KR19990020993A - How to convert print data - Google Patents

Abstract

The present invention relates to a print data conversion method for improving the transmission speed and printing speed by reducing the data size with high compression efficiency using a lossy compression method for data transmitted from a computer. The present invention for achieving the above object is a high-resolution image in a system provided with a computer that generates image data, and a printer equipped with a printer engine to print the image data transmitted from the computer and connected to the computer via a parallel port A method of printing data, the method comprising: a data generation step of generating print data from a printer driver by giving a print command from an application program of the computer; A compression step of compressing the generated print data; A transmission step of transmitting the compressed data to a printer through a parallel port; Decompression step of restoring the data input to the printer through the parallel port to the original print data; And a printing step of printing the restored print data. Therefore, the present invention is gradually increasing in high resolution and high color (256 color or true color) in the printer developed in response to the print quality and transmission speed by increasing the compression efficiency of the print data even if the damage to the image quality to some extent There is an effect that can prevent the degradation.

Description

How to convert print data

The present invention relates to a page printer, an all-in-one printer, and a color printer such as LBP, and a method of converting print data by reducing data size at high compression efficiency using a lossy compression method of data transmitted from a computer, thereby improving transmission speed and printing speed. It is about.

Generally, the printer is classified into a Graphic Description Interpreter (GDI) printer for Windows programs that provides independent (device-independent) graphics function for the device when the image is deployed in the Windows operating system environment. General printers can be classified into various types of printers such as PCL (Printer Control Language) printers, KS / KSSM printers, and PostScript printers developed by Hewlett Packard.

Generally, each of the printers receives data from a PC and prints the data. Among the various printing methods, the GDI method for Windows programs that provides device-independent graphic function when the image is deployed in the Windows Operating System environment, rasterizes the data to be printed by the PC, and prints it out. Raster image processing method is used to send and print.

Hereinafter, the printing process of the printer will be described with reference to the accompanying drawings.

1 is a configuration diagram of a conventional computer and a printer showing a process of generating the conventional print data, Figure 2 is a flow chart showing the flow of the conventional print data operated in the configuration of FIG.

First, an application 10 operating under the Windows operating system in the host unit creates an original file (image data) to be printed and issues a print command to print the created original file. Printer Driver 12 generates print data (steps S10, S20).

In this case, when the printer is a GDI printer, the data is transmitted to the spooler 14 through the GDI 11 before passing the print data to the printer driving program 12, and the GDI 12 prints independently of the computer. Generate data. Then, the size of the data is reduced by using the lossless compression program 13 with respect to the print data and transmitted to the printer unit through the parallel port 16 under the control of the port driver 15 (steps S30, S40, S50). .

Then, similarly, the printer unit receives the data input through the parallel port 22 from the data receiving unit 21 (step S60). This received data is interpreted in units of 1 byte in the emulation program 20 which interprets the received data. Then, the interpreted data is converted into a bit image, transmitted to the engine of the printer unit, and printed. At this time, the data that is losslessly compressed by the host unit is converted into the original uncompressed state and printable data by the lossless decompression program 23 by the printer unit and printed (steps S70, S80, and S90).

As described above, in general, a printer compresses and transmits data by a lossless compression method in order to improve transmission efficiency without damaging the data of the print data, because the user maintains the same image as the image displayed on the computer screen. Because you want to print to the printer.

However, if the data to be printed is monochromatic, the lossless compression program shows some compression efficiency. However, if the data to be printed is color, the lossless compression program hardly shows the compression efficiency. Therefore, it can be seen that a lot of time is required to convert the color print data appropriately and transmit it from the host unit to the printer unit.

Hereinafter, in a color printer having a performance of 256 colors / 300 DPI, when a predetermined photographic image filling a sheet of A4 printing paper is transferred from a computer unit to a printer unit, a process of printing data is processed through a conventional example.

Since the amount of print data generated in the case of the above-described photographic image is about 8 MBytes, the data size is not greatly reduced even if the lossless compression method is usually used.

Therefore, in order to print the photographic image, print data of about 8 MBytes as described above should be transmitted from the computer unit to the printer unit. The transmission time required for such transmission generally takes about 80 seconds even when the maximum data rate of 100 KBytes / sec of the parallel port of the computer unit is applied. This approximately 80 seconds is a time required only to transmit print data, which requires a considerable amount of time compared to other general tasks performed on a computer.

Moreover, as the environment surrounding the modern computer gradually changes to a multi-tasking operating system, the time allotted for the parallel communication with the printer unit is inevitably reduced. For example, in the environment of a multitasking operating system, such an example may take about 100 seconds or more for data transmission.

Therefore, in a printing device such as a color printer, when the resolution is increased or the depth of color is deepened, that is, as the number of data bits per pixel increases, the time required for the data transmission increases exponentially. will be.

As described above, the conventional print day conversion method has a problem in that the time required to finally print the color image is very large.

Accordingly, an object of the present invention is to solve the above problems, and when the print data is generated using a printer driver in a device such as a page printer, a multifunction printer or a color printer, a large amount of print data is applied by applying a lossy compression method. The present invention provides a method of converting print data due to a reduction in the number of days, thereby improving transmission speed and printing speed.

1 is a configuration diagram of a conventional computer and a printer showing a process of generating conventional print data;

2 is a flow chart showing a conventional print data flow operated in the configuration of FIG.

3 is a block diagram of a computer and a printer for implementing the print data conversion method of the present invention;

4 is a flow chart of the present invention operating in the configuration of FIG.

Explanation of symbols for main parts of drawings>

11: GDI 12: Printer Driver

13: Compressor 16,22: Parallel Port

20: emulation program 23: decompression program

The present print data conversion method for achieving the above object is a system provided with a computer that generates image data, and a printer equipped with a printer engine connected to the computer through a parallel port and printed image data transmitted from the computer A method of printing high resolution image data in a computer, the method comprising: generating a print data in a printer driver by giving a print command from an application program of the computer; A compression step of compressing the generated print data; A transmission step of transmitting the compressed data to the printer through the parallel port; Decompression step of restoring the data input to the printer through the parallel port to the original print data; And a printing step of printing the restored print data.

In the aspect of the present invention, the compression step includes a determination step of determining whether the compression method selected by the user is a lossy compression method; If the lossy compression method is selected in the determination step, it is preferable to include a compression execution step of performing lossy compression on the print data and performing lossless compression on the print data if the lossy compression method is not used in the determination step.

In addition, the decompression step preferably restores the print data compressed in the compression step in the same manner as the compression method selected in the compression step.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a print data conversion method according to the present invention will be described in detail.

3 is a block diagram of a computer and a printer for implementing the print data conversion method of the present invention.

4 is a flow chart of the present invention operating in the configuration of FIG.

As shown in Fig. 3, compared with the conventional block diagram, the loss compression program performs loss loss based on a user selectable item whether or not to perform loss compression on the print data generated by the printer driver 12 of the computer unit. With the addition, the decompression program which can interpret such lossy compression data is also comprised in the printer part.

Referring to Figure 4 describes the print data conversion method of the present invention.

First, when a print command is issued from an application program (step S110). The print command is transmitted to the printer driver 12 through the GDI 11 on the Windows operating system, and the printer driver 12 converts and generates the command or print data most suitable for the printer from the data to be printed received from the GDI 11. (Step S120).

Thereafter, in step S120, the user checks the print mode and loses the print data generated by the printer driver 12 using the loss compression program in the loss compression mode. If the print mode is not the lossy compression mode, lossless compression is performed (step S130). Therefore, the user uses lossless compression when demanding the transmission of high quality images, and lossy compression in order to reduce processing time while taking some deterioration in image quality.

Thereafter, the print data compressed in the step S130 is transmitted to the spooler 14 through the GDI 11 (S150). The data in the spooler 14 is transmitted to the printer portion via the printer port 16, i.e. typically the parallel or serial port.

The data transmitted to the printer unit is moved to the emulation line program 20 through the data receiving unit 21 of the printer unit (step S160). The emulation line program 20 decompresses the data through a lossless decompression program if the data is interpreted and lost, and if the data is decompressed, the data is transmitted through the lossless decompression program 23. To decompress (step S170).

Thereafter, the decompressed print data is converted into a data form that can be recognized by an engine (not shown) of the printer unit, that is, converted into a bit image composed of 0s and 1s to be printed (steps S180 and S190). ).

As described above, since the present invention allows the user to select lossy compression or non-lossy compression in the printer driver 12 program, in consideration of the transmission speed and processing speed of the print data, Choose one.

Typically, the average compression efficiency is about 40: 1 in the case of the lossy compression, and when the efficiency is good, the size of the print data may be reduced to 100: 1. However, when compressing a color image image such as a picture using lossless compression such as run-length or TIFF compression, there is little compression efficiency in comparison with the lossy compression.

Therefore, the present invention is gradually increasing in high resolution and high color (256 color or true color) in the printer developed in response to the print quality and transmission speed by increasing the compression efficiency of the print data even if the damage to the image quality to some extent There is an effect that can prevent the degradation.

In addition, the environment surrounding the printer gradually removes the bottleneck caused by the increase in data transmission time and processing time in a network environment in which multiple users connect a network.

Claims (3)

A method of printing high resolution image data in a system comprising a computer generating image data and a printer equipped with a printer engine to print image data transmitted from the computer and connected to the computer via a parallel port: A data generation step of generating print data in a printer driver by giving a print command from an application program of the computer; A compression step of compressing the generated print data; A transmission step of transmitting the compressed data to the printer through the parallel port; Decompression step of restoring the data input to the printer through the parallel port to the original print data; And Print data conversion method comprising the step of printing the restored print data The method of claim 1, The compressing step may include: determining whether a compression method selected by a user is a lossy compression method; And And performing a lossy compression on the print data when the lossy compression method is selected in the determination step, and performing a lossless compression on the print data when the lossy compression method is not used in the determination step. . The method according to claim 1 or 2, The decompression step may include: determining whether the compression method selected by the user in the compression step is a lossy compression method; And If the loss compression method is selected in the determination step, and restore the lossy compression method for the print data, and if the loss compression method is not in the determination step includes a restoration execution step for restoring to the lossless compression for the print data Print data conversion method.