JP2005204190A - Copy-inhibiting pattern producing method and device, image processing method and device, program, and computer-readable recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently check the originalities of various certifications, all sorts of contract documents, or confidential documents of every kind, and further to more surely inhibit tampering more certainly. <P>SOLUTION: Copy-inhibiting patterns are configured by copy-inhibiting pattern, making up patterns in which a plurality of dot points, comprising at least one or more pixels, where all or some of the pixels are defined as a colored region are disposed at predetermined space distances. The colored region of the dot points is made to be impossible to be detected with the resolution inferior to a prescribed resolution. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an anti-copying pattern generation method, an anti-copying pattern generation device, an image processing method, an image processing device, a program, and a computer-readable recording medium, and more specifically, various certificates, various contracts, and various confidential documents. When a printed matter such as a document or an image (in this specification, “document” or “image” is simply referred to as “image”) is copied by a copying machine, the original printed matter and the printed matter are Copy prevention pattern generation method, copy prevention pattern generation apparatus, image processing method, and image processing apparatus suitable for use in generating a copy prevention pattern for enabling discrimination from a copy obtained by copying with a copying machine , A program and a computer-readable recording medium.

  In recent years, so-called e-government and e-government have been expanded, but for the development of e-government and e-government, image data such as various certificates, various contracts, and various confidential documents are used. Ensuring the originality of printed matter is recognized as an extremely important issue.

  Conventionally, as a technique for guaranteeing the originality of a printed material, for example, a method of writing a copy prevention pattern called a copy prevention stamp pattern on the printed material has been known. Specifically, this type of method uses a logo mark or character string to indicate the owner of the printed material as an anti-copying pattern, images of various certificates, various contracts, or various confidential documents that are subject to copy prevention. When printing is performed, the image is printed with light writing in the image to obtain a printed matter in which the copy prevention pattern is written lightly in the image to be copied.

However, in the printed matter obtained by thinly writing the anti-copying pattern in the conventional image described above, when the printed matter is copied with a copying machine, the anti-copying pattern written on the printed matter is copied almost as it is. For this reason, there is a problem that it is not easy to distinguish the printed material and the copied material as the original.

Note that the prior art that the applicant of the present application knows at the time of filing a patent application is not an invention related to a known literature invention, so there is no prior art document information to be described.

  The present invention has been made in view of the above-described problems of the prior art, and the object of the present invention is to efficiently confirm the originality of various certificates, various contracts, and various confidential documents. Copy prevention pattern generation method, copy prevention pattern generation apparatus, image processing method, image processing apparatus, program, and computer-readable recording medium that can be frequently performed and can prevent falsification more reliably Is to provide.

  In order to achieve the above object, a copy prevention pattern generation method, a copy prevention pattern generation apparatus, an image processing method, an image processing apparatus, a program, and a computer-readable recording medium according to the present invention have been made based on the following principle. It is.

  That is, the highest resolution at which an existing printer can print an image on various media such as a piece of paper or a resin sheet based on the image data and output it as a printed matter (Note that the highest resolution that can be output as a printed matter with an existing printer is, for example, about 1200 dpi And the highest resolution that can be decoded from the printed material when the current copying machine copies the printed material (the highest resolution that the current copying machine can decode from the printed material is, for example, about 600 dpi). There is a considerable difference between them. Specifically, the highest resolution of current printers is higher than that of current copiers.

  The present invention uses the difference between the maximum resolution of an image processing apparatus such as a printer that generates a printed material as an original and the maximum resolution of a copying machine that copies the original printed material, so that the resolution is less than the maximum resolution of the image processing apparatus. The anti-copying pattern is generated at a resolution higher than the maximum resolution of the copier, which is an unreproducible resolution that cannot be deciphered by the copier, and the anti-copying pattern thus generated is superimposed on the image to be copied. You can print them together.

  Therefore, according to the present invention, when the original printed matter obtained by superimposing the anti-copying pattern on the copy-prevented image is copied by the copying machine, the copying machine cannot decode the anti-copying pattern. In a copy copied by a copying machine, the copy protection pattern written on the printed product disappears without being copied so that it cannot be visually recognized. Therefore, it is easy to distinguish between the original print and the copy. It is also possible to prevent falsification of the original printed material.

  The present invention also provides a method for adjusting a print density to generate a copy prevention pattern when the generated copy prevention pattern is overlaid with an image to be copied and printing the copy prevention pattern on the image to be copied. It is made to overlap.

  Therefore, according to the present invention, when the original printed matter obtained by superimposing the generated anti-copying pattern on the copy-prevented image is copied by a copying machine, the copy-prevention is superimposed on the copy-prevented image. Depending on the print density of the pattern, the copy prevention pattern written on the printed material disappears without being copied and can no longer be seen, making it easy to distinguish between the original printed material and the copied material. It is also possible to prevent falsification of the original printed matter.

In other words, in order to achieve the above object, the invention according to claim 1 of the present invention provides dot points that are composed of at least one pixel and all or part of the pixel is a colored region. A copy-prevention pattern is formed by a plurality of copy-prevention pattern creation patterns arranged with a certain spatial distance, and the colored area of the dot point cannot be detected at a resolution below a predetermined resolution.

  According to a second aspect of the present invention, the dot according to the present invention comprises at least one pixel, and all or part of the pixel is a colored region that cannot be detected at a resolution equal to or lower than a predetermined resolution. A copy prevention pattern creation pattern generating means for generating a copy prevention pattern creation pattern in which a plurality of points are arranged at a predetermined spatial distance, and a copy prevention pattern creation pattern generated by the copy prevention pattern creation pattern generation means And an anti-copying pattern generating means for generating an anti-copying pattern using.

  According to a third aspect of the present invention, the dot according to the present invention comprises at least one pixel, and all or part of the pixel is a colored region that cannot be detected at a resolution equal to or lower than a predetermined resolution. A copy prevention pattern is composed of a pattern for creating a copy prevention pattern in which a plurality of points are arranged at a predetermined spatial distance, and the above copy prevention pattern is controlled to a predetermined print density and printed on the original image. Is.

  According to a fourth aspect of the present invention, the invention comprises an input means for inputting a document image and at least one or more pixels, and all or part of the pixels are detected at a resolution below a predetermined resolution. A copy-preventing pattern creating pattern generating means for generating a copy-preventing pattern creating pattern in which a plurality of dot points, which are colored areas that are impossible, are arranged at a predetermined spatial distance, and the anti-copying pattern creating pattern generating means A copy prevention pattern generating means for generating a copy prevention pattern whose printing density is controlled using the generated copy prevention pattern creation pattern, a document image input by the input means, and the copy prevention pattern generation means. And a composite output means for superimposing and printing the anti-copying pattern.

  The invention according to claim 5 of the present invention is a program for causing a computer to execute the invention according to claim 1 of the present invention.

  The invention according to claim 6 of the present invention is a program for causing a computer to function as the invention according to claim 2 of the present invention.

  The invention according to claim 7 of the present invention is a program for causing a computer to execute the invention according to claim 3 of the present invention.

  The invention according to claim 8 of the present invention is a program for causing a computer to function as the invention according to claim 4 of the present invention.

  The invention according to claim 9 of the present invention is computer-readable recording the invention according to any one of claims 5, 6, 7, or 8. It is a recording medium.

  The present invention relates to a copy prevention pattern generation method, a copy prevention pattern generation apparatus, an image processing method, an image processing apparatus, and a program capable of efficiently confirming the originality of various certificates, various contracts, and various confidential documents. In addition, it is possible to provide a computer-readable recording medium.

  The present invention also provides a copy prevention pattern generation method, a copy prevention pattern generation apparatus, an image processing method, an image processing apparatus, and the like that can more reliably prevent falsification of various certificates, various contracts, and various confidential documents. There is an excellent effect that a program and a computer-readable recording medium can be provided.

  Hereinafter, with reference to the accompanying drawings, examples of embodiments of a copy prevention pattern generation method, a copy prevention pattern generation apparatus, an image processing method, an image processing apparatus, a program, and a computer-readable recording medium according to the present invention will be described in detail. explain.

  The anti-copying pattern generation method, the anti-copying pattern generation device, the image processing method, the image processing device, the program, and the computer-readable recording medium according to the present invention are printed on various media such as paper pieces and resin sheets, for example. Although the present invention can be applied to various output devices such as a printer and a facsimile device for outputting, the case where the present invention is applied to a printer will be described in the following description.

That is, FIG. 1 is a schematic block diagram showing a printer as an image processing apparatus provided with a copy prevention pattern generating apparatus according to an example of an embodiment of the present invention. Note that illustrations and descriptions of components not related to the implementation of the present invention are omitted.

  This printer 10 includes a document image data input unit 12 for inputting document image data representing a document image as a copy prevention target image from a personal computer (not shown), and a copy prevention pattern for generating copy prevention pattern data representing a copy prevention pattern. The data generation unit 14, the document image data input from the document image data input unit 12 and the copy prevention pattern data generated by the copy prevention pattern data generation unit 14 are combined and the copy prevention pattern is superimposed on the document image. The composition output unit 16 is configured to print on a medium and output a printed material as an original.

  The printer 10 has a built-in microcomputer, and the operations of the document image data input unit 12, the copy prevention pattern data generation unit 14, and the composite output unit 16 are realized by control of a software program of the microcomputer. is there.

In the above configuration, in the printer 10, the document image data input unit 12 inputs document image data output from a personal computer or the like and outputs the document image data to the composite output unit 16. On the other hand, the copy prevention pattern data generation unit 14 generates copy prevention pattern data by a process described later and outputs the copy prevention pattern data to the composite output unit 16. Then, the composition output unit 16 synthesizes the output document image data and copy prevention pattern data, and an image based on the image data obtained by the synthesis, that is, an image in which the copy prevention pattern is superimposed on the document image. Is printed on a medium such as a piece of paper or a resin sheet.

  In other words, in the printer 10, first, document image data is read into the printer 10 by the document image data input unit 12. Next, the copy prevention pattern data generation unit 14 generates copy prevention pattern data. Finally, the composite output unit 16 embeds the generated copy prevention pattern data in the document image data, and prints and outputs an image in which the copy prevention pattern is superimposed on the document image on a medium such as a piece of paper or a resin sheet.

  When the printed matter printed on the medium is copied by the copying machine in this way, the copy prevention pattern embedded in the original image disappears without being copied in the copied matter obtained by the copying. Since it cannot be visually recognized, the originality of the printed matter can be easily guaranteed.

  An original image data input unit 12 for inputting original image data from a personal computer or the like, or an image based on image data obtained by combining original image data and copy prevention pattern data (a copy prevention pattern is superimposed on the original image). Since the conventionally known technique can be applied to the composite output unit 16 that performs a process of printing the combined image) on a medium such as a piece of paper or a resin sheet, a detailed description of its configuration and operation is omitted.

Next, processing executed by the copy prevention pattern data generation unit 14 will be described in detail with reference to the drawings.

(1) Principle of Creation of Copy Prevention Pattern First, the principle of creation of a copy prevention pattern represented by the copy prevention pattern data generated by the copy prevention pattern data generation unit 14 will be described. Is to be created.

  That is, the copy prevention pattern is created by arranging dot points that cannot be detected by the resolution of the copying machine (details of “dot points” will be described later) at a certain spatial distance. By adjusting the print density of the copy-preventing pattern created in this way and superimposing it on the original image, a printed material as an original can be obtained.

  More specifically, for example, as shown in FIG. 2, the anti-copying pattern is a pattern in which dot points are arranged at a predetermined spatial distance (hereinafter referred to as “copying prevention pattern creation pattern” as appropriate). Are arranged in a desired shape.

  In the example of the anti-copying pattern creation pattern shown in FIG. 2, one unit dot point is represented by a black block, and each dot point has a space distance of 3 unit dot points in the vertical and horizontal directions. Are arranged.

  Here, the dot point will be described. The dot point is composed of, for example, “1 × 1” or “2 × 2” pixels as shown in FIGS. That is, the example shown in FIG. 3 (1) is a dot point structure composed of “1 × 1” pixels, and the examples shown in FIGS. 3 (2) to (16) are composed of “2 × 2” pixels. This is a dot point structure.

  As is clear from FIGS. 3 (1) to (16), the dot point constituted by “1 × 1” pixels shown in FIG. 3 (1) is constituted by one pixel, and FIGS. 3 (2) to (16). The dot points formed by “2 × 2” pixels shown in FIG. 2 are formed by 4 pixels arranged in the vertical direction and 2 pixels in the horizontal direction. In the dot point examples shown in FIGS. 3A to 3D, each pixel displayed in black is a colored region, that is, a colored region when a copy prevention pattern is created.

  Next, FIG. 4 shows, as an example of a pattern for creating an anti-copying pattern, dot points and dots in the vertical direction and the horizontal direction based on the dot structure of “1 × 1” pixels shown in FIG. A pattern for creating an anti-copying pattern in which the spatial distance between the points is 1 pixel (one unit of dot points) is shown.

  FIG. 5 shows, as an example of a copy prevention pattern creation pattern, a dot point of “2 × 2” pixels shown in FIG. 3 (2) as a basic structure, and dot points and dot points in the vertical and horizontal directions. A pattern for creating an anti-copying pattern in which the spatial distance between the two is 2 pixels (one dot point unit) is shown.

  Further, FIG. 6 shows, as an example of a copy prevention pattern creation pattern, FIGS. 3 (2), (3), (4), (5), (7), (8), (12) and (16). Creating a copy-prevention pattern that uses the dot points of “2 × 2” pixels shown in Fig. 2 to configure the spatial distance between the dot points in the vertical and horizontal directions as two pixels (one dot point unit). The pattern for is shown.

  That is, when creating a pattern for creating a copy-prevention pattern, a plurality of types of dot points can be appropriately combined from the dot points shown in FIGS.

(2) Configuration of dot points With respect to the dot points shown in FIGS. 3 (2) to 3 (16), the colored region is configured with a smaller number of pixels according to the principle described in the above-mentioned “Means for Solving the Problems”. The anti-copying pattern created by the anti-copying pattern creation pattern constructed using the dot point shape is difficult to decipher at the resolution of the copier and difficult to reproduce even if copied by the copier. Become. However, if the number of pixels in the colored region at the dot points constituting the anti-copying pattern creation pattern is too small, the printed medium at the time of printing on the medium, i.e. In this case, the anti-copying pattern cannot be visually recognized from the printed matter.

  Therefore, a copy-prevention pattern creation pattern is formed so that the copy-prevention pattern can be sufficiently visually confirmed from the printed matter by visual inspection during printing, and the copy-prevention pattern disappears from the copy obtained by copying the printed matter with a copying machine. What is necessary is just to adjust the pixel number of the coloring area | region in a dot point suitably.

(2-1) When the Number of Pixels in the Colored Area at the Dot Point Constructing the Copy Prevention Pattern Creation Pattern is Appropriate FIG. 7 shows three of the four pixels constituting the dot point as the copy prevention pattern creation pattern. The basic structure is the dot point of “2 × 2” pixels shown in FIG. 3 (8) where the pixel is a colored region, and the spatial distance between the dot points in the vertical and horizontal directions is 2 pixels (dots). A pattern for creating an anti-copying pattern formed as one point) is shown.

  When the copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 7, for example, the color density of the colored region of the dot point is set to 190 (note that the color density can be set in 256 steps). 8), the anti-copying pattern can be visually confirmed on the printed material as shown in FIG. 8A, but the printed material is copied as shown in FIG. 8B. The copy protection pattern disappears on the copy copied by the machine, and the copy prevention pattern cannot be visually confirmed.

(2-2) In the case where the number of pixels in the colored area at the dot points constituting the copy prevention pattern creation pattern is too large In FIG. 9, as the copy prevention pattern creation pattern, all four pixels constituting the dot points are colored areas. 3 (2), the basic structure is the dot point of “2 × 2” pixels shown in FIG. 3B, and the spatial distance between the dot points in the vertical direction and the horizontal direction is 2 pixels (one dot point unit). The pattern for creating an anti-copying pattern configured as) is shown.

  When a copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 9, the copy prevention pattern creation pattern shown in FIG. 9 has a colored region more than the copy prevention pattern creation pattern shown in FIG. If the color density of the colored area of the dot points is 190 as in the example shown in FIG. 8, the copy prevention pattern can be visually recognized on the printed matter as shown in FIG. 10A. However, as shown in FIG. 10B, the copy-preventing pattern is difficult to disappear even on a copy obtained by copying the printed matter with the copying machine, and the copy-preventing pattern can be visually confirmed.

(2-3) When the Number of Pixels in the Colored Area at the Dot Point Constructing the Copy Prevention Pattern Creation Pattern is Too Small FIG. 11 shows one of the four pixels constituting the dot point as the copy prevention pattern creation pattern. The basic structure is the dot point of “2 × 2” pixels shown in FIG. 3 (16) in which only the pixels are colored regions, and the spatial distance between the dot points in the vertical and horizontal directions is 2 pixels ( A copy-prevention pattern creation pattern configured as one dot point) is shown.

  When a copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 11, the copy prevention pattern creation pattern shown in FIG. 11 has a colored region more than the copy prevention pattern creation pattern shown in FIG. If the color density of the dot point coloring area is 190 as in the example shown in FIG. 8, the anti-copying pattern becomes thin on the printed matter as shown in FIG. In addition, as shown in FIG. 12B, the copy-preventing pattern disappears on the copy obtained by copying the printed matter with the copying machine, and the copy-preventing pattern cannot be visually recognized.

(3) Adjustment of printing density of anti-copying pattern pattern Next, adjustment of the printing density of anti-copying pattern pattern will be described. In this specification, "printing density" means printing on a medium by a printer. It means the density that can be sensed visually when the finished printed product is viewed.

  As described in “Means for Solving the Problems” above, if the anti-copying pattern is created using the anti-copying pattern creation pattern, the entire anti-copying pattern creation pattern, that is, the print density as the anti-copying pattern. By adjusting the print density of the anti-copying pattern creation pattern, the anti-copying pattern is superimposed on the original image and printed thinly.

  That is, if the printing density of the anti-copying pattern creation pattern is too high, there is a risk that the anti-copying pattern will remain visible on the copy obtained by copying the print with a copying machine.

  On the other hand, if the printing density of the anti-copying pattern creation pattern is too thin, it may be difficult to visually recognize the anti-copying pattern on the printed matter.

  Therefore, the anti-copying pattern is printed on the printed material so that it can be easily visually confirmed, and the anti-copying pattern disappears on the copy obtained by copying the printed material with a copying machine so that it cannot be visually recognized. Therefore, it is preferable to print by appropriately adjusting the printing density of the pattern for creating the anti-copying pattern.

  Here, for example, there are the following two methods for adjusting the print density of the pattern for creating a copy prevention pattern.

(3-1) First method (density adjustment method)
The first method for adjusting the print density of the pattern for creating a copy protection pattern is to adjust the color density of the colored area of each dot point on the assumption that the spatial distance of the dot point arrangement of the pattern for creating the copy protection pattern is fixed. In this way, the printing density of the pattern for creating a copy-preventing pattern is adjusted. In the present specification, this first method is appropriately referred to as a “density adjustment method”.

(3-1-1) When the coloring density of the colored area of the dot point is appropriate FIGS. 13A and 13B show the copy prevention pattern creation pattern shown in FIG. 7 (in the four pixels constituting the dot point). The basic distance is the dot point of “2 × 2” pixels shown in FIG. 3 (8) in which 3 pixels are colored areas, and the spatial distance between the dot points in the vertical direction and the horizontal direction is 2 pixels. (This is a pattern for creating an anti-copying pattern configured as one unit of dot points.) Is used to create an anti-copying pattern, and the coloring density of the colored area of the dot points is 190 (the coloring density is 256 levels). An example of the case where it can be set is shown.

  As is clear from this example, when the color density of the colored area of the dot points is 190, the copy-preventing pattern can be visually recognized on the printed material (see FIG. 13A), but the printed material is copied to the copying machine. The copy-preventing pattern disappears neatly on the copy copied by the above method, and the copy-preventing pattern cannot be visually recognized (see FIG. 13B).

(3-1-2) When the color density of the colored region of the dot point is too dark FIGS. 14A and 14B show the copy prevention pattern creation pattern shown in FIG. 7 (in the four pixels constituting the dot point). The basic distance is the dot point of “2 × 2” pixels shown in FIG. 3 (8) in which 3 pixels are colored areas, and the spatial distance between the dot points in the vertical direction and the horizontal direction is 2 pixels. (This is a pattern for creating an anti-copying pattern formed as one unit of dot points.) Is used to make an anti-copying pattern, and the coloring density of the colored area of the dot points is 180 (the coloring density is 256 levels). An example of the case where it can be set is shown.

  As is apparent from this example, when the color density of the colored area of the dot points is 180, it is a matter of course that the copy prevention pattern can be visually recognized on the printed material (see FIG. 14A). The print density of the anti-copying pattern thus made becomes too dark, and the anti-copying pattern becomes difficult to disappear even on a copy obtained by copying the printed matter with a copying machine, so that the anti-copying pattern can be visually recognized (FIG. 14). (See (b)).

(3-1-3) When the color density of the colored region of the dot point is too thin FIGS. 15A and 15B show the copy prevention pattern creation pattern shown in FIG. 7 (in the four pixels constituting the dot point). The basic distance is the dot point of “2 × 2” pixels shown in FIG. 3 (8) in which 3 pixels are colored areas, and the spatial distance between the dot points in the vertical direction and the horizontal direction is 2 pixels. (This is a pattern for creating an anti-copying pattern configured as one unit of dot points.) Is used to create an anti-copying pattern, and the coloring density of the colored area of the dot points is 210 (the coloring density is 256 levels). An example of the case where it can be set is shown.

  As is clear from this example, when the color density of the dot point color area is 210, the print density of the copy-preventing pattern is too thin even on the printed matter, making it difficult to visually recognize (FIG. 12 ( a))), the copy-preventing pattern tends to disappear on the copy obtained by copying the printed matter with the copying machine, and the copy-preventing pattern cannot be visually recognized (see FIG. 12B).

(3-2) Second method (spatial density adjustment method)
The second method for adjusting the printing density of the copy-prevention pattern creation pattern is basically to fix the color density of the colored area at the dot points, and in the vertical direction between the dot points in the created copy-prevention pattern creation pattern. In addition, by controlling the spatial distance in the horizontal direction, the printing density of the anti-copying pattern is adjusted by adjusting the spatial density of the dot points arranged as the anti-copying pattern creation pattern. In the present specification, this second method will be appropriately referred to as “spatial density adjustment method”.

  That is, in the second method, when printing a pattern for creating an anti-copying pattern composed of the same dot points, if the distance between the dot points becomes narrow, the print density of the pattern for creating an anti-copying pattern is printed. On the other hand, if the distance between the dot points is increased, the printing density of the printed anti-copying pattern creation pattern is reduced.

  When the anti-copying pattern is composed of black and white binary data, the print density of the anti-copying pattern cannot be adjusted using the first method described above, but if this second method is used, The print density of the anti-copying pattern can be adjusted.

(3-2-1) When the spatial density of dot points is appropriate FIG. 16 shows “2 × 2” pixels shown in FIG. 3 (8), in which 3 pixels among the 4 pixels constituting the dot points are colored regions. In addition, the color density of the colored region is fixed to 190 (the color density can be set in 256 steps), and the dot points in the vertical and horizontal directions are fixed. A copy prevention pattern creation pattern is shown in which the spatial distance between the dot points is 2 pixels (one unit of dot points). In this copy prevention pattern creation pattern, 54 pixels out of 144 pixels are colored areas, and 37.5% of the pixels in the copy prevention pattern creation pattern are colored areas.

  Although the anti-copying pattern generated using this anti-copying pattern creation pattern can be visually confirmed on the printed material (see FIG. 17A), the printed material was copied by a copying machine. The copy protection pattern disappears neatly on the copy, and the copy protection pattern cannot be visually confirmed (see FIG. 17B).

(3-2-2) When the spatial density of dot points is sparse FIG. 18 shows “2 × 2” pixels shown in FIG. 3 (8) in which 3 pixels among the 4 pixels constituting the dot points are colored regions. In addition, the color density of the colored region is fixed to 190 (the color density can be set in 256 steps), and the dot points in the vertical and horizontal directions are fixed. A copy prevention pattern creation pattern is shown in which the spatial distance between the dot points is 4 pixels (for 2 units of dot points) or 3 pixels (for 1.5 units of dot points). In this copy prevention pattern creation pattern, 54 pixels out of 324 pixels are colored areas, and 16.7% of the pixels in the copy prevention pattern creation pattern are colored areas.

  The anti-copying pattern generated using this anti-copying pattern creation pattern is difficult to visually recognize because the print density of the anti-copying pattern is too thin on the printed material (see FIG. 19A). ), The copy-preventing pattern tends to disappear on the copy obtained by copying the printed matter with the copying machine, and the copy-preventing pattern cannot be visually confirmed (see FIG. 19B).

(3-2-3) When the spatial density of the dot points is dense FIG. 20 shows “2 × 2” pixels shown in FIG. 3 (8) in which 3 pixels among the 4 pixels constituting the dot points are colored regions. In addition, the color density of the colored region is fixed to 190 (the color density can be set in 256 steps), and the dot points in the vertical and horizontal directions are fixed. A pattern for creating a copy-prevention pattern in which the spatial distance from the dot point is set to 1 pixel or less is shown. In this copy prevention pattern creation pattern, 36 out of 72 pixels are colored areas, and 50.0% of the pixels in the copy prevention pattern creation pattern are colored areas.

  The anti-copying pattern generated using this anti-copying pattern creation pattern can of course be visually recognized on the printed matter (see FIG. 21A), but the printed anti-copying pattern can also be visually confirmed. The print density of the pattern becomes too high, and the copy-preventing pattern is difficult to disappear even on a copy obtained by copying the printed matter with a copying machine, so that the copy-preventing pattern can be visually confirmed (FIG. 21B). reference).

(4) Emphasis on the visual effect of the print prevention pattern In order to emphasize the visual effect of the print prevention pattern described above, there is no difference between the current printer described in the above "Means for Solving the Problems" and the current copier. Using the resolution difference, as a pattern for creating a print prevention pattern that makes up a print prevention pattern, a pattern for creating a print prevention pattern with a resolution that can be reproduced with the current copier and a pattern with a resolution that cannot be reproduced with the current copier It is also possible to create a print prevention pattern that is generated by mixing the pattern for creation and can be visually recognized without partially disappearing on a copy copied by a copying machine.

(4-1) Generation of a print prevention pattern creation pattern that can be seen without disappearing on a copy copied by a copying machine Generation of a print prevention pattern creation pattern that can be seen without disappearing on a copy copied by a copying machine In this case, a process opposite to the generation of the print prevention pattern creation pattern that disappears and cannot be visually recognized on the copy copied by the copying machine described above may be performed.

(4-1-1) Configuration of dot points On the copied material copied by the current copying machine based on the principle described in (2), (2-1), (2-2), and (2-3) above. In order to generate a pattern for creating a print prevention pattern that can be visually recognized without disappearing, the dot points constituting the pattern for creating a print prevention pattern may be made larger. However, if the dot point shape is extremely large, it becomes too conspicuous when a printed matter obtained by printing on a medium with a printer is visually recognized, and the dot point shape is preferably adjusted to an appropriate size.

(4-1-2) Density Adjustment Method Based on the principle described in the above (3-1), (3-1-1), (3-1-2), (3-1-3), the current copying machine In order to generate a pattern for creating a print-preventing pattern that can be visually recognized without disappearing on a copy copied by the above method, the color density of the colored region at the dot point may be increased. However, if the color density of the dot point colored area is extremely high, it becomes too conspicuous when the printed matter obtained by printing on the medium with a printer is visually recognized, and the color density of the dot point colored area is adjusted to an appropriate density. It is preferable.

(4-1-3) Spatial density adjustment method Based on the principle explained in the above (3-2), (3-2-1), (3-2-2), and (3-2-3), the current copying In order to generate a pattern for creating a print prevention pattern that can be visually recognized without disappearing on a copy copied by a machine, the spatial density of dot points arranged as the pattern for creating a copy prevention pattern may be made dense. However, if the dot points arranged as a pattern for creating an anti-copying pattern are extremely dense, it becomes too conspicuous when the printed matter obtained by printing on the medium with a printer is visually recognized. The density of the arranged dot points is preferably adjusted to an appropriate density.

(4-2) Comparison of a pattern for creating a print-preventing pattern that cannot be seen on a copy copied by a copying machine and a pattern for creating a print-preventing pattern that can be seen without disappearing on a copy copied by a copying machine According to (4-1-1), (4-1-2), and (4-1-3), it can be visually recognized without disappearing as a pattern for creating a print prevention pattern that disappears and cannot be visually recognized on a copy copied by a copying machine. When the print density of the pattern for creating a print-prevention pattern is visually adjusted to the same darkness, the pattern for creating a print-prevention pattern that cannot be seen on a copy copied by a copying machine is generally finely grained. The interval is narrow (see FIG. 22A). On the other hand, a pattern for creating a print-prevention pattern that can be visually recognized without disappearing on a copy copied by a copying machine, the grain is coarse, and the interval between dot points is wide (see FIG. 22B).

  Here, when the print density of the print prevention pattern is appropriately adjusted, the print prevention pattern creation pattern that disappears and cannot be visually recognized on the copy copied by the copying machine, and the print prevention pattern creation pattern that can be seen without disappearing Even if they are mixed together, they can visually appear plain.

  That is, FIG. 23A shows an example in which the adjustment of the print density of the print prevention pattern is appropriate, and the print prevention pattern creation pattern that disappears and cannot be visually recognized when copied by a copying machine does not disappear. The pattern for creating a print-prevention pattern that can be visually recognized is mixed, but since the dark print density of both patterns matches, the pattern appears to be uniform.

  However, if adjustment of the print density of the print prevention pattern is not appropriate, unevenness occurs at the boundary between the print prevention pattern creation pattern that cannot be seen and disappears, and the print prevention pattern creation pattern that can be seen without disappearing. It is preferable to appropriately adjust the print density of the print prevention pattern.

  That is, FIG. 23B shows an example in which the adjustment of the print density of the print prevention pattern is not appropriate, and the print prevention pattern creation pattern that disappears and cannot be visually recognized when copied by a copying machine does not disappear. However, since the visual print density of the two patterns does not match, unevenness occurs at the boundary between the two patterns.

  FIG. 23C shows a print prevention pattern when a pattern for creating a print prevention pattern that disappears when it is copied by a copying machine and a pattern for creation of a print prevention pattern that can be seen without disappearing are mixed. Although the print density adjustment is appropriate and the visual densities of the two patterns are the same, the dot points have a large difference in density and the presence of both patterns is conspicuous.

(4-3) It is composed of a pattern for creating a print-preventing pattern that cannot be seen on a copy copied by a copying machine and a pattern for creating a print-preventing pattern that can be seen without disappearing on a copy copied by a copying machine. Generation of anti-copying pattern As described above, a pattern for creating a print-preventing pattern that disappears on a copy copied by a copier and cannot be seen, and a pattern for making a print-preventive pattern that can be seen without disappearing on a copy copied by a copier Even if the anti-copying pattern is generated by mixing the two, the shape and density of the dot points of both patterns are not significantly dissociated, and if the dark print density of both patterns is matched, the printer On the printed matter printed on, the anti-copying pattern is visually recognized as a uniform solid pattern (see FIG. 24A).

  At this time, if a pattern for creating a print-prevention pattern that disappears on the copy in the copy-prevention pattern and cannot be visually recognized is mixed as a "straight line" like a parallel line, A “cross-line” portion formed by a pattern for creating a print-preventing pattern that disappears and cannot be visually recognized on the copy is invisible (see FIG. 24B).

(5) Examples of anti-copying patterns Here, FIGS. 25 to 27 show various examples of anti-copying patterns generated according to the present invention. First, FIG. It is an example used for a mark. As shown in FIG. 26, when the copy protection pattern and the image are overlaid and printed (see FIG. 26A), only the copy protection pattern disappears from the copy when the copy is copied by the copying machine. Can be.

  That is, when the “print image” shown in FIG. 26A is copied by a copying machine, an image formed by superimposing the copy prevention pattern and the image becomes a copy target. However, since the image cannot be detected at the resolution of the copying machine, only the image is copied, and the “post-copy image” shown in FIG. 26B is output as a copy.

  Therefore, since the visual image changes greatly between the printed material and its copied material, it can be easily identified whether it is a copied material, and tampering of the printed material can be prevented.

  In addition, the copy protection pattern may be configured not only by the logo mark but also by a character string such as a company name or address, or may be configured by a graphic, and further, a logo mark, You may make it comprise as arbitrary patterns, such as combining a character string and a figure suitably.

  Further, as shown in FIG. 27, an image printed as a normal document as shown in “Normal Document Image” in FIG. 27A is converted into a book as shown in “Print Image” in FIG. When it is composed of a pattern for creating anti-copying patterns according to the invention and printed to create a printed matter, the copy-preventing pattern image disappears from the copied material when the printed material is copied by a copying machine. An effect can be obtained.

  The present invention can be used when images such as various certificates, various contracts, or confidential documents are printed by a printer or output by a facsimile apparatus.

1 is a schematic block diagram illustrating a printer as an image processing apparatus including a copy prevention pattern generation apparatus according to an example of an embodiment of the present invention. It is explanatory drawing which shows the structure of the pattern for copy prevention pattern creation. (1)-(16) is explanatory drawing which shows a dot point, respectively. It is explanatory drawing which shows an example of the pattern for copy prevention pattern creation. It is explanatory drawing which shows an example of the pattern for copy prevention pattern creation. It is explanatory drawing which shows an example of the pattern for copy prevention pattern creation. It is explanatory drawing which shows an example of the pattern for copy prevention pattern creation. When creating a copy prevention pattern using the copy prevention pattern creation pattern shown in FIG. 7, for example, the color density of the colored area of the dot point is set to 190 (color density can be set in 256 stages). (A) is a printed image showing a printed material, and (b) is an after-copy image showing a copied material when the printed material shown in (a) is copied by a copying machine. It is. It is explanatory drawing which shows an example of the pattern for copy prevention pattern creation. When a copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 9, for example, the color density of the colored area of the dot point is set to 190 (color density can be set in 256 stages). (A) is a printed image showing a printed material, and (b) is an after-copy image showing a copied material when the printed material shown in (a) is copied by a copying machine. It is. It is explanatory drawing which shows an example of the pattern for copy prevention pattern creation. When the copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 11, for example, the color density of the colored area of the dot point is set to 190 (the color density can be set in 256 steps). (A) is a printed image showing a printed material, and (b) is an after-copy image showing a copied material when the printed material shown in (a) is copied by a copying machine. It is. A copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 7, and the color density of the colored area of the dot point is 190 (the color density can be set in 256 stages). (A) is a printed image showing a printed material, and (b) is a post-copying image showing a copied material when the printed material shown in (a) is copied by a copying machine. A copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 7, and the color density of the colored region of the dot point is 180 (the color density can be set in 256 stages). (A) is a printed image showing a printed material, and (b) is a post-copying image showing a copied material when the printed material shown in (a) is copied by a copying machine. A copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 7, and the color density of the colored area of the dot point is 210 (note that the color density can be set in 256 steps). (A) is a printed image showing a printed material, and (b) is a post-copying image showing a copied material when the printed material shown in (a) is copied by a copying machine. It is explanatory drawing which shows an example of the pattern for copy prevention pattern creation. A copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 16, and the color density of the colored area of the dot point is 190 (note that the color density can be set in 256 steps). (A) is a printed image showing a printed material, and (b) is a post-copying image showing a copied material when the printed material shown in (a) is copied by a copying machine. It is explanatory drawing which shows an example of the pattern for copy prevention pattern creation. A copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 18, and the color density of the colored area of the dot point is 190 (note that the color density can be set in 256 steps). (A) is a printed image showing a printed material, and (b) is a post-copying image showing a copied material when the printed material shown in (a) is copied by a copying machine. It is explanatory drawing which shows an example of the pattern for copy prevention pattern creation. A copy prevention pattern is created using the copy prevention pattern creation pattern shown in FIG. 20, and the color density of the colored area of the dot point is 190 (the color density can be set in 256 stages). (A) is a printed image showing a printed material, and (b) is a post-copying image showing a copied material when the printed material shown in (a) is copied by a copying machine. It is an explanatory view showing a comparison between a pattern for creating a print-preventing pattern that cannot be visually recognized by disappearing on a copy copied by a copying machine and a pattern for creating a print-preventing pattern that can be visually recognized without disappearing on a copy copied by a copying machine, (A) shows the case where it disappears, and (b) shows the case where it does not disappear. The image of the printed matter is the result of mixing the pattern for creating a print-preventing pattern that disappears on a copy copied by a copier and cannot be seen, and the pattern for creating a print-preventive pattern that can be seen on a copy copied by a copier. (A) shows an example in which the adjustment of the print density of the print prevention pattern is appropriate, (b) shows an example in which the adjustment of the print density of the print prevention pattern is not appropriate, and (c) Is suitable for adjusting the print density of the print prevention pattern, and the visual darkness of both patterns is the same, but the presence of both patterns is conspicuous because the shape and density of the dot points are significantly different. An example is shown. Example of anti-copying pattern composed of a pattern for creating an anti-print pattern that disappears on a copy copied by a copier and cannot be seen, and a pattern for creating an anti-print pattern that can be seen without disappearing on a copy copied by a copier (A) is a print image showing a printed material, and (b) is a post-copying image showing a copied material when the printed material shown in (a) is copied by a copying machine. It is explanatory drawing which shows an example of a copy prevention pattern. An example in which a copy prevention pattern and an image are overlaid and printed is shown, (a) is a print image showing a printed matter, and (b) is a copy when the printed matter shown in (a) is copied by a copying machine. FIG. An example in which an image printed as a normal document is configured by a copy prevention pattern creation pattern according to the present invention is shown, (a) is a normal document image showing an image printed as a normal document, (a) Is a printed image showing the printed material, and (b) is a post-copy image showing the copied material when the printed material shown in (a) is copied by a copying machine.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Printer 12 Document image data input part 14 Copy prevention pattern data generation part 16 Composition output part

Claims (9)

A copy-preventing pattern is formed by a copy-preventing pattern creating pattern in which a plurality of dot points, each of which is composed of at least one pixel and all or part of the pixel is a colored region, are arranged at a predetermined spatial distance,
The method for generating an anti-copying pattern, wherein the colored area of the dot points cannot be detected at a resolution lower than a predetermined resolution. A copy-preventing pattern in which a plurality of dot points, which are composed of at least one pixel and all or part of the pixels are undetectable at a resolution equal to or lower than a predetermined resolution, are arranged at a predetermined spatial distance. A pattern generation means for creating a copy-prevention pattern for generating a pattern for creation;
An anti-copying pattern generation device, comprising: an anti-copying pattern generation unit that generates an anti-copying pattern using the anti-copying pattern generation pattern generated by the anti-copying pattern generation pattern generation unit. A copy-preventing pattern in which a plurality of dot points, which are composed of at least one pixel and all or part of the pixels are undetectable at a resolution equal to or lower than a predetermined resolution, are arranged at a predetermined spatial distance. A copy-prevention pattern is constructed with the creation pattern,
An image processing method characterized in that the copy-preventing pattern is controlled to a predetermined printing density and is superimposed on a document image. An input means for inputting a document image;
A copy-preventing pattern in which a plurality of dot points, which are composed of at least one pixel and all or part of the pixels are undetectable at a resolution equal to or lower than a predetermined resolution, are arranged at a predetermined spatial distance. A pattern generation means for creating a copy-prevention pattern for generating a pattern for creation;
A copy prevention pattern generating means for generating a copy prevention pattern whose printing density is controlled using the copy prevention pattern creating pattern generated by the copy prevention pattern creating pattern generating means;
An image processing apparatus comprising: a composite output unit that superimposes and prints the original image input by the input unit and the copy prevention pattern generated by the copy prevention pattern generation unit.   A program for causing a computer to execute the anti-copying pattern generation method according to claim 1.   A program for causing a computer to function as the anti-copying pattern generating apparatus according to claim 2.   A program for causing a computer to execute the image processing method according to claim 3.   A program for causing a computer to function as the image processing apparatus according to claim 4.   A computer-readable recording medium on which the program according to any one of claims 5, 6, 7, and 8 is recorded.