JP2009060271A - Image processing device - Google Patents

Abstract

[PROBLEMS] To prevent the discarding of blank data, which causes excessive automatic intervention, to reduce the blank data storage capacity, and to improve the reusability of blank data.
An image reading apparatus that obtains image data obtained by reading a document and digitizes it, a blank sheet detection apparatus that detects a blank sheet based on the image data, and a first image data process that processes image data from the image reading apparatus. Device 2, memory device 5 that stores image data and image data supplementary information, external I / F devices 11 and 12 that send and receive image data to and from external devices, bus control device 3 that connects each device, and blank paper When the image data is detected, the processing of the image data and the timing of the processing are set, and the blank paper processing mode setting means 10 and 16 to add to the auxiliary information, and the image data detected as the blank paper are stored in the memory device 5 together with the auxiliary information. And storing control means 6.
[Selection] Figure 1

Description

  The present invention relates to an image processing apparatus that reads an original image with an image reading apparatus, stores it in a memory apparatus, prints it out with a plotter, transmits it to a personal computer, facsimile, portable device, etc. The present invention also relates to an image processing apparatus having a so-called composite function that includes a plotter and performs copying and printing. The image processing apparatus of the present invention can be used in, for example, a scanner, a copying machine, and a facsimile. In particular, it is preferably used for a digital multi-function peripheral (MFP) that combines functions of a copying machine, a printer, a scanner, and the like.

Japanese Patent Application Laid-Open No. 5-48835 Japanese Patent Laid-Open No. 5-174075 Japanese Patent No. 3736562 JP 2003-163775 A Japanese Patent Application Laid-Open No. 2004-289496.

  With the development of image reading devices using line sensors composed of CCD photoelectric conversion elements and the like, and toner writing devices using laser irradiation, digital copying machines that create copies with image data digitized from analog copying machines have appeared. Since becoming a digital copier, compatibility with other devices that handle digital image data has increased, and in addition to functions as a copier, it has been combined with various functions such as facsimile functions, printer functions, scanner functions, It has come to be called a digital multifunction peripheral (MFP), not just a digital copier.

  Also related to MFP, such as increase in memory capacity such as HDD drive, cost reduction, speeding up and spread of communication technology such as network, improvement of CPU processing capability, technology related to digital image data (compression technology etc.) As the technology evolves, the functions that are installed are diversified. The importance of information value in business is already recognized, and it is required not only to convey information quickly and accurately, but also to convey it in an easy-to-understand manner and effectively. With the speeding up and widespread use of communication technology, increasing memory capacity, reducing costs, downsizing, and increasing the performance of PCs, new functions for efficiently handling information expressed in digital data have been provided. Therefore, it has been desired to provide and integrate new functions for MFPs that handle digital image data that is part of digital data.

  Also, in an apparatus that reads an image using an optical line sensor such as an MFP, a flat head method or line sensor that reads an image while placing an original on a reading glass and moving the light source and the line sensor at a constant speed is fixed. The flatbed method that projects the image onto the line sensor by moving the light source and mirror, and the sheet feed method (sheet through method) that reads the image while moving the document at a constant speed with the light source and line sensor fixed. is there. In the case of the flat head method, since the light source and the line sensor can be visually observed as they move under the platen glass, it can be easily determined that the surface to be read should be placed in the direction in contact with the platen glass when placing the document. . On the other hand, in the case of the sheet feed method, since the original placed on the platen is conveyed and reaches the front of the light source and the line sensor differs depending on the apparatus, the correct orientation (upward / It is difficult to judge (downward). As a result, it is easy to make an operation mistake such as placing the wrong side upside down and reading the back side of the surface to be read.

  For example, in the case of an application in which a copy image is printed immediately from a device that reads a document, such as a copy operation, the user also notices an operation error. However, as in the case of image accumulation and distribution by a scanner, a duplicate image of a document is transferred to another device and printed out as necessary, or information stored and stored as digital image data inside the MFP can be regenerated as necessary. In the case of an application that outputs (transfers, displays, and prints out), an operation error may not be noticed until an image pointed out by a receiving party or an accumulated image is reused. In both cases, since the original must be correctly placed and then the reading operation must be performed again, it takes time and effort. In particular, when paying a usage fee and using a copier, facsimile, scanner, etc., the cost is also doubled.

  For the purpose of preventing or reducing such user operation mistakes, it is determined whether or not the correct surface has been read using the image processing function while reading a document. Have devised several image processing apparatuses equipped with a function of warning the user. As a method for determining whether or not the correct side has been read using the image processing function, a method called “blank paper detection” is generally used. Specifically, for example, in the case of a single-sided original, character information and image information are used. Is printed on a single sheet of white paper, and the back side of the printed surface is likely to be entirely blank. Using these characteristics, when reading a document, the ratio of the white area included in the scanned document image is calculated, and if it exceeds a certain rate, it is determined that the back side of the document is being read. is there.

  For example, Patent Documents 1 to 5 propose a processing when a blank sheet is detected. Patent Document 1 describes an image reading device that detects whether an input page of a document is blank, reads the back side of the input document if it is blank, and outputs image information on the back side if there is image information on the back side. Yes. Further, Patent Document 2 describes an image filing apparatus that registers only a document surface on which an image exists when registering a series of documents in which a double-sided document and a single-sided document are mixed. Patent Document 3 describes an image data processing apparatus that records only a page number when it is determined to be a blank document and outputs the others in a blank state. Patent Document 4 describes a facsimile apparatus that detects blank pages by high-density reading, accumulates them in an image memory at a set density if no blank pages are detected, and discards read data when blank pages are detected. Patent Document 5 describes a digital multi-function peripheral that, when detecting a blank sheet, displays a warning that the sheet is blank and rereads it according to an instruction input by an operator to replace the accumulated pages.

  These perform blank sheet detection for all originals to be read, and are excessive work when checking whether the original is a single-sided original.

  In addition, when the blank page is detected and the read information of the corresponding page is discarded, excessive automatic intervention may occur. For example, as shown in FIG. 8, even when a blank sheet is purposely inserted to insert a break or the like, a problem may occur in which detection is performed and necessary information is deleted.

  The first object of the present invention is to prevent the discarding of blank page reading data, which is excessive automatic intervention, and the second object is to reduce the storage capacity when storing the blank page reading data. A third object is to increase the reusability of read data.

(1) an image reading device (1) for reading a document and obtaining digitized image data;
A blank sheet detecting device (17) for detecting a blank sheet based on the image data;
A first image data processing device (2) for processing image data from the image reading device;
A memory device (5) for storing image data and incidental information of the image data;
An external I / F device (11, 12) for transmitting / receiving image data to / from an external device;
A bus control device (3) for connecting the above devices;
When the blank page detection means detects blank page, set the processing of the image data detected as blank page, and the timing of the processing, and add blank page processing mode setting means (10, 16) to the auxiliary information;
Control means (6) for storing the image data detected by the blank sheet detection means as blank sheets in the memory device (5/7) together with the auxiliary information;
An image processing apparatus comprising:

  In addition, in order to make an understanding easy, the code | symbol of the response | compatibility or the equivalent element of the Example shown in drawing and mentioned later in parentheses was added for reference as an example. The same applies to the following.

  By setting using the blank paper processing mode setting means (10, 16), image data for blank page reading can also be stored and stored in the memory device. With the accompanying information, it is possible to determine the processing of image data detected as blank paper and the timing of the processing.

  (2) When the blank sheet detecting means detects that the blank information is blank, the control means uses the first image data processing device to perform the processing of the supplementary information when the timing of the supplementary information is “accumulating”. The image processing device according to (1), wherein the image data is stored in the memory device after being added to the image data detected as blank paper.

  According to this, if the processing at the time of accumulation is resolution conversion to low resolution that reduces the amount of image data and / or color conversion that reduces color component image data, the amount of blank image data accumulated in the memory device can be reduced. .

  (3) When the blank sheet detecting means detects a blank sheet, the control means displays a screen for displaying the supplementary information and accepting the change on the display, and if there is a change, the supplementary information is displayed based on the supplementary information after the change. When the time of the information is “when stored”, the first image data processing device is used to store the processing of the auxiliary information in the memory device after adding it to the image data detected as blank paper. The image processing apparatus according to 2).

  When an image read based on the determination result of the blank page is determined to be blank and accumulated, the user can easily confirm and change the blank image data processing.

(4) The image processing apparatus further includes an image writing device that prints image data on a transfer sheet, and a second image data processing device that processes the image data read from the memory device,
When the image data is read from the memory device, the control means uses the second image data processing device for the image data read from the memory device when the time of the supplementary information is “delivery time”. The image processing apparatus according to (1), wherein the processing of incidental information is added.

  Even when image data amount reduction processing is not performed when storing blank image data, it is possible to reduce the amount of distribution data when reusing data read from the memory device, thereby improving reusability.

  (5) When the image data is read from the memory device, if the time of the supplementary information is “delivery time”, the control means displays a screen indicating the supplementary information and accepts the change on the display, and if there is a change, Based on the supplementary information after the change, if the time of the supplementary information is “during delivery”, the second image data processing device is used to add the processing of the supplementary information to the image data detected as blank paper The image processing apparatus according to (4) above.

  When the image data stored in the memory device is read and reused, the user can easily confirm and change the processing of the blank image data.

  (6) The image processing device according to any one of (1) to (5), wherein the processing includes resolution conversion to low resolution. By performing resolution conversion of blank image data to low resolution, the amount of blank image data is reduced, the memory storage amount is reduced, or the transfer data amount is reduced.

  (7) The image processing apparatus according to any one of (1) to (5), wherein the processing includes color conversion that is reduction of color component image data. By performing color conversion to reduce the number of color component image data to the blank image data, the blank image data amount is reduced, the memory storage amount is reduced, or the transfer data amount is reduced.

  (8) The image processing device according to any one of (1) to (5), wherein the blank paper processing mode setting unit includes an operation board having a display of the image processing device. The user can set or change incidental information by visually recognizing the display on the display of the operation board and performing an input operation.

  (9) The image processing apparatus according to any one of (1) to (5), wherein the blank sheet processing mode setting unit includes a personal computer connected to the image processing apparatus and loaded with image processing apparatus operation application software. . The user can set or change the incidental information by visually recognizing the display on the personal computer display and performing an input operation. The convenience of the usage environment is improved.

  Other objects and features of the present invention will become apparent from the following description of embodiments with reference to the drawings.

  FIG. 1 shows the overall configuration of a digital image processing apparatus MFP according to an embodiment of the present invention. The reading device 1 includes a line sensor composed of a CCD (photoelectric conversion element), an A / D converter, and a drive circuit thereof, and a digital image of RGB each having 8 bits from grayscale information obtained by scanning a set original. Generate and output data. The image data is executed by the blank sheet detection device 17 using a blank sheet detection algorithm, and the detection result is notified to the CPU 6. The first image data processing device 2 performs a process for unifying the digital image data from the reading device 1 to a predetermined characteristic and outputs it. The characteristics to be unified are characteristics suitable for changing the output destination when image data is stored in the MFP and then reused. The bus control device 3 is a data bus control device that exchanges various data such as image data and control commands necessary in the digital image processing device, and also has a bridge function between a plurality of types of bus standards. In this embodiment, the first image data processing device 2, the second image data processing device 4, and the CPU 6 are connected by a PCI-Express bus and the HDD 5 by an ATA bus. The second image data processing device 4 subjects the digital image data whose characteristics predetermined by the first image data processing device 2 are unified to image processing suitable for an output destination designated by the user and outputs the result. The HDD 5 is a large-sized storage device for storing electronic data that is also used in a desktop personal computer, and mainly stores digital image data and accompanying information of the digital image data in the digital image processing apparatus. In this embodiment, an ATA bus-connected hard disk standardized by expanding IDE is used. The CPU 6 is a microprocessor that controls the entire control of the digital image processing apparatus. In this embodiment, an integrated CPU in which an additional function is added to a single CPU core that has been widespread in recent years is used. In this embodiment, a PMC RM11100 is used which has a CPU integrated with a general-purpose standard I / F connection function and a bus connection function using a crossbar switch.

  The memory 7 stores data to be temporarily exchanged in order to absorb a speed difference when bridging between a plurality of types of bus standards and a processing speed difference between connected components themselves. It is a volatile memory that temporarily stores programs and intermediate processing data when controlling the apparatus. Since the CPU 6 is required to perform high-speed processing, the system is activated by a boot program stored in the ROM 14 at normal activation, and thereafter, the processing is performed by a program developed in the memory 7 that can be accessed at high speed. In this embodiment, a standardized DIMM used for a personal computer is used. When the plotter I / F device 8 receives CMYK digital image data sent via the general-purpose standard I / F integrated with the CPU 6, the plotter I / F device 8 performs a bus bridge process to output to the dedicated I / F of the plotter device 9. . The general-purpose standard I / F used in this embodiment is a PCI-Express bus. When the plotter device 9 receives the digital image data composed of CMYK, the plotter device 9 outputs the received image data on the transfer paper using an electrophotographic process using a laser beam. S. B. Reference numeral 13 denotes a chip set used for a personal computer, which is a general-purpose electronic device called South Bridge, which is a bus often used to construct a CPU system mainly including a PCI-Express and an ISA bridge. The bridge function is a general-purpose circuit, and in this embodiment, the ROM 14 is bridged. The ROM 14 is a memory for storing a program (including boot) when the CPU 6 controls the digital image processing apparatus MFP.

  The operation panel 10 is an interface between the digital image processing apparatus and the user, and is composed of an LCD (Liquid Crystal Display) and a key switch. Detects key switch input. In this embodiment, the CPU 6 is connected via the PCI-Express bus. The line I / F device 11 is a device for connecting a PCI-Express bus and a telephone line, and this apparatus enables the digital image processing apparatus MFP to exchange various data via the telephone line. The FAX 15 is a normal facsimile, and exchanges image data with the digital image processing apparatus MFP via a telephone line. The external I / F device 12 is a device that connects a PCI-Express bus and an external device. This device enables the digital image processing apparatus MFP to exchange various data with the external device. In this embodiment, a network (Ethernet (registered trademark)) is used for the connection I / F. That is, the digital image processing apparatus MFP is connected to the network via the external I / F apparatus 12. The PC 16 is a so-called personal computer, and the user performs various controls and input / output of image data with respect to the digital image processing apparatus MFP via application software and drivers installed in the personal computer.

  FIG. 2 shows processing functions of the first image data processing device 2. The γ conversion 30 unifies the brightness of the RGB image data received from the reading device 1 to a predetermined characteristic. In this embodiment, the lightness is converted into a linear characteristic. The filter process 31 unifies the sharpness of the RGB image data to a predetermined characteristic. In this embodiment, when the reference chart is scanned, conversion is performed so as to obtain a predetermined MTF characteristic value for each number of lines. The color conversion 32 unifies the colors of the RGB image data into predetermined characteristics. In this embodiment, conversion is performed so that the color space becomes an Adobe-RGB color space defined by Adobe. At the time of detecting a blank page, the operation panel is linked with the color conversion of the supplementary information for blank paper set according to the input screen shown in FIG. The color conversion of the supplementary information for blank paper set (changed) in accordance with the input screen shown in FIG. 6 displayed on the LCD of 10 (and / or the display of the PC 16) is set to gray scale (monochrome halftone) or monochrome binary. Although there is a high possibility, when such a setting is present and blank paper is detected, the color conversion 32 performs color conversion to gray scale or monochrome binary.

  The scaling process 33 unifies the resolution of the RGB image data to a predetermined characteristic. In this embodiment, the resolution is converted to 600 dpi. Also in the resolution, at the time of blank page detection, the resolution setting of the supplementary information for blank page set according to the input screen shown in FIG. 5 before the start of image reading for reducing the amount of image data, or linked with the detection of blank page There is a high possibility that the resolution setting of the blank supplementary information set (changed) in accordance with the input screen shown in FIG. 6 displayed on the LCD (and / or the display of the PC 16) of the operation panel 10 is set to 100, 72, or 50 dpi. However, when such a setting is made and blank paper is detected, the scaling process 33 performs resolution conversion to 100, 72, or 50 dpi.

  When the bus control device 3 receives the RGB image data from the first image data processing device 2, the bus control device 3 stores it in the memory 7 via the CPU 6. The RGB image data stored in the memory 7 is transmitted to the HDD 5 via the CPU 6 and the bus control device 3 and stored (stored) in the HDD 5. Note that when storing in the HDD 5, the result of blank page detection is also stored together with the accompanying information.

  FIG. 3 shows a processing block diagram of the second image data processing device 4, and the operation at this time will be described in order. The filter processing 50 corrects the sharpness of the RGB image data so that the reproducibility when output to the plotter device 9 is improved. Specifically, sharpening / smoothing processing is performed according to desired mode information. For example, in the character mode, a sharpening process is performed to make the character clear / clear, and in the photo mode, a smoothing process is performed to smoothly express gradation. When the color converter 51 receives 8-bit RGB data, it converts the data into CMYK 8-bit data, which is a color space for the plotter device. At this time, the saturation is also adjusted according to the mode information desired by the user. In this embodiment, there is also a function for converting each color into 8 bits for each color in a general sRGB color space in scanner distribution, and a color conversion function for converting color image data into grayscale or monochrome binary. The scaling process 52 converts the resolution of the CMYK image data according to the reproduction performance of the plotter device 9. In the present embodiment, since the performance of the plotter 9 is 600 dpi output and the resolution of CMYK image data that is not blank paper is also 600 dpi, no particular conversion is performed. The scaling process 52 further has a function of converting the resolution of the sRGB image data into the resolution transmitted / received by the designated scanner distribution. In this embodiment, the resolution is converted into main scanning: 200 dpi × sub-scanning: 200 dpi. There is also a resolution conversion function that sets the resolution to 100, 72, or 50 dpi according to blank paper detection. In the gradation processing 53, when 8 bits of CMYK are received, gradation number conversion processing according to the gradation processing capability of the plotter device 9 is performed. In this embodiment, the number of gradations is converted into 2 bits for each of CMYK using an error diffusion method which is one of pseudo halftone processes.

  FIG. 4 shows an outline of image reading control of the CPU 6. The user sets an original on the reading apparatus 1, makes a setting such as a desired reading processing mode and a setting for detecting a blank page (FIG. 5), and then inputs reading start on the operation panel 10. The input screen displayed on the LCD of the operation panel 10 for setting the reading processing mode and the like has an item of “page setting when detecting a blank page”. The panel 10 pops up an input screen PUB1 of “page setting when detecting a blank page” shown in FIG. 5 on the LCD. The defaults of this input screen are processing time: “when stored”, color conversion: “grayscale”, and resolution: “72 dpi”, but can be changed here. Even if it is changed or not changed, the information being displayed is not set unless the “OK” key is operated. When the “Confirm” key or the “Return” key is operated, the input screen PUB1 disappears and the screen returns to the original input screen for setting the reading processing mode and the like.

  When the user presses the “Start” button on the operation panel 10, the CPU 6 starts reading the document by the reading device 1 in accordance with the reading start control command data (S 1, S 2). The reading device 1 starts reading an original image and outputs digital image data of 8 bits for each of RGB, and the first image data processing device 2 performs image data processing in the reading processing mode set before the reading start instruction. Then, the data is stored in the memory 7 via the bus control device 3, and simultaneously, the resolution is converted to 100 dpi and written in the image memory in the first image data processing device 2.

  The blank sheet detection device 17 detects whether or not the read document is blank based on the image data output from the reading device 1 to the first image data processing device 2, and at the end of reading the document, the document is blank. A blank paper detection signal indicating whether or not is generated. If the blank sheet detection signal represents a non-blank sheet (not a blank sheet), the CPU 6 displays the image data stored in the memory 7 as an image file No. And page no. Is attached to the HDD 5 with accompanying information including However, if the blank sheet detection signal indicates “blank sheet”, the CPU 6 displays on the LCD of the operation panel 10 a blank sheet as shown in FIG. A notification screen PUB2 having an input function indicating that the process based on the “page setting” is executed is displayed in a pop-up (S5). The content of “page setting for blank page detection” on the notification screen PUB2 is set before the start of document reading, or is default data when there is no setting before the start of document reading.

  Here, if the user makes a change if necessary and operates the confirmation key, the CPU 6 stores the current time stored in the memory 7 when the processing time in the “page setting for blank page detection” is “when stored”. Instead of discarding the image data of the read original, the first image data processing device 2 converts the image data whose resolution has been converted to 100 dpi of the image memory of the first image data processing device 2 into the “page setting at the time of detecting a blank page”. ”In the“ color conversion ”designation mode and converted to the designated resolution of“ resolution ”and stored in the memory 7 and the image file No. And page no. The supplementary information including “” is added to the content of the “page setting at the time of blank page detection”, and is stored in the memory 7 in association with the blank page image data (S6). Then, the data in the memory 7 is stored in the HDD 5.

  When the user operates the confirmation key, if the processing time in the “page setting at the time of blank page detection” is “at the time of distribution”, the image data stored in the memory 7 is the image file No. And page no. Attached information including the contents of “page setting at the time of detecting a blank page” is added to the accompanying information including “A” and stored in the HDD 5 (S6).

  When the copy is a designated original image reading, when the accumulation in the HDD 5 is finished, the accumulated image data and the accompanying information are read out from the HDD 5, and an image for printout using the second image data 4 is read out. Data processing and storage in the memory 7 are performed. At this time, if the accompanying information includes the content of “page setting when detecting a blank page”, the CPU 6 performs processing based on “page setting when detecting a blank page” in the accompanying information shown in FIG. A notification screen PUB3 having an input function representing execution is displayed as a pop-up. The content of “page setting for blank page detection” on the notification screen PUB3 is set before the start of document reading or at the time of accumulation, or is default data when there is no setting. If the user makes a change if necessary and operates the confirm key, the CPU 6 refers to the data of “processing time” in the “page setting at the time of detecting a blank page”, and this is “at the time of distribution”. ”, The second image data processing device 4 is used to convert the image data read from the HDD 7 to the resolution specified for the mode and resolution specified for the color conversion of“ page setting at the time of blank page detection ”. In other words, image processing for printout including “blank paper processing” is performed and stored in the memory 7. The image data is read from the memory 7 and output to the plotter I / F device 8 for printing out by the plotter 9.

  In the accompanying information, there is the content of “Page setting when detecting a blank page”, but when the data of “Processing time” is “When accumulating”, the content of “Page setting when detecting a blank page” is included in the accompanying information. If there is no (no blank paper), the blank paper processing is not added.

  When the document image reading is designated for fax transmission, the image data stored in the HDD 5 is read, converted into image data for fax transmission by the second image data processing device 4 and stored in the memory 7, and The data is read from the memory 7 and sent to the line via the line I / F device 11. In this case, the processing when there is the content of “page setting at the time of blank page detection” for designating “at the time of distribution” in the supplementary information is the same as in the case of the copy described above.

  In the case of document image reading in which scanner distribution for transmitting a document image to a PC or portable device is designated, the image data stored in the HDD 5 is read and the distribution destination is designated by the second image data processing device 4 or The image data is converted into predetermined mode image data, stored in the memory 7, read out from the memory 7, and sent to the delivery destination via the external I / F device 12. In this case, the processing when there is the content of “page setting at the time of blank page detection” for designating “at the time of distribution” in the supplementary information is also the same as in the case of the copy described above.

  As described above, it is possible to check whether or not there is a blank document for the image data stored in the digital image processing apparatus MFP, and compression (color conversion, resolution conversion) for blank page processing is performed at the time of storage. Even when there is not, it can be confirmed whether or not there is a blank document at the time of reuse, that is, at the time of reading from the HDD 5, so that the output contents can be easily confirmed. Next, each operation of the MFP will be described more specifically.

1. Copying operation A user sets an original on the reading apparatus 1 and performs setting of a desired mode and input of copy start on the operation panel 10. The operation panel 10 converts the information input from the user into control command data inside the device and issues it. The issued control command data is notified to the CPU 6 via the PCI-Express bus. The CPU 6 executes a copy operation process program in accordance with the copy start control command data, and sequentially performs settings and operations necessary for the copy operation.

  The RGB 8-bit digital image data obtained by scanning the document with the reading device 1 is subjected to blank page detection by the blank page detection device 17 and is unified with predetermined characteristics by the first image data processing device 2. To the bus control device 3. When the bus control device 3 receives the RGB image data from the first image data processing device 2, the bus control device 3 stores it in the memory 7 via the CPU 6. When the blank sheet detection signal of the blank sheet detection device 17 becomes “blank” at the end of reading of the document, the notification screen shown in FIG. 6 is displayed, and when there is a confirmation input and there is “accumulation” in the incidental information, The image data processing apparatus 2 performs the characteristic unification process by adding the above-described “blank process” to the 100 dpi image data stored in the image memory in the apparatus 2, and then stores it in the memory 7. accumulate. That is, the image data in the memory 7 is rewritten to the one added with “blank paper processing”. Then, the image data in the memory 7 is stored in the HDD 5.

  Next, the RGB image data accumulated from the HDD 5 is read out and sent to the second image data processing device 4 via the CPU 6 and the bus control device 3. The second image data processing device 4 converts the received RGB image data into CMYK image data for plotter output. When the bus control device 3 receives the CMYK image data from the second image data processing device 4, it passes through the CPU 6. And stored in the memory 7. When reading from the HDD 5, if there is data “at the time of distribution” in the accompanying information, the CPU 6 displays the notification screen shown in FIG. 7. If there is a confirmation input and the accompanying information also has “at the time of delivery”, the HDD 5 In the second image data processing device 4, the above-mentioned “blank paper processing” is added to the image data read out from the image data to convert it into CMYK image data, which is stored in the memory 7.

  Next, the CMYK image data stored in the memory 7 is sent to the plotter device 9 via the CPU 6 and the plotter I / F device 8. The plotter device 9 outputs the received CMYK image data to transfer paper, and a copy of the document is generated.

2. Fax transmission operation A user sets an original on the reading device 1 and performs setting of a desired mode and the like and input of fax start on the operation panel 10. The operation panel 10 converts the information input from the user into control command data inside the device and issues it. The issued control command data is notified to the CPU 6 via the PCI-Express bus. The CPU 6 executes a fax transmission operation process program in accordance with the control command data for starting fax transmission, and sequentially performs settings and operations necessary for the fax transmission operation.

  The RGB 8-bit digital image data obtained by scanning the document with the reading device 1 is subjected to blank page detection by the blank page detection device 17 and is unified with predetermined characteristics by the first image data processing device 2. To the bus control device 3. When the bus control device 3 receives the RGB image data from the first image data processing device 2, the bus control device 3 stores it in the memory 7 via the CPU 6. When the blank sheet detection signal of the blank sheet detection device 17 becomes “blank” at the end of reading of the document, the notification screen shown in FIG. 6 is displayed, and when there is a confirmation input and there is “accumulation” in the auxiliary information, The image data processing apparatus 2 performs the characteristic unification process by adding the above-described “blank process” to the 100 dpi image data stored in the image memory in the apparatus 2, and then stores it in the memory 7. accumulate. That is, the image data in the memory 7 is rewritten to the one added with “blank paper processing”. Then, the image data in the memory 7 is stored in the HDD 5.

  Next, the RGB image data stored in the HDD 5 is sent to the second image data processing device 4 via the CPU 6 and the bus control device 3. The second image data processing device 4 converts the received RGB image data into monochrome binary image data for fax transmission. When the bus control device 3 receives the monochrome binary image data from the second image data processing device 4, it stores it in the memory 7 via the CPU 6. When reading from the HDD 5, if there is data “at the time of distribution” in the accompanying information, the CPU 6 displays the notification screen shown in FIG. 7. If there is a confirmation input and the accompanying information also has “at the time of delivery”, the HDD 5 In the second image data processing device 4, the above-described “blank paper processing” is added to the image data read out from the image data to convert it into monochrome binary image data, which is stored in the memory 7.

  Next, the monochrome binary image data stored in the memory 7 is sent to the line I / F device 11 via the CPU 6. The line I / F device 11 transmits the received monochrome binary image data to the FAX 15 connected via the line.

3. Scanner Distribution A user sets a document on the reading device 1 and performs setting of a desired mode and the like and input of scanner distribution start on the operation panel 10. The operation panel 10 converts the information input from the user into control command data inside the device and issues it. The issued control command data is notified to the CPU 6 via the PCI-Express bus. The CPU 6 executes a scanner distribution operation process program in accordance with the scanner distribution start control command data, and the scanner sequentially performs settings and operations necessary for the distribution operation.

  The RGB 8-bit digital image data obtained by scanning the document with the reading device 1 is unified with predetermined characteristics by the first image data processing device 2 after the blank paper detection device 17 detects the blank paper. And sent to the bus control device 3. When the bus control device 3 receives the RGB image data from the first image data processing device 2, the bus control device 3 stores it in the memory 7 via the CPU 6. When the blank sheet detection signal of the blank sheet detection device 17 becomes “blank” at the end of reading of the document, the notification screen shown in FIG. 6 is displayed, and when there is a confirmation input and there is “accumulation” in the incidental information, The image data processing apparatus 2 performs the characteristic unification process by adding the above-described “blank process” to the 100 dpi image data stored in the image memory in the apparatus 2, and then stores it in the memory 7. accumulate. That is, the image data in the memory 7 is rewritten to the one added with “blank paper processing”. Then, the image data in the memory 7 is stored in the HDD 5.

  Next, the RGB image data stored in the HDD 5 is sent to the second image data processing device 4 via the CPU 6 and the bus control device 3. The second image data processing device 4 converts the received RGB image data into image data for scanner distribution (RGB multi-value, gray scale, monochrome binary, etc.). When the bus control device 3 receives the image data from the second image data processing device 4, it stores it in the memory 7 via the CPU 6. When reading from the HDD 5, if there is data “at the time of distribution” in the accompanying information, the CPU 6 displays the notification screen shown in FIG. 7. If there is a confirmation input and the accompanying information also has “at the time of delivery”, the HDD 5 The second image data processing device 4 adds the above-described “blank paper processing” to the image data read out from the image data and stores the image data in the memory 7.

  Next, the image data stored in the memory 7 is sent to the external I / F device 12 via the CPU 6. The external I / F device 12 transmits the received image data to the PC 16 connected via the network.

  In the scanner distribution, the filter processing 50 of the second image data processing device 4 shown in FIG. 3 corrects the sharpness of the RGB image data so that the reproducibility in scanner distribution is improved. Specifically, sharpening / smoothing processing is performed according to desired mode information. For example, in the character mode, a sharpening process is performed to make the character clear / clear, and in the photo mode, a smoothing process is performed to smoothly express gradation. When the color conversion 51 receives 8-bit RGB data, it converts it into a designated color space. In this embodiment, each color is converted into 8 bits in the sRGB color space which is common in scanner distribution. The scaling process 52 converts the resolution of the sRGB image data to the resolution transmitted and received by the designated scanner distribution. In this embodiment, the main scanning is converted to 200 dpi × sub-scanning: 200 dpi. When using information detected by the second image data processing device 4 as a blank page, the resolution may be set in advance in FIG. In the gradation processing 53, gradation number conversion processing is performed according to the gradation processing capability transmitted / received by the designated scanner distribution.

4). Distribution after copying After the copying operation is completed, the image file of the copy can be designated from the operation panel 10 or the PC, and printing, facsimile transmission, or distribution to the PC or portable device can be performed. When the user designates an image file or a page in the image file and instructs printing, the CPU 6 reads out the image data from the HDD 5 and prints out the image data. This content is the same as in the case of the printout by the plotter 9 described above, except for the original reading operation and processing by the reading device 1. When the user designates an image file or a page in the image file and instructs facsimile transmission, the CPU 6 reads image data from the HDD 5 and performs facsimile transmission. This content is the same as in the case of facsimile transmission described above, except for the original reading operation and processing by the reading device 1. When the user designates an image file or a page in the image file and instructs distribution to a PC or a form device, the CPU 6 reads out image data from the HDD 5 and performs distribution operation. This content is the same as in the case of the scanner distribution described above, except for the original reading operation and processing by the reading device 1.

5). Setting relating to resolution and storing / storing operation in HDD In the copy operation, the image reading is 600 dpi, and in the scanner operation, depending on the situation of the distribution destination, 200 dpi is used in this embodiment. In such a situation, it is not necessary to have the same resolution in a page detected as a blank page. Therefore, in this embodiment, as shown in FIGS. 5 to 7, the resolution can be separately set for the page detected as blank paper from the operation panel 10 or the PC. This resolution conversion processing is processed (33) in advance by the first image data processing device 2 and stored in the HDD 5, or there is no difference in resolution until it is stored / stored, but additional information related to blank sheet detection is also included. The second image data processing device 4 performs resolution conversion processing (52) at the time of reuse.

  As a scaling process method for performing resolution conversion, a method of digitally interpolating (including thinning) from a peripheral pixel with respect to a known target position is adopted. For example, the scaling process 33 of the first image data processing device 2 converts the image data to a designated resolution according to the resolution setting of the blank paper detection result. As a conversion method in this embodiment, a method of digitally calculating interpolation from surrounding pixels with respect to a known target position is adopted. As a result, it is possible to compress the storage capacity of the data stored / stored in the digital image processing apparatus MFP, and even when the data is not compressed during storage, The capacity can be reduced and the reusability can be improved.

6). Color Settings and HDD Storage / Save Operations The digital image processing apparatus MFP can separately set a color mode for a blank page detected. Each function is set to color or monochrome according to the manuscript or user designation. For example, when the copy operation mode is set to color, it is not necessary to acquire data in the same mode even for a page detected as blank. Therefore, in this embodiment, the color mode (color conversion) can be separately set for the page detected as blank paper from the operation panel 10 or the PC. This color conversion processing is not different until the first image data processing apparatus 2 performs processing (32) in advance and then stores / saves it in the HDD 5 or stores / saves it. The second image data processing device 4 performs color conversion processing (51) during storage and storage together. Monochrome settings include gray: 8-bit grayscale mode, monochrome binary monochrome mode, etc. By setting the monochrome binary mode, the capacity during storage or distribution can be further compressed. . As a result, it is possible to compress the storage capacity of the data stored / stored in the digital image processing apparatus MFP, and even when the data is not compressed during storage, The capacity can be reduced and the reusability can be improved.

  Screens representing “page setting when detecting a blank page” shown in FIGS. 5 to 6 are used to set (specify) how to perform image processing when a blank page is detected. In the setting, the user specifies on the screen how to change the timing of image processing and how to set the color conversion and resolution conversion of the image processing. This screen may be displayed on the operation panel 10 or may be displayed on a PC via a network. When accumulating image data, the user operates on the operation panel 10 because the operation is performed on the MFP body, and when performing a distribution operation to reuse the accumulated / saved image, On the other hand, if the setting is made on the PC for taking over, the convenience is good.

1 is a block diagram illustrating a configuration of a digital multi-function peripheral MFP according to one embodiment of the present invention. FIG. It is a block diagram which shows the structure of the 1st image data processing apparatus 2 shown in FIG. It is a block diagram which shows the structure of the 2nd image data processing apparatus 4 shown in FIG. It is a flowchart which shows the outline | summary of the image reading control of CPU6 shown in FIG. FIG. 3 is a plan view of an input screen PUB1 for setting processing when the blank sheet detection device 17 illustrated in FIG. 1 detects a document to be scanned as a blank sheet. It is a top view of notification screen PUB2 when the blank sheet detection apparatus 17 shown in FIG. 1 detects a blank sheet by image reading. It is a top view of notification screen PUB3 when the image data read from HDD5 shown in FIG. 1 is a blank thing. FIG. 6 is a plan view of an image reading target document group in which a blank sheet is inserted for image separation.

Explanation of symbols

PUB1: Input screen for setting processing when blank page is detected PUB2: Notification screen displayed when blank page is detected in image reading PUB3: Notification screen displayed when image data read from HDD 5 is blank

Claims (9)

An image reading device for obtaining image data obtained by reading a document and digitizing it;
A blank sheet detecting device for detecting a blank sheet based on the image data;
A first image data processing device for processing image data from the image reading device;
A memory device for storing image data and accompanying information of the image data;
An external I / F device that transmits and receives image data to and from an external device;
A bus control device for connecting the above devices;
When the blank sheet detecting means detects a blank sheet, processing of image data detected as a blank sheet, and a blank sheet processing mode setting section for setting the timing of the processing and adding to the auxiliary information;
Control means for storing image data detected by the blank sheet detection means as blank sheets in the memory device together with the auxiliary information;
An image processing apparatus comprising:   When the blank sheet detecting means detects that the blank sheet is blank, the control means uses the first image data processing device to perform the processing of the supplementary information as blank sheet. The image processing apparatus according to claim 1, wherein the image processing apparatus accumulates the detected image data in the memory device.   When the blank sheet detecting means detects a blank sheet, the control means displays a screen for displaying the supplementary information and accepting the change on the display, and if there is a change, based on the supplementary information after the change, the control information 3. The process according to claim 2, wherein when the time is “accumulating”, the first image data processing device is used to store the processing of the auxiliary information in the memory device after adding it to the image data detected as blank paper. Image processing apparatus. The image processing apparatus further includes an image writing device that prints image data on transfer paper, and a second image data processing device that processes the image data read from the memory device,
When the image data is read from the memory device, the control means uses the second image data processing device for the image data read from the memory device when the time of the supplementary information is “delivery time”. The image processing apparatus according to claim 1, wherein the process of incidental information is added.   When the image data is read from the memory device, the control means displays on the display a screen for displaying the supplementary information and accepting the change if the time of the supplementary information is “delivery time”. The processing of the supplementary information is added to the image data detected as blank paper using a second image data processing device based on the supplementary information, when the time of the supplementary information is “during delivery”. 5. The image processing apparatus according to 4.   The image processing apparatus according to claim 1, wherein the processing includes resolution conversion to low resolution.   The image processing apparatus according to claim 1, wherein the processing includes color conversion that is reduction of color component image data.   The image processing apparatus according to claim 1, wherein the blank paper processing mode setting unit includes an operation board having a display of the image processing apparatus.   6. The image processing apparatus according to claim 1, wherein the blank paper processing mode setting unit includes a personal computer loaded with image processing apparatus operation application software connected to the image processing apparatus.

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