JPH06262805A - Printer method and apparatus - Google Patents

Abstract

PURPOSE:To print an image having high gradation properties and high image quality by forming an interpolated image by interpolating the respective pixels of an image necessary for gradation expression and sampling the same considering the output pixel density or gradation degree of a printer to output image data subjected to false intermediate processing. CONSTITUTION:It is discriminated whether the image separated by image area separating processing is a picture and, with respect to image data judged to be the picture, the image formed by a host is subjected to interpolation processing by adapting an average value interpolation method or an Smc interpolation method and, with respect to the signal obtained by interpolation processing, sampling processing is executed so as to obtain the number of the pixels of the image outputted from a printer. False halftone expression processing is executed with respect to the image outputted by the conversion processing of the number of pixels in order to convert the outputted image to an image visually having gradation properties. Font scalable processing is applied to image data other than the picture to convert the same to bit map data. Finally, false intermediate processing output and the bit map data are synthesized to be stored.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a printing method and an apparatus thereof, and more particularly to a printing method and an apparatus thereof for printing image data transmitted from a host.

[0002]

2. Description of the Related Art Some hosts connecting a printer device form computer graphics (CG) images by a system such as a word processor or a personal computer and display the images on a display device such as a CRT or liquid crystal (LCD). .

On the other hand, printer devices include an LBP and a digital copying machine for forming a high-quality digital image, that is, an image with high-density pixels and printing the image.

Conventionally, when an image formed by a host is printed out by a printer, image information of the host, for example,
In the case of a character, the print information of the font, the font type, the information about the font size, etc. are represented by code data, and this is transmitted to the printer. The printer device stores font information suitable for the performance of the device,
The received code data is converted into bitmap data based on the font information and printed.

Generally, the pixel density and gradation that can be handled by the host and the printer do not match. For example, there are cases where the host can perform image expression with 8 bits, that is, 256 gradations, but the printer device can only perform image expression with 2 bits, that is, 4 gradations. Focusing on the pixel density, the printer device has a pixel density which is about 4 to 8 times higher than that of the host.
In addition, the number of pixels can be displayed.

[0006]

As described above, due to the mismatch of the total number of output pixels, the pixel density, and the gradation degree of the host and the printer, the image formed on the host and displayed on the CRT or the LCD and the image are output to the printer. The image quality is different.

Therefore, in the above-mentioned conventional example, the image obtained by directly printing the image data transmitted from the host has poor gradation,
In addition, the character image has a drawback in that the image quality is conspicuously deteriorated by the occurrence of unnecessary unevenness at the edge portion.
The problem that unnecessary irregularities are generated in the edge portion of the character image can be analyzed and processed by font design and smoothing processing of the edge portion, but the deterioration of gradation is still a big problem.

The present invention has been made in view of the above conventional example, and an object of the present invention is to provide a printing method and apparatus capable of suppressing deterioration of gradation and maintaining high gradation and outputting an image of high quality. I am trying.

[0009]

In order to achieve the above object, the printing method of the present invention comprises the following steps. That is, a printing method for printing an image formed by a host computer with low pixel density and high gradation on a printer device with high pixel density and low gradation expression,
An input step of inputting an image formed by the host computer; a separation step of separating a portion of the image, such as text, which does not require gradation expression to obtain a partial image which requires gradation expression; In consideration of the output pixel density and gradation of the printer device, an interpolation step of interpolating each pixel of the partial image to generate an interpolated image so as to increase the number of pixels for the obtained partial image, A halftone processing step of sampling the interpolated image and performing a pseudo halftone processing based on the sampled pixel values; and an output step of outputting the halftone processed image data. A characteristic printing method is provided.

According to another aspect of the present invention, there is provided a printer device for receiving and printing out an image formed by the host computer having a low pixel density and a high gradation, the input means inputting the image formed by the host computer. Separating means for obtaining a partial image requiring gradation expression, for example, a portion not requiring gradation expression, such as text, from the image; and a pixel number for the partial image obtained by the separating means. Interpolating means for interpolating each pixel of the partial image to generate an interpolated image so as to increase, halftone processing for sampling the interpolated image, and performing pseudo halftone processing based on the value of the sampled pixel And a printer for outputting the image data that has been subjected to the halftone processing.

[0011]

With the above arrangement, the present invention interpolates each pixel of an image requiring gradation expression to generate an interpolated image, and samples the interpolated image in consideration of the output pixel density and gradation of the printer device. Then, based on the sampled pixel values, pseudo halftone processing is performed to output image data.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

FIG. 1 is a block diagram showing the configuration of a printer apparatus connected to a host, which is a typical embodiment of the present invention. In FIG. 1, 1 is a host that forms an image and sends the image data to a printer device, 2 is a printer device,
3 emulator, the GS (gray scale 4: G rey S
cale) generator, 5 is an engine controller, 6 is a printer engine, 7 is a control tower, and 8 is a page memory.

The host 1 is a device having a CG function,
CPU, RAM, ROM, and CRT that displays images
And a display device such as an LCD. Then, when printing an image to be displayed on the display device, the corresponding image data is transmitted to the printer device 2 via a predetermined interface. The transmission image data is composed of image data composed of text data and graphics data and control data for controlling the printer engine 6, which are converted into code data and transmitted to the printer device 2.

The code data transmitted from the host 1 is interpreted by the emulator 3 of the printer device 2. A predetermined code is assigned to each of the control data and the image data forming the code data. At this time, the picture is extracted from the image data received by the code interpretation by utilizing the fact that the code that describes the text is different from the code that describes the graphics data and the image (hereinafter, these are referred to as picture). This processing is called image area separation processing.

The GS generator 4 performs image conversion processing, which will be described later, on the picture with respect to the image data separated from the image area to generate bitmap data.
A font or the like is converted according to the conventional technique to generate bitmap data. Then, both bit map data are combined and stored in the page memory 8.
The engine controller 5 controls the printer engine 6 and the page memory 8 to print the bitmap data. The control tower 7 manages the emulator 3, the GS generator 4, and the engine controller 5.

Next, the image conversion process executed by the printer device 2 having the above-mentioned configuration will be described with reference to the flow charts shown in FIGS.

First, in step S11, the emulator 3 executes the above-described image area separation processing. Next, in step S12, it is determined whether or not the separated image is a picture by the image area separation processing in step S11, and the processing for the picture and the processing for the image other than the picture are distinguished. Then, for the image data determined to be a picture, the processes of steps S13 to S14 are executed. Further, the processing of step S15 is executed for the data determined as the image other than the picture.

In step S13, as shown in FIG. 3, the image formed by the host 1 in step S21 is subjected to interpolation processing by applying the average value interpolation method or the Sinc interpolation method, and further in step S22, step S2.
The sampling process is performed on the signal obtained by the interpolation process of No. 1 so that the pixel number of the image output by the printer device is obtained, and the pixel number of the image formed by the host 1 and the image output to the printer device The pixel number conversion processing is executed so that the number of pixels is equalized.

Here, regarding the conversion processing of the number of pixels,
For simplification of description, it is assumed that the image data is one-dimensional data and will be described with reference to FIG. In FIG.
Reference numeral 31 is a signal obtained by interpolating a one-dimensional image data signal, and x ₁ , x ₂ , x ₃ are the coordinates of each pixel of the image formed by the host 1, and y ₁ , y ₂ ,. _Reference numeral ₁₁ is the coordinates of each pixel of the image after the conversion processing of the number of pixels.

In the interpolation processing of step S21, the host 1
From the density (brightness) value of each pixel of the image formed by, the density (brightness) value between each pixel is obtained by an interpolation process using the average value interpolation method or the Sinc interpolation method. For example, in the mean value interpolation method, if the density (luminance) value of each pixel of the image formed by the host 1 adjacent to the coordinates to be interpolated is, for example, x ₁ <y _i <x ₂ The density (luminance) of the image corresponding to each pixel of the subsequent image is obtained.

G (y _i ) = f (x ₁ ) + {f (x ₂ ) −f (x ₁ )}
(Y _i −x ₁ ) / (x ₂ −x ₁ ) where f (x ₁ ) and f (x ₂ ) are the density (luminance) value of each pixel of the original image (image formed by the host 1) , G (y _i ) are the densities (luminances) of the respective pixels of the interpolated image. From the interpolation data thus obtained, sampling is performed so that the number of pixels of the image output by the printer device 2 can be obtained.

The Sinc interpolation method, which is the optimum interpolation processing method known as the sampling theorem, is a method for completely reproducing the original signal from each value obtained by sampling the image signal at equal intervals, and the calculation processing and It can be realized by a circuit using a low-pass filter.

The interpolation process and the pixel number conversion process have been described above by taking one-dimensional image data as an example.
For image data having a dimensional spread, first, one-dimensional interpolation processing is performed in the vertical or horizontal direction of the image, and then the interpolated signal is then orthogonal to the previously processed direction. One-dimensional interpolation processing is performed in the direction.

Further, in step S14, step S1
In order to convert the image output by the conversion processing of the number of pixels executed in 3 into an image having a visual gradation, the dither method or the error diffusion method is applied to perform the pseudo halftone expression processing. Run.

On the other hand, in step S15, the image scaling data other than the picture is subjected to the font scalable processing by applying the well-known enlargement conversion processing and smoothing processing, and is converted into bitmap data. Finally, in step S16, the output of the pseudo halftone expression process of step S14 and the output of the font scalable process 15 of step S15 are combined and stored in the page memory 8.

Therefore, according to this embodiment, regarding the picture image data among the image data input from the host, what is the ratio of the number of pixels of the image formed by the host to the number of pixels of the image output by the printer device? Even if there is, the number of pixels in the image is matched, and the pseudo halftone expression process is executed on the matched image.
It is possible to output a high-quality image with good gradation so that the halftone image data is displayed on D.

In this embodiment, the code data is inputted from the host, the data is interpreted, and the picture image data is converted into the number of pixels of the image. However, the present invention is not limited to this. Not something. For example, the present invention can be applied to a printer that directly prints image data of a host, such as a download printer.

The present invention may be applied to a system composed of a plurality of devices or an apparatus composed of one device. Further, it goes without saying that the present invention can be applied to the case where it is achieved by supplying a program to a system or an apparatus.

[0030]

As described above, according to the present invention, each pixel of an image that requires gradation expression is interpolated to generate an interpolated image, and the output pixel density and gradation degree of the printer device are taken into consideration.
The interpolated image is sampled, and pseudo halftone processing is performed based on the sampled pixel values to output the image data, so that it is possible to print a high-quality image with high gradation. .

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of a printer device that is a typical embodiment of the present invention.

FIG. 2 is a flowchart showing an image conversion process.

FIG. 3 is a flowchart showing a pixel number conversion process.

FIG. 4 is a diagram showing how the number of pixels is converted by one-dimensional interpolation processing.

[Explanation of symbols]

 1 Host 2 Printer 3 Emulator 4 GS Generator 5 Engine Controller 6 Printer Engine 7 Control Tower 8 Page Memory

Continuation of the front page (51) Int.Cl. ⁵ Identification code Office reference number FI Technical display location G06F 15/66 355 C 8420-5L 15/68 320 A 9191-5L

Claims (3)

[Claims] 1. A printing method for printing an image formed by a host computer having a low pixel density and a high gradation on a printer device having a high pixel density and a low gradation expression, wherein the image formed by the host computer is printed. An input step of inputting, a separation step of separating a portion of the image, such as text, that does not require gradation expression to obtain a partial image that requires gradation expression, and the partial image obtained by the separation step. In consideration of the output pixel density and the gradation degree of the printer device, an interpolation step of interpolating each pixel of the partial image to generate an interpolated image so as to increase the number of pixels by
A halftone processing step of sampling the interpolated image and performing a pseudo-halftone processing based on the sampled pixel values; and an output step of outputting the image data subjected to the halftone processing. Characteristic printing method. 2. A printer device for receiving and printing out an image formed by a host computer having a low pixel density and a high gradation, and an input unit for inputting an image formed by the host computer; Separating means for separating a portion such as text that does not require gradation expression to obtain a partial image that requires gradation expression, and the part for increasing the number of pixels for the partial image obtained by the separating means. Interpolation means for interpolating each pixel of the image to generate an interpolation image; halftone processing means for sampling the interpolation image and performing pseudo halftone processing based on the sampled pixel values; A printer device comprising: an output unit that outputs processed image data. 3. The printer device according to claim 2, wherein the image formed by the host computer is an image formed for displaying on a display or the like.