JP2004021683A - Image processor, editing device, image processing program, and editing program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an editing device, image processor, editing program, image processing program and editing program capable of easily referring to a manuscript image corresponding to an optional low resolution image within a page description data. <P>SOLUTION: This processor has a low resolution image providing part for providing low resolution image data with the link information to manuscript image data added thereto, and a manuscript image reference request acceptance part for giving permission to the request of referring to the manuscript image data corresponding to the low resolution image data. When a desired low resolution image in the page description data is designated, the reference to the manuscript image data is requested to the manuscript image reference request acceptance part based on the link information to manuscript image data added to the low resolution image data which shows the low resolution image. As the permission of the reference to the manuscript image data, for example, an address in which the manuscript image data are stored or the like is received from the manuscript image reference request acceptance part, and the manuscript image shown by the manuscript image data stored in the address are displayed, for example, on a display screen, whereby the manuscript data can be confirmed. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an editing apparatus, an editing program, an image processing apparatus, and an image processing program that generate image data based on edited images and characters.
[0002]
2. Description of the Related Art Conventionally, in the field of printing and plate making, in order to reduce the burden of editing an image for printing, an OPI (Open Press Interface) server is used to manage document images constituting the printing image. To be done. The OPI server stores document image data representing a document image, generates low resolution image data representing a low resolution image that is the same as the document image but has a small number of pixels, and edits the low resolution image data. Provide for work. The operator can comfortably edit the print image using the low-resolution image data having a small data size provided from the OPI server. Further, the edited data based on the image and characters edited by the operator is sent to the OPI server. The OPI server replaces the low resolution image data included in the edited data with original image data corresponding to the low resolution image data, and generates output data to be output to an output device such as a printer. As described above, when the manuscript image is managed by the OPI server, it is possible to reduce a load on the editing operation of the printing image and to generate a printed matter including an image having the same number of pixels as the manuscript image.
[0003]
[Problems to be solved by the invention]
By the way, for example, when using an OPI server that provides a low-resolution image with a pixel number of 72 dpi for a document image with a pixel number of 300 dpi, the image displayed on the display screen during the editing operation is a low-resolution image with a resolution of 72 dpi. It is an image. Here, for example, when confirming a fine portion of an image or when confirming whether a document image corresponding to a low-resolution image has a desired number of pixels, the document image corresponding to the low-resolution image is referred to. There is a need. Conventionally, in order to refer to a document image corresponding to a low resolution image, a folder in the OPI server is searched, and an image with such a new file name is searched for and displayed. However, this is a very complicated task, and there is a problem that it is a very difficult task for an operator who does not know much about the OPI server or the like.
[0004]
In view of the circumstances described above, an object of the present invention is to provide an editing device, an image processing device, an editing program, and an image processing program that can easily refer to a document image corresponding to a desired low-resolution image.
[0005]
[Means for Solving the Problems]
The image processing apparatus of the present invention that achieves the above object provides:
Document image data representing a document image is stored, and a low-resolution image having the same number of pixels as the document image represented by the document image data based on the document image data and having a smaller number of pixels than the document image data. A low-resolution image data to be generated and provided for editing work, and when the page description data generated by editing includes low-resolution image data, the low-resolution image data corresponds to the low-resolution image data. In an image processing apparatus that replaces image data,
A low resolution image providing unit that provides low resolution data for editing by adding link information to document image data corresponding to the low resolution data; and
A document image reference request accepting unit that accepts a request for reference to document image data corresponding to the low resolution image data provided by the low resolution image providing unit and permits reference to the document image data;
[0006]
Conventionally, when referring to a document image corresponding to a low-resolution image represented by low-resolution image data, a file stored in the image processing apparatus is opened and checked while searching for each image. However, this is a very time-consuming task.
[0007]
The image processing apparatus of the present invention provides link information to document image data corresponding to low-resolution image data, and provides permission for a request to refer to document image data corresponding to the low-resolution image data. give. In order to confirm the document image corresponding to the desired low-resolution image, the apparatus that has received the link information to the document image data first uses the link information to the document image data added to the low-resolution image data. In addition, the image processing apparatus is requested to refer to the document image data. As permission for referring to the document image data, for example, an address where the document image data is stored is received from the image processing apparatus, and the document image represented by the document image data stored at the address is displayed on the display screen or the like. Confirm.
[0008]
As described above, according to the image processing apparatus of the present invention, it is possible to easily confirm a document image corresponding to a desired low-resolution image.
[0009]
In the image processing apparatus of the present invention, the document image reference request receiving unit receives a request for reference to document image data corresponding to the low resolution image data provided by the low resolution image providing unit, and receives address information of the document image data. Is preferably provided to the reference request source.
[0010]
Since the document image represented by the document image data is a high pixel image, generally, the data size of the document image data is large, and it is a time consuming process to transmit / receive the document image data.
[0011]
For permitting the reference of the document image data, the address information storing the document image data is provided instead of the document image data itself, and the reference request source, for example, the document stored at the location indicated by the address information By displaying the original image represented by the image data, the processing time can be shortened.
[0012]
However, in the image processing apparatus of the present invention, the document image reference request receiving unit receives a request for reference to document image data corresponding to the low resolution image data provided by the low resolution image providing unit, and receives address information of the document image data. Instead, the document image data itself may be provided to the reference request request source.
[0013]
The editing apparatus according to the present invention is a low-resolution image having the same number of images as the original image represented by the original image data, which is generated based on the original image data representing the original image and having a smaller number of pixels than the original image. In an editing apparatus for generating page description data by editing a low-resolution image data representing a resolution image,
A data acquisition unit for acquiring link information to document image data representing a document image corresponding to the low resolution image data together with the low resolution image data;
A manuscript image reference requesting unit for requesting a low resolution image provider to refer to manuscript image data corresponding to low resolution image data representing a low resolution image in response to an operation for designating a low resolution image;
And an image display unit for displaying a document image based on document image data permitted in response to a request from the document image reference request unit.
[0014]
According to the editing apparatus of the present invention, the document image data corresponding to the low-resolution image data is requested to be referred to the provider of the low-resolution data storing the document image data, and the image represented by the permitted document image data. Is displayed on the display screen.
[0015]
By confirming the document image displayed on the display screen, it is possible to easily confirm a document image corresponding to an arbitrary low resolution image.
[0016]
The image processing program of the present invention is executed in a computer and stores the original image data representing the original image, and is the same as the original image represented by the original image data based on the original image data. Low-resolution image data representing an image and a low-resolution image having a number of pixels smaller than the number of pixels of the original image is generated and provided for editing, and low-resolution image data is added to the page description data generated by editing. In an image processing program that operates as an image processing device that replaces low-resolution image data with original image data corresponding to low-resolution image data when
A low resolution image providing unit that provides low resolution data for editing by adding link information to document image data corresponding to the low resolution data; and
A request for referring to document image data corresponding to the low resolution image data provided by the low resolution image providing unit is received, and the document processing apparatus operates as an image processing apparatus including a document image reference request receiving unit that permits reference to document image data. It is characterized by that.
[0017]
By executing the image processing program of the present invention in a computer, the computer can be operated as the above-described image processing apparatus.
[0018]
Note that the image processing program of the present invention includes all the various aspects corresponding to the various aspects of the image processing apparatus of the present invention.
[0019]
Further, the editing program of the present invention is executed in a computer, and causes the computer to generate an original image that is the same as the original image represented by the original image data generated based on the original image data representing the original image. In an editing program that operates as an editing device that edits in response to provision of low-resolution image data representing a low-resolution image having a smaller number of images than the number of pixels, and generates page description data,
A data acquisition unit for acquiring link information to document image data representing a document image corresponding to the low resolution image data together with the low resolution image data;
A manuscript image reference requesting unit for requesting a low resolution image provider to refer to manuscript image data corresponding to low resolution image data representing a low resolution image in response to an operation for designating a low resolution image;
The editing apparatus includes an image display unit that displays a document image based on document image data permitted in response to a request from the document image reference request unit.
[0020]
By executing the editing program of the present invention in a computer, the computer can be operated as the editing device as described above.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described.
[0022]
FIG. 1 is an overall configuration diagram of an image processing system to which a first embodiment of the present invention is applied. This image processing system is a system for printing characters and images edited by an operator using a computer using a printing machine or printer.
[0023]
The image processing system 10 in FIG. 1 includes a color scanner 100, a personal computer 200, a color printer 110, and a printing machine 120.
[0024]
The color scanner 100 is a scanner that reads an original image and generates original image data representing the read original image. The document image data generated by the color scanner 100 is sent to the personal computer 200 and used when a printing image (hereinafter referred to as a printing image) is created. The personal computer 200 converts language data described by page description data based on characters and images edited by an operator into output image data expanded into a bitmap by so-called RIP (Raster Image Processor). The output image data is input to the printing press 120 when printing is performed, and the printing press 120 generates a printed matter corresponding to the input output image data. Further, when creating a proof image for confirming the print finish in advance, output image data generated by the personal computer 200 is input to the color printer 110, and the proof image based on the output image data is generated by the color printer 110. Created.
[0025]
Here, the feature of the image processing system 10 shown in FIG. 1 as the first embodiment of the present invention lies in the processing content executed inside the personal computer 200. The personal computer 200 will be described below. .
[0026]
2 is an external perspective view of the personal computer 200 of FIG. 1, and FIG. 3 is a hardware configuration diagram thereof.
[0027]
This personal computer 200 has an appearance configuration, a main body device 210, an image display device 220 that displays an image on a display screen 221 in accordance with an instruction from the main body device 210, and a main body device 210 according to various key operations. And a mouse 240 for inputting an instruction corresponding to, for example, an icon or the like displayed at that position by designating an arbitrary position on the display screen 221. The main body device 210 has a flexible disk loading slot 211 for loading a flexible disk and a CD-ROM loading slot 212 for loading a CD-ROM.
[0028]
As shown in FIG. 3, the main body device 210 includes a CPU 213 that executes various programs, a main memory 214 that is read out by the programs stored in the hard disk device 215 and developed for execution by the CPU 213, and various programs. 1 is loaded with a hard disk device 215 storing data and data, a flexible disk 260, a flexible disk drive 217 accessing the flexible disk 260, a CD-ROM drive 218 accessing the CD-ROM 270, and the color scanner 100 of FIG. An input interface 216 for receiving image data, an output interface 219a for sending output image data to the color printer 110 in FIG. 1, and an output interface 2119b for sending output image data to the printing press 120 in FIG. And, with these various elements, the image display apparatus 220 further illustrated in FIG. 2, a keyboard 230, a mouse 240 are connected to each other via a bus 250.
[0029]
Here, the CD-ROM 270 stores an image processing program for operating the personal computer 200 as the first embodiment of the image processing apparatus of the present invention. The CD-ROM 270 is a CD-ROM drive 218. And the image processing program stored in the CD-ROM 270 is uploaded to the personal computer 200 and stored in the hard disk device 215.
[0030]
Also, a CD-ROM 280 storing an editing program for operating the personal computer 200 as the first embodiment of the editing apparatus of the present invention is loaded into the CD-ROM drive 218 in the same manner as the CD-ROM 270, and the CD-ROM The editing program stored in the ROM 280 is also uploaded to the personal computer 200 and stored in the hard disk device 215.
[0031]
In this way, the personal computer 200 includes an image processing apparatus 300 (described later) in FIG. 4 that is a first embodiment of the image processing apparatus of the present invention, and an editing apparatus 400 (described later) that is the first embodiment of the editing apparatus of the present invention. Act as).
[0032]
Here, the image processing program and the editing program will be described later. When the personal computer 200 is operated as the first embodiment of the image processing device and the editing device of the present invention, the image processing device, the editing device, An overall configuration of a printing image creation system including a RIP device using a RIP (Raster Image Processor) program installed in the personal computer 200 in advance will be described.
[0033]
FIG. 4 is an overall configuration diagram of the printing image creation system 20 to which the first embodiment of the present invention is applied.
[0034]
The printing image creation system 20 includes an image processing device 300, an editing device 400, and a RIP device 500.
[0035]
The image processing apparatus 300 receives document image data from the color scanner 100 shown in FIG. 1 through the input interface 216 in FIG. 3, and stores the document image data. Further, low-resolution image data representing a low-resolution image that is the same as the document image represented by the document image data and has a smaller number of pixels than the document image is generated and provided to the editing apparatus 400 for editing. Further, the edited page description data edited using the low-resolution image data is received from the editing apparatus 400, and the low-resolution image data included in the edited page description data is converted into a document image corresponding to the low-resolution image data. Output page description data that is replaced with data is generated. The output page description data is sent to the RIP device 500.
[0036]
The editing device 400 receives provision of low resolution image data from the image processing device 300. The operator edits the print image using the low-resolution image data, and the editing device 400 generates post-edit page description data based on the edited characters and images. In this way, by using the low-resolution image data having a small data size for editing the printing image, it is possible to reduce the load on the editing work. The generated edited page description data is sent to the image processing apparatus 300.
[0037]
The RIP device 500 is bitmap data (halftone image data) that can be output by the output device such as the color printer 110 or the printing press 120 shown in FIG. 1 for the output page description data sent from the image processing device 300. Convert to some print image data.
[0038]
The printing image creation system 20 is generally configured as described above. Next, the image processing program for generating the image processing apparatus 300 and the editing for generating the editing apparatus 400 are performed. Describe the program.
[0039]
FIG. 5 is a conceptual diagram showing the CD-ROM 270 in which the first embodiment of the image processing program of the present invention is stored.
[0040]
The image processing program 271 includes a storage unit 2711, a low resolution image generation unit 2712, a low resolution image provision unit 2713, a document image reference request reception unit 2714, and an image data replacement unit 2715. Here, the storage unit 2711 is for managing addresses on the hard disk device 215 shown in FIG. 3 where data is read and written. The low resolution image providing unit 2713 corresponds to an example of a low resolution image providing unit in the image processing program of the present invention. Similarly, the document image reference request receiving unit 2714 is a document image reference request receiving in the image processing program of the present invention. It corresponds to an example of a part. Details of each part of the image processing program 271 will be described together with the operation of each part of the image processing apparatus 300 which is the first embodiment of the image processing apparatus of the present invention shown in FIG.
[0041]
FIG. 6 is a functional block diagram of the image processing apparatus 300 when the image processing program 271 is installed in the personal computer 200 of FIG. 1 and the personal computer 200 is operated as the first embodiment of the image processing apparatus of the present invention. is there.
[0042]
An image processing apparatus 300 illustrated in FIG. 6 includes a storage unit 301, a low resolution image generation unit 302, a low resolution image provision unit 303, a document image reference request reception unit 304, and an image data replacement unit 305.
[0043]
When the image processing program 271 is installed in the personal computer 200, the storage unit 2711 constituting the image processing program 271 of FIG. 5 generates the storage unit 301 of FIG. 6, and similarly, the low resolution image generation unit 2712 is the low resolution image generation unit. 302, the low resolution image providing unit 2713 generates the low resolution image providing unit 303, the document image reference request receiving unit 2714 generates the document image reference request receiving unit 304, and the image data replacing unit 2715 is the image data replacing unit. A unit 305 is generated.
[0044]
The storage unit 301 stores document image data received from the color scanner 100 shown in FIG. 1 through the input interface 216 shown in FIG. 3 in the hard disk device 215 and manages addresses on the hard disk device 215. The document image data is assigned an image ID uniquely determined for each data, and information on the address where the image ID and document image data are stored (hereinafter, this information is referred to as address information). It is associated. The stored document image data is referred to by the low-resolution image generation unit 302 and the image data replacement unit 305. When the image ID is received from the document image reference request receiving unit 304, address information corresponding to the image ID is sent to the document image reference request receiving unit 304.
[0045]
The low-resolution image generation unit 302 is based on the document image data stored in the storage unit 301 and is a low-resolution image that is the same as the document image represented by the document image data and has a smaller number of pixels than the document image. First low-resolution image data representing is generated. The generated first low resolution image data is sent to the low resolution image providing unit 303.
[0046]
The low resolution image providing unit 303 generates second low resolution image data in which an image ID is added to the first low resolution image data sent from the low resolution image generating unit 302. This image ID corresponds to an example of “link information” according to the present invention, and the low resolution image providing unit 303 corresponds to an example of a low resolution image providing unit in the image processing apparatus of the present invention. The generated second low-resolution image data is sent to the editing apparatus 400 shown in FIG. 4, and the editing apparatus 400 edits the printing image using the second low-resolution image data.
[0047]
The document image reference request accepting unit 304 receives an image ID that is a document image reference request from the editing apparatus 400 of FIG. 4 and sends the image ID to the storage unit 301. Further, the address information corresponding to the image ID is input from the storage unit 301, and the address information is sent to the editing apparatus 400 as permission for referring to the document image. This image ID corresponds to an example of “request for reference to document image data” according to the present invention. Similarly, the address information corresponds to an example of “address information” according to the present invention. The document image reference request accepting unit 304 corresponds to an example of a document image reference request accepting unit in the image processing apparatus of the present invention.
[0048]
The image data replacement unit 305 inputs edited page description data representing the print image, including the second low-resolution image data, from the editing device 400 of FIG. Further, the second low-resolution image data included in the edited page description data is replaced with the original image data corresponding to the second low-resolution image data stored in the storage unit 301 to generate page description data for output. To do. This output page description data is the same image as the image represented by the edited page description data and represents an image having a large number of pixels. The generated output page description data is sent to the RIP device 500 shown in FIG.
[0049]
The image processing apparatus 300 is basically configured as described above.
[0050]
Next, an editing program for generating the editing device 400 will be described.
[0051]
FIG. 7 is a conceptual diagram showing the CD-ROM 280 storing the first embodiment of the editing program of the present invention.
[0052]
The image processing program 281 includes a storage unit 2811, a data acquisition unit 2812, a document image reference request unit 2813, an image display unit 2814, and a data editing unit 2815. Here, the storage unit 2811 is for managing addresses on the hard disk device 215 shown in FIG. 3 where data is read and written. The data acquisition unit 2812 corresponds to an example of a data acquisition unit in the editing program of the present invention. Similarly, the document image reference request unit 2813 is an example of a document image reference request unit, and the image display unit 2814 is an example of an image display unit. It corresponds to. Details of each part of the editing program 281 will be described together with the operation of each part of the editing apparatus 400 which is the first embodiment of the editing apparatus of the present invention shown in FIG.
[0053]
FIG. 8 is a functional block diagram of the editing apparatus 400 when the editing program 281 is installed in the personal computer 200 of FIG. 1 and the personal computer 200 is operated as the first embodiment of the editing apparatus of the present invention.
[0054]
An editing apparatus 400 shown in FIG. 8 includes a storage unit 401, a data editing unit 402, a data acquisition unit 403, a document image reference request unit 404, and an image display unit 405.
[0055]
When the editing program 281 is installed in the personal computer 200, the storage unit 2811 constituting the editing program 281 in FIG. 7 generates the storage unit 401 in FIG. 8, and similarly, the data editing unit 2815 generates the data editing unit 402. The data acquisition unit 2812 generates a data acquisition unit 403, the document image reference request unit 2813 generates a document image reference request unit 404, and the image display unit 2814 generates an image display unit 405.
[0056]
The storage unit 401 stores the second low-resolution image data provided from the image processing device 300 illustrated in FIG. 4 in the hard disk device 215 illustrated in FIG. 3 and manages addresses on the hard disk device 215. This low resolution image data is referred to by the data editing unit 402.
[0057]
The data editing unit 402 uses the second low-resolution image data stored in the storage unit 401 to generate post-edit page description data based on images and characters edited by the operator. The edited page description data corresponds to an example of “page description data” according to the present invention. The generated edited page description data is sent to the data acquisition unit 403 and the image display unit 405, and is also sent to the image processing apparatus 300 in FIG.
[0058]
The data acquisition unit 403 receives the edited page description data from the data editing unit 402, and acquires each image ID added to each second low-resolution image data included in the edited page description data. Further, in response to a reference instruction (described later) from the document image reference request unit 404, the image ID of the low resolution image indicated by the reference instruction is sent to the document image reference request unit 404. The data acquisition unit 403 corresponds to an example of a data acquisition unit in the editing apparatus of the present invention.
[0059]
Document image reference request unit 404 receives a reference instruction representing an instruction to refer to a document image corresponding to a desired low-resolution image from an operator, and sends the reference instruction to data acquisition unit 403. Further, when an image ID corresponding to the reference instruction is received from the data acquisition unit 403, the image ID is sent to the image processing apparatus 300 in FIG. The document image reference request unit 404 corresponds to an example of a document image reference request unit in the editing apparatus of the present invention.
[0060]
The image display unit 405 receives the edited page description data from the data editing unit 402, and displays the low resolution page image represented by the edited page description data on the display screen 221 of FIG. Further, address information representing an address where document image data corresponding to certain low-resolution image data is stored is input from the image processing apparatus shown in FIG. 4, and the document image represented by the document image data stored at that address is input. It is displayed on the display screen 221. The image display unit 405 corresponds to the image display device 220 shown in FIGS. 2 and 3 in terms of hardware. The image display unit 405 corresponds to an example of an image display device in the editing device of the present invention.
[0061]
The editing apparatus 400 is basically configured as described above.
[0062]
Here, a procedure for generating printing image data by applying the printing image creation system 20 shown in FIG. 4 and creating a proof image by the color printer 110 shown in FIG. 1 will be described.
[0063]
FIG. 9 is a flowchart showing a procedure for creating a proof image by the color printer 110 by applying the printing image creation system 20. FIG. 10 is a functional block diagram of the printing image creation system 20. Hereinafter, description will be made with reference to the flowchart of FIG. 9 and the functional block diagram of FIG.
[0064]
First, a document image constituting a print image is acquired (step (a) in FIG. 9).
[0065]
The color scanner 100 shown in FIG. 1 acquires document image data representing a document image, and sends the document image data to the storage unit 301 of the image processing apparatus 300 shown in FIG. 10 through the input interface 216 shown in FIG.
[0066]
Next, low-resolution image data is generated (step (b) in FIG. 9).
[0067]
Based on the document image data stored in the storage unit 301, the low-resolution image generation unit 302 generates first low-resolution image data that is the same image as the image represented by the document image data and has a small number of pixels. . The generated first low resolution image data is sent to the low resolution image providing unit 303, and second low resolution image data in which an image ID is added to the first low resolution image data is generated. Further, the second low resolution image data is sent to the storage unit 401 of the editing apparatus 400 and stored in the storage unit 401.
[0068]
Next, the print image is edited by the operator (step (c) in FIG. 9).
[0069]
The operator edits the print image using the low-resolution image data stored in the storage unit 401 of the editing apparatus 400. The data editing unit 402 generates edited page description data based on images and characters edited by the operator.
[0070]
Here, each image constituting the display image displayed on the display screen 221 during the editing operation is a low resolution image having a smaller number of pixels than each image (original image) constituting the printing image to be actually printed. It is. Therefore, for example, when confirming details of an image or confirming whether a document image is really an image with a desired resolution, it is necessary to display a document image corresponding to a low-resolution image.
[0071]
FIG. 11 is a flowchart showing a procedure for displaying original image data corresponding to the second low-resolution image data on the display screen 221 from the desired second low-resolution image data in the edited page description data. The feature of the image processing apparatus 300 and the editing apparatus 400 of the present invention is in the processing represented by this flowchart. The description of the flowchart of FIG.
[0072]
First, the edited print image is displayed on the display screen 221 in FIG. 2 (step (A) in FIG. 11).
[0073]
The edited page description data generated by the data editing unit 402 in FIG. 10 is sent to the image display unit 405 and the data acquisition unit 403. The image display unit 405 displays the edited page description data on the display screen 221 shown in FIG. At this time, each image constituting the display image displayed on the display screen 221 is a low-resolution image having a smaller number of pixels than each image (original image) constituting the printing image to be actually printed.
[0074]
Next, a desired low resolution image is designated (step (B) in FIG. 11).
[0075]
The operator uses the keyboard 230 and mouse 240 shown in FIG. 2 to instruct an arbitrary low resolution image that refers to the document image.
[0076]
Next, the image ID of the designated low resolution image is acquired (step (C) in FIG. 11).
[0077]
The data acquisition unit 403 that has input the edited page description data from the data editing unit 402 in FIG. 10 adds the second low resolution image data included in the edited page description data to the second low resolution image data. Get the image ID. When an arbitrary low resolution image is instructed as a reference instruction from the operator, the document image reference request unit 404 sends the reference instruction to the data acquisition unit 403. The data acquisition unit 403 sends the image ID of the low resolution image represented by the reference instruction to the document image reference request unit 404.
[0078]
Next, the image processing apparatus 300 is requested to refer to the document image data (step (D) in FIG. 11).
[0079]
The document image reference request unit 404 of the editing apparatus 400 sends the image ID acquired from the data acquisition unit 403 to the document image reference request reception unit 304 of the image processing apparatus 300.
[0080]
Next, address information in which the document image data is stored is acquired (step (E) in FIG. 11).
[0081]
Upon receiving the image ID from the document image reference request unit 404 of the editing apparatus 400, the document image reference request reception unit 304 of the image processing apparatus 300 sends the image ID to the storage unit 301. In the storage unit 301, the address information sent to the document image reference request accepting unit 304 is stored in the image display unit 405 of the editing apparatus 400. The address information stores the document image data to which the sent image ID is assigned. It is done.
[0082]
Next, the document image is displayed on the display screen 221 (step (F) in FIG. 11).
[0083]
The image display unit that has acquired the address information acquires the document image data stored at the address represented by the address information, and displays the document image represented by the document image data on the display screen 221 shown in FIG.
[0084]
By checking the document image displayed on the display screen 221, the operator can check the details of the image and the resolution of the image when the edited printing image is actually printed.
[0085]
Returning to the flowchart of FIG.
[0086]
After confirming the original image data corresponding to the second low-resolution image data included in the edited page description data, printing is set (step (d) in FIG. 9).
[0087]
After confirming the document image data, the operator performs settings for printing with the color printer 110 in FIG. 1 in accordance with a setting screen prepared in advance. When printing is set, the edited page description data is sent from the data editing unit 402 of the editing apparatus 400 to the image data replacement unit 305 of the image processing apparatus 300.
[0088]
Next, output page description data is generated (step (e) in FIG. 9).
.
[0089]
The image data replacement unit 305 having received the edited page description data replaces the second low resolution image data in the edited page description data with the original image data corresponding to the second low resolution image data. Generate data. The generated output page description data is sent to the RIP device 500.
[0090]
Next, print image data is generated (step (f) in FIG. 9).
.
[0091]
The RIP device that has received the output page description data converts the output page description data into print image data that is bitmap format data. The generated image data for printing is sent to the color printer 110 shown in FIG. 1 through the output interface 219a of FIG. 3, and a proof image is created by the color printer 110.
[0092]
As described above, when the image processing apparatus and the editing apparatus according to the present embodiment are applied, comfortable editing work can be performed using low-resolution image data having a small data size, and a desired display displayed on the display screen during editing can be performed. It is possible to easily confirm a document image corresponding to a low resolution image.
[0093]
This is the end of the description of the first embodiment, and then the second embodiment is described. Here, description of the same part as 1st embodiment is abbreviate | omitted, and only a different point is demonstrated. 4, 6, 8, 10, and 11 are diagrams of the image processing device and the editing device of the first embodiment. These are the image processing device and the editing device of the second embodiment. It will be described as a diagram of the apparatus.
[0094]
In the image processing apparatus 300 shown in FIG. 6, in the first embodiment, the document image reference request accepting unit 304 sends an image ID to the storage unit 301, and document image data to which the image ID is assigned is stored. The address information is received from the storage unit 301. In this embodiment, the document image data itself assigned with the image ID is received from the storage unit 301 instead of the address information.
[0095]
In the editing apparatus 400 shown in FIG. 8, in the first embodiment, the image display unit 405 acquires address information from the image processing apparatus 300 shown in FIG. 4, and the original image data stored at the address indicated by the address information. 2 is displayed on the display screen 221 of FIG. 2. In this embodiment, the image display unit 405 acquires document image data from the image processing apparatus 300 and displays the document image data on the display screen 221. .
[0096]
In the flowchart of FIG. 11, also in this embodiment, the processing from step (A) to step (D) is the same as that of the first embodiment. In step (E), in the present embodiment, not the address information but the document image data itself corresponding to the image ID is acquired. When the document image reference request accepting unit 304 in FIG. 10 receives the image ID from the document image reference requesting unit 404, the document image reference request receiving unit 304 sends the image ID to the storage unit 301, and the document image data to which the image ID is assigned is stored from the storage unit 301. get. Further, the acquired document image data is sent to the image display unit 405.
[0097]
The image display unit 405 displays the document image represented by the document image data input from the document image reference request receiving unit 304 on the display screen 221 of FIG.
[0098]
In this way, by inputting the original image data instead of the address information in which the original image data is stored, it is not necessary for the editing apparatus 400 to directly refer to the storage unit 301 of the image processing apparatus 300. For example, the storage unit An accident that deletes the document image data stored in 301 can be prevented.
[0099]
Here, an embodiment has been described in which an image ID is added as link information to low resolution data. However, for example, an address of document image data may be added.
[0100]
The image processing program and the image processing apparatus according to the present embodiment include a storage unit, a low-resolution image generation unit, and an image data replacement unit in addition to the low-resolution image providing unit and the document image data reference request receiving unit. However, as long as it includes a low-resolution image providing unit and a document image data reference request receiving unit, other functions may be included.
[0101]
Furthermore, in addition to the data acquisition unit, the document image reference request unit, and the image display unit, the editing program and the editing apparatus of the present embodiment include a storage unit and a data editing unit. Other functions may be included as long as they include a document image reference request unit and an image display unit.
[0102]
【The invention's effect】
As described above, according to the present invention, it is possible to provide an editing apparatus, an image processing apparatus, an editing program, and an image processing program that can easily refer to a document image corresponding to an arbitrary low resolution image.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of an image processing system 10 to which an embodiment of the present invention is applied.
FIG. 2 is an external perspective view of a personal computer 200. FIG.
FIG. 3 is a hardware configuration diagram of the personal computer 200;
FIG. 4 is an overall configuration diagram of a printing image creation system 20 to which the first embodiment of the present invention is applied.
FIG. 5 is a conceptual diagram showing a CD-ROM 270 storing an image processing program according to the first embodiment of the present invention.
FIG. 6 is a functional block diagram of an image processing apparatus 300 according to the first embodiment of the image processing apparatus of the present invention.
FIG. 7 is a conceptual diagram showing a CD-ROM 280 storing an editing program according to the first embodiment of the present invention.
FIG. 8 is a functional block diagram of an editing apparatus 400 that is the first embodiment of the editing apparatus of the present invention.
FIG. 9 is a flowchart showing a procedure for creating a proof image by the color printer 110 by applying the printing image creation system 20;
10 is a functional block diagram of a printing image creation system 20. FIG.
FIG. 11 is a flowchart showing a procedure for displaying original image data corresponding to second low-resolution image data on the display screen 221 from the second low-resolution image data.
[Explanation of symbols]
10 Image processing system
20 Image creation system for printing
100 color scanner
110 Color printer
120 printing press
200 Personal computer
210 Main unit
211 Flexible disk loading slot
212 CD-ROM loading slot
213 CPU
214 Main memory
215 Hard disk device
216 input interface
217 Flexible disk drive
218 CD-ROM drive
219a Output interface
219b Output interface
250 buses
220 image display device
221 display screen
230 keyboard
240 mice
260 flexible disk
270 CD-ROM
271 Image processing program
2711 storage unit
2712 Low-resolution image generator
2713 Low resolution image provider
2714 Document Image Data Reference Request Accepting Section
2715 Image Data Replacement Unit
280 CD-ROM
281 editing program
2811 storage unit
2812 Data acquisition unit
2813 Document image reference request section
2814 Image display unit
2815 Data Editing Department
300 Image processing device
301 storage unit
302 Low-resolution image generator
303 Low resolution image provider
304 Document Image Reference Request Accepting Section
305 Image data replacement section
400 editing device
401 storage unit
402 Data editing section
403 Data acquisition unit
404 Document image reference request section
405 Image display unit
500 RIP device

Claims (5)

Document image data representing a document image is stored, and the image is the same as the document image represented by the document image data based on the document image data and has a lower number of pixels than the number of pixels of the document image. Low-resolution image data representing a resolution image is generated and provided for editing work. When the low-resolution image data is included in page description data generated by editing, the low-resolution image data is converted to the low-resolution image data. In an image processing apparatus for replacing original image data corresponding to image data,
A low-resolution image providing unit that provides the low-resolution data for editing by adding link information to document image data corresponding to the low-resolution data; and
A document image reference request receiving unit that receives a request for reference to document image data corresponding to the low resolution image data provided by the low resolution image providing unit and permits reference to the document image data; An image processing apparatus. The document image reference request receiving unit receives a request for reference to document image data corresponding to the low resolution image data provided by the low resolution image providing unit, and provides address information of the document image data to a reference request source. The image processing apparatus according to claim 1, wherein the image processing apparatus is one. A low-resolution image generated based on document image data representing a document image and representing a low-resolution image that is the same as the document image represented by the document image data and has a smaller number of pixels than the number of pixels of the document image In an editing device that receives data and edits to generate page description data,
A data acquisition unit for acquiring link information to document image data representing a document image corresponding to the low resolution image data together with the low resolution image data;
A document image reference requesting unit that requests the low-resolution image provider to refer to document image data corresponding to the low-resolution image data representing the low-resolution image in response to an operation for designating the low-resolution image;
An editing apparatus, comprising: an image display unit that displays a document image based on document image data permitted in response to a request from the document image reference request unit. An original image that is executed in a computer, stores original image data representing an original image, and is the same as the original image represented by the original image data based on the original image data. When low-resolution image data representing a low-resolution image having a number of pixels smaller than the number of pixels is generated and provided for editing, and the page description data generated by editing includes the low-resolution image data In an image processing program that operates as an image processing device that replaces the low resolution image data with original image data corresponding to the low resolution image data,
A low-resolution image providing unit that provides the low-resolution data for editing by adding link information to document image data corresponding to the low-resolution data; and
An image processing apparatus comprising: a document image reference request receiving unit that receives a request for referring to document image data corresponding to the low resolution image data provided by the low resolution image providing unit and permits the reference of the document image data An image processing program that is operated. An image that is executed in a computer and that has the same number of images as the original image represented by the original image data, generated based on the original image data representing the original image, than the number of pixels of the original image. In an editing program that operates as an editing apparatus for generating page description data by editing by receiving low-resolution image data representing a low-resolution image with little
A data acquisition unit for acquiring link information to document image data representing a document image corresponding to the low resolution image data together with the low resolution image data;
A document image reference requesting unit that requests the low-resolution image provider to refer to document image data corresponding to the low-resolution image data representing the low-resolution image in response to an operation for designating the low-resolution image;
An editing program that operates as an editing apparatus including an image display unit that displays a document image based on document image data permitted in response to a request from the document image reference request unit.

Images