JPH01234889A - Processing method for monochromatizing color display signals - Google Patents

Abstract

PURPOSE:To recognize an image even when the color display signal is displayed on monochrome display equipment by edging the borders of areas which are adjacent different color areas of the color display signal and painted in the same color by using the complementary color. CONSTITUTION:When the kinds of respective picture elements on coordinates X and Y are represented ad D(X, Y), the area R1 shown between the broken line and solid line from, for example, D(7, 7) to D(36, 7) is an area of red R with the color display signal, but displayed in white W with the monochrome signal. The area, however, adjoins to an area of green G along a border line L1 as shown by a solid line, so the area is converted to black BK and used as part of an edged area. Thus, different color display areas in an image are all displayed in the same color, but the borders of those areas are all edged in the complementary color, so the shapes of those areas are recognized clearly with edging lines.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for color display processing in graphic display devices used in videotex terminals, personal computers, etc. It is something.

[Conventional technology]

Conventionally, there are two types of graphic display devices of this type: those that display color and those that display monochrome.
A color display device receives a color display signal and displays the image in different colors according to this signal, but a monochrome display device, when receiving a color display signal, converts it to a monochrome display image corresponding to this signal and displays it. was.

[Problem to be solved by the invention]

However, when a color display signal is converted to a monochrome display image, there is a problem in that the different color display areas are all displayed in the same color, and the boundaries between them cannot be clearly recognized.

To specifically explain this problem using the color display image illustrated in FIG. 4, (R) is a red area forming the background color, (G) is a green area forming the rPJ type image,
B) shows the blue area that makes up both CJ-shaped images,
In a color display image, each of these red (R), green (G), and blue (B) regions is different in color, so that the boundaries between adjacent color display regions can be clearly recognized.

However, when displaying the same color display signal as shown in Fig. 4 on a monochrome display device, the color display signals for each region of red (R), green (C), and blue (B) are normally Since all of the images are converted to white (W), the image is completely white (Ill) as shown in Figure 5.
), and the boundaries between the "PJ shape" and "C" shadow images and the background image cannot be recognized. Therefore, the image display of the color table 7K (signal) by monochrome display equipment was in fact impossible.

The present invention has been made to solve these conventional problems, and even when a color display signal is displayed on a monochrome display device, the boundaries between adjacent different color display areas are clearly displayed, and the image can be improved. The purpose is to enable the recognition of

[Means to solve the problem]

In order to achieve the above object, the method of the present invention is characterized in that, in mutually adjacent different color display areas of a color display signal, the boundaries of areas that have the same color in a monochrome display state are bordered with a complementary color. It is something.

[Operation] According to the method described in , all different color display areas in an image are displayed in the same color, but the boundaries of these areas are all edged with complementary colors, so the shapes of these areas are can be recognized more clearly.

〔Example〕

Hereinafter, embodiments of the present invention will be described in detail based on the drawings.

FIG. 1 shows an example of a monochrome display image obtained by this embodiment method, and FIG. 2 shows an enlarged left half of the image shown in FIG. 1.

In FIGS. 1 and 2, the display pixels are X.

The coordinates of each pixel (X,
Y) t-J type is expressed as D(X, Y), for example, 1
)(7,7) to o(3e,7)-i: The region (R1) shown between the broken line and the solid line is a red (R) region in a color display signal, and a white (W) region in a monochrome display signal. ), but the border line shown as a solid line (Ll)
Since it is adjacent to the green (G) area, it is black (BK).
shall be converted into a part of the border area. Also,
The area (Gl) shown between the solid line and the dashed-dotted line from D(8,8) to D(35,8) is a green (G) area in a color display signal, and is a white (W) area in a monochrome display signal. The area to be displayed is adjacent to the red (R) area at the boundary line (Ll), so it is converted to black (BK) to form part of the border area, and the (R凰) and (Gl) constitute a black (BK) bordered area along the boundary line (Ll).

Similarly, red color (R) along the boundary line (L2) to (LIG)
The regions (R2) to (RIG) and the green (G) region (
G2) to (610) are also converted to black (BK), respectively.
As shown in Figure 1, black (BK) is placed on a white (W) background.
) to obtain an image displaying both the rPJ-type image and the CJ-type image bordered by .

An example of the algorithm of the above method is shown in FIGS. 3(I) to (III). In the illustrated example, (
■ +1) pixels and (nil) pixels in the Y-axis direction, I) (X, Y) is the type of color display signal at the coordinates (X, Y), and MD (X, Y) is "- Represents the type of monochrome display signal processed by two methods.

In FIGS. 3(I) to (III), after initialization, (Sl
) to confirm the type of color display signal at D(X, Y), and select black (BK) (7) (S21).
Y) "Black (BK). If it is not black (BK), after detecting the X coordinate position of D (X, Y) in (S2), change the color of D (X+1, Y) in (S3). Check the type of display signal.

Further, when the same coordinate is m, the process moves to (S8). (S3)
If (X+I, Y) is black (BK), the process moves to (S5), and if it is black (BK), the process moves to (S4). (54
) Teat I) Compare the types of color display signals of (X, Y) and D(X+1.Y), and if they are the same, proceed to (S5), and if they are different, it is black (BK) (S21 )
1? MD (X, Y) = black (BK) tossle.

(S5) After detecting the TeY coordinate position, (SO) TeD (
Check the type of color display signal at (X+1, Y+1). Further, when the same coordinate is n, the process moves to (Sll). (S
8), D (X+l, Y+1) is black (BK)C'
If so, move on to (S8), and if there is no black (BK) color (S7).
) The types of color display signals of D (X, Y) and D (X+l, Y+1) are compared. If both are the same, the process moves to (S8), and if they are different, black (BK)'?
'Because there is, (S21) TeMD (X, Y) = black (
BK).

(S8) After detecting the Y coordinate position of TeD (X, Y),
In (S9), the type of color display signal at I)(X, Y+1) is confirmed. Also, when the same coordinate is H (S11)
Move to.

(59) TeD (X, Y+l) is black (BK')T
: If it is, move to (Sll), and if it is not black (BK), (
510) Te1) Compare the types of color display signals of (X, Y) and D(X, Y+1). If both are the same (
Sll), and if different, proceed to 2 (S21) as described above.
Let M1) (x, v) = black (BK).

Next, in (Sll) D (X, Y) If the X coordinate position is 0, proceed to (S17), and if it is not 0, proceed to (S12).
) (X-1, Y), and if it is black (BK), proceed to (S14);
If not (K), move to (513). (Si3), D
Compare the types of color display signals of (X, Y) and D (X-1, Y), and if they are the same, proceed to (S14), and if they are different, proceed to (S21) and display MD (X, Y). = Black (BK)
shall be.

(514) Ter) (x, y) +7) X coordinate position is 0
At the time of (520), Ml) (X, Y) = white (W).

Also, if it is not 0, move to (Si2) and D at (515).
Check the type of color display signal at (X-1, Y-1), move to black (if BK'J, move to (S1?), and move to black (
If not (to B), move to (81B). (SIG)! ;! Compare the types of color display signals of D(X, Y) and D(X-1, Y-1), and if they are the same, move to (Si2), and if they are different, proceed to MD(X, Y) in (521). ) = black (
BK).

<517) Te1) (X, Y) (7) X coordinate position is 0
In the case of (S2G), Ml) (X, Y) = white (W).

Also, if it is not 0, (518) TeD(X, Y-1)
Check the type of color display signal in the
If (S20) TeMD (X, Y): White (W)
,! :t le.

Sarani, black (BK)? , if C, (S19) Te1
) (X, Y) and I) (X, Y-1), and compare the types of color display signals of
``?' MD (X, Y) = white (W), and if different (S21) teMI) (X, Y) = black (BK).

When the result of the monochrome display signal in MD (X, Y) is obtained in this way, in (S22) 1) (X, Y)
), if it is not m, set X=X+1 (S23) and perform the above calculation as D(X+l, Y). Also, if X=m in (S22), (
Set X = 0 in S24), then check the X coordinate in (S25), and if Y:n, end; if not, Y=Y+
1, and perform the above calculation for D(X, Y+1).

Below, calculations are made for each coordinate position in the same way, and the boundary line (
Ll) Change the color of both sides to black (BK).

〔Effect of the invention〕

As explained above, when using the method of the present invention, the boundaries of areas that have the same color in a monochrome display state in different color display areas adjacent to each other in a color display signal are framed with a complementary color. Display signals can be clearly displayed and recognized on a monochrome display device.

[Brief explanation of the drawing]

1 to 3 are detailed explanations of the present invention, in which FIG. 1 shows a monochrome display image obtained by this embodiment method, and FIG. 2 shows the left half of the image shown in FIG. 1. Enlarged view of
FIGS. 3(I)-(I[[) are flowcharts showing an example of the algorithm of the above method. FIG. 4 is a diagram showing an example of a color display image, and FIG. 5 is a diagram showing a monochrome display image according to a conventional method. (R) (B) (G)...Color display area, (Ll) to (L
IO)...boundary, (to B)...edging area. Fig. 2 (Lll ~ (LIU) ... 乃 [intervention (eK)-i: Take area Fig. 3 (m)

Claims (1)

[Claims] A method for processing a color display signal into a monochrome display signal, characterized in that, in mutually adjacent different color display regions of the color display signal, boundaries of regions that have the same color in a monochrome display state are bordered with a complementary color.