JP2006203632A - Image processor and image processing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image processor capable of transmitting a read original read by a reader in such a configuration that a receiving side easily reads and handles the read original in the case of transmitting the read original by e-mail, etc., and an image processing method. <P>SOLUTION: The image processor is provided, in the case of transmitting the read image, with a means for detecting that a scan original is an original composed of a plurality of blocks from a certain optional area, a means for dividing the original into page units when detecting that the original is composed of the plurality of blocks, a means for performing the rotation processing of divided image data, a means for transmitting the data divided into the page units and a means capable of selecting whether to divide the data in a page unit. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an image processing apparatus, an information processing apparatus, and an image processing method provided with an image reading apparatus, and in particular, is connected to a network and converts image data read from the image reading apparatus into a file format, e-mail, etc. The present invention relates to an image processing apparatus and an image processing method suitable for transmission as an attached file.

  Conventionally, when reading a document in which a plurality of pages are laid out within one page, a print medium in which a plurality of sheets are bound, such as a book, or the like, an image reading device that can automatically read or read a book ( An image scanner is being used.

There are image processing devices that can send scanned documents as attachments via e-mail or by file transfer, etc., and scanning of documents starts by specifying a destination and starting a transmission and transfer operation Then, the read data is converted into a file and transmitted as a file (see, for example, Patent Document 1).
JP-A-9-205513

  However, in the conventional image reading apparatus as described above, when reading a document in which a plurality of pages are laid out within one page or a print medium in which a plurality of sheets are bound, the reading is performed when the document is converted into a file and transmitted. Even if the obtained image is composed of a plurality of pages, transmission and transfer are performed without considering them.

  That is, for example, a two-page document image obtained by reading a document in which two pages are laid out on one page of paper is divided into page units, and each of those pages is further divided. When the image is vertically long, not only the division but also the processing such as page rotation for each page is not performed, the original document image is transmitted as it is, and the reception side is very difficult to see, or the above-mentioned reading The original document image is transmitted as a file, and there is a problem that the receiving side has to perform division or page rotation on the receiving side.

  The present invention has been made paying attention to the above-described problems. When a read document read by a reading device is transmitted by e-mail or the like, image processing that can be transmitted in a configuration that is easy to see and handle on the receiving side. An object is to provide an apparatus and an image processing method.

  In order to achieve the above object, the present invention has the following configuration. According to the first aspect of the present invention, means for reading a plurality of unit block documents included in one screen and detecting a block arrangement pattern in an arbitrary area on one screen, and the detection result are recognized in advance. A means for matching the registered arrangement pattern, which is a registered arrangement pattern, and analyzing the arrangement pattern, and analyzing the number of unit blocks in one screen from the analysis result, dividing the unit block into unit blocks according to the result, and outputting image data An image processing apparatus comprising: a reading unit; and a rotating unit that forms image data obtained by rotating the orientation of each corresponding unit block document based on the image data output from the image reading unit. Provided.

  A means for converting each image data formed by the rotating means into image data divided into unit blocks into one file format, and transferring the converted file to an e-mail attachment file or file to establish a network. An image processing apparatus having means capable of transmitting through the image processing apparatus.

  5. The number of unit blocks included in a document and the block locations to be extracted arbitrarily when only an arbitrary page which is an arbitrary unit block portion in a plurality of unit block document screens included in one screen is required. Image data output from the image reading means based on the setting information, means for extracting and dividing the unit data into unit blocks, and image data for rotating the orientation of the unit block document based on the extracted image data. There is provided an image treatment device characterized by having a rotating means for forming.

  Each image data formed by the rotating means is converted into a file format from the image data divided for each unit block, and the converted file is attached to an e-mail or transferred via a network. There is provided an image processing apparatus having means capable of transmitting.

  According to the image processing apparatus and the image processing method of the present invention, image data obtained by dividing a plurality of unit block originals included in one screen into unit blocks is rotated corresponding to the original orientation of each unit block image data. Create image data, convert the image data into a file, and send it as an e-mail attachment or as a file transfer by FTP, making it easy for the receiving side to view and handling the received data in page units Image data can be provided.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  Before describing the present invention, a network printer (multifunction multifunction peripheral) having a scanner function and a printer function to which this embodiment can be applied will be described.

  Further, the present invention has no problem even if it does not have a printer function as long as it has only a scanner function and can read an image and perform data communication via a network.

  FIG. 1 is an overall configuration diagram of a multifunction multifunction peripheral.

  The controller unit 2000 is connected to a scanner unit 2070 that is an image input device and a printer unit 2095 that is an image output device. On the other hand, the controller unit 2000 is connected to a LAN 2011 or a public line (WAN) 2051 to input and output image information and device information. It is a controller for performing. A CPU 2001 is a controller that controls the entire system (multifunction machine). A RAM 2002 is a system work memory for operating the CPU 2001, and is also an image memory for temporarily storing image data. The ROM 2003 is configured as a boot ROM, and stores a system boot program. HDD (Hard Disk Drive) 2004. Stores system software and image data.

  The operation unit interface 2006 outputs image data to be displayed on the operation unit (UI) 2012 to the operation unit 2012. The operation unit interface 2006 serves to transmit information input by the user from the operation unit 2012 to the CPU 2001. A network connection unit 2010 is connected to the LAN 2011 and inputs / outputs information. A modem 2050 is connected to the public line 2051 and inputs / outputs information.

  The above devices are arranged on the system bus 2007. An image bus I / F 2005 is a bus bridge that connects the system bus 2007 and an image bus 2008 that transfers image data at high speed and converts a data structure. The image bus 2008 is constituted by a general-purpose bus such as a peripheral component interconnect (PCI) bus or an Institute of Electrical and Electronics Engineers (IEEE) 1394. The following devices are arranged on the image bus 2008.

  A raster image processor (RIP) 2060 expands a PDL (Page Description Language) code into a bitmap image. The device I / F unit 2020 connects the scanner unit 2070 and the printer unit 2095, which are image input / output devices, and the controller unit 2000, and performs synchronous / asynchronous conversion of image data. A scanner image processing unit 2080 corrects, processes, and edits input image data. A printer image processing unit 2090 performs correction, resolution conversion, and the like on print output image data. The image rotation unit 2030 rotates image data. The image rotation unit 2030 rotates image data. The image compression processing unit 2040 is configured such that multi-valued image data is JPEG (Joint Photographic Express Group), binary image data is JBIG (Joint Bi-Level Image Experts Group), MMR (Modified Modified H), and MMR (Modified Modified Hf). Perform decompression processing.

  FIG. 2 shows the appearance of the image input / output device in the multifunction multifunction peripheral. A scanner unit 2070 serving as an image input device illuminates an image on paper serving as a document, and scans a CCD line sensor (not shown), thereby converting it into an electrical signal as raster image data 2071 (FIG. 1). When the user sets a document sheet on the tray 2073 of the document feeder 2072 and issues a reading start instruction from the operation unit 2012, the CPU 2001 of the controller unit 2000 gives an instruction to the scanner unit 2070 (2071 in FIG. 1), and the document feeder 2072. The reading operation of the original image is performed.

  The printer unit 2095, which is an image output device, is a part that converts raster image data 2096 (FIG. 1) into an image on paper. The method is an electrophotographic method using a photosensitive drum or a photosensitive belt, or a micro nozzle array. There is an ink jet system that prints an image directly on paper by ejecting ink from the ink, but any system may be used. The activation of the printing operation is started by an instruction 2096 (FIG. 1) from the CPU 2001 of the controller unit 2000. The printer unit 2095 is equipped with a plurality of paper feed stages so that different paper sizes or different paper orientations can be selected, and paper cassettes 2101 and 2102 corresponding thereto. The printer unit 2095 is equipped with a paper discharge tray 2111. A paper discharge tray 2111 receives paper that has been printed.

  FIG. 3 shows the configuration of the operation unit 2012 of the multifunction multifunction peripheral. The LCD display unit 2013 has a touch panel sheet on the LCD, displays a system operation screen, and transmits the position information to the CPU 2001 of the controller unit 2000 when a displayed key is pressed. A start key 2014 is used when starting a document image reading operation. A green and red two-color LED 2018 is disposed at the center of the start key 2014, and indicates whether or not the start key 2014 can be used depending on the color. The stop key 2015 functions to stop the operation during operation. The ID key 2016 is used when inputting the user ID of the user. A reset key 2017 is used when initializing settings from the operation unit 2012. Numeric keys 2019 are also arranged on the operation unit 2012, and numerical values can be input using the numeric keys 2019.

  The configuration of the scanner image processing unit 2080 is shown in FIG. The image bus I / F controller 2018 is connected to the image bus 2008 and controls the bus access sequence, and generates control and timing signals for each device in the scanner image processing unit 2080. The filter processing unit 2082 performs a convolution operation with a spatial filter. For example, the editing unit 2083 recognizes a closed area surrounded by a marker pen from the input image data, and performs image processing such as shading, shading, and negative / positive inversion on the image data in the closed area. The scaling processing unit 2084 performs an interpolation operation in the main scanning direction of the raster image when changing the resolution of the read image, and performs enlargement or reduction. The scaling in the sub-scanning direction is performed by changing the scanning speed of an image reading line sensor (not shown). The table conversion unit 2085 performs table conversion in order to convert image data, which is read luminance data, into density data. The binarization unit 2086 binarizes the multi-value grayscale image data by error diffusion processing or screen processing. The processed image data is transferred to the image bus 2008 via the image bus controller 2081 again.

  The configuration of the printer image processing unit 2090 is shown in FIG. The image bus I / F controller 2091 is connected to the image bus 2008 and controls the bus access sequence, and generates control and timing signals for each device in the scanner image processing unit 2090. A resolution conversion unit 2092 performs resolution conversion for converting image data from the LAN 2011 or the public line 2051 into the resolution of the printer unit 2095. The smoothing processing unit 2093 performs processing to smooth out jaggies (image roughness appearing at a black and white border such as an oblique line) of the image data after resolution conversion.

  The configuration of the image compression processing unit 2040 is shown in FIG. The image bus I / F controller 2041 is connected to the image bus 2008 to control the bus access sequence, timing control for exchanging data with the input buffer 2042 / output buffer 2045, and the image compression unit 2043. Control mode setting. The processing procedure of the picture compression processing unit 2040 will be described below. Settings necessary for image compression control are performed from the CPU 2001 of the controller unit 2000 to the image I / F controller 2041 via the image bus 2008. With this setting, the image bus I / F controller 2041 performs settings necessary for image compression (for example, MMR compression / JBIG expansion) for the image compression unit 2043. After performing the necessary settings, the CPU 2001 permits image data transfer to the image bus I / F controller 2041 again. In accordance with this permission, the image bus I / F controller 2041 starts transfer of image data from the RAM 2002, the image bus 2008, or each device on the image bus 2008. The received image data is temporarily stored in the input buffer 2042, and the image is transferred at a constant speed in response to an image data request from the image compression unit 2043. At this time, the input buffer 2042 determines whether image data can be transferred between both the image bus I / F controller 2041 and the image compression unit 2043, reads the image data from the image bus 2008, and transfers to the image compression 2043. When image writing is impossible, control is performed so as not to transfer data. The image compression unit 2043 (hereinafter, such control is referred to as handshaking) temporarily stores the received image data in the RAM 2044. This is because, when image compression is performed, compression for several lines is performed depending on the type of image compression processing to be performed, and in order to perform compression for the first line, image data for several lines is prepared. This is because image compression cannot be performed unless it is done. The image data subjected to the image compression is directly sent to the output buffer 2045. The output buffer 20405 performs handshaking with the image bus I / F controller 2041 and the image compression unit 2043 and transfers image data to the image bus I / F controller 2041. The image bus I / F controller 2041 transfers the transferred compressed (or expanded) image data to the RAM 2002 or each device on the image bus 2008. Such a series of processing is performed until there is no processing request from the CPU 2001 of the controller unit 2000 (when processing of the necessary number of pages is completed) or until a stop request is issued from the image compression unit 2043 (compression and expansion error occurs). Repeated).

  The configuration of the image rotation unit 2030 is shown in FIG. The image bus I / F controller 2031 is connected to the image bus 2008 to control the bus sequence, control to set a mode or the like in the image rotation unit 2032, and timing for transferring image data to the image rotation unit 2032 Take control. The processing procedure of the image rotation unit 2030 is shown below. Settings for image rotation control are performed from the CPU 2001 of the controller unit 2000 to the image bus I / F controller 2031 via the image bus 2009. With this setting, the image bus I / F controller 2031 performs settings necessary for image rotation (for example, image size, rotation direction / angle, and the like) for the image rotation unit 2032. After performing the necessary settings, the CPU 2001 permits image data transfer to the image bus I / F controller 2031 again. In accordance with this permission, the image bus I / F controller 2031 starts transfer of image data from each device on the RAM 2002 or the image bus 2008.

  The configuration of the device I / F unit 2020 is shown in FIG. The image bus I / F controller 2021 is connected to the image bus 2008, controls its bus access sequence, and generates control and timing signals for each device in the device I / F unit 2020. The image bus I / F controller 2021 generates control signals to the external scanner unit 2070 and printer unit 2095. The scan buffer 2022 temporarily stores the image data sent from the scanner unit 2070 and outputs the image data in synchronization with the image bus 2008. The serial-parallel / parallel-serial conversion unit 2023 arranges the image data stored in the scan buffer 2022 in order or decomposes and converts the image data into a data width of image data that can be transferred to the image bus 2008. The parallel-serial / serial-parallel conversion unit 2024 decomposes the image data transferred from the image bus 2008 or rearranges the image data in order, and converts the image data into a data width that can be stored in the print buffer 2025. A print buffer 2025 temporarily stores image data sent from the image bus 2008 and outputs the image data in synchronization with the printer unit 2095. The processing procedure at the time of image scanning is shown below. The image data sent from the scanner unit 2070 is stored in the scan buffer 2022 in synchronization with the timing signal sent from the scanner unit 2070. When the image bus 2008 is a PCI bus, when the image data is 32 bits or more in the scan buffer 2022, the image data is 32 bits in first-in first-out, from the scan buffer 2022 to the serial parallel / parallel serial conversion unit. The image data is sent to 2023, converted into 32-bit image data, and transferred to the image bus 2008 through the image bus I / F controller unit 2021. When the image bus 2008 is IEEE1394, serial image data sent from the image bus 2008 is received by the image bus I / F controller 2021, sent from the parallel serial / serial / parallel conversion unit 2024, and input data from the printer unit 2095. The image data is converted into bit number image data and stored in the print buffer 2025. Then, in synchronization with the timing signal sent from the printer unit 2095, the image data in the print buffer 2025 is sent to the print unit 2095 in a first-in first-out manner.

  The operation of the embodiment of the present invention will be described against the background of the configuration of the multi-function multifunction device as described above.

  FIG. 9 is a flowchart showing the first embodiment of the present invention. First, it is assumed that the operation unit 2021 is set to transmit a document read by the scanner unit 2070 as an attached file of an e-mail or to transfer a file by FTP. When the transmission operation is performed, the scanner unit 2070 starts reading the document (S900), then checks the layout of the image in an arbitrary area of the scanned document (S901), and determines the layout based on the detection result of the layout. The situation is analyzed for matching with the arrangement pattern registered in advance (S902). For an arbitrary region or registered arrangement pattern in the above-described document, a plurality of blocks (in one screen as shown in FIG. 10) It should be an area (area surrounded by a dotted line) where you can check which page is placed. An assumed image arrangement pattern (in the present invention, six patterns 2, 4, 6, 8, 9, and 16 are assumed) is registered. Based on the analysis result in step S902, the document is a document of a plurality of unit blocks on one screen, and it becomes possible to determine the number of unit blocks (S903). Next, whether to divide each unit block (each page) or not. (S904) processing differs. Whether or not to perform unit block division may be set in advance from the operation unit 2012, or may be confirmed when it is detected that the read image is a document in which a plurality of unit blocks are arranged. . If the read original is not an original composed of a plurality of unit blocks in step S903, or if it is not determined in step S904, the read image is converted into a file as it is (S907). In step S904, the original is composed of a plurality of unit blocks. When dividing for each unit block, division is performed for each unit block based on the analysis result in step S902 (S905), and data rotation processing is performed on the divided image data (S906). At this time, since the divided image data generally requires a rotation process, the rotation process is performed. However, there is a case where the rotation is not necessary. In this case, the process of step S906 is omitted. Whether or not the rotation processing is necessary may be determined by performing OCR processing or the like on the image data of the read original and determining the direction of characters of the original. The rotation-processed divided data is converted into one file format (S908), and the data is transferred to the transmission unit (S909). If it is an e-mail, it is sent as an attached file, and if it is FTP, it is sent as file transfer (S910).

  Next, it is the flowchart which showed the 2nd Example of this invention shown in FIG. As in the first embodiment, first, it is assumed that the operation unit 2021 is set to transmit a document read by the scanner unit 2070 as an attached file of an e-mail or to transfer a file by FTP. Here, with respect to a document in which a plurality of unit blocks are laid out on one screen, only arbitrary blocks (pages) can be transmitted. An example of a procedure set from the operation unit 2012 is shown in FIG. The LCD display unit 2013 can be set from the LCD display unit 2013 of the operation unit 2012. The initial display of the LCD display unit 2013 is as illustrated in 1200. By pressing a transmission / fax key in the display unit 2013, a transmission setting screen 1211 is displayed. When the reading setting key in the transmission setting screen 1211 is pressed, the reading setting can be performed. When the setting for selecting the unit block related to the present invention is selected, the setting screen 1202 is displayed. Switch to the desired setting. At this time, by selecting the block designation here, the display screen is switched to 1203 and arbitrary setting is performed. In the present embodiment, an example of four unit blocks in one screen is shown. By arbitrarily setting the number of unit blocks, the block designation is also switched. When each setting is completed (S1100) and a transmission operation is performed, the scanner unit 2070 starts reading a document (S1101). Next, it is determined whether or not the setting is to transmit only an arbitrary unit block of the read document (S1101). The processing differs depending on S1102). When only arbitrary unit blocks are set to be transmitted, the read original is divided into unit blocks (S1104), and then arbitrary unit blocks are extracted (S1106), and the divided divided images are extracted. Data rotation processing is performed on the data (S1111). At this time, since the divided image data generally requires a rotation process, the rotation process is performed. However, there is a case where the image data is not necessary. In this case, the process of step S1108 is omitted. The determination as to whether or not the rotation process is necessary may be made by performing OCR processing on the image data of the read original and determining the orientation of the original. The rotation-processed divided data is converted into a file format (S1112), the data is transferred to the transmission unit (S1113), and if it is an e-mail, it is sent as an attached file and if it is FTP, it is sent as a file transfer (S1114), step S1102 In step S1105, if only the unit block is not transmitted, step S1105 is performed. If the unit block is set to be divided, division processing is performed for each unit block (S1107), data rotation processing (S1108), 1 The file is converted into one file (S1109), the data is passed to the transmission unit (S1113), and if it is an e-mail, it is sent as an attached file and if it is FTP, it is sent as file transfer (S1114). If it is not divided into unit blocks in step S1105, the read image is converted into a file as it is (S1110), the data is transferred to the transmission unit (S1113), and if it is an e-mail, it is sent as an attached file and if it is FTP, it is sent as file transfer (S1114). ).

2 is a block diagram illustrating an overall configuration of hardware of a multifunction machine. FIG. 1 is a diagram illustrating an appearance of a multifunction machine. FIG. 3 is a diagram illustrating a configuration of an operation unit of the multifunction machine. FIG. 2 is a block diagram illustrating a configuration of a scanner image processing unit of a multifunction peripheral. FIG. 2 is a block diagram illustrating a configuration of a printer image processing unit of a multifunction peripheral. FIG. 2 is a block diagram illustrating a configuration of an image compression processing unit of a multifunction machine. FIG. 3 is a block diagram illustrating a configuration of an image rotation unit of the multifunction machine. FIG. 3 is a block diagram illustrating a configuration of a device I / F unit of the multifunction machine. 5 is a flowchart illustrating a flow of a read document dividing process according to an embodiment of the present invention. It is a figure which shows the division pattern of the reading original document which is one Embodiment of this invention. 6 is a flowchart showing a flow of a read original dividing process according to another embodiment of the present invention. It is a figure which shows the setting procedure of the operation part which is one Embodiment of this invention.

Explanation of symbols

2000 Multifunction copier 2070 Scanner unit 2012 Operation unit 2080 Scanner image processing unit 2030 Image rotation unit

Claims (12)

  A document that consists of multiple unit blocks in one screen is scanned, and the number of unit blocks of the scanned document is matched to a block pattern in a certain area to analyze how many unit blocks the scanned document consists of. Then, based on the result, an image reading unit that outputs image data obtained by dividing the document for each unit block, and the direction of each corresponding unit block document is rotated based on each image data output from the image reading unit. An image processing apparatus comprising: a rotation unit configured to generate the image data.   The image processing apparatus according to claim 1, wherein the unit block document is a document for one page.   Each image data created by the rotating means is converted into a single file format from a plurality of image data divided for each unit block, and is attached as an attached file by e-mail or FTP (File) via a network or the like. The image processing apparatus according to claim 1, further comprising: a transfer protocol (Transfer Protocol) or the like.   Reading means for reading a document composed of a plurality of unit blocks as one screen and outputting image data; and image data output from the image reading means in units based on an arbitrarily set unit block number condition Image reading means for outputting image data obtained by dividing a document for each block, means for extracting a corresponding unit block from the image data based on an arbitrarily set extraction block condition, and based on the extracted image data And an image processing apparatus for generating image data obtained by rotating the orientation of each unit block document.   The unit block manuscript is a manuscript for one page, and the image data created by the rotating means, that is, only the image data of the arbitrarily extracted block is converted into a file format and electronically transmitted via a network or the like. 5. The image processing apparatus according to claim 4, further comprising means for transferring as an attached file by e-mail or by FTP.   5. The image processing apparatus according to claim 4, further comprising means for allowing a user to arbitrarily set the unit block number and the block extraction condition from an operation unit provided in the apparatus or the like.   A document consisting of a plurality of unit blocks in one screen is read, the number of unit blocks of the read document is matched with a block pattern in a certain area, the structure is analyzed from how many unit blocks of the read document, and the unit is determined from the result. Image reading means for outputting image data obtained by dividing a document for each block, and creating image data by rotating the orientation of each corresponding unit block document based on each image data output from the image reading means And an image processing method.   8. The image processing method according to claim 7, wherein the unit block original is an original for one page.   Each image data created by the rotation means is converted into a single file format from multiple image data divided for each unit block, and transferred as an attached file by e-mail or FTP via a network etc. The image processing method according to claim 7, further comprising:   Reading means for reading a document composed of a plurality of unit blocks as one screen and outputting image data; and image data output from the image reading means for each unit block based on an arbitrarily set unit block number condition Based on the extracted image data, image reading means for outputting image data obtained by dividing the original document, means for extracting a corresponding unit block from the image data based on an arbitrarily set extraction block condition, An image processing method characterized by creating image data obtained by rotating the orientation of a unit block document.   The unit block original is an original for one page, and the image data created by the rotating means, that is, only the image data of the arbitrarily extracted block is converted into a file format, via a network or the like. 11. The image processing method according to claim 10, further comprising means for transferring as an attached file by e-mail or by FTP.   The image processing method according to claim 10, further comprising means for allowing the user to arbitrarily set the unit block number and the block extraction condition from an operation unit provided in an apparatus or the like.

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