-PPMAX). D The MAX level is displayed during the duration PD and the level AA is displayed during the duration D. The level thus restored is for this pixel: P-DMAX + PA = A The threshold S represents the video level of a pixel of the starting video image from which the video level of the corresponding pixel in the dark image is no longer zero.

  From the point of view of the hardware realization, the implementation of the method of the invention in a display panel uses a correction circuit for modifying the video level of the pixels as previously described. This correction circuit comprises a calculation circuit for calculating, for each pixel, the corrected video level of this pixel in the video image and, where appropriate, the non-zero video level of this pixel in the dark image. An additional image memory is provided for storing the dark image in addition to the current image.

Claims (8)

  A method of displaying images in a maintenance-type display panel, each of said video images being displayed during an image period, characterized in that, during each image period, a dark image is displayed in addition to the image a video image displayed during said image period to reduce fuzzy edge effects and the video level of the video image pixels is corrected, before display, to compensate for at least a portion of the luminance loss caused by displaying an image dark during the image period.   2. Method according to claim 1, characterized in that the correction of the video level of the pixels of the video image consists in multiplying them by a positive coefficient greater than 1, which is a function of the duration of display of the dark image and the image period.   3. Method according to claim 2, characterized in that the coefficient is equal to P, P and D respectively denoting the duration of the P-D image period and the display duration of the dark image.   4. Method according to claim 2 or 3, characterized in that the maximum video level (MAX) displayable by the panel is assigned to the pixels of the video image having a video level after correction greater than the maximum video level (MAX) displayable.   5. Method according to one of claims 2 to 4, characterized in that, for the pixels whose video level after correction exceeds the maximum video level (MAX) display by the panel, the level of the corresponding pixels in the dark image displayed during the same frame period is set to compensate for at least part of the luminance loss not compensated by the video level correction and, for pixels whose video level after correction is less than or equal to the maximum video level (MAX) displayable by the panel, the level of the corresponding pixels in the dark image displayed during the same image period is zero.   6. Method according to claim 5, itself dependent on claim 3 or 4, characterized in that, if A designates the level of a pixel A. P exceeds the maximum video level PD MAX displayable, the video level that is affected after correction is the maximum displayable MAX video level and the video level assigned to the corresponding pixel in the dark image displayed during the same frame period is equal to PA -MAX. P-D 7. A maintenance-type image display panel, comprising a plurality of light cells and control means for controlling the display of the video images by said cells, each video image being displayed during a image period, characterized in that it comprises means for generating a dark image for each image period and displaying it, via the control means, before or after the video image to reduce fuzzy edge effects and a correction circuit for correcting, before display, the video level of the pixels of the video image so that it at least partially compensates for the loss of luminance caused by the display of a dark image during the image period.   8. Panel according to claim 7, characterized in that the correction circuit comprises a calculation circuit for multiplying the video level of the pixels of the video image by a positive coefficient greater than 1, which is a function of the duration of display of the dark image and the image period.   of the video image as 9. Panel according to claim 8, characterized in that the correction circuit affects the pixels of the video image having a video level after correction greater than the maximum video level (MAX) displayable by the panel said maximum video level (MAX) displayable.   8. Panel according to claim 6 or 7, characterized in that the correction circuit calculates and further affects the pixels of the dark image corresponding to pixels of the video pixel image having a video level after correction greater than or equal to maximum video level (MAX) display by the panel, a video level to compensate at least in part the loss of luminance not compensated by the correction of the video level and other pixels of the image dark a zero video level.