The invention relates to an apparatus and method applied in a display device for increasing the display gray levels.
The conventional flat display device, such as plasma display panel (PDP) module, always displays images with 0˜255 gray levels by 8 bits. In other words, the images are displayed with 256 gray levels.
Referring to
Currently, the brightness of the PDP module is getting higher gradually, so the influence caused by the exceeding brightness of the unit gray level is getting more serious. Accordingly, since the conventional PDP module divides the brightness into 256 levels, it will not satisfy future applications.
Because the relation between the gray levels and the brightness of the PDP module is substantially linear, when a user uses the PDP module to watch a movie, it's necessary to correct the image signals via a gamma adjust transformation of 2.2, so that the movie can be performed with correct contrast and colors. In general, each image signal of a movie has 8 bits, and the signal inputted to the PDP module also has 8 bits. When the image signals are transformed by the gamma adjust transformation of 2.2 and then inputted into the PDP module in 8 bits, most of the details of the low gray levels will disappear due to the gamma adjust transformation of 2.2. For instance, if the gray levels of an image originally are distributed over the range of 0˜42, the gray levels of the image will be distributed over the range of 0˜4 after the gamma adjust transformation of 2.2 is performed for the image.
The conventional error diffusion calculation is generally used for reducing the loss of the details of the low gray levels, but it can't solve the problem that the brightness of the unit gray level has an exceeding value.
Once the brightness of the unit gray level has an exceeding value, there will be the following problems. 1) When a frame is displayed with low brightness, the resolution is worse for a user to watch. 2) When the conventional error diffusion calculation is used to modify the details of the low gray levels, due to the exceeding brightness of the unit gray level, the frame will be displayed unsteadily.
Accordingly, the objective of the invention is to modify the exceeding brightness of the unit gray level and to increase the display gray levels of the display device.
The objective of the invention is to provide an apparatus for modifying the exceeding brightness of the unit gray level and for increasing the display gray levels of the display device.
According to the invention, the apparatus used for increasing the display gray levels includes a signal transformation circuit, an error diffusion circuit, and an operation circuit. According to a first predetermined manner, the signal transformation circuit is used for transforming a set of image signals into a set of transformed signals. The error diffusion circuit is used for receiving the set of transformed signals and for generating a set of diffused signals according to a judging rule. The operation circuit is used for receiving the set of diffused signals and for generating a set of output image signals according to a second predetermined manner and a predetermined operational rule.
Based on the error diffusion circuit and the operation circuit, the apparatus of the invention can modify the exceeding brightness of the unit gray level and improve the image quality, so as to achieve the objective of increasing the display gray levels. Accordingly, the image will be displayed with a high resolution.
The advantage and spirit of the invention may be understood by the following recitations together with the appended drawings.
Referring to
According to a first predetermined manner, the signal transformation circuit 12 is used for transforming a set of image signals 20 to a set of transformed signals 22. The error diffusion circuit 14 is used for receiving the set of transformed signals 22 and for generating a set of diffused signals 24 according to a judging rule. The operation circuit 16 is used for receiving the set of diffused signals 24 and for generating a set of output image signals 26 according to a second predetermined manner and a predetermined operational rule.
Referring to
In an embodiment, a gamma look up table 41 is shown in
Thereinafter the judging rule is described in detail. The judging rule performs an error diffusion calculation for N high bits and remained (M−N) low bits of each of the transformed signals, so as to generate the set of diffused signals 24, and each of the diffused signals 24 has N bits.
In an embodiment, the set of transformed signals 22 is a set of 12 bits signals. The error diffusion circuit 14 utilizes the judging rule to perform the error diffusion calculation for 10 high bits and 2 low bits of each of the transformed signals. Accordingly, the error diffusion circuit 14 will generate a set of 10 bits diffused signals 24.
Thereinafter the second predetermined manner and the predetermined operational rule both are described in detail. The operation circuit 16 utilizes the second predetermined manner to transform the set of diffused signals 24 to a set of temporary signals 25, and, according to the predetermined operational rule and the set of temporary signals 25, generates the set of output image signals 26.
The second predetermined manner is to utilize a first look up table to transform the set of diffused signals 24 into the set of temporary signals 25. Each of the temporary signals 25 has K bits, and N>K.
The predetermined operational rule calculates the set of the temporary signals 25 with a set of masks to generate the set of output image signals 26, and each of the output image signals 26 has K bits.
Each of the masks includes P Q*Q matrixes, wherein Q is greater than or equal to 2. In an embodiment, the set of masks includes a first mask, a second mask, and a third mask, and P and Q respectively represent four. In other words, each mask includes four 4*4 matrixes. The first mask includes four 4*4 matrixes, wherein 1 is the element corresponding to the i-th row and the j-th column in three of the four 4*4 matrixes, 0 is the element corresponding to the i-th row and the j-th column in the rest of the four 4*4 matrixes, and 1≦i≦4; 1≦j≦4. The second mask includes four 4*4 matrixes, wherein 1 is the element corresponding to the i-th row and the j-th column in two of the four 4*4 matrixes, 0 is the element corresponding to the i-th row and the j-th column in the rest of the four 4*4 matrixes, and 1≦i≦4; 1≦j≦4. The third mask includes four 4*4 matrixes, wherein 1 is the element corresponding to the i-th row and the j-th column in one of the four 4*4 matrixes, 0 is the element corresponding to the i-th row and the j-th column in the rest of the four 4*4 matrixes, and 1≦i≦4; 1≦j≦4.
Referring to the
According to the invention, the apparatus for increasing the display gray levels has a set of masks capable of changing with different span of time. When an image is calculated by the masks before being outputted, the brightness is variable based on different span of time. In the system of NTSC, there are 60 images per second, wherein the 1st, 5th, 9th, 13th, . . . , and 57th images belong to field I, the 2nd, 6th, 10th, 14th, . . . , and 58th images belong to field II, the 3rd, 7th, 11th, 15th, . . . , and 59th images belong to field III, and the 4th, 8th, 12th, 16th, . . . , 60th images belong to field IV. The four fields I, II, III, and IV respectively correspond to four masks, and the images of each field are respectively calculated by the corresponding mask.
Referring to
Referring to
As shown in
As the image 78 of 4*4 matrix (dot A1˜dot A16) shown in
As shown in
There is still a problem in design of the masks. When an image has a big area, high brightness, a big area with the same color, or high contrast, the image will slightly flicker while being displayed. The following describes why the image will slightly flicker while being displayed. As shown in
Referring to
Moreover, to avoid the flicker occurring in the same color with lower frequency, the masks respectively corresponding to red, green, and blue can be designed in different kind of mask in one field.
There is a rule for designing the mask. For example, to obtain a mask of 4*4 matrix capable of enabling the brightness of an image 0.75 times the original brightness, 1 should be the element corresponding to the i-th row and the j-th column in one of four 4*4 matrixes, and 0 should be the element corresponding to the i-th row and the j-th column in the rest of the four 4*4 matrixes. To obtain a mask of 4*4 matrix capable of enabling the brightness of an image 0.5 times the original brightness, 1 should be the element corresponding to the i-th row and the j-th column in two of four 4*4 matrixes, and 0 should be the element corresponding to the i-th row and the j-th column in the rest of the four 4*4 matrixes. To obtain a mask of 4*4 matrix capable of enabling the brightness of an image 0.25 times the original brightness, 1 should be the element corresponding to the i-th row and the j-th column in three of four 4*4 matrixes, and 0 should be the element corresponding to the i-th row and the j-th column in the rest of the four 4*4 matrixes. In the above, 1≦i≦4 and 1≦j≦4.
The mask can be a 2*2 matrix or a matrix larger than 2*2. However, the variation of the 2*2 matrix is less, so the flicker in an image is easier to occur. Thus, the masks of 4*4 matrix are the preferred embodiment, and a larger matrix is also preferred.
Referring to
The first predetermined manner, the second predetermined manner, the judging rule, the predetermined operational rule all are described as the above-mentioned recitations together with the corresponding drawings, and the related description is neglected.
Referring to
Referring to
According to the invention, the apparatus and the method for increasing the display gray levels utilize a look up table and a mask to auto-adjust the exceeding brightness of the unit gray level displayed the display device and to eliminate the noise from the displayed image. Therefore, the apparatus and the method of the invention can solve the problems of the prior art and improve the resolution of the image displayed by a display device. The apparatus and the method of the invention can be applied in plasma display panel (PDP), liquid crystal display (LCD), and so on.
With the example and explanations above, the features and spirits of the invention will be hopefully well described. Those skilled in the art will readily observe that numerous modifications and alterations of the device may be made while retaining the teaching of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.
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