JPH11252370A - Screening method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize a screening method, capable of saving memory consumption by screening the group of irreducibly minimum threshold in halftone screening, using a parallelogram halftone cell. SOLUTION: With respect to a parallelogram halftone cell 1 whose inclination and size with respect to a device coordinate axis are decided, a minimum rectangle 2 surrounding this with four edges parallel with device coordinate axes is made and the width and height of tiles (basic period part parallel with the device coordinate axes) 3 for screening are obtained from inclination, with respect to the device coordinate axes of the rectangle 2 and the parallelogram halftone cell 1. Next, the data of a group of irreducibly minimum threshold for fixing the threshold of each pixel 4 which is the constituent element of the tiles 3 according to its order are made and rational tangent(RT) screening, based on data on this group of the threshold is performed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention
The present invention relates to a screening method for generating a screen for outputting as an image represented by a value screen.

[0002]

2. Description of the Related Art An original image such as a photograph having continuous tone
In order to re-express an image composed of a group of value dots or pixels, a unit aggregate (halftone cell) of pixels corresponding to the density of the original image is used. For such a halftone cell, it is necessary to incline its position with respect to the coordinate axes of the device in order to prevent the occurrence of moiré, or to correspond to each color in color. The halftone cell has an inconvenient surface as a unit for laying down the image in the coordinate axis direction of the device to form an image.

For this reason, a method has been considered in which a basic period portion including the halftone cell and aligned with the coordinate axis direction is created as unit data, and the basic period portion is spread to form an image. For example, JP-A-8-30
In 7710, a minimum square that surrounds a halftone cell whose inclination and size with respect to device coordinates are determined by a line parallel to the device coordinate axis is created, and the width and height of a tile for performing halftone screening are determined by the inclination and minimum square of the halftone cell. This shows a method for screening based on only the minimum necessary data obtained from the size of the data.

However, when the resolution of the device differs in the horizontal and vertical directions of the device coordinate axis, or when a parallelogram halftone cell is intentionally used,
The method used in JP-A-8-307710 cannot be applied as it is, and data of the entire tile is required. As a result, there is a problem in that memory consumption for holding data increases, and the time required for screening increases.

[0005]

As described above, in the conventional method of performing halftone screening by tiling, when the resolution of the device differs in the horizontal and vertical directions of the device coordinate axis, or when four parallel sides are intentionally used. In the case of using a halftone cell having a shape, there is a problem that memory consumption for retaining data increases and the time required for screening increases.

The present invention solves this problem by using a minimum necessary threshold value group in a case where the resolution of the device is different in the horizontal and vertical directions or in a halftone screening using a parallelogram halftone cell. It is an object of the present invention to realize a screening method capable of performing screening and suppressing memory consumption.

[0007]

In order to achieve the above object, the invention according to claim 1 provides an original image having continuous tones of two pixels.
In a screening method in which screening is performed using a unit aggregate of pixels (halftone cells) in order to re-express an image composed of aggregates of value dots or pixels, a tilt and a magnitude with respect to a device coordinate axis are determined. A process of forming a minimum rectangle enclosing the parallelogram halftone cell with four sides parallel to the device coordinate axis, and the width and width of a tile (basic periodic portion parallel to the device coordinate axis) for screening. A step of obtaining a height from the inclination of the minimum rectangle and the parallelogram halftone cell with respect to the device coordinate axis, and a minimum necessary threshold value for determining a threshold value of each pixel that is a component of the tile according to the order The process of creating group data and RT (rational tangent tangent) screening based on this threshold group data Characterized in that it is composed of a process of performing.

In order to achieve the above object, the invention according to claim 2 is characterized in that the width HPX and the height HPY of the tile are HPX = dx * dy2 / G2 + dy * dx2 / G2 HPY = dx * dy2 / G1 + dy * dx2 / G1 (where dx, dy, dx2, and dy2 are the above-mentioned values when the inclinations of two adjacent sides of the outer peripheral parallelogram of the parallelogram halftone cell are defined as DY / DX and DU2 / DX2, respectively. The projected length of two adjacent sides of the outer periphery parallelogram on two adjacent sides of the minimum rectangle, and the greatest common divisor of dx and dx2 is G1, and the greatest common divisor of dy and dy2 is G2. The data of the minimum necessary threshold value group is the threshold value in the tile of the order from the 0th to the (G2-1) th row in the tile having the height HPY ₀ = G2. Group data ( PX) * (HPY ₀₎ and the screening method according to claim 1, characterized in that.

[0009] In order to achieve the above object, the invention according to claim 3 provides the above-mentioned minimum threshold value group data (HPX) *.
The data used to generate the entire tile from (HPY ₀ ) and the data (HPX) * ( HPY ₀ ) is characterized by adding, as rank data, a number indicating the rank of the order in HPY ₀ ).

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a screening method according to the present invention will be described in detail with reference to the accompanying drawings. FIG.
FIG. 4 is an explanatory diagram showing a relationship between a parallelogram halftone cell and a tile according to an embodiment of the present invention. FIG.
Where 1 is a parallelogram halftone cell, 2 is the smallest rectangle,
3 is a tile and 4 is a pixel. In addition, FIG.
FIG. 1 is an explanatory diagram showing a minimum rectangle (here, a square) 2 in one embodiment of the present invention.

In FIG. 1A, a parallelogram halftone cell 1 is a unit for forming a halftone pattern, and one side thereof is inclined by θ with respect to device coordinates. In the present embodiment, since RT (rational tangent) screening is premised on the condition that the corners of the halftone cell 1 overlap the corners of the pixel 4, the minimum rectangle consisting of sides parallel to the device coordinate axes surrounding it is assumed. Is required. In FIG. 1A, it is a square having a width of 6 pixels vertically and horizontally.

The projected length of each side of the parallelogram halftone cell 1 representing the inclination of two adjacent sides of the halftone cell on the smallest rectangular side is dx, dy, as shown in FIG. d
Assuming that x2 and dy2, from FIG. 1A, dx = 3, dy = 2, dx2 = 3, and dy2 = 4. The inclination θ is dy / dx. From now on, tile 3 is obtained by the following procedure.

First, the greatest common divisor G1, d of dx, dx2
When the greatest common divisor G2 of y and dy2 is obtained, G1 = 3 and G2 = 2. Therefore, the width HPX of the tile 3 and the height YHP of the tile 3 are as follows: HPX = dx * dy2 / G2 + dy * dx2 / G2 = 3 × 4/2 + 2 × 3/2 = 9 HPY = dx * dy2 / G1 + dy * dx2 / G1 = 3 × 4/3 + 2 × 3/3 = 6 From this, the rectangular tile 3 in FIG. 1B is determined. Further, since G2 = 2 is the minimum necessary tile height, the threshold group required for tiling is a shaded portion in FIG. 1B.

As described above, the minimum necessary threshold value group data (HPX) * (HPY ₀ ) has been obtained.
To check where the first data (4, d) of the second and third rows of the tile (HPX) * (HPY ₀ ) is 0 and the first row,
In this case, it is the third (counting from 0), so this 3
Is held as a constant K, and the data for tiling is as shown in FIG. That is, the constant K is equal to the threshold value at the top of the G2 line, and the threshold value is tile (HPX) * (HPY ₀ )
Is rank data representing the rank occupied from the top in the. All tiling can be performed using the tiling data of FIG. Further, in the above method, the tiles 3 are configured based on the parallelogram halftone cells 1, so that the aspect ratio can be freely changed, and the resolution of the device differs in the horizontal and vertical directions of the device coordinate axis. It can also be used in cases.

[0015]

As described above, according to the first aspect of the present invention, in order to re-express an original image having continuous tone into an image composed of a group of binary dots or pixels,
In a screening method in which screening is performed using a unit set of pixels (halftone cells), a parallelogram halftone cell whose inclination and size with respect to a device coordinate axis are determined is converted into four sides parallel to the device coordinate axis. A process of forming a minimum rectangle surrounded by a circle, and a process of determining the width and height of a tile (a basic period portion parallel to the device coordinate axis) for screening from the inclination of the minimum rectangle and the parallelogram halftone cell with respect to the device coordinate axis. Generating the minimum necessary threshold value group data for determining the threshold value of each pixel which is a component of the tile according to the order, and performing RT based on the threshold value data.
(Rational tangent) screening. As a result, it is not necessary to store all the data of the threshold group of the entire tile in the memory, and it is sufficient to store only the data of the minimum necessary threshold group expressing the pattern of the halftone cell. In the case of differences in horizontal and vertical directions or in halftone screening using parallelogram halftone cells, screening is performed with the minimum necessary threshold group, memory consumption can be suppressed, and a data creation method Is also easier.

According to a second aspect of the present invention, the width H of the tile
PX and height HPY are as follows: HPX = dx * dy2 / G2 + dy * dx2 / G2 HPY = dx * dy2 / G1 + dy * dx2 / G1 (where dx, dy, dx2, and dy2 are the parallelogram halftone cells, respectively) Are defined as DY / DX and DU2 / DX2, respectively, where the inclinations of two adjacent sides are projected onto two adjacent sides of a minimum rectangle of two adjacent sides of the outer parallelogram. The greatest common divisor of dx and dx2 is G1, and the greatest common divisor of dy and dy2 is G2.) The data of the minimum necessary threshold group is the height HPY _0. = G2 = threshold group data (HPX) * (HPY ₀ ) in tiles in the order of the 0th to (G2-1) th rows in the tile. This simplifies the method for obtaining the data of the minimum necessary threshold value group, thereby speeding up the screening.

According to the invention of claim 3 of the present invention, the data used to generate the entire tile from the data (HPX) * (HPY ₀ ) of the minimum necessary threshold value group is further added to the G2 line in the tile. As data for designating the leading threshold, a number representing the order of the data in the minimum necessary threshold value group data (HPX) * (HPY ₀ ) is added as rank data. As a result, the method for obtaining data with a small amount of data can be simplified, and screening can be speeded up.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram showing a relationship between parallelogram halftone cells and tiles according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing tiling data according to the embodiment of the present invention.

[Explanation of symbols]

 1 parallelogram halftone cell 2 minimum rectangle 3 tile 4 pixel

Claims (3)

[Claims] 1. Screening is performed using a pixel unit aggregate (halftone cell) in order to re-express an original image having continuous tone into an image composed of binary dots or pixels. In the screening method, for a parallelogram halftone cell whose inclination and size with respect to a device coordinate axis are determined, a process of forming a minimum rectangle enclosing the halftone cell with four sides parallel to the device coordinate axis, and a tile for performing screening. Obtaining the width and height of (the basic period portion parallel to the device coordinate axis) from the minimum rectangle and the inclination of the parallelogram halftone cell with respect to the device coordinate axis; The process of creating the minimum necessary threshold value group data for determining the threshold value according to the order, and the data value of this threshold value group Screening method characterized in that it is composed of a process of performing RT (rational tangent) screened based. 2. The width HPX and the height HPY of the tile
HPX = dx * dy2 / G2 + dy * dx2 / G2 HPY = dx * dy2 / G1 + dy * dx2 / G1 (where dx, dy, dx2, and dy2 are the outer peripheral parallel sides of the parallelogram halftone cell, respectively) When the inclinations of two adjacent sides of the shape are defined as DY / DX and DU2 / DX2, respectively, projected lengths of two adjacent sides of the outer peripheral parallelogram on two adjacent sides of the minimum rectangle. And the greatest common divisor of dx and dx2 is G1, and the greatest common divisor of dy and dy2 is G2.) The data of the minimum necessary threshold group is height HPY ₀ = G2 2. The screening method according to claim 1, wherein data (HPX) * (HPY ₀ ) of a threshold group in the tiles in the order of the 0th to (G2-1) th rows in the tile to be set is set. 3. The data of the minimum necessary threshold value group (HP
X) * (HPY ₀ ), as well as data used to generate the whole tile from the minimum threshold group (HPX 3.) The screening method according to claim 1 or 2, wherein a number representing the order of the order in * (HPY ₀ ) is added as order data.