JP6354374B2 - Specific attribute presence check device, specific attribute presence check method, and computer program - Google Patents

Description

  The present invention relates to a technique for checking whether or not a printed material satisfies a predetermined requirement.

  2. Description of the Related Art Conventionally, in order to comply with laws and regulations, there has been proposed a technology that suppresses copying (copying) of printed matter that satisfies a predetermined condition, for example, bills. An image forming apparatus that employs such a technique has become widespread.

  According to the technique described in Patent Document 1, a reading unit that reads image data of a document, a memory that stores data of a copy prohibition mark, and data of a document that is read by the reading unit by reading data of a copy prohibition mark A detection means for detecting a copy prohibition mark from the image, a determination means for determining whether or not the detection of the copy prohibition mark by the detection means is obstructed, and forming an image on the sheet based on the image data read by the reading means When the image forming means and the detection means do not detect the copy prohibition mark, the image forming means is allowed to form an image, and when the determination means determines that the detection of the copy prohibition mark is obstructed, and the detection And a control unit that prohibits the image forming unit from forming an image when a copy prohibition mark is detected by the unit.

  The apparatus described in Non-Patent Document 1 has a function for preventing duplication of banknotes (forgery prevention function).

  In addition, there has been proposed a technique for speeding up or facilitating processing when a plurality of sheets are sequentially scanned one by one using an ADF (Auto Document Feeder).

  According to the technique described in Patent Document 2, an image processing apparatus including image processing means for receiving image data output from reading means for reading a document by a sheet-through method and performing predetermined processing on the received image data In this case, when the paper interval time t1 is sufficient, a large amount of dust detection processing and dust correction processing time t2 is secured, and when the paper interval time t1 becomes shorter or other processing increases, the dust detection processing and The dust correction processing time t2 is shortened to ensure reading productivity. The processing time t2 is set by managing with the system controller. Each processing time of dust detection processing and dust correction processing can be set independently.

  According to the technique described in Patent Document 3, when a document reading device reads a plurality of documents using a CCD line sensor, the read image data is stored in a temporary storage memory. The document reader uses the document interval time between the previous document to be conveyed and the next document, and sets the data transfer speed of the image data stored in the temporary storage memory to a speed slower than the drive speed of the CCD line sensor. The image data stored in the temporary storage memory is transferred to the image data transfer line.

  According to the technique described in Japanese Patent Application Laid-Open No. H10-228707, the interval between documents that are continuously fed and conveyed in an automatic document feeder (ADF) is varied.

  According to the technique described in Patent Document 5, the inter-sheet correction processing unit calculates the time between the original paper and the original to be conveyed at the time of reading in the reading mode selected from the plurality of reading modes, Based on the calculated time between manuscript papers, the light distribution variation correction process and the dust correction process are divided into a plurality of processes for each reading mode, and a plan for executing the process is made. The steps are performed in order.

  According to the technique described in Japanese Patent Application Laid-Open No. 2004-228688, when there is a margin in the memory capacity, the document is fed and scanned at the first document interval, and when there is no more margin, the document is scanned at the second document interval. Feed and read.

JP-A-8-79511 JP 2009-200599 A JP 2008-271035 A JP 2007-31890 A JP 2006-146370 A Japanese Patent Laid-Open No. 10-56546 “Bizhub C25 Printer / Copy / Scanner User's Guide” page 16, Konica Minolta website, June 12, 2014 Search, http://www.konicaminolta.jp/business/download/copiers/bizhub_c25/pdf/user_jp_00k_c25 .pdf

  By combining the technology that continuously scans multiple sheets one by one with the so-called flow-reading method and the technology that prevents unauthorized copying, even if each of these sheets is copied continuously, It is possible to determine whether it is good or not. However, it is required to perform a series of processing at higher speed.

  In view of such a problem, an object of the present invention is to determine whether or not a document composed of a plurality of sheets can be copied at a higher speed than before.

A specific attribute presence / absence check device according to an aspect of the present invention is a specific attribute presence / absence check device that determines whether any of M sheets (however, M ≧ 2) has a specific attribute. A conveying unit that conveys the M sheets one by one so as to pass through a reading position that is long in the sub-scanning direction; and the first sheet of the M sheets passes through the reading position. Every time one of the M sheets advances a predetermined length in the transport direction from the beginning until the Mth sheet finishes passing, the reading position is photographed in the direction of the printing surface of the sheet. By doing this, whether or not there is a specific feature in the combined image obtained by combining a plurality of continuous line images with a scanner that acquires a plurality of line images whose length in the transport direction is the predetermined length the determination, obtained by the scanner those A plurality of line images started Once you have bound to the combined image, if there is the particular feature, if there is the specific attribute sheet relating to the combined image of the M sheets, to determine, Discriminating means.
Preferably, the scanner acquires at least four of the line images for each of the M sheets, and the determination unit performs the plurality of combined images formed on each of the M sheets. The determination is performed.

  Preferably, the specific attribute is prohibition of copying to another sheet.

Alternatively, the conveying unit conveys each of the M sheets with a predetermined interval. Or transport without any gaps,
Alternatively, the determination unit determines that images of two consecutive sheets of the M sheets are included in the combined image, and that the combined image has the specific feature. In this case, it is determined that the specific attribute is included in a sheet in which the ratio of the image is equal to or greater than a predetermined value. Alternatively, it is determined that the sheet having a higher ratio of the image has the specific attribute.

  According to the present invention, it is possible to determine whether or not a document composed of a plurality of sheets can be copied at a higher speed than before.

It is a figure which shows the example of the whole structure of an intranet. 2 is a diagram illustrating an example of a hardware configuration of an image forming apparatus. FIG. It is a figure which shows the example of a structure of a scanner. 2 is a diagram illustrating an example of a functional configuration of an image forming apparatus. FIG. FIG. 6 is a diagram for explaining timings of image processing by an image processing unit and determination processing by a copy inappropriate printed matter determination unit. It is a time chart which shows an example, such as timing of each processing in the 1st mode. It is a figure which shows the example of a structure of a divided image. It is a time chart which shows an example, such as timing of each processing in the 2nd mode. It is a time chart which shows an example, such as timing of each processing in the 3rd mode. It is a time chart which shows an example, such as timing of each processing in the 4th mode. It is a figure which shows the example of a structure of a mixed image. It is a figure which shows the example of a reference | standard table. It is a flowchart explaining the example of the whole process flow based on a fraud prevention copy program.

  FIG. 1 is a diagram illustrating an example of the overall configuration of the intranet 4. FIG. 2 is a diagram illustrating an example of a hardware configuration of the image forming apparatus 1. FIG. 3 is a diagram illustrating an example of the configuration of the scanner 10j.

  As shown in FIG. 1, the intranet 4 includes an image forming apparatus 1, a terminal device 2, a communication line 3, and the like.

  The image forming apparatus 1 and the terminal device 2 can communicate with each other via the communication line 3. As the communication line 3, a so-called LAN (Local Area Network) line, a public line, a dedicated line, or the Internet is used.

  The image forming apparatus 1 is an image processing apparatus generally referred to as an MFP (Multi Function Peripherals) or a multifunction peripheral, and is an apparatus that integrates functions such as copying (copying), PC printing, faxing, scanning, and boxes.

  The PC print function is a function for printing an image on a blank sheet based on image data received from the terminal device. It may also be called “network printing” or “network printing”.

  The box function is a function for giving a storage area called “box” or “personal box” for each user, and for each user to save and manage document data such as an image file in his / her storage area. A box corresponds to a “folder” or “directory” in a personal computer.

  As shown in FIGS. 1 and 2, the image forming apparatus 1 includes a CPU (Central Processing Unit) 10a, a RAM (Random Access Memory) 10b, a ROM (Read Only Memory) 10c, an auxiliary storage device 10d, a touch panel display 10e, and an operation. A key panel 10f, a NIC (Network Interface Card) 10g, a modem 10h, an ADF (Auto Document Feeder) 10i, a scanner 10j, a paper feed unit 10k, a printer 10m, a finisher 10n, and the like.

  The touch panel display 10e displays a screen showing a message for the user, a screen for the user to input a command or information, a screen showing a result of processing executed by the CPU 10a and the like. Further, the touch panel display 10e sends a signal indicating the touched position to the CPU 10a.

  The operation key panel 10f is a so-called hardware keyboard, and includes a numeric keypad, a start key, a stop key, a function key, and the like.

  The NIC 10g communicates with the terminal device 2 using a protocol such as TCP / IP (Transmission Control Protocol / Internet Protocol).

  The modem 10h exchanges image data with a facsimile terminal using a protocol such as G3. When exchanging with ISDN (Integrated Services Digital Network), a TA (Terminal Adapter) is provided instead of the modem 10h.

  The ADF 10i conveys a plurality of sheets to be read set at a predetermined position one by one to the scanner 10j.

  The scanner 10j reads an image such as a photograph, a character, a picture, or a chart written on a sheet and generates image data. Specifically, as shown in FIG. 3, the scan unit 10i includes an image sensor 10j1, a reading slit 10j2, a platen glass 10j3, and the like.

  The ADF 10i and the scanner 10j operate as follows. When a document 8 composed of a plurality of sheets is set, the ADF 10i conveys these sheets one by one to the scanner 10j. Note that the timing of conveying the paper is given by a paper conveyance control unit 101 described later.

  The image sensor 10j1 reads an image from the paper when the paper passes through the reading slit 10j2, and generates electronic data (image data) of the image. That is, image data is generated by a so-called flow reading method.

  When a sheet is set on the platen glass 10j3, the image sensor 10j1 scans the platen glass 10j3 to read an image from the sheet and generate image data.

  The paper feed unit 10k includes a paper feed tray and a paper transport mechanism, and supplies white paper to the printer 10m. A large number of white paper is stored in the paper feed tray. The paper transport mechanism transports white paper from the paper feed tray one by one to the printer 10m. Further, when the image is printed on the white paper, the printed material is conveyed to the finisher 10n or the paper discharge tray.

  The printer 10m prints an image read by the scanner 10j on a blank sheet. It is also possible to print an image on a blank sheet based on the image data received by the NIC 10g or the modem 10h or the document data stored in the box.

  The finisher 10n performs post-processing as necessary on the printed matter obtained by the printer 10m. The post-processing includes a staple binding process, a punch hole forming process, a folding process, and the like.

  The ROM 10c or the auxiliary storage device 10d stores programs and data for realizing the functions such as copying and PC printing described above. Further, an anti-fraud copy program 1P is stored. The anti-fraud copy program 1P checks whether images that are prohibited from being copied or copied by law or regulation are included when images are read from a plurality of sheets by the flow-reading method. It is a program for copying to blank paper only when it is not. These programs and data are loaded into the RAM 10b as necessary. Then, the program is executed by the CPU 10a.

  As the auxiliary storage device 10d, an HDD (Hard Disk Drive), an SSD (Solid State Drive), or the like is used.

  FIG. 4 is a diagram illustrating an example of a functional configuration of the image forming apparatus 1. FIG. 5 is a diagram for explaining the timing of image processing by the image processing unit 105 and determination processing by the copy inappropriate printed matter determination unit 103.

  Hereinafter, the checking process by the scanned image check program 1P will be described with reference to FIG.

  The scanned image check program 1P realizes functions such as the paper conveyance control unit 101, the temporary storage unit 102, the copy inappropriate printed matter determination unit 103, the warning display control unit 104, the image processing unit 105, and the print control unit 106 illustrated in FIG. To do.

  The paper transport control unit 101 controls the ADF 10i so that the paper set on the ADF 10i is transported to the scanner 10j one by one. The conveyance timing differs depending on each of the first to fourth modes. This will be described later.

  The temporary storage unit 102 temporarily stores image data obtained by the scanner 10j. The temporary storage unit 102 is realized by providing an area of a predetermined size physically or logically in the RAM 10b or the like.

  The unsuitable copy matter determination unit 103 specifies, based on the image data stored in the temporary storage unit 102, an image read from the sheet by the scanner 10j (hereinafter referred to as “scanned image”) that should not be copied. Whether or not the printed material (hereinafter referred to as “unsuitable printed material”) is determined.

  The copy inappropriate prints are, for example, banknotes, securities, or postcards. These printed materials have specific patterns or marks. In addition, a printed material in which a specific pattern is embedded as a background pattern or a printed material on which a specific mark or character string is written can be handled as a copy inappropriate printed material. Unauthorized copying can be prevented by embedding a specific pattern in a printed material to be protected by the copyright law. As described above, a printed matter on which an image having a specific characteristic is described is a copy inappropriate printed matter.

  The warning display control unit 104 displays a warning message on the touch panel display 10e when the copy inappropriate print material determination unit 103 determines that the scanned image is a copy inappropriate print product.

  The image processing unit 105 executes predetermined processing for copying (stain removal, resolution adjustment, color adjustment, or the like) on the image data stored in the temporary storage unit 102.

  The print control unit 106 prints an image on a blank sheet based on the image data processed by the image processing unit 105 when it is determined by the copy inappropriate print material determination unit 103 that the scanned image is not a copy inappropriate print product. The paper feed unit 10k and the printer 10m are controlled.

  Here, a basic flow of processing for reading an image on one side of a sheet and processing for image data of the image (scanned image) will be described with reference to FIG.

  As shown in FIG. 5, the scanner 10 j reads an image from a sheet for each area divided by a predetermined length in the transport direction (sub-scanning direction), and stores the image data of each image in the temporary storage unit 102. Hereinafter, this region is referred to as a “line region”, and this image is referred to as a “line image 5L”.

  The line image 5L can be acquired by scanning each time a sheet is conveyed by a predetermined length. Alternatively, if the speed at which the sheet is conveyed is constant, it can be obtained by scanning each time a predetermined time elapses.

  The copy inappropriate printed matter determination unit 103 treats five continuous line images 5L as one band image 5B as follows. The band image 5B is divided in the transport direction. In the example of FIG. 5, the image is equally divided into four divided images 5K. Further, it is checked whether or not a specific feature is included for each divided image 5K. If the specific feature is included, it is determined that the paper is a copy inappropriate print. The specific feature is registered in advance in the copy inappropriate printed matter determination unit 103.

  The image processing unit 105 executes the above-described predetermined processing as necessary for each line image 5L.

  The image data of the line image 5L used in both the copy inappropriate printed matter determination unit 103 and the image processing unit 105 is deleted from the temporary storage unit 102 or invalidated. The area where the image data is stored is reused.

  By the way, when the 27 line images 5L are grouped into five consecutive groups to form the band image 5B as described above, the last two line images 5L remain. The handling of the two line images 5L differs depending on the first to fourth modes described above.

  Next, the processing of the paper transport control unit 101 to the print control unit 106 in each of the first to fourth modes will be described by taking as an example the case of copying material consisting of a plurality of sheets. Further, an image is printed only on the front surface of each sheet, and no image is printed on the back surface. That is, only the front surface is treated as a page. Therefore, so-called “single side → single side” or “single side → double side” copying is performed.

[First mode]
FIG. 6 is a time chart showing an example of the timing of each process in the first mode. FIG. 7 is a diagram illustrating an example of the configuration of the divided image 5K.

  The first mode is a mode in which the determination by the copy inappropriate printed matter determination unit 103 is performed independently for each sheet. Further, the temporary storage unit 102 is also used independently for each sheet. Hereinafter, the process in the first mode will be described with reference to FIG.

  The sheet conveyance control unit 101 includes a first conveyance control unit 121, a second conveyance control unit 122, a third conveyance control unit 123, a fourth conveyance control unit 124, and the like. In the first mode, the first transport control unit 121 controls the ADF 10i.

  The first transport control unit 121 controls the ADF 10i so that one sheet is transported when a predetermined operation (for example, pressing of a copy button) is performed (time T1a). Hereinafter, a case where the speed at which a sheet is conveyed is constant will be described as an example.

  After the elapse of a predetermined time, the first sheet starts to pass over the reading slit 10j2 of the scanner 10j (time T1b). At this time, the image sensor 10j1 starts scanning the first sheet. Then, after time T1b, image data for each line image 5L of the first sheet is obtained one after another and stored in the temporary storage unit 102.

  Each time the image data of the five line images 5L is stored (time T1c, T1d,..., T1g), the copy inappropriate printed matter determination unit 103 combines the five line images 5L into one band image 5B. Then, by using the method described with reference to FIG. 5, it is determined whether or not this sheet is a copy inappropriate print by checking whether each divided image 5K of the band image 5B includes a specific feature. The image data of the line image 5L used as the band image 5B is deleted from the temporary storage unit 102 as described above.

  The image processing unit 105 executes necessary image processing every time image data of one line image 5L is stored in parallel with the processing by the copy inappropriate printed matter determination unit 103.

  Even after the first sheet has passed (time T1h), the image sensor 10j1 continues scanning for three line areas. Thereby, since the route is photographed, the image data of the blank image for the three line areas is stored in the temporary storage unit 102. Further, the last two line images 5L remain in the temporary storage unit 102 without being used as the band image 5B.

  In addition, if there is dirt on the route, this may become noise. Therefore, the image data of a photographed blank image may be replaced with image data of a single color (for example, white or gray) prepared in advance.

  As shown in FIG. 7A, the copy inappropriate printed matter discriminating unit 103 combines the last two line images 5L and the blank image corresponding to the three line regions into one band image 5B, and combines the four divided images 5K. Divide into Then, as described above, by checking whether or not each divided image 5K includes a specific feature, it is determined whether or not this sheet is a copy inappropriate print.

  When the first sheet finishes passing through the reading slit 10j2 (time T1h), the image sensor 10j1 transmits VD (vertical synchronization signal) to the CPU 10a.

  Then, the first transport control unit 121 deletes the image data of the line image 5L of the last band image 5B and the image data of the blank image on the first sheet from the temporary storage unit 102, and then the reading slit 10j2. The ADF 10i is controlled so that the second sheet is conveyed so as to reach (time T1j).

  Then, similarly to the process for the first sheet, the process is performed for the second and subsequent sheets.

[Second mode]
FIG. 8 is a time chart showing an example of the timing of each process in the second mode.

  Similarly to the first mode, the second mode is a mode in which determination by the copy inappropriate printed matter determination unit 103 is performed independently for each sheet. Hereinafter, the difference from the first mode will be mainly described with reference to FIG. Description of points common to the first mode is omitted.

  In the second mode, the second transport control unit 122 controls the ADF 10i. Two temporary storage units 102A and 102B are prepared as the temporary storage unit 102. Then, the image data of the odd number of sheets is stored in the temporary storage unit 102A, and the image data of the even number of sheets is stored in the temporary storage unit 102B.

  The processing and timing for the first sheet are the same as in the first mode. Processing and timing for the second and subsequent sheets are basically the same as in the first mode. However, since it is not necessary to wait for the image data of the line image 5L of the last band image 5B and the image data of the blank image on the previous sheet to be deleted from the temporary storage unit 102, the second transport control The unit 122 can control the ADF 10i so that the next sheet is conveyed immediately after receiving the VD (time T2b, T2c).

  According to the second mode, as can be seen by comparing FIG. 8 with FIG. 6, the interval between the conveyance of two continuous sheets can be reduced, and the processing time can be shortened as a whole. If the size of the paper is known in advance, the next paper may be transported when a predetermined time has elapsed after the start of transporting the previous paper, without waiting for reception of the VD.

  In the first mode and the second mode, the image sensor 10j1 stops scanning after acquiring the image data of the blank image until the next sheet starts to pass through the reading slit 10j2. Also good.

[Third mode]
FIG. 9 is a time chart illustrating an example of the timing of each process in the third mode.

  In the first mode and the second mode, the determination by the copy inappropriate printed matter determination unit 103 is performed independently for each sheet. However, in the third mode, the determination is made by regarding a plurality of sheets as a series of images. Hereinafter, the difference from the first mode will be mainly described with reference to FIG. Description of points common to the first mode is omitted.

  In the third mode, the third transport control unit 123 controls the ADF 10i. The third conveyance control unit 123 executes the first sheet at the timing when a predetermined operation is performed, as in the first mode (time T3a).

  When the first sheet is sent out by the ADF 10i, the third conveyance control unit 123 does not depend on the VD, that is, does not synchronize with the VD, and has a predetermined interval (for example, an interval corresponding to two line areas). And the conveyance of the second sheet is started (time T3c). Similarly, conveyance of the third and subsequent sheets is started after a predetermined interval (time T3d) when the previous sheet is sent out, regardless of VD. It is desirable that the predetermined interval is less than four line regions.

  The image sensor 10j1 starts scanning when the first sheet starts to pass over the reading slit 10j2 (time T3b). The scanning is continued until the last sheet has passed over the reading slit 10j2. The unit for scanning is the unit of the line area as in the first mode. Therefore, when the sheet has not passed through the reading slit 10j2, a blank image is acquired.

  The copy inappropriate printed matter discriminating unit 103 generates up to the fifth band image 5B of the first sheet by combining the images of the five continuous line images 5L as in the first mode. And it discriminate | determines by the method similar to 1st mode.

  As shown in FIG. 7B, the sixth band image 5B is an image of the last two line images 5L on the first sheet, a blank image for two line areas, and a second sheet. It is generated by combining the images of the first line image 5L of the paper. However, the determination method for each divided image 5K of the band image 5B is the same as the determination method in the first mode.

  Similarly, the line image 5L at the end of the second sheet and the line image 5L at the beginning of the third sheet are combined as a band image 5B across the blank image, and discriminated in the same manner as in the first mode. Is done.

  According to the third mode, as can be seen by comparing FIG. 9 with FIG. 8, the interval between the conveyance of two consecutive sheets can be further narrowed than in the second mode. Specifically, the determination process for a part of the Nth sheet and the determination process for a part of the (N + 1) th sheet can be performed in parallel. Thereby, the processing time as a whole can be shortened compared to the third mode. In addition, the size of the paper need not be known in advance.

  Note that when the line image 5L of the last sheet is acquired, if there are not enough images to form the band image 5B, scanning is continued to obtain a blank image to compensate for this. When a blank image is obtained, the scan is finished.

[Fourth mode]
FIG. 10 is a time chart illustrating an example of the timing of each process in the fourth mode.

  In the fourth mode, as in the third mode, the determination is made by regarding a plurality of sheets as a series of images. Hereinafter, the difference from the first mode or the third mode will be mainly described with reference to FIG. Description of points common to the first mode or the third mode is omitted.

  In the fourth mode, the fourth transport control unit 124 controls the ADF 10i. The fourth transport control unit 124 executes the first sheet at the timing when a predetermined operation is performed as in the first mode (time T4a). When the first sheet is sent out by the ADF 10i, the conveyance of the second sheet is started (time T4b) regardless of VD and without any interval. Similarly, the transport of the second and subsequent sheets is started without leaving an interval regardless of VD when the previous sheet is sent out (time T4c).

  The timing at which the image sensor 10j1 starts scanning and the timing at which it ends are the same as in the third mode. The discrimination method by the copy inappropriate printed matter discrimination unit 103 is also the same as in the first mode and the third mode. However, since there is no interval between two consecutive sheets, as shown in FIG. 7C, the last line image 5L of the previous (Nth) sheet and the subsequent ((N + 1) th sheet). The leading line image 5L of the sheet is combined as a band image 5B without interposing a blank image.

  According to the fourth mode, as can be seen by comparing FIG. 10 with FIG. 9, the interval between the conveyance of two consecutive sheets can be further narrowed compared to the third mode, and the processing time as a whole can be reduced. Can be shortened.

  FIG. 11 is a diagram illustrating an example of the configuration of the mixed image 5K ′. FIG. 12 is a diagram illustrating an example of the reference table 6TL.

  According to the third mode and the fourth mode, one divided image 5K may include a part of an image read from each of two consecutive sheets. Hereinafter, each of the two continuous sheets is referred to as “front sheet” and “rear sheet” in the order of reading. Such a divided image 5K is referred to as “mixed image 5K ′”.

  When a specific feature is detected from the mixed image 5K ′, the copy inappropriate printed matter determination unit 103 may perform the following process.

  The copy inappropriate printed matter determination unit 103 calculates a ratio Ra and a ratio Rb that each of the image read from the front sheet and the image read from the rear sheet occupies the mixed image 5K ′.

  For example, the ratio Ra and the ratio Rb may be calculated as shown in FIG. Normally, after a predetermined time elapses after the trailing edge of the front sheet is sent out from the ADF 10i, the trailing edge passes over the reading slit 10j2. The copy inappropriate printed matter determination unit 103 pays attention to the band image 5B including the line image 5L read by the image sensor 10j1 when passing.

  Based on the speed of conveyance of the sheet by the ADF 10i and the time from when the trailing edge of the front sheet is fed out by the ADF 10i to when the trailing sheet starts to be fed out by the ADF 10i, the copy inappropriate printed matter discrimination unit 103 A length LN (number of lines) in the transport direction is calculated.

  Based on the position of the line image 5L read by the image sensor 10j1 at the time of passage in the focused band image 5B and the length LN in the transport direction of the blank portion, the copy inappropriate printed matter determination unit 103 , Ratio Ra and ratio Rb are calculated.

That is, when this position is the Xath from the front, the length LN is the length of Xb line regions, and the band image 5B is composed of Xc line images 5L,
Ratio Ra = (Xa / Xc) × 100 [%]
Ratio Rb = ((Xc−Xa−Xb) / Xc) × 100 [%]
It is.

  Then, the copy inappropriate printed matter discriminating unit 103 discriminates as follows based on the ratios Ra and Rb and the reference table 6TL shown in FIG.

  If the ratio Ra is equal to or greater than the threshold value α%, the copy inappropriate print matter determination unit 103 determines that the previous sheet is a copy inappropriate print material, and if the ratio Ra is less than the threshold value α%, the copy inappropriate print material determination unit 103 determines that the copy inappropriate print material is not suitable. Similarly, if the ratio Rb is equal to or greater than the threshold value α%, it is determined that the subsequent sheet is a copy inappropriate print material, and if it is less than the threshold value α%, it is determined that the copy paper is not a copy inappropriate print material.

  Alternatively, the copy inappropriate printed matter determination unit 103 determines that the front sheet is a copy inappropriate print if the ratio Ra is greater than the ratio Rb, and the rear sheet is a copy inappropriate print if the ratio Rb is greater than the ratio Ra. May be determined.

  Or, in principle, the copy inappropriate printed matter determination unit 103 determines that the paper with the larger ratio is a copy inappropriate printed matter, but if the difference between the two ratios is within a predetermined range, both sheets are copy inappropriate printed matter. May be determined.

  FIG. 13 is a flowchart for explaining an example of the overall processing flow based on the fraud prevention copy program 1P.

  Next, the overall processing flow of the image forming apparatus 1 by the fraud prevention copy program 1P will be described with reference to the flowchart of FIG.

  In the image forming apparatus 1, any one of the first to fourth modes is designated in advance. When the user sets a sheet to be copied in the ADF 10i and performs a predetermined operation, the CPU 10a executes processing according to the procedure shown in FIG. 13 based on the fraud prevention copy program 1P.

  The CPU 10a controls the ADF 10i so that the sheets are conveyed to the scanner 10j one by one in the designated mode (# 11).

  In parallel with the process of step # 11, the CPU 10a causes the scanner 10j to start scanning (# 12). Each time one line image 5L is read from the sheet by the ADF 10i (Yes in # 13), predetermined image processing is executed (# 14).

  In parallel with the processing of step # 11 and the processing of steps # 12 to # 14, the CPU 10a converts the band image 5B into a plurality of divided images 5K each time image data of one band image 5B is prepared (Yes in # 15). (# 16), and by determining whether or not each divided image 5K includes a specific feature, it is determined whether or not the sheet conveyed to the scanner 10j is a copy inappropriate print ( # 17).

  If the CPU 10a determines that the document is a specific document (Yes in # 18), the CPU 10a displays a warning message on the touch panel display 10e (# 19), and causes the paper feed unit 10k and the printer 10m to store the sheet. Copying is stopped (# 20). Copying not only this sheet but also subsequent sheets may be stopped.

  On the other hand, when a specific feature is not detected from any divided image 5K of any band image 5B including the image of this paper (No in # 18, Yes in # 21), that is, a specific feature in this paper If there is no item, the paper feed unit 10k and the printer 10m are controlled so as to copy the paper (# 22). At this time, the image data subjected to the image processing in step # 14 is used.

  If the line image 5L or the band image 5B to be processed remains (Yes in # 23), the process returns to step # 13 to execute the above-described processing.

  According to the third mode and the fourth mode of the present embodiment, a document composed of a plurality of sheets is scanned like one long sheet to determine whether or not copying is possible. Therefore, it is possible to determine whether or not such a document can be copied at a higher speed than before.

  In the present embodiment, the band image 5B is generated by combining the five line images 5L. However, the band image 5B may be generated by combining the two to four line images 5L. Alternatively, the band image 5B may be generated by combining six or more line images 5L.

  In the present embodiment, the band image 5B is divided into four divided images 5K, but may be divided into two, three, or five or more divided images 5K. Alternatively, the presence or absence of a specific feature may be checked without dividing the band image 5B.

  The first to fourth modes may be specified by specifying the processing speed. For example, the image forming apparatus 1 presents four modes of a low speed mode, a medium speed mode, a high speed mode, and an ultra high speed mode. When the low speed mode is specified, the first mode is set. When the medium speed mode is specified, the second mode is set. When the high speed mode is specified, the third mode is set. When the super-high speed mode is designated, the fourth mode is set.

  In the third mode, if the interval between two consecutive sheets is too large, the merit of the third mode cannot be obtained sufficiently. Therefore, in such a case, the processing may be performed by switching to the first mode or the second mode.

  In the present embodiment, when a paper that is an inappropriate copy is found, the copying of the paper is stopped. However, if all sheets are checked and it is determined that there is no sheet that is a copy-improper print, copying may be started.

  In addition, the configuration of the entire intranet 4 and the image forming apparatus 1 or each unit, processing contents, processing order, and the like can be changed as appropriate in accordance with the spirit of the present invention.

1 Image forming device (specific attribute presence check device)
10i ADF (conveying means)
10j2 Reading slit (reading position)
10j1 Image sensor (scanner)
103 Copy inappropriate printing matter discriminating section (discriminating means)
10a CPU (discriminating means)
8 Documents (M sheets)

Claims (9)

A specific attribute presence / absence check device for determining whether any of M sheets (however, M ≧ 2) has a specific attribute,
Conveying means for conveying the M sheets one by one so as to pass through a long reading position in the sub-scanning direction;
From the time when the first sheet of the M sheets starts passing through the reading position until the end of the passage of the Mth sheet, any of the M sheets is predetermined in the transport direction. A scanner that obtains a plurality of line images whose length in the transport direction is the predetermined length by photographing the reading position in the direction of the print surface of the paper each time
Judgment as to whether or not a combined image obtained by combining a plurality of continuous line images has a specific feature is started after combining the plurality of line images acquired by the scanner with the combined image. And determining means for determining that the sheet related to the combined image among the M sheets has the specific attribute;
A device for checking presence / absence of a specific attribute, characterized by comprising: The scanner acquires at least four line images for each of the M sheets,
The determination unit performs the determination for each of the combined images formed on each of the M sheets.
The specific attribute presence / absence check device according to claim 1. The specific attribute is prohibition of copying to other paper.
The specific attribute presence / absence check device according to claim 1 or 2. The conveying means conveys each of the M sheets at a predetermined interval;
The specific attribute presence / absence check device according to any one of claims 1 to 3. The conveying means conveys each of the M sheets without an interval;
The specific attribute presence / absence check device according to any one of claims 1 to 3. The determining means determines that the images of two consecutive sheets of the M sheets are included in the combined image and that the combined image has the specific feature. , Determining that the specific attribute is present on a sheet having a ratio of the image that is greater than or equal to a predetermined value;
The specific attribute presence / absence check device according to claim 1. The determining means determines that the images of two consecutive sheets of the M sheets are included in the combined image and that the combined image has the specific feature. , It is determined that the sheet having the larger percentage of the image has the specific attribute,
The specific attribute presence / absence check device according to claim 1. A specific attribute presence / absence determination method for determining whether any of M sheets (however, M ≧ 2) has a specific attribute,
The M sheets are conveyed one by one so as to pass through a long reading position in the sub-scanning direction,
From the time when the first sheet of the M sheets starts passing through the reading position until the end of the passage of the Mth sheet, any of the M sheets is predetermined in the transport direction. Each time the image is read, the plurality of line images whose length in the transport direction is the predetermined length are acquired by photographing the reading position in the direction of the printing surface of the paper.
It is determined whether or not there is a specific feature in the combined image obtained by combining the plurality of continuous line images, after the acquired plurality of line images are combined with the combined image. If there is, it is determined that the sheet related to the line image among the M sheets has the specific attribute.
A method for determining the presence / absence of a specific attribute. A computer program for determining whether any of M sheets (however, M ≧ 2) has a specific attribute in a computer that controls the conveying means and the scanner,
In the computer,
The conveying means is controlled so that the M sheets are conveyed one by one so as to pass through a reading position long in the sub-scanning direction of the scanner;
From the time when the first sheet of the M sheets starts passing through the reading position until the end of the passage of the Mth sheet, any of the M sheets is predetermined in the transport direction. The scanner scans the reading position in the direction of the printing surface of the paper each time the length of the scanner advances, so that a plurality of line images having the predetermined length in the transport direction are acquired. Control
The process of determining whether or not there is a specific feature in a combined image obtained by combining a plurality of continuous line images is started after combining the plurality of line images acquired by the scanner with the combined image ,
If the combined image has the specific feature, a process of determining that the sheet related to the combined image of the M sheets has the specific attribute is executed.
A computer program characterized by the above.

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