This application claims the priority benefit of Taiwan application serial no. 96110075, filed Mar. 23, 2007. All disclosure of the Taiwan application is incorporated herein by reference.
1. Field of the Invention
The present invention relates to a method for enhancing a dynamic image, and more particularly to a display method for enhancing a dynamic image through a black insertion (BI) technology and a dynamic backlight luminance (DBL) technology.
2. Description of Related Art
Thin-film transistor liquid crystal displays (TFT-LCDs) used to be default monitors of notebook (NB) computers or of personal computers. Therefore, most image signals of the TFT-LCDs are static images in most cases. However, in recent years, liquid crystal displaying technology has been gradually adopted in large-sized TFT-LCDs thanks to continuous research and development made by various manufacturers. Moreover, the static image signals have become dynamic image signals. Nowadays, the TFT-LCD utilizes a hold-type display of which a pixel holds a brightness of the present image until a subsequent image signal is inputted to a pixel. Thus, the hold-type display may lead to some motion blurs of the dynamic images.
To improve display quality of the dynamic images, a black insertion (BI) technology and a dynamic backlight luminance (DBL) technology are often employed at this current stage. The BI technology removes eye-trace integration effect by displaying black images, while the DBL technology adjusts luminance of a backlight source to improve image contrast. However, due to the technical properties of the two technologies, a zebra effect may be generated when the BI technology and the DBL technology are directly adopted together. Please refer to
The DBL technology mainly adopts a digital dimming in which the backlight is alternatively switched to an on state or an off state rapidly to change the backlight luminance through regulating the duty cycle. As the black insertion and the backlight are both in the on state at a same time, the inserted black frame stands out because of the on-state backlight. By contrast, the inserted black frame is not pronounced enough when the backlight is in the off state. In other words, the inserted black images achieve different performance when the backlight is on or off, resulting in the zebra effect. During the same frame time, the number of the image stripes caused by the zebra effect is determined by the times for which the backlight is in the on state, while the width of the image strips is decided by the period during which the backlight is in the on state. As the backlight is on for a longer period of time, the image strips become wider.
The present invention is directed to a display method of a dynamic image and a display apparatus thereof. Here, a BI technology and a DBL technology are combined, and the application of either the BI technology or the DBL technology is determined based on image luminance, preventing a zebra effect from being acquired by employing both technologies simultaneously.
The present invention is further directed to a display method of a dynamic image and a display apparatus thereof. Through alternatively employing a BI technology and a DBL technology to enhance the dynamic image, a zebra effect arisen from simultaneously employing the BI technology and the DBL technology is avoided.
The present invention provides a display method of a dynamic image. The display method includes first receiving an image signal and then displaying the image signal through performing either a BI technology or a DBL technology.
According to an embodiment of the present invention, the display method further includes determining luminance of the image signal which is displayed through adopting the BI technology when the image signal is in a bright state and through adopting the DBL technology when the image signal is in a dark state.
According to an embodiment of the present invention, the BI technology and the DBL technology are disabled when the image signal is in a intermediary state.
According to an embodiment of the present invention, a gray scale value of the image signal is X in the display method. X ranges from 0 to 255. The image signal is a black signal (full black) when X equals 0. The image signal is a white signal (full white) when X equals 255. The image signal is in the intermediary state when 65≦X≦85.
According to an embodiment of the present invention, the image signal is in the dark state when 0≦X<65, while the image signal is in the bright state when 85<X≦255.
According to an embodiment of the present invention, the step of determining luminance of the image signal further includes determining luminance of the image signal based on an average gray scale value of the image signal.
According to an embodiment of the present invention, the step of displaying the image signal through adopting either the BI technology or the DBL technology further includes sequentially displaying a first image and a second image, displaying the first image with use of the BI technology, and displaying the second image with use of the DBL technology.
The present invention further provides a display apparatus including a timing controller, a backlight controller, and a determining unit. The timing controller provides a BI function, the backlight controller supplies a DBL function, and the determining unit is used for determining luminance of an image signal. Here, the BI function of the timing controller is enabled when the image signal is in a bright state, and the DBL function of the backlight controller is enabled when the image signal is in a dark state.
According to an embodiment of the present invention, the BI function and the DBL function are disabled when the image signal is in a intermediary state.
In view of the foregoing, a proper timing for employing the BI technology or the DBL technology is determined based on the image luminance. As the image is relatively dark, the DBL technology is conducted to display the color of black in a greater darkness. As the image is comparatively bright, the BI technology is adopted to reduce the moving picture response time (MPRT) to improve the quality of the moving pictures. Furthermore, the present invention further provides the display method for displaying the images through alternatively employing the BI technology and the DBL technology, which avoids the zebra effect arisen from utilizing both technologies simultaneously.
In order to make the aforementioned and other objects, features and advantages of the present invention more comprehensible, several embodiments accompanied with figures are described in detail below.
A BI technology is mainly applied to reduce an MPRT and improve the quality of dynamic images. Particularly, the BI effect can be further manifested as the dynamic images are in a bright state, while the BI effect is impaired when the dynamic images are in a dark state. On the other hand, the DBL technology is mainly conducted to display the color of black in a greater darkness, but does not accomplish any special effect as the dynamic images are in the bright state. In the present embodiment, the above difference can be utilized to determine a timing at which the BI technology or the DBL technology is adopted at a time (or in the same fame), such that the panel may be equipped with the BI function and the DBL function without inducing a zebra effect.
In other words, the display apparatus 200 determines that either the BI function or the DBL function is applied to improve the display effect of the dynamic image based on luminance of the image signal IS. In the present embodiment, the average image brightness is classified into three states i.e. a bright state, a dark state and a intermediary state. The BI technology is adopted as the image is in the bright state, the DBL technology is applied when the image is in the dark state, and neither the BI technology nor the DBL technology is employed while the image is in the intermediary state.
The image luminance is determined as illustrated in
According to another embodiment, to prevent the zebra effect arisen from simultaneously employing the BI function and the DBL function, the present invention provides a display method alternatively adopting two technologies, as shown in
From another perspective, the operating method of the display apparatus may be referred to as a driving method, and a flow chart is provided hereinafter for further explanation.
Based on the above, the present invention combines the BI technology and the DBL technology according to the above embodiments to determine either the BI technology or the DBL technology is adopted based on image luminance, preventing the zebra effect from being exerted by employing both technologies simultaneously. Besides, the present invention further provides a driving method alternatively adopting the BI technology or the DBL technology. As the dynamic image is in the bright state, the image retention phenomenon is reduced, and the color of black in the images is in a greater darkness when the dynamic image is in the dark state. Likewise, the zebra effect can be avoided.
Although the present invention has been disclosed above by the preferred embodiments, they are not intended to limit the present invention. Anybody skilled in the art can make some modifications and variations without departing from the spirit and scope of the present invention. Therefore, the protecting range of the present invention falls in the appended claims.
Number | Date | Country | Kind |
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96110075 | Mar 2007 | TW | national |