JP2006165615A - Misregistration correction method and apparatus, and storage medium storing the misregistration correction program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a misregistration correction method for producing a high-quality belt-like trap area without moving a contour of an object in parallel, by placing a circular pattern on all the points constituting the contour. <P>SOLUTION: The misregistration correction method includes the steps of detecting the contour at which the trap area is caused, discriminating a type of the contour; generating a new contour, and placing a circular pattern on the points generating the contour. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a printing apparatus, an information processing apparatus, a management apparatus, a control method thereof, and a storage medium for storing them.

One technique for correcting color misregistration is trapping. There are two methods of trapping: a method of processing at the bitmap level and a method of processing at the vector level. When many functions are provided, trapping at a vector level with a high degree of freedom of processing is often used. When performing trapping at the vector level, a trapping area is generally created by translating the original contour that causes the trapping. However, there is no problem when the contour is vertical or horizontal, but in other cases, it is difficult to accurately perform translation with a fine width such as a trap width.
JP 2000-196906 A

  In order to solve such a problem, the present invention generates a contour in which a trap area is generated, and places a circle at all points constituting the contour, so that the contour is not moved in parallel. An object of the present invention is to provide a method for generating a high-quality band-shaped trap area.

  The present invention can solve the above problems by providing the following configuration.

  (1) In a printing system that corrects color misregistration during printing by trapping, a step of determining whether there is an overlap between objects in a target page in a print job, and a contour on which a trapping area is generated when there is an overlap A step of detecting a position, a step of generating a contour at a position on the contour that generates the detected trap area, and whether to generate a trap area on one of the objects on the boundary of the contour generating the trap area, The trap area is generated by placing a circle at each point that constitutes the generated contour, and the process of determining the trap area generation method to generate the trap area across both objects around the generated contour. And a method of correcting misregistration.

  (2) In a printing system that corrects color misregistration during printing by trapping, a means for determining whether there is an overlap between objects in a target page in a print job, and a contour on which a trapping area is generated when there is an overlap Means for detecting the position, means for generating a contour at a position on the contour for generating the detected trap area, and whether to generate a trap area on one of the objects on the boundary of the contour for generating the trap area, A trap area is generated by placing a circle at each point that constitutes the generated contour, and means for determining whether the trap area is generated in such a way as to span both objects around the generated contour. And a misregistration correcting device.

  (3) In a printing system that corrects color misregistration during printing by trapping, a step of determining whether there is an overlap between objects in a target page in a print job, and a contour on which a trapping area is generated when there is an overlap A step of detecting a position, a step of generating a contour at a position on the contour that generates the detected trap area, and whether to generate a trap area on one of the objects on the boundary of the contour generating the trap area, The trap area is generated by placing a circle at each point that constitutes the generated contour, and the process of determining the trap area generation method to generate the trap area across both objects around the generated contour. Misregistration correction control program characterized by comprising: Medium storing the beam.

  According to the present invention, even when accurate translation is difficult, it is possible to generate a high-quality band-shaped trap area without translating the original contour.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to examples.

  Next, Embodiment 1 of the invention will be described.

  FIG. 1 is a block diagram illustrating a basic configuration according to the present embodiment.

  In FIG. 1, reference numeral 1 denotes a CPU, that is, a central processing unit, which performs control and arithmetic processing of the entire apparatus. Reference numeral 2 denotes a RAM, that is, a random access memory, which is an area in which each program and data is loaded and executed for each process. Reference numeral 3 denotes a ROM, that is, a read-only memory, which is a storage area for system control programs and font data. Reference numeral 4 denotes a KBC, that is, a keyboard control unit, which receives data by key input from the keyboard 5 (KB) and transmits it to the CPU 1. Reference numeral 6 denotes a PRTC, that is, a printer control unit for controlling the printer device 7 (PRT). The printer device 7 is a laser beam printer, an ink jet printer, or the like. Reference numeral 8 denotes a CRTC, that is, a display control unit, which performs display control on the display device 9 (CRT). Reference numeral 10 denotes a DKC, that is, a disk control unit, which controls data transmission and the like. Reference numeral 11 denotes an external storage device such as an FD (floppy (registered trademark) disk device), an HD (hard disk device), or a CD (CDROM), which stores programs and data and refers to the RAM 2 or the RAM 2 as necessary at the time of execution. Load it. A system bus 12 serves as a data transfer path between the above-described components.

  This apparatus operates when the CPU 1 executes a basic I / O (input / output) program, an OS (operating system), and a misregistration correction control program described below.

  The basic I / O program is stored in the ROM 3 and the OS is written in the HD 11. When the power of the apparatus is turned on, the OS is read from the HD 11 into the RAM 2 by the IPL (Initial Program Loading) function in the basic I / O program, and the operation of the OS is started.

  In this embodiment, the misregistration correction control program and related data are recorded in the FD 11 or the CD ROM 11 as shown in FIG. 2, and the misregistration correction control program and related data recorded in the FD 11 or the CD-ROM 11 are shown in FIG. As shown in FIG. 3, it can be installed in the HD 11 of this apparatus through an FD drive or a CD-ROM drive. In this case, when the FD 11 or the CD-ROM 11 is set in the FD drive or the CD-ROM drive, the misregistration correction control program and related data are read from the FD 11 or the CD-ROM 11 under the control of the OS and the basic I / O program. , Installed in the HD 11 and operable.

  FIG. 4 shows a memory map in a state where the misregistration correction control program is installed in the HD 11 and becomes executable.

  FIG. 5 is a flowchart showing a large flow of the misregistration correction method in this embodiment. The present embodiment relates to misregistration correction processing in a printing system that performs misregistration correction processing.

  In step S501, it is determined whether or not searchable objects overlap each other by brute force for objects in the page. Next, the process proceeds to step S502, where the overlapping position is detected between the objects where the overlapping is found. In step S503, it is determined whether the above processing has been completed for all objects in the page. If not completed, the process returns to step S501 and the above process is repeated. If the processing has been completed for all objects in the page, the process proceeds to step S504, and a trap area is generated at the position detected in step S503. In step S505, it is determined whether the above processing has been completed for all pages in the document. If not completed, the process returns to step S501 and the above process is repeated. If completed, the trap process ends, and the process proceeds to the print process.

  Next, the generation of the trap area in step S504 in FIG. 5 will be described with reference to the flowchart in FIG. First, in step S601, the trap width set by the user designation or default designation is acquired. In step S602, the color of the trap area is determined according to user designation or default designation. In step S603, the outline of the position where the trap area is generated is generated from the outline of the object. In step S604, the trap type designated by the user designation or default designation is acquired. The type of trap at this time refers to a trap area generation method for contours such as (a) and (b) shown in FIG. In step S605, it is determined whether the trap type acquired in step S604 is a default trap or a center trap. If it is a default trap, the process proceeds to step S607. If it is a center trap, the process proceeds to step S606. If it is determined that the center and the lap are determined in step S605, the process proceeds to step S606, a circle having the trap width acquired in step S601 as a diameter is created, and the process proceeds to step S608. It is assumed that the circle created at that time is filled with the color determined in step S602. If it is determined in step S605 that the trap is a default trap, the process advances to step S607 to create a circle having the trap width acquired in step S601 as a radius, and the process advances to step S608. It is assumed that the circle created at that time is filled with the color determined in step S602.

  Next, the process proceeds to step S608, and circles created around the points on the contour generated in step S603 are placed in order. FIG. 8 shows a process of placing a circle at a point on the contour. Next, the process proceeds to step S609, and it is determined whether or not a circle has been placed at all points constituting the contour of the position where the target trap area is generated. If not, the process returns to step S608 and the above process is repeated. If circles have been placed at all points, the process proceeds to step S610, where it is determined whether trap area creation processing has been completed by placing circles on all contour positions where trap areas should be generated. If not, the process returns to step S602 and the above process is repeated. If it has been completed, generation of the trap area on the target page ends.

  FIG. 9 is a flowchart showing a large flow of the misregistration correction method in this embodiment. The present embodiment relates to misregistration correction processing in a printing system that performs misregistration correction processing.

  In step S901, it is determined whether or not searchable objects overlap with each other by brute force the objects in the page. Next, the process proceeds to step S902, and the overlapping position is detected between the objects where the overlapping is found. In step S903, it is determined whether the above processing has been completed for all objects in the page. If not completed, the process returns to step S901 and the above process is repeated. If the processing has been completed for all objects in the page, the process advances to step S904 to determine the type of contour at the position where the trap area is generated. Next, the process proceeds to step S905, and the trap area generation method is changed for each type of contour determined in step S904. That is, if the contour type is horizontal or vertical, the process proceeds to step S906, and if it is not horizontal or vertical, the process proceeds to step S907.

  If it is determined in step S905 that it is horizontal or vertical and the process proceeds to step S906, a trap area is generated by a method of horizontally moving the original contour. This process is shown in FIG. If it is determined in step S905 that it is not horizontal or vertical and the process proceeds to step S907, a trap area is generated by placing a circle at all points constituting the contour. This process is shown in FIG. Next, the process advances to step S908 to determine whether or not the above processing has been completed for all pages in the document. If not completed, the process returns to step S901 and the above process is repeated. If completed, the trap process ends, and the process proceeds to the print process. The generation of the trap area in step S907 in FIG. 9 is shown in the flowchart in FIG. 6 as described in the first embodiment.

It is a block diagram of the information processing apparatus of an Example. It is a figure which shows the recording content of FD or CD-ROM. FIG. 4 is a diagram illustrating the relationship between an FD or CD-ROM and an information processing apparatus. It is a figure which shows the memory map of the information processing apparatus when a FAX driver is installed in the hard disk of the information processing apparatus. 3 is a flowchart illustrating an outline of misregistration correction processing according to the first exemplary embodiment. 6 is a flowchart illustrating a trap area generation method by placing a circle in the first embodiment. Indicates the type of trap area occurrence position. The figure which shows the process which puts a circle | round | yen on the point which comprises the produced | generated outline and produces a trap area. 6 is a flowchart illustrating an outline of misregistration correction processing according to a second exemplary embodiment. The figure which shows the difference in the trap area generation method by the kind of outline.

Explanation of symbols

1 Central processing unit (CPU)
2 Random access memory (RAM)
3 Read-only memory (ROM)
4 Keyboard control unit (KBC)
5 Keyboard (KB)
6 Printer control unit (PRTC)
7 Printer device (PRT)
8 Display controller (CRTC)
9 Display device (CRT)
10 Disk controller (DKC)
11 External storage device (FD, HD, CD, etc.)
12 System bus

Claims (18)

  In a printing system that corrects color misregistration during printing by trapping, the process of determining whether there is an overlap between objects in the target page in a print job and the position on the contour that generates a trapping area when there is an overlap , A step of generating a contour at a position on the contour where the detected trap area is generated, and a contour which generates whether the trap area is generated on one of the objects with the contour generating the trap area as a boundary A trap area is generated by placing a circle at each point that constitutes the generated contour, and a process of determining the trap area generation method, whether to generate a trap area that spans both objects And a misregistration correction method comprising: a step.   The circle placed at each point constituting the generated contour according to claim 1 has the radius of the trap area as a radius when the trap area is generated on either object side with the contour generating the trap area. A misregistration correction method characterized by being generated as follows.   The circle placed at each point constituting the generated contour according to claim 2 is one of two color components adjacent to each other in the contour, or a color obtained by arbitrarily reducing the color component. A misregistration correction method, characterized by being painted by   The circle placed at each point constituting the generated contour according to claim 1 has the trap area width when the trap area is generated in such a manner as to straddle both objects around the contour generating the trap area. A misregistration correction method characterized by being generated as a diameter.   5. The misregistration correction method according to claim 4, wherein a circle placed at each point constituting the generated contour is filled with a color finally adopted in the trap area.   The step of determining what the contour of the object that causes trapping is, and if the result of determination is that the type of contour is a straight line or a horizontal line, a trapping area is generated by moving the contour in parallel, and the result of the determination And a step of generating a trap area by placing a circle at each point constituting the contour according to claim 1 when the type of the contour is not vertical or horizontal. Method.   In a printing system that corrects color misregistration during printing by trapping, a means for determining whether there is an overlap between objects in the target page in a print job and a position on the contour that generates a trapping area when there is an overlap A means for generating a contour at a position on the contour for generating the detected trap area, and a contour for generating the trap area on either one of the objects on the boundary of the contour for generating the trap area A trap area is generated by placing a circle at each point that constitutes the generated contour, and a means to determine the trap area generation method, whether to generate a trap area that spans both objects And a misregistration correction apparatus.   The circle placed at each point constituting the generated contour according to claim 7 has a radius of the trap area when the trap area is generated on either object side with the contour generating the trap area as a boundary. A misregistration correction device generated as described above.   The circle placed at each point constituting the generated contour according to claim 8 is a color component of one of two color components adjacent to the contour or a color obtained by arbitrarily reducing the color component. A misregistration correction device characterized by being painted by.   The circle placed at each point constituting the generated contour according to claim 7 has a trap area width when the trap area is generated in such a manner as to straddle both objects around the contour generating the trap area. A misregistration correction apparatus characterized by being generated as a diameter.   11. The misregistration correction apparatus according to claim 10, wherein a circle placed at each point constituting the generated contour is filled with a color finally adopted in the trap area.   Means for determining the contour of the object that causes trapping, and if the result of determination is that the type of contour is a straight line or a horizontal line, a trapping area is generated by moving the contour in parallel, and the result of the determination A misregistration correction comprising: means for generating a trap area by placing a circle at each point constituting the contour according to claim 1 when the type of contour is not vertical or horizontal apparatus.   In a printing system that corrects color misregistration during printing by trapping, the process of determining whether there is an overlap between objects in the target page in a print job and the position on the contour that generates a trapping area when there is an overlap , A step of generating a contour at a position on the contour where the detected trap area is generated, and a contour which generates whether the trap area is generated on one of the objects with the contour generating the trap area as a boundary A trap area is generated by placing a circle at each point that constitutes the generated contour, and a process of determining the trap area generation method, whether to generate a trap area that spans both objects A misregistration correction control program characterized by comprising:憶 the media.   The circle placed at each point constituting the generated contour according to claim 13 has a radius of the trap area when the trap area is generated on either object side with the contour generating the trap area as a boundary. A medium storing a misregistration correction control program generated as described above.   The circle placed at each point constituting the generated contour according to claim 14 is one of two color components adjacent to each other in the contour, or a color obtained by arbitrarily reducing the color component. A medium storing a misregistration correction control program characterized by being filled in by   The circle placed at each point constituting the generated contour according to claim 13 has a width of the trap area when the trap area is generated so as to extend over both objects around the contour generating the trap area. A medium storing a misregistration correction control program generated as a diameter.   17. A medium storing a misregistration correction control program, wherein circles placed at respective points constituting the generated contour according to claim 16 are filled with a color finally adopted in a trap area.   The step of determining what the contour of the object that causes trapping is, and if the result of determination is that the type of contour is a straight line or a horizontal line, a trapping area is generated by moving the contour in parallel, and the result of the determination And a step of generating a trap area by placing a circle at each point constituting the contour according to claim 1 when the type of the contour is not vertical or horizontal. A medium that stores a control program.

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