JP4055966B2 - Scanner device, document scanning method, and recording medium recording scan program - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a scanner device and a document scanning technique used therefor. More specifically, a document such as a paper / technical journal in which a plurality of types of information such as text, photographs, and graphics are irregularly arranged to form a plurality of pages is read for each region. The present invention relates to a technique that can be performed at an appropriate concentration.
[0002]
[Prior art]
In recent years, a scanner device has been provided as an electronic document technology. If a document or document that you want to digitize contains photos or graphics and text, the photo will be filled in black if you read it according to the text, and the text will be blurred if you import it according to the photo There was a problem.
[0003]
As a countermeasure against such a problem, there has been a general means for making it correspond to an intermediate color in a reading mode called a so-called photo mode. In addition, by using the CD-ROM publication, patent application publications after 1993 were searched using the following search formula, and as a result, 123 patent applications were extracted. Retrieval formula: Adjustment x Photo x Scanner x Text x Image processing x Area x Density x H04N Therefore, the technology discovered as a related technique is Japanese Patent Laid-Open No. 8-18777. It was characterized by applying an appropriate filter.
[0004]
[Problems to be solved by the invention]
However, the above technique has the following problems. First, in a means of corresponding to an intermediate color in a reading mode called a photo mode, a chromatic character may be read as light data. In such a case, if density correction is performed using the character as a reference, a situation may occur in which shades of photographs and graphics are not read well.
[0005]
In addition, the means of identifying each area and applying an appropriate filter is essentially a technology for copy machines, and emphasizes operability and high speed, which may cause area identification errors. is there. The identification error cannot be confirmed before output or before saving after reading. The problem to be solved by the present invention is to provide a technique capable of reading a document in which a photograph or a figure and characters are mixed at a density suitable for each region.
[0006]
Here, the purpose of claims 1 of claim 3 invention, the reading of documents and photographs or graphics and text are mixed to provide a scanner apparatus which can be carried out at a concentration suitable for each area . Another object of the invention of claim 4 through claim 5, wherein the reading of documents and photographs or graphics and text are mixed to provide a document scanning method can be performed in a concentration suitable for each area .
[0007]
Another object of the invention of claim 6 through claim 7, wherein the provided reading of documents and photographs or graphics and text are mixed, a recording medium storing a document scanning program which can be carried out at a concentration suitable for each area It is to be.
In addition, the technique which solves said subject was not discovered by the above-mentioned prior art search.
[0008]
[Means for Solving the Problems]
The present invention is for achieving the above-described object.
[0009]
(Claim 1)
The invention according to claim 1 relates to a scanner device for digitizing image information represented in a target document.
That is, an input means for inputting an initial setting value of a scan density for a text area, a photographic area or a graphic area , and a text density by digitizing a target document with a scan density set to a density suitable for the text area by the input means. First storage means for temporarily storing data, first calculation means for decomposing text density data stored in the first storage means into a text area and another area, and an area other than text in the text density data If there is, the target document is digitized at a scan density suitable for the area to make non-text density data, and the second storage means to temporarily store the non-text density data over the non-text area in the text density data Second calculation means for writing to composite data , the composite data or the text density data Confirmation output means for displaying text density data on the confirmation display when there is no area other than text in the data, and operation of the scanner apparatus determined by the confirmation output means that the image displayed on the confirmation display is inappropriate When receiving an input of the designated area and scanning density from user, and electronic and corrected density data at scan concentrations specified the desired document to the operator, once the third storage means to store, and combining the corrected density data A third calculation unit that overwrites the text density data when there is no area other than data or text and generates corrected composite data, and the output unit for confirmation generates the corrected composite data by the third calculation unit In some cases, the modified composite data is formed so that it can be displayed on the confirmation display. The features.
[0010]
(Term definition)
A “target document” is a paper medium representing information such as characters, figures, and photographs. The “density suitable for the text area” is darker than graphics and photographs. In order to cope with the case where the text area is color-printed, etc., there are cases where multiple levels of density are set for the text, in which case there are cases where automatic selection is made and cases where the user sets it. .
The “ confirmation display ” is a monitor or a liquid crystal screen.
[0011]
(Function)
First, an initial setting value of scan density is input as a text area, a photographic area, or a graphic area by an input means. The target document is digitized into the text density data (D1) with the scan density of the initial setting value, and temporarily stored in the first storage means.
For the text density data (D1), the first calculation means decomposes the text area and other areas. If there is an area other than the text, the target document is digitized at a scan density suitable for the area to obtain non-text density data (D2), which is temporarily stored in the second storage means. Then, the second calculation means overwrites the non-text density data (D2) in the area other than the text in the text density data (D1) to obtain composite data (D3).
The composite data (D3) is displayed as an image by the confirmation output means . If the operator of the scanner apparatus determines that the image displayed on the confirmation display by the confirmation output means is not appropriate, the corrected density data (the target document is digitized by redesignating the area and scan density ( D4), and the third storage means temporarily stores it. The corrected density data (D4) is overwritten on the composite data (D3) by the third calculation means to obtain corrected composite data (D5). The corrected composite data (D5) is displayed as an image by the confirmation output means .
If the operator of the scanner apparatus determines that the image of the corrected composite data (D5) displayed by the confirmation output means is not appropriate, the corrected density data (D4) is used again. If it is determined that the image based on the corrected composite data (D5) displayed by the confirmation output means is appropriate, the subsequent processing is performed as it is. For example, a character portion recognized as a character is converted into text data using character conversion software.
As described above, according to the scanner device according to the first aspect of the present invention, confirmation by the confirmation output means can be performed, so that reading of a document in which photographs or figures and characters are mixed can be performed at a density suitable for each region. Can be done.
[0012]
(Claim 2)
The invention described in claim 2 also relates to a scanner device for digitizing image information represented in a target document.
That is, an input means for inputting an initial setting value of a scan density for a text area, a photographic area, or a graphic area, and the first document is digitized with a scan density set to a density suitable for the graphic area by the input means. First storage means for temporarily storing data (D11); first calculation means for decomposing the first data (D11) stored in the first storage means into a graphic area and another area; If the data is an area other than graphic to, and a second data digitized by scanning a concentration suitable to the region, once the second storage means for storing, in a region other than graphic in the first data, the second The second calculation means for overwriting the data to make composite data (D3), the composite data (D3) or the first data (D11) when there is no area other than the figure in the first data on the confirmation display The confirmation output means for displaying the image, and when the input of the area and scan density designation is received from the operator of the scanner apparatus which has determined that the image displayed on the confirmation display by the confirmation output means is not appropriate, the target document is operated. 3rd storage means to temporarily store the corrected density data (D4) by digitizing it at the scan density specified by the user , and the first when there is no area other than the synthesized data or figure for the corrected density data (D4) comprises a third calculation means for the data (D11) to overwrite and correct synthesis data (D5), said confirmation output means when the corrected combined data (D5) is generated by said third calculation means The modified composite data (D5) is formed so that an image can be displayed on the confirmation display .
[0013]
(Function)
First, an initial setting value of scan density is input for a text area, a photographic area, or a graphic area by an input means. The target document is digitized with the scan density (Z) of the initial setting value to form first data (D11), which is temporarily stored in the first storage means. For the first data (D11), the first calculation means decomposes the graphic area and other areas. If there is an area other than a figure, the target document is digitized with non-graphic density data at a scan density (Y) suitable for the area, and temporarily stored in the second storage means. Then, the second calculation means overwrites the text density data in the text area in the first data (D11) and the photo density data in the photographic area to obtain composite data (D3). The composite data (D3) is
The image is displayed by the confirmation output means . If the operator of the scanner apparatus determines that the image displayed on the confirmation display by the confirmation output means is not appropriate, the corrected density data (the target document is digitized by redesignating the area and scan density ( D4), and the third storage means temporarily stores it. The corrected density data (D4) is overwritten on the composite data (D3) by the third calculation means to obtain corrected composite data (D5). Then, the modified composite data (D5) is temporarily saved. The corrected composite data (D5) is displayed as an image by the confirmation output means.
If the operator of the scanner apparatus determines that the image of the corrected composite data (D5) displayed by the confirmation output means is not appropriate, the corrected density data (D4) is used again. If it is determined that the image based on the corrected composite data (D5) displayed by the confirmation output means is appropriate, the subsequent processing is performed as it is. For example, a character portion recognized as a character, and the like converted into text data using the character conversion software.
As described above, according to the scanner device of the second aspect of the present invention, since confirmation can be performed by the confirmation display , reading of a document in which a photograph or a figure and characters are mixed is performed at a density suitable for each region. be able to.
[0014]
[0015]
(Claim 3)
The invention according to claim 3 limits the scanner device according to claim 1 or claim 2 .
In other words, the first storage means, the second storage means , and the third storage means comprise a single storage device and a storage device controller that controls storage and erasure of the storage device. To do.
[0016]
(Glossary) The term “storage device” used herein refers to a device that stores data, such as a hard disk drive or a RAM.
[0017]
(Function)
Since the storage device is single, the structure of the entire device can be formed simply.
[0018]
(Claim 4)
The invention described in claim 4 relates to a document scanning method for digitizing image information represented in a target document.
That is, an input procedure for inputting an initial setting value of a scan density for a text area, a photographic area, or a graphic area, and digitizing the text of the target document with a scan density set to a density suitable for the text area by the input procedure. A first storage procedure for saving the data as a file, a first calculation procedure for decomposing the text density data stored in the first storage procedure into a text area and another area, and text in the text density data If there is a non-text area, the second document is stored as non-text density data by digitizing the target document at a scan density suitable for the area, and the non-text is stored in the non-text area in the text density data. the second operational steps to overwrite the density data and the synthetic data, the synthetic data or previous The scanner confirmation output procedure for image display text density data when there is no region other than the text in a text density data confirmation display, an image which has been confirmed for display displayed on the confirmation output procedure is determined to be inappropriate A third storage procedure in which, upon receiving an input of a region and scan density designation from an operator of the apparatus, the target document is digitized at the scan density designated by the operator into corrected density data and temporarily stored; Over the text density data when there is no area other than the composite data or text, and the third calculation procedure to make the corrected composite data , and the corrected composite data output procedure to display the corrected composite data on the confirmation display It is characterized by having.
[0019]
(Claim 5)
The invention according to claim 5 relates to a document scanning method for digitizing image information represented in a target document.
That is, an input procedure for inputting an initial setting value of a scan density for a text area, a photographic area, or a graphic area , and a first document obtained by digitizing a target document with a scan density set to a density suitable for the graphic area by the input procedure. A first storage procedure for temporarily storing the data, a first calculation procedure for decomposing the first data stored in the first storage procedure into a graphic area and another area, and the first data other than the graphic If there is an area, the second data is digitized at a scan density suitable for the area, and the second data is temporarily stored. The second data is overwritten in the area other than the figure in the first data. the second operational procedures for synthetic data, confirmed that the display image confirmation display the first data when there is no space other than graphic to the synthetic data or the first data Output instructions, when receiving the input of the designated area and scanning density from the operator of the scanner device determines that the image has been identified for a display displayed by the confirmation output procedure is not appropriate, the specified object documents to the operator A third storage procedure that digitizes scan density as corrected density data and temporarily stores it, and overwrites the corrected density data with the first data when there is no area other than the composite data or figure . The present invention is characterized in that a three-computation procedure and a corrected composite data output procedure for displaying the corrected composite data on the confirmation display are provided.
[0020]
[0021]
(Claim 6)
The invention described in claim 6 relates to a medium in which a program for controlling a scanner device for digitizing image information represented in a target document is recorded.
The program digitizes a target document with a scan density set to a density suitable for the text area by the input procedure for inputting the initial setting value of the scan density for the text area, the photographic area or the graphic area. A first storage procedure for temporarily storing the text density data in a file; a first calculation procedure for decomposing the text density data stored in the first storage procedure into a text area and another area; and the text density data If there is a non-text area, the target document is digitized with non-text density data at a scan density suitable for the area, and is stored as non-text density data. the second operational procedures by overwriting text density data and the synthetic data, the synthetic data also Confirmation output procedure for image display text density data when said text density data no space other than the text in the confirmation display, the the image that has been confirmed for display displayed on the confirmation output procedure is determined to be inappropriate A third storage procedure that, upon receiving an area and scan density designation input from an operator of the scanner device, digitizes a target document at a scan density designated by the operator to obtain corrected density data, and temporarily stores the corrected density; The third calculation procedure that overwrites the data density data to the text density data when there is no area other than the synthetic data or text , and the corrected synthetic data output procedure that displays the corrected synthetic data on the confirmation display A program for causing a computer to execute.
[0022]
(Claim 7)
The invention described in claim 7 relates to a medium on which a program for controlling a scanner device for digitizing image information represented in a target document is recorded.
The program digitizes the target document with a scan density set to a density suitable for the graphic area by the input procedure for inputting the initial setting value of the scan density for the text area, the photographic area or the graphic area . A first storage procedure for temporarily storing the first data; a first calculation procedure for decomposing the first data stored in the first storage procedure into a graphic area and another area; If there is an area other than the above, the second data is digitized at a scan density suitable for the area, and the second data is temporarily stored. The second data is overwritten in the area other than the figure in the first data. Display the first data on the confirmation display when there is no area other than the figure in the second calculation procedure, the synthesized data or the first data . A confirmation output procedure, and upon receiving an input for specifying the area and scan density from the operator of the scanner apparatus that has determined that the image displayed on the confirmation display is not appropriate according to the confirmation output procedure , the target document is sent to the operator. A third storage procedure for digitizing and storing corrected density data at the specified scan density, and correcting composite data by overwriting the corrected density data with the first data when there is no area other than composite data or figures And a program for causing a computer to execute a corrected composite data output procedure for displaying the corrected composite data on the confirmation display when the corrected composite data is generated by the third calculation means. is there.
[0023]
[0024]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in more detail based on embodiments and drawings. The drawings used here are FIGS. 1 and 2. FIG. 1 is a flowchart for illustrating a first embodiment of the present invention. FIG. 2 is a flowchart for showing a second embodiment of the present invention.
[0025]
(First embodiment)
The first embodiment will be described with reference to FIG.
This embodiment shows an image processing procedure for digitizing image information represented in a target document. The hardware of this embodiment includes a scanner, a CPU that controls the scanner, a display that displays data captured from the scanner, and the like.
First, an input procedure for inputting an initial setting value of the scan density, then, a first electronic procedure for digitizing the target document at a scan density set to a density X suitable for the text area by the input procedure, The data digitized by the first digitization procedure is converted into text density data D1 by a bitmap, and the first storage procedure is once stored in the file A.
[0026]
As an initial setting value, a dark density X for text is selected. When the text of the target document is a color pattern character or the like, a darker density may be selected. This selection may be performed by a person who performs image processing or automatically. When the person who performs the image processing performs, it is performed on the display. For the text density data D1 stored in the first storage procedure, the text region and other regions are decomposed by the first calculation procedure.
When there is an area other than the text, the target document is digitized at a scan density suitable for the area in the second digitization procedure. The digitized data is set as non-text density data D2, and is temporarily stored in the memory of the CPU. Specifically, the target document is scanned and read again at a density Y for the photo area for the photo area and at a density Z for the graphic area for the graphic area.
Then, in the second calculation procedure, the data of the photographic area or the graphic area is overwritten on the area other than the text of the file A to obtain the composite data D3, which is once stored in the CPU memory. At this time, after the entire target document is digitized, an area other than the text may be cut out to produce the non-text density data D2, and then the synthesized data D3 may be created. Alternatively, only the area other than the text may be cut out as the non-text density data D2. Composite data D3 may be created from
[0027]
If there is no area other than the text, the second digitization procedure and the second calculation procedure are skipped and proceed to the next. Next, the text density data D1 of the file A or the synthesized data D3 overwritten by the second digitization procedure is displayed on the confirmation display. In the case of the composite data D3, the boundary of the region is distinguished using a colored line. A shaded display or the like can also be used as a means for distinguishing the areas.
[0028]
If the darkness of the image displayed on the confirmation display is appropriate, the data is saved and the subsequent processing is performed. If it is not appropriate, the target document is digitized by re-designating the area and scan density by the third digitization procedure. Data digitized by this third digitization procedure is used as corrected concentration data D4, and is temporarily stored in the memory. Then, the corrected density data D4 is overwritten on the text density data D1 or the synthesized data D3 to obtain corrected synthesized data D5.
[0029]
This corrected composite data D5 is also displayed on the display for confirmation, and if it is not appropriate, the operation of digitizing the target document by redesignating the area and scan density is repeated by the third digitization procedure. If the darkness of the image displayed on the confirmation display is appropriate, the data is stored and the subsequent processing is performed. It is also possible to make a setting that the corrected density data D4 and the corrected combined data D5 are created only once and the corrected combined data D5 is not displayed on the display.
[0030]
When the final data has been created, for example, an operation of converting a character portion recognized as an image into text data using character conversion software is performed. According to the image processing procedure as described above, since confirmation can be performed on the confirmation display, it is possible to read a document in which a photograph or a figure and characters are mixed at a density suitable for each region.
[0031]
(Second embodiment)
Based on FIG. 2, the second embodiment will be described focusing on differences from the first embodiment.
The second embodiment is different from the first embodiment in that, when setting the density initial value, the target document is input at the density Z suitable for the graphic area to obtain the first data D11, and When the text region and the other region are decomposed by the first calculation procedure and there is a region other than a graphic, the target document is digitized at a scan density suitable for the region in the second digitization procedure, and the second data D22 This is the point.
If it is known in advance that there are many figures in the target document, the second data D22 that is captured or created after the first data D11, the synthesized data D3, and the modified composition when considering the performance of the hardware This is because the procedure for creating the data D5 and the like may be rationalized.
[0032]
(Media on which the program is recorded)
The procedure shown in the first embodiment and the second embodiment can be provided as a program for controlling the computer scanner and the display. The program can be recorded on a floppy disk, CD-ROM, MO, etc., and can be transported and sold. These programs can also be distributed via a communication line.
[0033]
【The invention's effect】
Here, the invention described in claims 1 to 3 can provide a scanner device capable of reading a document in which a photograph or a figure and characters are mixed at a density suitable for each region. .
In addition, the invention according to any one of claims 4 to 5 can provide an image scanning method capable of reading a document in which a photograph or a figure and characters are mixed at a density suitable for each region. .
[0034]
The invention according to any one of claims 6 to 7 records a program for realizing an image scanning method capable of reading a document in which a photograph or a figure and a character are mixed at a density suitable for each region. A recording medium could be provided.
[Brief description of the drawings]
FIG. 1 is a flowchart for illustrating a first embodiment of the present invention.
FIG. 2 is a flowchart for illustrating a second embodiment of the present invention.
[Explanation of symbols]
D1 Text density data D11 First data D2 Non-text density data D22 Second data D3 Composite data D4 Corrected density data D5 Corrected composite data

Claims (7)

A scanner device for digitizing image information represented in a target document,
An input means for inputting an initial setting value of the scan density for a text area, a photograph area or a graphic area ;
A first storage means for digitizing a target document at a scan density set to a density suitable for the text region by the input means to form text density data, and temporarily storing the text density data;
First calculation means for decomposing the text density data stored in the first storage means into a text area and another area;
When the text density data includes a region other than the text, the second storage means for temporarily storing the digitized document as non-text density data at a scan density suitable for the region,
A second computing means for overwriting non-text density data in a region other than text in the text density data to obtain composite data;
A confirmation output means for displaying an image of the text density data when there is no region other than text in the composite data or the text density data on a confirmation display ;
Upon receiving an input for specifying the area and scan density from the operator of the scanner apparatus that has determined that the image displayed on the confirmation display by the confirmation output means is not appropriate, the target document is set to the scan density designated by the operator. A third storage means for digitizing the corrected concentration data and temporarily storing it,
And comprising a third arithmetic means to modify the synthetic data and the corrected density data combined data or overwrite text density data in the absence of a region other than the text,
The confirmation output means is formed so that, when the corrected composite data is generated by the third calculation means, the corrected composite data can be displayed on the confirmation display. . A scanner device for digitizing image information represented in a target document,
An input means for inputting an initial setting value of the scan density for a text area, a photograph area or a graphic area ;
A first storage means for digitizing a target document at a scan density set to a density suitable for a graphic area by the input means as first data, and temporarily storing the first data;
First computing means for decomposing the first data stored in the first storage means into a graphic area and another area;
When the first data has a region other than a figure, second storage means for temporarily storing the second data digitized at a scan density suitable for the region ;
A second computing means for overwriting the second data into a composite data in an area other than the figure in the first data;
Confirmation output means for displaying an image of the first data when there is no area other than a figure in the composite data or the first data on a confirmation display;
Upon receiving an input for specifying the area and scan density from the operator of the scanner apparatus that has determined that the image displayed on the confirmation display by the confirmation output means is not appropriate, the target document is set to the scan density designated by the operator. A third storage means for digitizing the corrected concentration data and temporarily storing it,
And third correction means for overwriting the corrected density data to the first data when there is no region other than the composite data or the figure, and making the corrected composite data ,
The confirmation output means, a scanner device, characterized in that formed so as to be able to image display correction synthetic data confirmation display when corrected combined data by said third calculating means is produced . The first storage means, the second storage means , and the third storage means are:
And a single storage device, a scanner device according to claim 1 or claim 2, characterized in that the one having a storage control unit for controlling the storage and erasure of the storage device. A document scanning method for digitizing image information represented in a target document,
Input procedure for entering default scan density settings for text, photo or graphic areas ,
A first storage procedure for digitizing a target document into text density data at a scan density set to a density suitable for the text area by the input procedure, and temporarily storing the data in a file ;
A first calculation procedure for decomposing the text density data stored in the first storage procedure into a text area and another area;
A second storage procedure in which, when the text density data has a region other than text, the target document is digitized into non-text density data at a scan density suitable for the region, and temporarily stored;
A second calculation procedure in which the non-text density data is overwritten in the area other than the text in the text density data to obtain composite data;
A confirmation output procedure for displaying an image of text density data on the confirmation display when there is no region other than text in the synthesized data or the text density data ;
Upon receiving an input for specifying the area and scan density from the operator of the scanner apparatus that has determined that the image displayed on the confirmation display is not appropriate in the confirmation output procedure, the scan density specified by the operator is designated as the target document. The third storage procedure to digitize the data as corrected concentration data and save it once.
A third calculation procedure in which the corrected density data is overwritten on the text density data when there is no region other than the synthetic data or text, and is corrected synthetic data;
And, documents scan method characterized by comprising a modified synthetic data output procedure performed by the image displaying the modified synthetic data to verify for display when the corrected combined data by said third algorithm is created. A document scanning method for digitizing image information represented in a target document,
Input procedure for entering default scan density settings for text, photo or graphic areas ,
A first storage procedure for temporarily storing the first document obtained by digitizing the target document at a scan density set to a density suitable for the graphic area by the input procedure;
A first calculation procedure for decomposing the first data stored in the first storage procedure into a graphic area and another area;
When there is an area other than a figure in the first data, a second storage procedure for temporarily storing the second data digitized at a scan density suitable for the area ,
A second calculation procedure in which the second data is overwritten in the area other than the graphic in the first data to obtain composite data;
A confirmation output procedure for displaying an image of the first data on the confirmation display when there is no area other than a figure in the composite data or the first data ;
When an input for specifying the area and scan density is received from the operator of the scanner apparatus that has determined that the image displayed on the confirmation display is not appropriate according to the output procedure for confirmation , the target document is set to the scan density specified by the operator. The third storage procedure to digitize the corrected concentration data and temporarily store it,
A third calculation procedure in which the corrected density data is overwritten with the first data when there is no area other than the composite data or the figure, and is used as the corrected composite data;
And, documents scan method characterized by comprising a modified synthetic data output procedure performed by the image displaying the modified synthetic data to verify for display when the corrected combined data by said third algorithm is created. A medium recording a program for controlling a scanner device for digitizing image information represented in a target document,
Input procedure for entering default scan density settings for text, photo or graphic areas ,
A first storage procedure for digitizing a target document into text density data at a scan density set to a density suitable for the text area by the input procedure, and temporarily storing the data in a file ;
A first calculation procedure for decomposing the text density data stored in the first storage procedure into a text area and another area;
A second storage procedure in which, when the text density data has a region other than text, the target document is digitized into non-text density data at a scan density suitable for the region, and temporarily stored;
A second calculation procedure in which the non-text density data is overwritten on the non-text area in the text density data to obtain composite data;
A confirmation output procedure for displaying an image of text density data on the confirmation display when there is no region other than text in the synthesized data or the text density data ;
Upon receiving an input for specifying the area and scan density from the operator of the scanner apparatus that has determined that the image displayed on the confirmation display is not appropriate in the confirmation output procedure, the scan density specified by the operator is designated as the target document. The third storage procedure to digitize the data as corrected concentration data and save it once.
A third calculation procedure in which the corrected density data is overwritten on the text density data when there is no region other than the composite data or text, and is used as corrected composite data;
And a computer-readable record recording a program for causing a computer to execute a modified synthesized data output procedure for displaying the modified synthesized data as an image on a confirmation display when modified synthesized data is created by the third calculation procedure. Medium. A medium recording a program for controlling a scanner device for digitizing image information represented in a target document,
Input procedure for entering default scan density settings for text, photo or graphic areas ,
A first storage procedure for temporarily storing the first document obtained by digitizing the target document at a scan density set to a density suitable for the graphic area by the input procedure;
A first calculation procedure for decomposing the first data stored in the first storage procedure into a graphic area and another area;
When there is an area other than a figure in the first data, a second storage procedure for temporarily storing the second data digitized at a scan density suitable for the area ,
A second calculation procedure in which the second data is overwritten in the area other than the graphic in the first data to obtain composite data;
A confirmation output procedure for displaying an image of the first data on the confirmation display when there is no area other than a figure in the composite data or the first data ;
Upon receiving an input for specifying the region and scan density from the operator of the scanner apparatus that has determined that the image displayed on the confirmation display is not appropriate according to the output procedure for confirmation , the target document is set to the scan density specified by the operator. The third storage procedure to digitize the corrected concentration data and temporarily store it,
A third calculation procedure in which the corrected density data is overwritten with the first data when there is no region other than the composite data or the figure to obtain the corrected composite data;
And, computer readable recording a program for executing the corrected combined data output procedure for image display in the confirmation display the modified synthesis data to the computer when the modified synthesized data is generated in said third algorithm means Possible recording media.

Images