TWI322980B - Character/graphic element displaying apparatus rogram and recording medium - Google Patents

Description

1322980 IX. Description of the Invention: [Technical Field] The present invention relates to a text/graphic element display device (which includes - a display element for displaying text or graphic elements and a control section for controlling the display element) ), a program and a recording medium. According to the present invention, for example, text or graphic elements can be displayed in a smooth and clear manner on a display element in which text or graphic elements can be displayed in color.

[Prior Art] Reference 1 discloses a technique for displaying characters in a smooth appearance. According to this technique, a dot font can be used, and a halftone field (gray scale field) is located around the text color field. Reference 2 discloses a display text technique whereby the appearance can be made smooth and in a manner such that the width of each line in the line extending in the vertical direction is large. According to this technique, a skeleton sub-pixel corresponding to the text skeleton portion is assigned to at least one of the plurality of sub-pixels. In addition, a group sub-pixel is assigned at a location adjacent to the skeleton sub-pixel. The group of sub-pixels corresponds to a portion of the skeleton portion of the text adjacent to the location and includes a plurality of sub-pixels. The plurality of sub-pixels included in the group sub-pixel are arranged in a horizontal direction. Setting the color element level 1 of the group sub-pixel is set according to the color element level; ^ the brightness level value of the group sub-pixel, the line can be displayed in a smooth and smooth manner, and the lines in the straight line extending in the straight direction are displayed The width is larger. ‘You can make the text sub-pixel" in this article is a color element contained in a pixel. "文 I08086.doc The section of the moon's frame is the center of each stroke in the stroke of the text. ·•Color: prime level" indicates the ratio of the brightness level of the text color to the brightness level of the background color. For example, the farther the car is from the sub-pixel position, the farther away from the skeleton sub-pixel, the color of the sub-pixel The lower the level of the prime is, the lower the ratio of the background color is. The opposite is true. The closer the position of the sub-pixel is to the sub-pixel of the skeleton, the higher the color of the sub-pixel is 7L, and the ratio of the color of the text is also The higher. Fig. 23 shows the text display 6 》 state disclosed in reference 2, and the 玄玄子显装置 600 includes an input element 601, a control section 6〇2, and a display *element 6()3. (4) Section (9) 2 includes a skeleton generating member, a textbook, a quasi-assignment member 6〇5, an output value generating member, a punching text, a quasi-calculation level calculating unit 607, a text contribution level quantifying component, a 6G8, and a brightness level calculating member. Qing. The moon generating component 604 inputs the bit map data IS input from the input component 601: the data is required to be generated in the sub-pixel unit to generate the skeleton material of the text skeleton portion, so that the text can be adjacent to the character according to the location. Pixel pixels and pixels located near the text skeleton portion position the skeleton sub-pixels to make them look smooth. The text sub-location assignment component 605 assigns a color element level (ie, a text f-level) according to the distance of each sub-pixel relative to the skeleton. The text contribution level calculation component 6〇8 places the text contribution levels in pixels as early positions. The brightness level calculation means 609 calculates the brightness table data whose table is not assigned to the brightness level of the sub-pixel. The output value generating means 606 assigns the "human"-free value to the desired sub-pixel according to the color element level and the luminance table data I08086.doc. Therefore, according to the character display device 600, it is possible to control the degree of the sub-pixels as a unit. This allows the text to be displayed at a higher contrast to make it look smoother. Reference 3 discloses a text technique whereby the appearance can be made smooth. 7 The method can be such that the width of each line in the line extending in the vertical direction and the width of each line extending in the horizontal direction are large. According to this technique, in order to have a larger width of each line extending in the direction of the flat direction, the color of the sub-pixel adjacent to the upper side and the lower side of the moon frame pixel (the color element level is the maximum level 7) is located adjacent to the position. The element level S is set to 3 (or below the level of the color element level of the skeleton = pixel; for example, the color of the f-frame pixel ^ half of the prime level). Therefore, the text can be displayed in a smooth and sleek manner in a manner that allows the width of each line in the line of the text to be large. Reference 1: Japanese Patent Publication No. 8255254 Reference 2: Japanese Patent Publication No. 2 〇〇 248 476 Reference 3: Japanese Patent Publication No. 2 〇〇 1] 〇〇 725 [Invention Content] However, according to the technique disclosed in the reference ,, the outline or text of each displayed text may be blurred, or the dominant degree of the black portion of the displayed text may cause the text to be unbalanced. The technique disclosed in Reference 2 can solve this problem of Reference i. The reason for this problem is that the character display device has a large width of each line in the line extending in the vertical direction by controlling the brightness level in units of sub-pixels. 108086.doc 1322980 However, even with the technique disclosed in reference 2, the width of other lines (e.g., curves) may not be constant. This is because the width of each line of the towel which cannot be extended horizontally cannot produce a smooth curve than A H . In addition, controlling the brightness level in units of sub-pixels and making the width of each line in the line extending in the vertical direction cause sub-pixel connections adjacent to each other or causing loss of some blank space in the blank space in the text. Therefore, it is impossible to produce a material for displaying a sufficiently clear text, and thus it is impossible to display a text with sufficient definition. The technique disclosed in Reference 3 can solve the problems of Reference 2. The reason why these problems are solved is that the technique disclosed in Reference 3 can not only make the width of each line in the vertical extending line larger, but also the width of each line in the horizontal extending line. Larger. Although the technique disclosed in Reference 3 can effectively display the respective straight lines in the straight line extending in the vertical direction, it is not easy to display the line extending in the diagonal direction by this technique. The color element level of the sub-pixel at least one of the upper side and the lower side of the adjacent sub-pixel of the skeleton sub-pixel is only determined by the color element level of the bone frame pixel. In addition, it is not easy to display a line with curved strokes using this technique. This is because the curved stroke does not adequately respond to changes in the width of the line extending vertically. The present invention has been made in view of the above problems. The object of the present invention is to provide a text/graphic element display device, a program and a recording medium group, which can display text or graphic elements clearly enough without deteriorating text quality, or can Displaying a text or graphic element in a manner determined by the width of the curved portion 108086.doc. The text/graphic element display device of the present month includes: a display element U having a plurality of pixels in a control section for controlling the display element, wherein Each of the plurality of pixels includes a plurality of sub-pixels disposed in a “first direction”, and each of the plurality of sub-pixels is pre-assigned a plurality of color elements corresponding to the color π 兀 ,, by a plurality of The color element level indicates the intensity of each of the plurality of color elements, and the control section displays a text or a graphic element on the display element by independently controlling a plurality of color elements corresponding to the plurality of sub-pixels. The control section sets - the color element level of the group skeleton sub-pixel, the group skeleton sub-pixel includes at least one corresponding To display the sub-pixel of the text or the skeleton portion of the graphic element on the display element, and set the color element level of a first group of sub-pixels disposed adjacent to one of the sub-pixels of the group skeleton sub-pixel, The first group of sub-pixels includes at least one sub-pixel disposed in the first direction, and the control segment is adjacent to the group of skeletons according to a color element level of at least one of the sub-pixels of the first group of sub-pixels a color element level of a second group of sub-pixels configured by one of the pixels, wherein the second group of sub-pixels includes at least one sub-pixel disposed in a second direction, the second direction being perpendicular to This first direction, thereby achieving the above object. The control section may set the color element level of the sub-pixel of the first-group sub-pixel according to the distance between the sub-pixel of the group skeleton sub-pixel and one of the sub-pixels of the first group sub-pixel . The control section may set a color Φ element level of the second group of sub-pixels I08086.doc •10- based on a first conversion ratio. The first conversion ratio may be determined based on a plurality of line widths of characters or circular elements corresponding to the color element levels of the first group of sub-pixels. The relationship between the first conversion ratio and the plurality of line widths of the text or graphic element can be represented by at least one of the tables. The color element level of the third group sub-pixel disposed adjacent to the first group of pixels may be determined according to a plurality of line widths of the text or graphic element, and the second group of sub-pixels includes at least one of The sub-pixels in the = direction may represent, by at least one table, a relationship between each of the plurality of line widths of the text or graphic element and a color element level of the second group of sub-pixels. The 泫 control section may set a color element level of a first group of sub-pixels based on at least one of a color element level of the first group of sub-pixels and a color element level of the second group of sub-pixels The third group of sub-pixels includes at least one sub-pixel disposed in the second direction. The brightness values of the second group of sub-pixels (which correspond to the color element levels of the second group of sub-pixels) may be determined based on a plurality of line widths of the text or graphic elements. The relationship between each of the plurality of line widths of the text or graphic element and the brightness value of the second group of sub-pixels may be represented by at least one of the tables. The control section sets the color element levels of the second group of sub-pixels based on the correction limit material (which indicates whether the text t or the correction on the graphical element should be restricted). The correction limit data can be included in the bitmap image representing the text or graphic element. The correction limit data may include a single value. 108086.doc 1322980 The recording medium of the present invention is an information display device readable recording medium. The information display device comprises a display element having a plurality of pixels and a control section for controlling the display element, in the plurality of pixels Each of the pixels includes a plurality of sub-pixels disposed in the -th direction, and each sub-pixel of the plurality of sub-pixels is pre-assigned to a plurality of color elements corresponding to the color element '#. The plurality of color element levels represent the complex number The intensity of each color element in the 7L color, the recording medium has

The recorded program is for causing the control section to execute a program that includes displaying _text or - on the display element by independently controlling a plurality of color 7C elements corresponding to the plurality of sub-pixels. The step of displaying the graphic element 'and displaying the text or the graphic element on the display element comprises the steps of: setting a color element level of a group of skeleton sub-pixels, the group skeleton sub-pixel comprising at least - corresponding to the display a sub-pixel of the text or a skeleton portion of the graphic element on the display element, and a first group configured to be adjacent to one of the sub-pixels of the group skeleton sub-pixel

a color element level of the group of sub-pixels, the first group of sub-pixels including at least one sub-pixel disposed in the first direction; and a color element level of at least one of the sub-pixels according to the first group of sub-pixels a color element level of a second group of sub-pixels disposed adjacent to the sub-pixels of the group of skeleton sub-pixels. The second group of sub-pixels includes at least one sub-pixel disposed in a second direction, 13⁄4 The two directions are perpendicular to the first direction, thereby achieving the above object. A program for executing an explicit program, wherein the information display device includes a plurality of image-like components such as I08086.doc • 12· and a control segment for controlling the display device. Each of the plurality of pixels includes a plurality of sub-pixels disposed in a first direction, and each of the plurality of sub-pixels is pre-assigned to a corresponding one of the plurality of color elements, by a plurality of color elements Bit ' $ indicates the intensity of each color element in the plurality of color elements, and the display program includes the step of displaying _ text or a graphic element on the display element by independently controlling a plurality of color elements corresponding to the plurality of sub-pixels The step of displaying the text or the graphic element on the member element includes the steps of: setting a color element level of the group skeleton sub-pixel, the group month shelf pixel including at least one corresponding to the display to be displayed on the display a sub-pixel of the character or a skeleton portion of the graphic element on the component, and a sub-pixel configured to be adjacent to one of the sub-pixels of the group skeleton sub-pixel a color element level of the first group of sub-pixels, the first group of sub-pixels including at least one sub-pixel disposed in the first direction; and a color element according to at least one of the first group of sub-pixels a level setting a color element level of a second group of sub-pixels disposed adjacent to one of the group of sub-pixels of the group of sub-pixels, the second group of sub-pixels including at least - a child configured in a second direction The pixel, the second direction is perpendicular to the first direction, thereby achieving the above object. The text/graphic element display device, the program, and the recording medium according to the present invention, the color elements of the second group of sub-pixels may be set according to color element levels of at least one sub-pixel of the first group of sub-pixels Level. Therefore, the color element level of the second group of sub-pixels can be changed in combination with the change of the color element level of the first group of sub-pixels. This changes the width of the lines in the line of text or graphic elements to make them consistent. Therefore, text or graphic elements can be displayed in a smooth manner by the appearance of 108086.doc -13- 1322980. According to the text/graphic element recording medium of the present invention, the arrangement direction of the program and the respective wide sub-pixels in the line of the two or graphic elements can be uniformly enlarged. The plural number included in each pixel in the frame: the text/graphic element display device, the program and the heart recording medium according to the present invention can prevent the loss of the text between the lines: This is compared with the text according to the conventional technology. ,:: word, the text is clearer and easier to read. The reading is shown in the following paragraphs. [Embodiment] Hereinafter, specific embodiments of the present invention will be described with reference to the accompanying drawings. A character display device 2 displays a character display device 1 according to an embodiment of the present invention. . The text display device 100 can be, for example, a personal computer. Any class = computer, for example, a desktop or laptop, can be used as a personal computer. Alternatively, the character display device 1 can be a word processor. The / word display device 1 can be any type of display device having a display element, e.g., an electronic component or an information component. Example &, a device 100 can be an electronic component having a liquid crystal display element, a portable information terminal used as a portable information tool, a mobile phone including a PHS: a general communication device (for example, a telephone or a fax) Machine), game console, τ PDA. Or the text display device (10) includes an input element 〇1, a display element 103 for displaying a plurality of characters I08086.doc J4- for controlling the display element 103, and a _ section 10 2 . The input element m is for inputting text information (which indicates a character to be displayed on the display element 103) to the control section 1〇2 and inputting the instruction to the display element 103. For example, the text resource is white and twisted. The text code including the recognized text, and the bit map indicating the bitmap image type are carefully prepared as the line width information of each line width in the line of the image. The color of the text of the female voice, the color information of the background and the background color of the background color. (4) Any type of input component of the input character til can be used as the input component HH, and an input component (for example, a keyboard) including a cursor key, a numeric key, and a function key can be used as the input component 1〇1. When the text information is input to the control section 1 () 2, the input element 101 does not have to be used. The text information can be stored in a recording medium (not shown) included in the control section 1〇2.

Any type of recording medium can be used as a recording medium for storing text information. For example, a recording medium such as a hard disk, an R 〇 M, an M 〇, an MD, a DVD, an IC card, and an optical card can be used. The R〇M can be a mask ROM, an EPROM, an EEPROM or a flash ROM. If you use R〇M, you can implement various processing by changing the ROM. For example, when the character display device 100 is a portable terminal element or a mobile phone, a ROM can be used. When the text display device 100 includes a component for connecting the device to a communication line (including the Internet), the text information can be downloaded via the communication line. 0 108086.doc -15 - The control section 102 is controlled by independent control A character is displayed on the display element 103 over a plurality of color elements of the plurality of sub-pixels.

The control section 102 converts the bit map data into text display material. The text display data indicates that it is to be displayed on the display element! The text of the text on 〇3. The control section 1〇2 includes a skeleton generating member 1〇4, a text contribution level assigning member 105, an output value generating member 1〇6, a text contribution level calculating member 107, and a text contribution level set calculating member. The luminance level calculation means 109, the vertical text contribution level set calculation means (10), and the two-dimensional text contribution level set combination means 丨丨j. The lure generating member 104 generates skeleton data from the bit map data input by the input element i i . The text contribution level assignment means assigns a value indicating the contribution of the text color to the background color (i.e., the text contribution level) to each of the sub-pixels. The input component 输 inputs the line width f signal to the text contribution level calculation component I07. Text contribution level calculation structure (4) 7 basis - distance from the skeleton sub-pixel

Based on the line width information, the text contribution bit of the Τπ4 pre-sufficient sub-pixel is calculated. Component 108 counts the text contribution level of each pixel

The vertical text contribution level 瞀 隼 U U U 集 U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U U The text of the article is a quasi-set. The bone 牟 牟 一 一 对应 对应 对应 对应 对应 对应 对应 对应 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字 文字Kenting only has a one-dimensional text contribution level set. 108086.doc -16. 1322980 The brightness level calculation means 1 〇 9 calculates a plurality of sub-pixels and characters to be displayed on the display element 103 based on the text color information, the _ _ _ _ _ _ _ _ The brightness level. The composition output value generating means 106 generates a value to be output to the display element 103 based on the word contribution bit. The value to be outputted to the display element 103 (i.e., the Tachibana, I and the sub-display data). The generated output value is output to the display element 103. The details of the "text contribution level'' text contribution level set, , "vertical text contribution level set and " two-dimensional text contribution level set, will be explained later. In addition, the control is also described later. The thin display element 1〇3 of the function of the segment 102 includes a display area having a plurality of pixels. The text display material that is rotated by the control section (10) displays the desired text: In the display area of the component 103. Any type of display element having the function of displaying characters can be used as a display element. The display element (8) can be, for example, a liquid crystal display element. Each of the plurality of pixels The pixel is divided into a plurality of sub-pixels. The sub-pixel (4) of the multi-subpixel is assigned to a plurality of color elements (for example, the blue-to-corresponding color element. The complex color table does not include the color elements in the plurality of color elements. Intensity. The shape of each sub-pixel in the sub-pixel is a rectangular shape extending in the vertical direction / Λ * x . The difference is divided into three sub-I-shaped "this shape. In this case. The sub-pixels are arranged in a horizontal direction. The shape of each sub-pixel in the sub-pixels is not limited to a rectangular shape of 108086.doc extending in the vertical direction. The shape of each sub-pixel in the sub-pixels may also be A rectangular shape extending in the horizontal direction. In this case, the sub-pixels are arranged in a vertical direction. The method for forming the sub-pixels is not limited to a method of dividing one pixel into three sub-pixels. The pixel is divided into any number of segments. The text contribution level will be described in detail below. • A hexadecimal number (a value from 〇 to F) indicates the text contribution level. For example, the text of the moon shelf pixel is contributed. It is expressed as "F". The text contribution level of a sub-pixel that is far enough away from the ... sub-pixel is expressed as "0". The position of the sub-pixel of the sub-pixel of the sub-pixel is represented as A value from ·, 〇" to "F" For example, the farther the position of the desired sub-pixel is from the skeleton sub-pixel, the more the value of the text contribution level of the desired sub-pixel is /J, 〇$子Color is When the color of the background is white, the text of the skeleton sub-pixel is expressed as "F", and the brightness value of the skeleton sub-pixel is ^ 1. The position is far enough away from the skeleton sub-pixel. The text of a sub-pixel • The sub-element is not a "0", and the brightness value of the sub-pixel is "255". The position is close to 兮毋&μ μ. Welcome to the sub-pixel of this sub-pixel The text contribution level is a value from 0 to F", and the brightness level of the sub-pixel is from the value corresponding to , 255 " to, 〇,, and the middle one. You don't have to use hexadecimal numbers. It can be used by any other series (4) text contribution level. The text contribution level set will be described in detail below. A sub-set is used for a set of text contribution levels of a plurality of sub-pixels. For example, A f has three sub-pixels and each 108086.doc 1322980 sub-pixel of the three sub-pixels is assigned to three color elements (eg, one of R, (3, and B)

In the case of a color element, the text contribution level set is the text contribution level for the sub-pixels of the color element R, the text sub-pixel level for the sub-pixel of the color element G, and the text for the sub-pixel of the color element B. Contribution level composition.

When the color of the text is black and the background color is white, for example, a text contribution level set for three sub-pixels wider than a black portion is expressed as (F, f, F), and the pixel value is expressed as (R) , G, B) = (〇, 〇, 〇). For example, a text contribution level set corresponding to three sub-pixels of a white portion is represented as (〇, 〇, 0), and the pixel value is expressed as (R, G, b) = (255, 255, 255) . , ' The text contribution level set of the three sub-pixels located near the right side of the skeleton sub-pixel is represented as a team (^) = (3, 6, 9), and the pixel value should satisfy the relationship UGa (for example, (R, G, B) ) = (230, 202, 168)). The relationship R > G "B is satisfied by the pixel value (for example, (R, G, b) = (23 〇 2 〇 2

The three sub-pixels of 168)) display red, which has a different color than the text color and the background color. By arranging the text contribution level set of the sub-pixels near the left side of the skeleton sub-pixel as (R, g, b(4), 6, 3) and by configuring the pixel value to satisfy the relationship, for example, (r G BM168 , 202, 230)) 'can limit the color of the text. The text contribution level set is not limited to one of the three sub-pixels constituting one pixel. Assigning the text Gong Yu', { ^ SI Wenzibei's text contribution level contains the number of sub-images and the number of 曰& y' can be any number greater than or equal to 1 0 108086.doc 1322980 or less The function of each component included in the control section 102 will be described in detail. The circle 2 shows that the skeleton does not function as the component IQ#. The skeleton generating member H) 4 extracts the required data from the bit map data and generates skeleton data in units of sub-pixels. The skeleton data is generated, so that the skeleton sub-pixels can be smoothly arranged according to the pixels of the position adjacent to the skeleton portion of the character and the pixels located near the skeleton portion of the character. • The bitmap data is stored in, for example, a font storage section included in the text display device 100. The skeleton generating member 104 has been referenced by the pixel adjacent to the frame sub-pixel at the position and the sub-pixel of each pixel in the pixel in the pixel image obtained from the sub-type storage segment. The sub-pixels are assigned skeleton data. For example, by using the reference-predetermined pixel and the eight pixels adjacent to the predetermined image $, the skeleton included in the predetermined pixel (for example, the pixel at the first column and the jth row) in the bit map data is determined. Pixel. By Lu: swallow the pattern of pre-pixels and eight pixels (the (i+1)th column and the (j _ 1) line at the back. @ • 豕京,第 (1+1) column and j The pixel at the row; the pixel at the (i+Ι)th column and the (+ΐ)τ; the pixel at the 丨 column and the (j 丨) row; the ith column and the (J n booked pixel) ; pixels at the (i-ι) column and the CM) row; the pixel at the (i_n J仃 pixel; the (M) column and the ϋ+1) row) _ 典加月水The sub-pixel is assigned to a sub-pixel to which the color element 5 is assigned within the predetermined pixel. / / = Based on the combination of the pattern of the predetermined pixel and the position of the R-environment tea of the eight pixels adjacent to the predetermined position, it is decided to assign the &gt;08086^0, •20-1322980 pixels for the skeleton sub-pixel. The combination of these patterns is previously stored in the skeleton generation 〇4. The skeleton generating means 104 performs a pattern matching program for all the pixels indicated in the bit map material, assigns the corresponding skeleton material ' and generates a skeleton pattern from the pattern of the predetermined pixels (see Fig. 2(c)). Figure 3 shows the function of the text contribution level assignment component 1〇5. The text contribution level is represented by a hexadecimal number (a value from _). The text contribution level of the skeleton sub-pixel is expressed as "F". The text corresponding to a sub-pixel of the portion of the N sub-pixels away from the skeleton sub-pixel is quasi-represented as &quot;〇&quot;. The text contribution level of the sub-pixel near the skeleton sub-pixel is expressed as a value from &quot;0' to "F&quot;. The text contribution of the sub-pixel for the color element B in the pixel at the first column and the j-th row The text contribution level of the sub-pixels of the sub-pixels of the color element G in the pixel of the b-character column and the j-th row is used for the color element R in the pixel at the i-th column and the ninth line. The text contribution level of the sub-pixel is %&quot;. The second column of the sub-pixel of the color element B in the pixel at the first column and the (J-1)th row is &quot;3&quot; The text contribution level of the sub-pixel for the color element r in the pixel at the fourth line is "9&quot;. The text contribution bit &quot;"6 for the sub-pixel of the color element G in the pixel at the column and the (4)th row. (d) and the pixels at the line (4) the text contribution of the sub-pixels of the color element B) II 2 I» 〇厂, not = the text contribution level is assigned to the sub-pixels, so that the assigned text level is relative to the skeleton sub-pixel bilateral symmetry. However, when these 10806.doc • 21· texts are assigned to the sub-pixels, the assigned text contribution level may not be bilaterally symmetric with respect to the skeleton sub-pixel. In addition, the contribution level of the sub-pixel text is not limited to '9&quot; ' ” 6” and “3”. As described above, the text contribution level assigning component 丨〇5 assigns a text contribution level to a desired sub-pixel such that the position of the desired sub-pixel is farther from the skeleton sub-pixel, indicating the text contribution level of the desired sub-pixel. The smaller the value (see Figure 3(c)). Fig. 4 shows the function of the output value generating means 1〇6. The output value generating means 1 6 includes a table of luminance values, each of which corresponds to a text contribution level set of a pixels. The output value generating means 1 选择 6 selects a luminance value table corresponding to the text contribution level set in the luminance value table, and generates text display data based on the selected luminance value table. In the case of the text contribution level of the pixels at the i-th column and the j-th row (6, 9, in the case of 〇, the output value generating means 106 selects the π-degree value table of the packet 3 in the output value generating means 1 〇 6 The table "2" (see Fig. 4 (b)), and generates text display data based on the selected brightness value table. Therefore, the description of the data processing of each character is completed. As described above, the skeleton generating member 104 and the text are used. The contribution level assigning means 1 to 5 and the output value generating means 106 perform data processing for displaying all the pixels constituting the character to display the character. The generation of the luminance value table included in the output value generating means 1 to 6 will be described below. The text contributes to the function of the level calculation member 1 。 7. The text contribution level calculation means i 〇 7 sets the text contribution bit of the predetermined sub-pixel according to the distance between the skeleton sub-pixel and a predetermined sub-108086.doc • 22· pixel The text contribution level calculation means 107 calculates the text contribution level of the skeleton sub-pixel and the position away from each other according to the width level in the width level of the plurality of indication characters (ie, the line width information). Skeleton sub-pixels one sub-pixel = pixel contribution level of the pixel, the position of the text is away from the two sub-pixels of the skeleton sub-pixel, and the position is far from the skeleton sub-bone: the text contribution level of the sub-pixel, and the location is far away The text contribution level of the sub-pixels of the four sub-pixels of the table sub-pixel. In the case of the width level &quot;i", the position of the two sub-pixels at a position away from the skeleton sub-pixel is respectively &quot;F" ,··,9&quot;,&quot;6",&quot;3&quot;,&quot;〇&quot; . &quot;i +1&quot; in the case of the width level, these sub-pixels (from the bones of the skeleton) The sub-pixels of the four sub-pixels are farther away from the location of the "F,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, To the position away from the bone, '(from the moon shelf pixel 1 pixel four sub-pixels like Xin), the female baby is not necessarily different from each other. The text of the text) is the same as the text contribution of the text. For or, all text contributions can be fully &quot;F&quot;. 4 Temple sub-pixels (from the back of the bone, Moonwood sub-pixels to the sub-pixels away from the pixel four sub-pixels straight through the moon Muzi &quot;9", "9", &quot;3&quot;, "〇" &quot;F&quot; The grades can be respectively &quot;F"' or "F&quot;, &quot;F&quot;, &quot;F&quot;, &quot;F" &quot;. Pre-calculated a wide number of sub-pixels. It is also possible to use a word contribution value indicating the relationship between $葙赵^ and the text contribution level = quasi-text contribution calculation component (10) in the m brother, 1 in the text contribution level quiz The computing component 107 selects a 1-word contribution level according to the width of the 108086.doc • 23-. The text contribution level of the sub-pixel changes depending on the visible width level. It is assumed here that the text contribution level corresponding to the 2 width level i is compared with the text contribution level corresponding to the width level i+1. In this case, for the two width levels, the skeleton is early. The pixel contribution level of the pixel is the same. For the two width levels, the text contribution of the sub-pixels of the four sub-pixels at the position away from the sub-pixels of the skeleton sub-pixel is the same. However, the text is at a position away from the sub-pixels of the sub-pixels of the sub-pixels, the two sub-pixels, and the three sub-pixels of the skeleton, and the text contribution level corresponding to the width level i Department &quot;9", &quot;6&quot;, μ&quot; 3 ', corresponding to the width level i + Ι text contribution level "A", &quot;7&quot;, ~ two corresponds to the width level 1+1 Wenzibei is more than the text contribution level corresponding to the width of the palace, and the pixel contribution level of the pixel, 'F&quot;. This means that the brightness level H beauty 109 will be closer to the text color. A value is assigned as a luminance value to a predetermined pixel. It is assumed here that the text contribution level corresponding to the width bit # is selected by the word contribution 驮 驮 计 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The function of the text contribution level set calculation component (10). The text contribution level set calculation component 08 calculates a text by referring to the text contribution level of a predetermined number of sub-pixels. The sample is given to the sample. For example, the child to be tested The number of pixels depends on The car contributes to the level of the contribution of the text calculated by the member of the calculation unit 107. The target of the text contribution includes a certain sub-pixel of the sub-pixel to the sub-pixel. The position is the minimum value (ie, 〇) of the sub-pixel before the sub-pixel) I08086.doc -24. 』 322980 word contribution level. Therefore, by the number of sub-pixels: <&lt;c expression> to be referred to&gt;&gt; The number of sub-pixels to be referred to = (a θ N 1 1 豕 ^ 所 所 所 ) ) )) + The number of sub-pixels of the sub-pixels whose position is adjacent to the sub-pixel of the skeleton sub-pixel is the minimum value ' ', immediately before the sub-pixel of the value of the value of $. In this embodiment of the invention, by: 1°7 is assigned to it. The sub-pixels of the text contribution level are two: two = the size of the sub-pixels of the sub-pixels of the three sub-pixels away from the skeleton sub-pixel. Therefore, based on 9 sub-pixels (four) + 3 χ 2) (ie, skeleton data calculation - arbitrary text contribution level set. - solid pixel), the skeleton A of the sub-pixels having positions adjacent to each other is thus made 29=512 different table. The function of the brightness level calculation means 1 〇 9 is shown in Fig. 7. For each pixel in the pixels, the luminance level calculation means 109 is based on the soil, edge and sub-level set input to the luminance level calculation means 1 ( 9 (for example, by a two-dimensional text contribution level set combination Two-dimensional combination of components (1)

Mm (4) determines the luminance value of the sub-pixel of the color element B, the luminance value of the sub-pixel for the color element 0, and the luminance value of the sub-pixel for the color element B by the color 'background color and pixel arrangement. As mentioned above, the text contribution level represents the mixture-to-mix ratio between the text color and the background color. Therefore, according to the text contribution level, the actual bright 108086.doc •25· 1322980 degree value is calculated by performing a heart-shaped τ ^ * 加权 weighted averaging process on the text color information and the background color information. The actual brightness level of the sub-pixels depends on the characteristics of the text display device. The following &lt;&lt;Expression 2&gt;&gt; to &lt;&lt; expressions are used here to calculate the actual brightness level of the sub-pixels. &lt;&lt;Expression 2»

Vr=iGr((Gr(fr)xar+Gr(br)x(15-ar))/15) «Expression 3»

Vg=iGg((Gg(fg)xag+Gb(bg)x(15-ag))/15) «Expression 4»

Vb=iGb((Gb(fb)xab+Gg(bb)x(15-ab))/15) In these expressions, Vr represents the luminance level representation of the sub-pixel for the color element R for the color element (the luminance level of the sub-pixel of 3; and Vb represents the luminance level of the sub-pixel for the color element 8. In these expressions, Gr(x) represents the sub-character for the color element R in the text display device ι〇〇 Pixel-related input/output features:::: (10) and the sub-pixels for the color element 有一 have a: Γχ) indicates an input/output feature associated with the sub-pixel for the color element 文字 in the text display device 10°; iGr(x) represents the output/input special image of the text continuation H)0 associated with the sub-character for the color element R, quotation.ir, _ 冢 辛, and the sub-pixel for the color element G The relevant output/rounding feature; and the sub-pixel (10) associated with the sub-pixel for color element B = non-text display device. In these expressions, fr denotes the color/output/rounding feature. The color of the required color level element R of the sub-pixel table g table is not used for the color element G sub-image i0S0S6.doc -26- prime to indicate the desired color level of the text color; _ sub-pixels represent the desired color of the text color Level; Sub-pixel representation of element R Background color required brightness bit color Sub-pixel representation of color element G desired background color brightness level: bb represents the table of sub-pixels for color element B, and level. Month* color required brightness word = equal expression 'ar denotes the text level of the sub-pixel for the color element r, ag denotes the text binary for the sub-pixel of the color element G, and the ab table is not used for the color element 6 The text contribution bitmap of the pixel 7(4) shows the brightness level corresponding to the text contribution level set. For the texts in 3), (°36), (9F9), and (fff), the brightness levels (255, 255, 23〇), (255, 23〇, 2〇2) , GW, 〇, (10)), (G'G, G) - the corresponding brightness level is determined as its brightness level. ' Calculated by performing on the text contribution level set shown in Figure 7(4) - display device input 'output feature conversion, text-weighted average calculation of text color and background color, and inverse conversion of input/output characteristics of the display device . Further, the following Expression 5 &gt;&gt; indicates a display feature conversion expression in which the input/output feature of the text display device 1 is expressed as γ=2 2, the text color is black, and the background color is white. Use this expression. «Expression 5»

Gx(x)=255x(x/255)2·2 Therefore ‘ Gr(〇)=〇 and Gr(255)=255. 108086.doc •27- 1322980 In the case where the text color is black and the background color is white, the items in the expression items including fr, fg, or fb are all 〇. In this case, the brightness level of the sub-pixel can be expressed by the following "Expression 6&gt;&gt; to "Expression 8&gt;&gt;: &lt;&lt;Expression 6&gt;&gt;

Vr=25 5x(((25 5x(l5-ar))/15)/25 5)(W2·2) &lt;&lt;Expression 7»

Vg = 25 5x(((2 5 5x(15-ag))/15)/25 5)(,/2·2) &lt;Expression 8»

Vb=25 5x(((2 5 5x( 15-ab))/l 5)/25 5)(1/2·2) by contributing the text of the sub-pixel (〇, 3, 6) (see The line 2) of the table shown in Fig. 7 (4) is assigned to "Expression ^" to Expression 8 &gt;&gt;, and the luminance level of the sub-pixel is calculated as follows.

Vr=25 5x(((25 5x( 1 5-0))/1 5)/25 5)(,/2·2)=25 5χ1(,/2·2)=25 5 Vg=25 5x(( (2 55x(15-3))/15)/255)(1/2-2)=25 5x0.8(,/2 2)=230

Vb=255x(((255x(l5-6))/15)/255)&lt;1/2^255x〇6(./2.2)=2〇2 In fact, the input/output characteristics of the display device are often It is non-linear. If the input/output characteristics of the display device are non-linear, the input/output characteristics and the 6-turn reverse feature are pre-computed and stored in a table. Fig. 8 shows the function of the vertical text contribution level set calculating means 11'. The vertical text contribution level set calculating means 11 calculates a text contribution level set of sub-pixels whose arrangement direction is perpendicular to the arrangement direction of the sub-pixels. For example, the _ _ _ text contribution level set depends on the skeleton? The distance of the pixels. The vertical text contribution level set calculation component 〇1〇 uniformly converts a text contribution 108086.doc -28- 1^22980 level quasi set into a vertical text contribution level set, without depending on the width bit '; j such as vertical text The level set calculation means m converts the -word contribution level set into a - vertical text contribution level set by multiplying the text quasi set by 1/3 (see Fig. 8(a)). Alternatively, the 'vertical text contribution level set calculation component can also convert the text contribution level set into a vertical text contribution level set based on the width level (see Fig. 8(b)). In the case of the width level &quot;i+3", the sub-pixels (from the skeleton image 2 to the sub-pixels of the four sub-pixels away from the skeleton sub-pixel) are respectively, F, ,, "d", ^ ^ d 8 , 5 , "〇 &quot;. In this case, Jiao Zhonghao multiplies the textbook quasi-set by 1/2 and converts the text contribution level set into a vertical text contribution level set. ^度准系, V, in the case of these sub-pixels (two pixels from the skeleton sub-pixel in the sub-pixels of the four sub-pixels away from the skeleton sub-pixel), the texts are "F&quot;," 9&quot; Μ ^ 〇 In this case, the text contribution level set is converted into a vertical text by taking the text contribution level set 盥 1 / ^ J J3 Contribution level set (see Figure 8(b)). In the case of symplectic = '2&quot;, the sub-pixels (from the skeleton sub-pixel to the position of the sub-pixels away from the sub-pixels of the skeleton sub-pixel, the imaginary text contribution levels are respectively "F", , , T 5 1 , &quot;〇&quot;. In this case, I converts the contribution level set by 1/4 and converts the text contribution level set into a vertical text contribution level set. Position: Connect: ! (The first-group sub-pixel) (from the position adjacent to the moon wood sub-pixel child to the position away from the skeleton sub-pixel W8086.doc -29- 1322980 sub-pixels of three sub-pixels) the text contribution level is set to a predetermined group a text contribution level of the sub-pixel (忒 second group sub-pixel). Here, the predetermined group sub-pixel (the second group sub-pixel) is located adjacent to a group of the group skeleton sub-pixels The pixel includes at least one sub-pixel disposed in a vertical direction.

Further, as described with reference to Fig. 8(b), the text contribution level of the second group of sub-pixels can be set based on a predetermined conversion ratio. The predetermined odor is determined based on the line width information, as described above, by at least a table indicating the relationship between the predetermined conversion ratio and the line width information. In the examples shown in Fig. 8(a) and Fig. 8(b), the text contribution level set (〇, 〇) is converted into a vertical text set (Q, Q, q), and the text contribution bit is The quasi-set (F, F, F) is converted into a vertical text contribution level set (5, 5, 5). f The relationship between the quotation of the text, the vertical text contribution level, the two-dimensional text, the text contribution level, and the brightness value.

2 Next, a method of calculating the luminance value by the two-dimensional text contribution level set combination 111 and the luminance level calculating means 1G9 will be described. Fig. 9(4) shows the relationship between the text contribution level set, the vertical text contribution level set, and the two-dimensional text contribution level set. The combination of the text contribution level sets is arranged in the first line, and the limbs + - 仃 @ will be the combination of the vertical text contribution level sets. &quot; Sub-Beauty Quasi-Collective Component -" A i A history evaluation dice and the larger value of the vertical text contribution level set to produce a contribution level set. In the case of Wenzibei's quasi-collection system (A, B, c) and the vertical text contribution level set is the dimension text 108086.doc 1322980 (a, b, c), the two-dimensional text contribution level set combination component " I compares a with a, compares b with b, and compares (a) with c and satisfies A&gt;a, B&lt;b, and C&gt;c, a two-dimensional text contribution level set.匕C). In the case of a text contribution level set (〇, 〇, 3) and a vertical text contribution level set (0, 1, 2), a two-dimensional text contribution level set system (〇, 1 3 The two-dimensional text contribution level set combination component (1) sets a two-dimensional text contribution level set based on the text contribution level set and the vertical text contribution level set.

Determining, based on the text contribution level of the first group of sub-pixels and the text contribution level of the second group of sub-pixels, setting a predetermined group of sub-pixels (the third group) and sub-pixels Here, the predetermined group of sub-pixels (the third group of sub-pixels) are adjacent to a group of sub-pixels configured by the first group of sub-pixels and include at least—sub-pixels disposed in the vertical direction The first group of sub-pixels is a group of sub-pixels from a sub-pixel adjacent to the skeleton sub-pixel at a position to a sub-pixel of a position away from three sub-pixels of the skeleton sub-pixel. The second sub-pixel system is adjacent to the sub-pixel of the sub-pixel system. of

A group of sub-pixels and including at least a sub-pixel whose configuration direction is perpendicular to the arrangement direction of the skeleton sub-pixels. The higher priority is given to the high speed execution of the data processing rather than the proper display of the text (e.g., in this particular embodiment of the invention, a text is displayed such that the width of the vertical line is visually equal to the width of the horizontal line of the text) The third group sub-pixel may be set according to a predetermined rule defined previously, based on the first + m text # quotation level and one of the second group sub-pixels: a level The text contribution bit...the higher priority is given to the appropriate display text instead of the high speed execution data 108086.doc • 31· as described in this particular embodiment of the invention, based on the text contribution of the group subpixel The level and the text contribution level of the (four) two-axis sub-pixel set the text contribution level of the third group of sub-pixels. The text contribution level of the sub-pixels used for the color elements is displayed. • The relationship between the brightness values of the text contribution levels. The text color is , black, and the background color is white. The luminance values corresponding to the text contribution levels of the sub-pixels for the color elements and the luminance values corresponding to the text contribution levels are calculated based on the method described with reference to FIG. 7 and Expressions 6» to "Expression 8". Figure 9 (4) shows a two-dimensional brightness table. The two-dimensional brightness table displays the relationship between the text contribution quasi-collection $ straight text and the two-dimensional brightness value. The two-dimensional luminance value is calculated based on the luminance values shown in Fig. 9(a), the two-dimensional Wenfeng first needle, the #准# 坪平子贝, and the brightness value shown in Fig. 9(b). The two-dimensional luminance value corresponds to the luminance value of the two-dimensional text contribution level set. Figure 10 shows a text image produced by the text display device i 〇 . The brightness level calculating means 109 calculates a two-dimensional brightness value table (indicating the relationship between the text mark level, the vertical text contribution level set, and the two-dimensional brightness value) and outputs the calculated table to the output. The value generation member 106. The text contribution level set (3, 6, 9) of the pixel at the (k+1)th and the jth line and the text contribution level of the pixel at the kth column and the line. , 〇, 〇) input to the output value generating member 106. The output value generating means 1〇6 refers to the two-dimensional luminance value table (see FIG. 2), the text contribution level set (2) based on the (k+Ι)th column and the jth row, and the kth column and The text contribution level set (像素, 〇, 〇) of the pixel at the jth row selects a corresponding brightness value of the two-dimensional luminance value (ie, the value of 108086.doc -32-1322980 at the first column and the second row) And determine the pixel value of the pixel at the kth column and the jth row. Produce a text image (see Figure l〇(c)). Thus, the character display device according to the present invention has been described with reference to Figs. 1 to 1B. For example, in the specific embodiment shown in FIGS. 1 to 10, the display element ι 3 corresponds to a display element having a plurality of pixels, and the control section 1 〇 2 corresponds to &quot; for controlling the display element. Control section, ·. The individual elements included in the section 〇2 correspond to a member for &quot; displaying a word on the display element by independently controlling the plurality of color elements corresponding to the plurality of sub-pixels. The skeleton generating member 104 And the text contribution level assignment component 105 corresponds to a color element level for the "set-group skeleton sub-pixel, the group skeleton sub-pixel comprising at least one corresponding to the text to be displayed on the display element - the skeleton a portion of the sub-pixels, and a color element level-group sub-pixel of the first-group sub-pixel configured to be adjacent to the sub-pixel adjacent to the group of sub-pixels includes at least a sub-arranged in the first direction The component of the pixel. The output value generating component (10), the text contribution level difference component 1〇7, the text contribution level set calculation component (10) = the piece, the vertical text contribution level set calculation component m, and the second = sub-benefit The quasi-collection combination component (1) is configured to set, according to the color element level of the at least one sub-pixel of the first-group sub-Hi, a second group that is adjacent to the group skeleton: the sub-pixel of the prime group The second group of sub-pixels of the color elements of the sub-pixels includes at least a component that is disposed in the second direction and whose second direction is perpendicular to the first direction. However, the figure is shown in FIG. Examples are merely examples of the functions of the 10806.doc-33-word display device according to the present invention. Any other text display device having any other group sorrow as long as the individual components can be implemented can be included in the present invention. In the category, for example, the &quot;first-direction&quot;-axis direction. In the case where the first direction is x-axis@, the first-group sub-pixel is transferred to the group (four) shelf pixels. The sub-pixel in the X-axis direction of the first one. In the case where the first direction is the X-axis direction, the "second direction" should be the y-axis direction. The second group of sub-pixels • (d) the sub-pixels in the y-axis direction of the group of skeleton sub-pixels. It should be noted that the "first-to-a" α μ α direction is not limited to the x-axis direction. For example, the &quot;first direction&quot; may also be the y-axis direction. In the case of the first direction system direction, the first group sub-pixel is adjacent to the sub-picture sound in the axial direction of the group skeleton sub-pixel. In the case of the y-axis and the direction of the y-axis, the Λ-plus direction should be the x-axis direction. The second group of sub-pixels is adjacent to the sheep, and a sub-pixel in the x-axis direction of the moon wood sub-pixel. For example, the above-mentioned individual members may be implemented by hardware, erroneously implemented by a carcass, or by hardware and software. For example, one can be used to cause the computer to execute a text • The program is stored in the text display device. In the following, the program is called:: When the process shipment, the text display is stored in a program storage component included in the text display device; the expression storage device is after the electric device f The text display handler is stored in the -1 subcomponent. For example, the user can download the text display processing program from a special or free way on the Internet and install the 108086.doc -34- downloaded program on the computer. "" can record the text display processing program on the fine-grained recording medium (for example, floppy disk, CDR0M or read-oMU) by using an input component (for example, =: display processing program installed to the computer) The installed program is stored in the program storage component. The details of the text display processing program will be explained later. As described with reference to FIG. 1 to FIG. H), the text display device of the present invention can be based on the first group. The silly sound, $, is at least the pixel-level color element level = the color element level of the second group of sub-pixels. Therefore, the change of the color element level of the group of sub-pixels can be changed. The color element level of the second group of sub-pixels can change the width of each line in the line of the text to make it consistent. Therefore, the text can be displayed in a smooth and elegant manner. The width of each line in the line of the character is enlarged, without having to rely on the arrangement direction of the plurality of sub-pixels included in each of the plurality of pixels. Figure U shows another embodiment in accordance with the present invention. The configuration of the text display device 200. In Fig. U, 'the same elements as those shown in Fig. 1 have the same reference numerals', and therefore the description thereof is omitted. Fig. 12 shows the function of the table selection member 212. Fig. 12 illustrates a character display device 2. The character display device 200 includes a table selection member 212. The table selection member 212 selects a two-dimensional corresponding to the line width information from a plurality of two-dimensional text contribution level set tables based on the line width information. The text contribution level set table stores the plurality of two-dimensional 108086.doc -35-1322980 text contribution level set table in the example, and in a storage medium (not shown) included in the device 200 For example, a two-dimensional text contribution level set table A, a two-dimensional text contribution bit into Cui Zhiw, and a two-dimensional text contribution level set table C are stored in the storage medium. _ Τ One-dimensional text contribution bit The quasi-a corresponds to the line width information (F9630 Bu 2 _ ^, and the sub-beauty quasi-table table B corresponds to the line width shellfish (FA740). The two-dimensional text Gong Yuxun (F). The quasi-set table C corresponds to the line width of the plurality of two-dimensional text contributions The per-two-dimensional text contribution level set table in the level set table indicates a _ between the text contribution level grass, the one thousand vertical text contribution level set, and the two-dimensional text contribution level set. For example, In each of the plurality of two-dimensional text contribution level set tables, the one-two-blade one-dimensional text contribution level set table is configured to align the combination of the text and the set of texts in the first frame, and the vertical text The combination of the contribution level sets is arranged in the first column. The table selection component can be used without the MW. See the text contribution level included in the figure 构件 "Component 1 〇 7, text contribution level set calculation component (10), vertical text献 位 位 计算 】 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 110 : Text contribution: quasi-set. In addition, at least the two-dimensional text contribution level "&quot; the non-dimensional text contribution level set and the relationship between the plurality of line widths in the text. According to the text 顚 + 予 颌 not 200, by preparing the plural in advance The two-dimensional text contribution level 、', the table (which corresponds to the width of the finite number of types), can make the control section 蚪 _ _ _ _ ^ r. The number of calculations is reduced. Thus, the load on the control section can be reduced. 10S086.doc -36· Figure 13 shows the configuration of another 300 according to the present invention. The text display device of a specific embodiment is shown in Figure 13 The elements having the same elements are denoted by the same reference numerals, and the description thereof will be omitted. Fig. 14 shows the function of the brightness table selecting member 314. The character display device 3 will be described below with reference to Fig. 13 and Fig. 4. The character display device 300 includes a brightness table. The selecting component 314. The brightness table selecting component 3 14 selects a plurality of two-dimensional brightness tables based on the line width body information, the text color information, and the background color information - corresponding to the line width information, the text color, and the moon color information. Two-dimensional bright The plurality of two-dimensional brightness tables are stored in the image storage device 3A, for example, a two-dimensional brightness meter, a two-dimensional brightness meter, and two The dimension brightening table C is stored in the storage medium. The two-dimensional brightness meter corresponds to line width = (F9630), text color (black) information (〇, 〇, 〇) and background color (white) information (255 , 255' 255). Two-dimensional brightness meter Β corresponds to line width information (FA740), text color (black) information (〇, 〇, 〇) and background color (white). fl (2 55, 255, 255) The two-dimensional brightness table c corresponds to line width information (FB850), text color (black) information (〇, 〇, 〇) and background color (white) information (255, 255, 255). 3 14 instead of the character contribution level calculation means 1 〇 7 included in the character display device 1 (see FIG. 1), the text contribution level set calculation means 108, the brightness level calculation means 1 〇 9, and the vertical text contribution bit The quasi-set calculation component i 1 (), and the two-dimensional text contribution level set combination member 111 〇 108086.doc -37- , such as Referring to Figure U and Figure 14, the r-dimensional luminance values are determined according to the plurality of line widths in the text. Further, the 'at least-two-dimensional luminance table indicates the relationship between the two-dimensional luminance values and the plurality of line widths in the text t. According to the character display device 300, when the plurality of two-dimensional brightness tables (which correspond to the line width, the text color, and the background color of the predetermined type of T) are prepared in advance, the control area/segment can calculate the two-dimensional brightness value. The number of calculations is reduced, thereby reducing the load of the control region ί. Figure 1 5 shows the contact between the lines. The contact between the lines will be described below with reference to FIG. The text "odd" is displayed on the text display device according to the following procedure. The moon wood generating member generates skeleton data from the bit map data input by the input member (Fig. 15(a)). The 'text contribution level assignment component then assigns a text contribution level to each color element in the color element (Fig. 15(b)). After that, the 7C degree level calculation component is based on the text color information, the background color information, and the two-dimensional text, and the number of sub-pixels (the composition of which is to be displayed on the φ ·.'· Brightness value (Fig. 15(c)). Thereafter, the output value generating means generates text display data based on the text contribution level and the brightness value. The text indicated by the text display material is displayed on the display element (Fig. 15(d)). In the text &quot;奇&quot; represented by the bit map data, the &quot;large&quot; portion and the &quot;can&quot; portion are separated from each other (see Figure 15 (pixels in the mth column and the nth row). However, in the text &quot;奇&quot; displayed on the display component, the &quot;large&quot; section and the &quot;may&quot; section appear to be in contact with each other (see the mth column and the nth shown in Figure 15(d)). Pixels at the line) I08086.doc 38·

1322980 Circle 16 shows the configuration of the mounting 400 according to the text of the other specific examples of this issue. 1 In Fig. 16, 70 identical elements of the virtual map _ 〇 /, ® 1 have the same reference numerals ' and thus the description thereof is omitted. FIG. 17 shows the function of the correction limiting member 416. A specific embodiment of the contact between the restriction lines will be described below with reference to Figs. The text display device 400 includes a correction restricting member 416. The correction limiting member 416 limits the contact between the lines based on a first correction limit. The first-right restriction data is assigned to a plurality of /, private indications in the bitmap image, whether the correction limit is performed on the line for which the first correction limit data is assigned. The right correction limit is performed on a predetermined line, and the value of the first correction limit data corresponding to the predetermined line is "Γ.. If the calibration is not performed on a predetermined line, the restriction "(4) should be the first correction of the predetermined line. The value of the restriction data is 0. In the case where the value of the first correction control data input is &quot;i&quot;, the correction restriction member 416 changes the vertical text contribution level of the target pixel from (F, FF) to (0). , 0, 〇). , , for example, the values of the first correction limit data corresponding to the (m·) column, the mth column, and the (m+i)th column of the bit map data representing the "odd" respectively For, "1&quot;, "〇". Therefore, the plurality of pixels in the mth column are the target pixels of the correction limit program, and the vertical text contribution level of the pixels at the mth and nth rows (0) , 0, 〇). Therefore, based on the vertical text contribution level set (7), 〇, 〇) and the text contribution level set (〇, 0 0) select the brightness indicated by the solid line circle 108086.doc • 39· value (ie , two-dimensional luminance value). As described in FIG. 16 and FIG. 17, the correction limiting member 416 is based on The first-correction limit data limits the line-to-line contact. Figure 18 shows the configuration of the text display device 500 in accordance with another embodiment of the present invention. In Figure 18, the disk pattern 1 is corrected - Α 〇 /, Figure 1 The same elements have the same reference numerals 'and thus the description thereof is omitted." Fig. 19 shows the function of the correction limiting member 516. Another specific embodiment of the contact between the restriction lines will be described below with reference to Figs. 18 and 19. The display device 500 includes a correction restricting member 516. The second correction limit data is input to the correction restricting member 516. The correction restricting member controls the vertical character contribution level set calculating member 11 基于 based on the second correction limit material, thereby restricting the inter-line contact The vertical text contribution level set calculation component 110 generates a vertical text contribution level set based on the second correction limit data and the text-to-beet set. The second correction limit data limit level indication will be - text contribution bit The quasi-set is converted to a conversion ratio of the vertical text contribution level set. For example, in the case where the limit level is G, the 'conversion ratio is 1/3. The limit level is &quot;1&quot In the case of production, the conversion ratio is 1/5. In the case where the limit level is &quot;3&quot;, the conversion: 1/16 (see Figure 19). The second level of the limit is "0&quot; The correction limit data is rotated into the correction restriction member 516. The correction restricting means 516 calculates the member 11A based on the second correction limit. Vertical text contribution level I08086.doc • 40- Set calculation component 110 multiplies the text-vertical text m set 4 (〇, 3, 6) by 1/3 to produce a 1 text sub-set (0, : 1,2). If the restriction member 516 is set to "3", the text contribution (4) is limited to the data input to the correction vertical text contribution level set becomes (&quot; )) set multiplied by 1/16. Therefore, the word contribution level set and the text permit). Therefore, the two-dimensional luminance value is only based on the vertical text. (4) The text contribution level set in the production is based on the limit level is & _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The resulting vertical text contribution _^ is 0. The second correction limit is more limited. Therefore, the two-dimensional brightness value is closer to the value of the scene color. Fig. 20 shows the result of the contact restriction by the correction limit member 5 1 6 . The display result of one of the eight texts (&quot;large&quot;partially close to &quot;somewhere&quot;). The - portion indicated by the circle of the displayed portion (on the right side of Fig. 20) has a - miniature conversion. According to the character display device 5 (9), contact between the lines can be restricted without deteriorating the quality of the characters. As described above with reference to FIG. 18 to FIG. 2A, the 'correction limiting member 5' is based on the second correction limit data, including the Yue, the sniper, and the sniper, and the calculation component of the vertical text. 'Therefore it is possible to limit the contact between the lines. The text display device 500 generates a vertical text contribution level set based on the second correction limit data to generate a two-dimensional text contribution level set table or a two-dimensional brightness table. However, by preparing the plurality of two-dimensional text contribution level set tables (which correspond to a predetermined finite number of line widths) in advance, the control section can be made to 108086.doc • 41 - different two-dimensional text contribution level set At the time of the plan, the number of the townstays was reduced. This reduces the load on the control section. In addition, by using the plurality of two-dimensional brightness tables (/, corresponding to a predetermined limited number of types of 0 n g A, line widths of the cheeks, text colors, and background colors)

), the number of calculations in the control section calculation-dimensional itch W T different one-dimensional π-degree value can be reduced. Thus, the load on the control section can be reduced. Figure 21 shows the bit map data including the correction limit data. Next, &gt; Figure 21 illustrates the bitmap image data including the correction limit data. In general, the bit map data is stored in the -bit image storage section. The stored bit map data includes a plurality of byte data and corresponds to each of the plurality of lines constituting the character, and the data area corresponding to the farthest portion on the right side of the text is a blank area. The first correction limit data or the second correction limit data is assigned to the blank portion. Thereby, the correction limiting function 'can be performed' without the need to prepare a special material area to assign the second correction limiting material or the second correction limiting material thereto. As described above with reference to Figs. 15 through 21, the character display device according to the present invention can prevent the loss of the blank space between the lines in the character. Therefore, the text can be displayed in higher definition than the text according to the conventional technique, and the text is clearer and easier to read. Thus, the character display device of the present invention has been described with reference to Figs. 2. Text Display Method Figure 22 shows a text display processing program in accordance with an embodiment of the present invention. The character display processing 108086.doc - 42 · 1322980 program ' can be independently controlled by performing the text display processing according to the embodiment of the present invention. The plurality of color elements corresponding to the plurality of sub-pixels can be independently controlled and the characters can be displayed on the display element. The character display processing program includes a program for generating a two-dimensional brightness table (steps 1 to 6), a text generating program for generating a text according to the generated two-dimensional brightness table (steps 7 to ίο), and a A display program for displaying the generated text (step 11). The character display processing procedure will be described step by step with reference to Figs. 1 and 22 as follows.

Step 1: The line width information is input from the input element 101 to the control section 102. Step 2: The text contribution level calculation component 1 〇 7 calculates the text contribution level of the skeleton sub-pixel according to the line width information, and the position is away from the skeleton sub-pixel - the text contribution level of the sub-pixel of the sub-pixel is located away from the skeleton The text contribution level of the sub-pixels of the two sub-pixels of the pixel, the text contribution level and the position of the sub-pixels of the three sub-pixels located away from the skeleton sub-pixel

Set the text contribution level of the sub-pixels away from the four sub-pixels of the skeleton sub-pixel. Step 3: The text contribution level set calculation component 1 8 calculates the _ text t contribution level by referring to the text of the nine sub-pixels. The nine sub-pixel systems are located adjacent to the sub-pixels of the skeleton sub-pixel and are located in the skeleton. Subpixels near the subpixel. ... ... ... ^ , 7·ρ , (丹,丁 i JL V δ 异 己 己 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直 垂直Step 5 ·····································································

The word contribution level set is generated by performing a step of at least one of the sub-pixels and a larger value of the vertical text contribution level set. Step 6: For each pixel in the pixels, the brightness level calculation component 109 determines the sub-pixel for the color element R based on the two-dimensional text contribution level set and according to the text color, the background color, and the arrangement of the pixels. The luminance value, the luminance value for the sub-pixel of the color element G, and the luminance value for the sub-pixel of the color element b are used to generate a two-dimensional luminance table. After the one-dimensional exemption table is generated, the process proceeds to step (7). Step 7: Input the bit map data representing the desired text from the input element ι〇ι to the control section 102. vStep 8 • The lunar generating component i 〇4 generates skeleton data in units of sub-pixels based on the bit map data. Step 9: The t-word contribution level assigning component 1〇5 assigns a text contribution level: so that the sub-pixel 'passes the position of the desired sub-pixel beyond the skeleton sub-pixel, and the more the text contribution level of the desired sub-pixel is small. By performing steps 8 and 9, the skeleton generating means 1〇4 and the text contribution level assigning means 105 can set the text contribution level of the group skeleton sub-pixel and the text contribution level of the first group sub-pixel. f Step 10: The output value generating means 106 selects a brightness value table corresponding to the text contribution $ quasi set and generates text display data based on the selected brightness value table. The output value generating component 106 transmits the text display data to the display component 103_I to step 6 and step 1〇', and the second group sub-108086.doc can be set according to the color element level of the first group of sub-pixels. 44- 1322980

The text of the pixel contributes to the level. Step π: Display the text on the display element 103 based on the text display material. After the text is displayed on the display element 103, the processing is completed. Thus, the text display processing program according to this embodiment of the present invention has been explained with reference to FIG. For example, in the non-specific embodiment of FIG. 22, the step 丨 to the step 丨丨 corresponds to &quot; displaying a text on the display element by independently controlling the plurality of color elements corresponding to the plurality of sub-pixels, the step of . Step 8 and step 9 correspond to the color element level of the group skeleton sub-pixel. The group month shelf pixel includes at least one sub-pixel corresponding to a skeleton portion of the character to be displayed on the display element. And setting a color element level of the first-group sub-pixel disposed adjacent to the sub-pixel of the group skeleton sub-pixel, the first-group sub-pixel including at least one sub-pixel disposed in the first direction step. Step 丨 to step 6 and step 1 〇 corresponds to &quot; according to the color element level of at least one sub-pixel of the first-group sub-pixel, the - item group configured by the sub-pixel adjacent to the group skeleton sub-pixel is set The color element level of the sub-pixel, the second group of sub-pixels includes at least a sub-pixel disposed in two first directions, and the second direction of the second is perpendicular to the first-party. However, the character display processing program according to this embodiment of the present invention is not limited to the program shown in Fig. 22. This program can be any program that can perform the above functions. &lt; The text display processing program according to the present invention, the color element level of the second group of pixels can be set according to the color element level of the sub-group jOS086.doc -45 - 1322980 sub-pixel to j-sub-pixel . Therefore, the color element level of the second group of sub-pixels can be changed in conjunction with the change in the first group of sub-pixels. This allows you to change the width of each line in the line of text to make it appear in a smoother way. According to the character display processing program of the present invention, the width of each line in the line of the character can be enlarged in a uniform sentence without depending on the arrangement direction of the plurality of sub-pixels included in each of the plurality of pixels. ... The text according to the present invention shows a blank space between processes. Therefore, it is clearer and easier to read than the text of the essay and 冼 technology compared to the text of the essay. The object of the present invention is that the display-text is represented by the bit map data, and the shoulder is not clearer than the human son, and the composition of the text is smooth and the line width of the strokes of the characters is formed. Both are hooked. Think about it and then::, from the bitmap image data to capture the skeleton data. It is determined that there is a pixel in the vicinity of the pixel in the skeleton part; in the case of setting = target pixel or *, then - corresponds to the second part of the skeleton part: = the pixels are given to the target pixel. Obtain the text contribution level in the one-dimensional direction with the text assigned to the target. _ and background color information to calculate the most a1&gt; sub-color information. Appropriate pixel value. In the above specific embodiment, the case on the element has been exemplified. However, the present invention...#X sub-display is not displayed. V-, is not limited to this example. In addition to the text, in the alternative or in the case of the display of the graphic elements, the invention may also be used under the circumstances of 108086.doc • 46 · Ϊ 322980. ~ In this case, you can use a graphic element display processing program instead of the text display processing program or use a graphic display processing program to use the graphic element display processing program to use the graphic element information instead of the text information, or to use the additional text information to make the image Elemental information. The contribution of the element is replaced by the level of the text, or the level of contribution of the figure is 7L. The graphical element display handler can include steps similar to those contained in the text display handler. Graphical elements can include, for example, a portion of a text, a pattern, a symbol, and the like. As described above, the invention is exemplified by its preferred embodiments. However, the invention should not be construed solely on the basis of the specific embodiments described above. It should be understood that the invention should be interpreted separately on the basis of the medium (four). It is also understood that the skilled person will be able to implement the equivalent technical materials in accordance with the description of the invention and the general knowledge obtained from the detailed description of the preferred embodiments of the invention. In addition, it is to be understood that any patents, any patent applications, and any references cited in this specification are hereby incorporated by reference in their entirety in their entirety in the same extent INDUSTRIAL APPLICABILITY The present invention relates to a text/graphic element display device, a program, and a δ-recorded media. The text/graphic element display device can display a message (in which a text or graphic element can be displayed in a shirt color). Text or graphic elements are displayed in a smooth and clear appearance. According to the present invention, the display device, the program, and the recording medium can depend on the color of at least one sub-pixel of the first-chain image-side group sub-pixel 10808. Doc -47. 1322980 The color element level sets the color element level of the second group of sub-pixels. Because: 匕' can change the color element level of the first group of sub-pixels in combination with the change of the color element level of the first group of sub-pixels. This allows you to change the width of each line in the line of text or graphic elements to make the wind/light. Therefore, text or graphic elements can be displayed in the form of appearance flow (4). According to the text/graphic element display device, the program and the S-recorded media of the present day and the month, the width of each line in the line of the text or graphic element can be enlarged, without relying on each pixel in the plurality of pixels. The configuration direction of the plurality of sub-pixels included. According to the present invention, the text/figure_small display device, the program and the

By swallowing the media, you can prevent the finger order &amp; A J from preventing the loss of white space between the lines of the text. Therefore, compared with the text or the figure according to the conventional technology, it is possible to display the text or the figure with higher definition, and the text is clearer and easier to read. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a diagram showing the configuration of a configuration according to the present invention. The text display device f 2 (4) to (4) of the specific embodiment shows a pattern of the function of the skeleton generating member 104. _ Γ) to (C) show a diagram of the function of a word contribution level assignment member 105. 4(a) to (c) are diagrams of the function of the _ + - ' 不 — 轮 值 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生figure. Figure 6r' shows a diagram of the function of the calculation component 108 of the temple. W8086.doc •48· Figure 7(a) to (c) are diagrams of the 齄-_ equation. The function of the display unit (1) and (b) is a diagram showing the function of the _vertical text. , the quasi-set calculation component 110, Fig. 9 (a) to (C) 俜翱 - set ... only the text ^ no text contribution level set, vertical text contribution level relationship diagram. * Figure 10 (a) to (c) is a diagram of the image between the sub-beauty level and the brightness value. The τ text is not shown to be i. . One of the generated text images shows the pattern of the month according to the present embodiment - the text display of the specific embodiment is shown in Fig. 12 is a diagram showing the function of the table selection component. Figure 13 is a diagram showing the configuration of the text display device 30 另一 according to another embodiment of the broadcaster. FIG. 14 is a diagram showing the function of the illuminance table selection means 314. Figures (4) to (d) show the pattern of contact between lines. Figure 16 is a diagram showing the configuration of a text display device 400 in accordance with another embodiment of the present invention. The ® 17 shows a pattern of the function of the correction limiting member 416. Figure 18 is a diagram showing the configuration of a text display device 500 not according to another embodiment of the present invention. The ® 19 shows a pattern of the function of the correction limiting member 516. Figure 2〇ίτ' is not limited by the correction limit member 5 16 to limit the contact between the lines * female Xuan &quot; each 11 «V, sub-inch-part (&quot;large&quot;partially close&quot;may&quot; A pattern of the results of a 108086.doc • 49- section). The 囿 system displays the bits including the correction limit data. Figure 22 is a diagram of the g-page 佑 姑 豕 豕 豕 。. A flowchart of a process according to an embodiment of the present invention is not shown. The text display area Fig. 23 shows the pattern in the reference 2 state. The group of the sentence is not displayed in the group of 600. [Main component symbol description]

100101 Text display device Input component 102

103 104 105 106 107 108 109 110 111 200 212 300 314 400 Control section display component skeleton generation component text contribution level assignment component output value generation component text contribution level calculation component text contribution level set calculation component exemption level calculation Component vertical text table set calculation component two-dimensional text contribution level set combination member text display device table selection member text display device exemption table selection member text display device I08086.doc -50. 1322980 416 correction limit member 500 text display Apparatus 516 correction limiting member 600 text display device 601 input element 602 control section 6 03 display element 604 skeleton generation component 605 text contribution level assignment component 606 output value generation component 607 text contribution level calculation component 608 text contribution level set Calculation member 609 brightness level calculation member

108086.doc -51 -

Claims (1)

Patent Application No. 095,101, 426, filed patent application, copending patent application (J., 1998) X. Patent application scope: L A text/graphic element display device comprising: a display element having a plurality of pixels; and - control a segment ' is used to control the display element, wherein each of the plurality of pixels includes a plurality of sub-pixels arranged in a first direction, and each of the plurality of sub-pixels is pre-assigned to a plurality of colors a corresponding color element of the element, wherein the intensity of one of the plurality of color elements is represented by a plurality of color element levels, the control section independently controlling a plurality of color elements corresponding to the plurality of sub-pixels Displaying a text or a graphic element on the display element, the control section setting a color element level of the group skeleton sub-pixel, the group skeleton sub-pixel comprising at least - corresponding to the text to be displayed on the display element Or a sub-pixel of the skeleton portion of one of the graphic elements, and is set to be adjacent to the sub-pixel of the group skeleton sub-pixel a color element level of a first group of sub-pixels, the first group of sub-pixels including at least one sub-pixel disposed in the first direction, the control section being according to at least one of the first group of sub-pixels The color element level of the sub-pixel sets a color element level of a second group sub-pixel disposed adjacent to one of the sub-pixels of the group skeleton sub-pixel, and the second group sub-pixel includes at least one configured in a second a sub-pixel in a direction, the second direction is perpendicular to the first direction, and a color element level of the second group of sub-pixels is changed based on a correction limit 108086-980713.DOC, the correction limit data indication Whether the text or a correction on the graphic element should be restricted. 2. The text/graphic element display device of claim 1, wherein the control section sets the first according to a distance between one of the sub-pixels of the group skeleton sub-pixel and one of the first group of sub-pixels The color element level of the one sub-pixel of the group sub-pixel. 3) The text/graphic element display device of claim 1, wherein the 3H control section sets the color element levels of the second group of sub-pixels based on a first conversion ratio, according to the first group corresponding to the first group The plurality of line widths of the text or the graphic element of the color pixel level of the sub-pixel determines a first conversion ratio, and the first conversion ratio and the plural of the text or the graphic element are represented by at least one table A relationship between line widths. 4. The text/graphic element display device of claim 1, wherein the color of a third group of sub-pixels adjacent to the first group of sub-pixels is determined according to the plurality of line widths of the S-text or the graphic element Element level 'the third group of sub-pixels includes at least—sub-pixels disposed in the second direction, and hunting is represented by at least one table of the plurality of line widths of the text or the graphic elements. A relationship between the color element levels of the third group of sub-pixels. 5. The text/graphic element display device of claim 1, wherein the control segment is based on the color element levels of the first group of sub-pixels and the color eigen-levels of the second group of sub-pixels At least - 10808-980713.DOC 1322980 to set - the color element level of the third group of sub-pixels, the third group of sub-pixels including at least - the sub-pixels arranged in the second direction. 6. The text/graphic element display device of claim 1, wherein the plurality of line widths of the second group of sub-pixels are determined according to the plurality of line widths of the 忒文子 or the huhai graphic element, corresponding to the second group Group sub-pixels: a color element level, and a line between the line widths of the plurality of line widths of the text or the graphic elements and the brightness values of the second group of sub-pixels a relationship. The text/graphic element display device of claim 1, wherein the 校正 校正 限制 资料 资料 孙 孙 人 人 人 人 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含 包含8. The text/graphic element display device of claim 1, wherein the correction limit material comprises a one-level value. 9. A recording medium 'which can be read by an information display device, wherein the information display device comprises a display element having a plurality of pixels and a control section for controlling the display element, in the plurality of pixels Each pixel includes a plurality of sub-pixels arranged in a first direction, and each sub-pixel of the plurality of sub-pixels is pre-pushed into a plurality of color elements - a corresponding color element, θ by a plurality of color vowels The main _ &amp; + &amp; gamma quasi-table is not the intensity of one of the color elements in the plurality of color elements, the recording medium having a program recorded in the program for causing the control section to execute, the program is used for 'The program includes the step of displaying a text or a graphic element on the display element by independently controlling 108086-980713.DOC corresponding to the plurality of color elements of the plurality of sub-pixels, and displaying the text on the member element Or the step of the graphic element comprises the steps of: setting a color element level of a group of skeleton sub-pixels; the group skeleton = pixel includes to Less-corresponding to the sub-pixel of the text or the skeleton portion of the graphic element to be displayed on the display element, and setting the color element of the -S group of sub-pixels arranged adjacent to the sub-pixel of the group skeleton sub-pixel Level, the first group sub-pixel includes at least one sub-pixel disposed in the first direction, and the color element level of at least one sub-pixel of the first-group sub-pixel is set adjacent to the group skeleton sub-pixel a color element level of a second group of sub-pixels configured by one of the sub-pixels, (4) two groups of sub-pixels including at least; a sub-pixel disposed in the second direction, the second direction being perpendicular to the first The direction, and the color element level of the second group of sub-pixels are changed based on a correction limit U indicating whether the text or a correction on the graphical element should be limited. a computer program product for causing an information display device to execute a display program, wherein the f information display device comprises: a display element having a plurality of pixels and a control section for controlling the display element, in the complex pixel Each pixel includes a sub-pixel disposed in a “first direction”, and each sub-pixel of the plurality of sub-pixels is previously assigned to 108086-980713.DOC to a corresponding color element of the plurality of color elements, by a plurality of colors The element level indicates that the plurality of color elements intensify one of the color elements, and the display program includes displaying a text element on the display element by independently controlling the plurality of color elements corresponding to the plurality of sub-pixels The step of displaying the text or the graphic element on the display element comprises the following steps: setting a color element level of a group of skeleton sub-pixels, the group skeleton sub-pixel comprising at least one corresponding to being displayed in a sub-pixel of the text or a skeleton portion of the graphic element on the display element, and setting the adjacency a color element level of a first group of sub-pixels configured by one of the sub-pixels of the group of sub-pixels, the first group of sub-pixels including at least a sub-pixel disposed in a direction of the β-Hier, according to the The color element level of at least one sub-pixel of a group of sub-pixels is set to be adjacent to a color element level of the second group of sub-pixels configured by one of the sub-pixels of the group of sub-pixels, the second group of sub-pixels Included at least one sub-pixel disposed in a second direction, the second direction is perpendicular to the first direction, and the color element level of the second group of sub-pixels is changed based on the correction limit data, the correction limit The data indicates whether the text or a correction on the graphical element should be restricted. 108086-980713.DOC