JP2007324648A - Image reading system and control method thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image reading apparatus having an automatic discriminating function of the kind of an original and top and bottom, and inclination correction, in which if a result of analysis of a read image is wrong, an operation of setting selection of the kind of the original or image processing is easy. <P>SOLUTION: The image reading apparatus analyzes an image read by an image reading apparatus, thereby discriminating the kind, top and bottom, and inclination of an original. The apparatus executes preset image processing on the basis of a result of discrimination of the kind of the original, and displays the image for which the image processing is executed. If an error is found in the result of analysis of the kind, top and bottom, and inclination correction; the apparatus modifies the result of analysis after scanning. The apparatus re-executes image processing on the basis of the modified result of analysis, displays the image for which the image processing is re-executed, and outputs the image for which the image processing is re-executed without re-scanning the image. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

The present invention relates to an image reading apparatus such as a scanner or a copying machine.

  2. Description of the Related Art Conventionally, this type of image reading apparatus is provided with a function of analyzing a read image, automatically determining the type of a set original, and executing image processing according to the determined type.

For example, first, a pre-scan having a lower resolution than the main scan is performed, a pre-scan image is analyzed, and parameters for the main scan are determined. Then, the image using the parameters in the main scan is displayed on the monitor. The displayed image is confirmed, and if there is no problem, the main scan is performed with the determined parameters (for example, see Patent Document 1).
JP 2004007425 A

  However, depending on the manuscript, the type discrimination result of the set manuscript may not be correct. In this case, the user needs to move from the automatic determination mode for automatically determining the document to the manual setting mode for manually setting the document, reselect the document type and image processing settings, and rescan. .

  In other words, in the above conventional example, when the result of the type determination of the set original is not correct, it is necessary to move the original to the manual setting mode in order to reselect the original type and the image processing setting. There is a problem that this mode movement work is complicated.

  Even if the result of automatic discrimination is correct, it is necessary to execute the main scan with high resolution in order to obtain an image confirmed by the pre-scan.

  That is, in the above conventional example, if the result of automatic document discrimination is correct, it is necessary to perform a main scan at a high resolution after pre-scanning, and this operation is complicated.

  According to the present invention, in an image reading apparatus having an automatic discrimination function for document type / top / bottom discrimination / tilt correction, when the analysis result of the read image is wrong, the operation of reselecting the document type and image processing settings is simplified. An object of the present invention is to provide an image reading apparatus.

The present invention can output a corrected image without re-scanning when an analysis result of a read image is wrong in an image reading apparatus having an automatic discrimination function of document type / top / bottom discrimination / tilt correction. An object is to provide an image reading apparatus.

The present invention analyzes the image read by the image reading apparatus to determine the type of the read original, the top of the original, and the inclination of the original, and performs preset image processing based on the determination result of the original type. Display the processed image and display the image, and if there is an error in the document type / top / side correction of the document, after scanning, the determination result is changed, and according to the changed determination result An image reading apparatus that re-executes image processing, displays an image that has been re-executed, and outputs the image that has been re-executed without re-scanning.

  According to the present invention, in an image reading apparatus having automatic document type / top / bottom discrimination / tilt correction functions, if the read image analysis result is incorrect, the operation of reselecting the document type and image processing settings is performed. Has the effect of being simple.

Further, according to the present invention, in an image reading apparatus having an automatic discrimination function for document type / top / bottom discrimination / tilt correction, if the analysis result of the read image is wrong, a corrected image is output without re-scanning. There is an effect that can be done.

  The best mode for carrying out the invention is the following embodiment.

  FIG. 1 is a block diagram illustrating a configuration of the image reading apparatus 100 and an external device.

  The image reading apparatus 100 includes an imaging lens 2, a solid-state imaging device 3, an analog gain adjuster 4, an A / D converter 5, an image processing circuit 6, a line buffer 7, an interface circuit 8, and a scanner. It has a controller 9 and an internal light source ON / OFF control circuit 10. The image reading apparatus 100 includes an internal light source 11, a motor driver circuit 12, a pulse motor 13, an offset RAM 14, a gamma RAM 15, an LCD 18, and a VRAM 19.

  In the image reading apparatus 100, the light irradiated by the internal light source 11 and reflected by the document 1 is imaged on a CCD which is an example of the solid-state imaging device 3 through the imaging lens 2. The imaging device 3 may use COMS or the like in addition to the CCD.

  The analog gain adjuster 4 variably amplifies the analog image signal output from the CCD line sensor 3. The A / D converter 5 converts the analog image signal output from the analog gain adjuster 4 into a digital image signal.

  The image processing circuit 6 performs image processing such as offset correction, shading correction, digital gain adjustment, color balance adjustment, masking, and resolution conversion in the main and sub-scanning directions on the digital image signal. The line buffer 7 temporarily stores image data and is realized by a general-purpose RAM.

  The interface circuit 8 is for communicating with the external device C, and an interface such as SCSI, parallel, USB, IEEE 1394, or the like is used. The scanner controller 9 is a scanner controller that controls the scanner in accordance with an instruction from the external device C, and controls the motor driver circuit 12, the internal light source ON / OFF control circuit 10, the image processing circuit 6, and the like.

  The internal light source ON / OFF control circuit 10 is a control circuit for controlling ON / OFF of the internal light source 11. The motor driver circuit 12 drives the pulse motor 13 and outputs an excitation switching signal for the pulse motor 13 in accordance with a signal from the scanner controller 9 that is a system control unit of the image reading apparatus 100.

  The offset RAM 14 is a RAM used as a working area when performing image processing. Since the CCD line sensor 3 has the RGB line sensors arranged in parallel with a predetermined offset, the offset RAM 14 is used for correcting the offset between the RGB lines. The offset RAM 14 also temporarily stores various data such as shading correction, and here, a general-purpose RAM is used.

  The gamma RAM 15 is a gamma RAM for storing a gamma curve and performing gamma correction. The LCD 18 is displayed on the operation unit of the image reading apparatus 100. The LCD 18 is an example of a first display unit that displays an image subjected to image processing, and is an example of a second display unit that displays an image subjected to image processing again.

  The VRAM 19 writes data to be displayed on the LCD. The scanner controller 9 controls information displayed on the LCD 18 and the VRAM 19.

  The external device C is a host computer and is connected to the image reading apparatus 100 and the monitor M.

  FIG. 2 is a diagram illustrating a cross section of the image reading apparatus 100.

  The image reading apparatus 100 includes a frame body 21, a sensor unit 22, a reference shaft 23, an operation belt 24, a stepping motor 25, a gear group 26, a board 27, a USB connection connector 28, and a flat cable 30. And an AC adapter connection connector 31.

  The reference shaft 23 is a reference for moving the sensor unit in the sub-scanning direction. The operation belt 24 is an operation belt that is connected to the sensor unit 22 and operates along the reference axis. The gear group 26 is a gear group for transmitting the drive from the motor to the belt. The flat cable 30 is a flat cable for connecting the sensor unit 22 and the substrate 27. The connection connector 31 is a connector for connecting an AC adapter that is an external power source.

  Upon receiving a scan command from an external device, the scanner controller 9 of the image reading apparatus 100 drives the motor 25 and drives the belt via the gear group 26. As a result, the sensor unit 22 moves in the sub-operation direction along the reference axis 23 and reads an image.

  FIG. 3A is a diagram illustrating an appearance of the image reading apparatus 100.

  The image reading apparatus 100 includes a document table cover 41, a protective sheet 42, a film reading light source unit 43, a document reading unit 44, a document table glass 45, a scan button 46, and a document alignment mark 47. The image reading apparatus 100 includes a carriage lock 48, a calibration area 49, and a film guide FG.

  The document table cover 41 presses the set document 1. The protective sheet 42 protects the film reading light source unit 43. The film reading light source unit 43 applies light to the film. The document reading unit 44 reads the document 1 by applying light. The document table glass 45 is a glass on which the document 1 to be scanned is placed. The scan button 46 is a scan button attached to the scanner body. The document alignment mark 47 is a mark that is aligned when the document 1 is set.

  When the document 1 is a reflection document, the document 1 is placed on the document table 45, and the document 1 is read by the document reading unit 44. When the original 1 is a transparent original (film), a film is set on the film guide FG, light is irradiated from the film reading light source unit 43, and the original 1 is read by the original reading unit 44.

  FIG. 3-2 is a diagram illustrating an automatic document feeder (ADF) 50 used in the first embodiment.

  The document table cover 41 can be removed and set in the image reading apparatus 100 instead.

  The automatic document feeder (ADF) 50 includes a feeder cover 52, a document guide 53, a document tray 54, a document discharge port 55, and a paper sensor 56.

  An automatic document feeder (ADF) 50 can automatically read a document 1 set on a document tray. The feeder cover 52 is opened when handling a paper jam of the document 1. The document guide 53 adjusts this guide according to the width of the document 1.

  The document tray 54 is opened when the document 1 is set, and the document 1 can be automatically fed one by one. The document discharge port 55 discharges the document 1 read from the document tray. The paper sensor 56 is a sensor for recognizing that the document 1 is set on the document tray.

  FIG. 4 is a diagram showing the relationship between the document type and image processing.

  In this embodiment, it is assumed that there are six types of originals 61 that can be discriminated: “color photo”, “black and white photo”, “color magazine”, “black and white magazine”, “color text”, and “monochrome text”. The color mode 62, resolution 63, top and bottom correction 64, tilt correction 65, and various image processes (A) 66 are preset and executed according to the determined document type. Further, the image processing (B) 67 can be arbitrarily executed after scanning regardless of the determination result of the document 1.

  FIG. 5 is a diagram illustrating the structure of a program for controlling the image reading apparatus 100.

  A program for controlling the image reading apparatus 100 includes an application 71 corresponding to the TWAIN standard, a TWAIN driver 72, a device driver 73, a port driver 74, and an operating system (OS) 75.

  The application 71 corresponding to the TWAIN standard is file creation software that saves a file with the setting of the function of the scan button 46 and various formats. It has a function of reading an image from the image reading apparatus 100 via the TWAIN driver 72, processing the image according to a user instruction, and saving the image.

  The TWAIN driver 72 passes an image from the image reading apparatus 100 to a TWAIN compatible application in accordance with the TWAIN standard, and displays a unique GUI (graphic user interface). The GUI has functions for performing preview, specifying a crop area for a preview image, setting a resolution, setting a reading mode (binary, 8-bit multi-value, 24-bit multi-value, etc.), setting color adjustment such as gamma correction, and the like. Have.

  The device driver 73 accesses the control register of each module of the image reading apparatus 100. Then, shading control, setting of the motor speed according to the resolution and cropping range, transmission processing of the gamma correction data received from the TWAIN driver to the image reading apparatus 100, and flow control for image reading are performed.

  The port driver 74 performs communication control with the image reading apparatus 100 according to an interface such as a parallel interface, a SCSI interface, a USB interface, or an IEEE1394 interface.

  The operating system (OS) 75 is an operating system of a host computer such as Windows (registered trademark). The button monitor 76 is a module that detects that a button provided in the operation unit of the image reading apparatus 100 has been pressed, and always detects whether or not the button has been pressed at a certain interval.

  FIG. 6A is a user interface (hereinafter referred to as “UI”) of the TWAIN driver 72 displayed when the image reading apparatus 100 performs reading. It is a figure which shows the screen of automatic mode.

  The radio button 81 displays whether the capture device has discriminated between the document table and the automatic document feeder (ADF). The document type 82 is a pull-down list that displays the document type obtained by analyzing the scanned image. When there are a plurality of originals 1, the originals and the determination results are displayed as tabs. The image processing list 83 is a list of image processing used according to the type of document.

  A progress bar 84 indicates the progress status. The area 85 displays the scanned image in a reduced size. When the scan button 86 is pressed, the radio button 81, the document type 82, and the image processing list 83 are started in order. The cancel button 87 is a button for canceling scanning or image processing in the middle.

  FIG. 6B is a diagram illustrating the state of the UI when the second image is selected after the scanning of all three documents and the image processing are completed.

  A reduced image (hereinafter referred to as “thumbnail”) of the scanned image is displayed in the thumbnail display field 88. The document type 82, the image processing list 83, and the thumbnail display field 88 are confirmed. If there is no problem with the scanned image, the transfer button 89 is pressed. When this button 89 is pressed, the image is transferred to the TWAIN compatible application.

  However, if the check box at the bottom of the thumbnail display field 88 is unchecked, the thumbnail is not transferred. When the scanned thumbnails displayed in the thumbnail display field 88 are checked in detail, the enlarged image is displayed by clicking the thumbnail display field 88 and then pressing the zoom button 90 or double-clicking the thumbnail display field 88. Is done.

  FIG. 6C is a diagram illustrating a UI in which the thumbnail display field 88 of the image 2 is enlarged and displayed.

  Here, a document type 91 as a result of document discrimination and an image process 92 to be executed on the scanned image are displayed. The change button 93 is pressed when the result of automatic discrimination, such as the top / bottom discrimination of the document 1 or the amount of deviation of the tilt correction result, is incorrect, or when it is desired to perform additional image processing.

  FIG. 6-4 is a diagram illustrating a UI displayed when the change button 93 is pressed.

  Here, the type of document can be selected and changed from the list box 94. The image processing 92 to be executed is automatically updated according to the selected document type. When the image processing settings are individually changed, the settings can be changed using the image processing check box 92.

  The changed image processing result is reflected on the thumbnail after the change displayed in the thumbnail display field 96 along with the thumbnail image before the change. If there is an error in the top / bottom discrimination of the document 1, the image can be rotated by the left / right 90 ° rotation button 98. If the result of the tilt correction is shifted, the image can be rotated at an arbitrary angle by dragging the rotation button 97.

  FIGS. 7A and 7B are flowcharts illustrating an operation of automatically determining the document type, top / bottom discrimination, and inclination correction in the image reading apparatus 100.

  First, in S1, in the fully automatic mode, the scan button 86 is pressed to start scanning the document 1. In S2, it is checked whether the document 1 is placed on the document table or set on the ADF. A paper detection sensor 56 for confirming that the document 1 is set on the ADF is provided.

  If the paper detection sensor 56 is ON, paper is set on the ADF, and if the paper detection sensor 56 is OFF, it is determined that the document 1 is placed on the document table. If the document 1 is set on the document table, the entire surface of the document table is scanned at 600 dpi in S3. In step S4, the scanned image is analyzed to cut out a document area.

  If the document 1 is one, a rectangular area surrounding the document 1 is created, and if a plurality of documents 1 are set, a rectangular area is created for each document 1. In S5, each rectangular area image is analyzed to check whether it is a halftone original.

  Specifically, if a frequency component peculiar to a halftone document exists in the image of the document 1, it is determined as a halftone document. If it is determined that the document is a halftone document, the document type is determined to be a magazine.

  In S6, an inclination correction process is performed for each document 1. If it is determined in S2 that the document 1 is set on the ADF, in S8, all the documents 1 set on the ADF are scanned with a color of 600 dpi.

  In S9, the image of each page is analyzed to check whether it is a halftone original. In step S10, an inclination correction process is performed on each page. In S7, the images after the inclination correction are saved as separate files. When the result is changed after the document 1 is determined, the image stored here is used.

  In step S11, it is determined whether the document 1 is a photograph or text. When this is determined, a luminance histogram is created for each pixel of each image, and the determination is made based on the characteristics of this distribution.

  It is determined whether the document 1 is color or black and white. When discriminating this, the RGB values of the respective image data are compared and discriminated. Based on the determination results of S5, S9, S11, and S12, the determination result of the document 1 is displayed in S13.

  Next, when it is determined in S14 that each image is a half-tone original, the original 1 is considered to be a magazine, and therefore image processing (moire reduction) for the magazine is executed in S15. In S16, it is determined whether it is a photographic document or text, and if it is determined that it is a photograph, image processing for a photograph is executed in S17 as shown in FIG.

  If it is determined that the text is a text, the top / bottom determination is performed in S18. When this top / bottom discrimination is performed, the document 1 is subjected to OCR processing, and the top / bottom direction is determined based on the result of character recognition. In S19, the text image processing shown in FIG. 4 is executed.

  In S20, the color mode of the document 1 is determined. If it is determined that the document 1 is in color, an output file is created as it is in color image in S21.

  If it is determined in S20 that the document 1 is monochrome, in S22, it is converted into a gray image and an output file is created. Similarly, resolution conversion is performed. Finally, in S23, a thumbnail image of the output file is created and displayed.

  FIG. 8 is a flowchart showing an operation for changing the type of document by the user and an operation for executing image processing in the UI displayed in FIG. 6-4 when the change button 93 shown in FIG. 6-3 is pressed. It is.

  In S31, it is determined whether the determination result of the document type 91 shown in FIG. If the determination results are different, the change button 93 is pressed to display the UI shown in FIG. 6-4. In S32, the document type 94 is selected again from the pull-down list. In S33, image processing corresponding to the changed document type is executed on the original image stored in S7.

  In S34, the thumbnail 96 of the image whose document type is changed is displayed. If it is determined in S35 that the result of the top / bottom discrimination is wrong, the left / right 90 ° rotation button 98 can rotate the image by 90 °. If it is determined in S37 that the tilt correction result is not correct, the left and right angles can be arbitrarily adjusted by dragging the rotation button 97.

  If it is determined in S39 that the setting of the image processing (A) 66 executed according to the type of document needs to be changed, or the setting of the image processing (B) 67 that can be executed regardless of the type of document. Is determined to be changed, the process of S40 is executed. That is, in S40, the various image processing check boxes 92 are switched ON / OFF. In step S41, the thumbnail of the image reflecting the result of the image processing is displayed in the thumbnail display field 96, and this effect (the effect of changing the setting) is confirmed.

  When ending the change, in S42, the OK button 99 is pressed to close the UI shown in FIG. 6-4 and return to the UI shown in FIG. 6-2. Finally, in S43, the transfer button 89 is pressed to transfer the image to the application.

  In the embodiment, the image processing that is preset to be executed according to the type of document is at least one of unsharp mask, automatic color adjustment, moire reduction, and dust reduction processing. .

  Further, the image processing that can be changed after scanning regardless of the type of document is at least one of fading correction, graininess reduction, and backlight correction processing.

By adopting the above configuration, it is possible to perform document discrimination and image processing from image data read in one scan according to the determination of S2 without performing multiple scans such as pre-scan, main scan, and correction scan. The image processing after the setting change can be performed.

1 is a block diagram illustrating a configuration of an image reading apparatus 100 and external devices. 2 is a diagram illustrating a cross section of the image reading apparatus 100. FIG. 1 is a diagram illustrating an appearance of an image reading apparatus 100. FIG. 1 is a diagram illustrating an automatic document feeder (ADF) 50 according to Embodiment 1. FIG. It is a figure which shows the relationship between the kind of original, and image processing. 3 is a diagram illustrating a structure of a program for controlling the image reading apparatus 100. FIG. FIG. 5 is a diagram showing a screen of a fully automatic mode that is a user interface (UI) of a TWAIN driver 72 displayed when the image reading apparatus 100 performs reading, and automatically determines the type of document and performs scanning. It is a figure which shows the state of UI after completion of all the scans and image processing. It is a figure which shows UI which displayed the thumbnail display column 88 expanded. It is a figure which shows UI displayed when the change button 93 is pushed. 4 is a flowchart showing an operation of automatically discriminating document type, top / bottom discrimination, and tilt correction in the image reading apparatus 100. 4 is a flowchart showing an operation of automatically discriminating document type, top / bottom discrimination, and tilt correction in the image reading apparatus 100. 6 is a flowchart showing an operation of changing the type of document and an operation of executing image processing in the UI displayed when the change button 93 shown in FIG. 6-4 is pressed.

Explanation of symbols

100: Image reading device,
1 ... The manuscript,
6 ... Image processing circuit,
9 ... Scanner controller,
C ... External equipment,
M ... monitor,
82 ... Type of document,
83 ... List of image processing,
88 ... Thumbnail display field,
93 ... Change button.

Claims (6)

In an image processing system including an image reading device that reads an image of a document and an image processing device that processes read image data output by the image reading device,
Determining means for analyzing the read image data output by the image reading device and determining at least one of the type of the read original, the top of the original, and the inclination of the original;
Image processing execution means for executing image processing set in advance corresponding to the determination result of the type of document;
First display means for displaying an image subjected to image processing;
A discrimination result changing means for changing at least one discrimination result among the type of manuscript, the top and bottom of the manuscript, and inclination correction;
An image processing re-execution unit that re-executes the image processing set corresponding to the changed determination result;
Second display means for displaying an image obtained by performing image processing again;
Output means for outputting an image subjected to image processing again;
An image processing system comprising: In claim 1,
The entire reading area of the document table of the image reading apparatus is read and scanned only once. Based on the image data obtained by the reading and scanning, the type of the document, the top / bottom correction of the document, and the file output are determined. An image processing system that is executed. In claim 1,
An image processing system according to claim 1, wherein the type of the original is at least one of a color photograph black and white, a photograph, a color text, a monochrome text, a color magazine, and a monochrome magazine. In claim 1,
The image processing system is characterized in that the image processing is image processing set in advance according to the type of document and image processing that can be changed after scanning regardless of the type of document. In claim 4,
The image processing that is preset to be executed according to the type of document is at least one of unsharp mask, automatic color adjustment, moire reduction, and dust scratch reduction processing.
An image processing system characterized in that the image processing whose setting is changed after scanning is at least one of fading correction, graininess reduction, and backlight correction processing regardless of the type of document. In a control method of an image processing system comprising: an image reading device that reads an image of a document; and an image processing device that processes read image data output from the image reading device.
A determination step of analyzing the read image data output by the image reading device and determining at least one of the type of the read original, the top of the original, and the inclination of the original;
An image processing execution step of executing image processing set in advance corresponding to the result of determination of the type of document;
A first display step for displaying an image subjected to image processing;
A discrimination result changing step for changing at least one discrimination result among the type of manuscript, the top and bottom of the manuscript, and inclination correction;
An image processing re-execution step of re-executing the image processing set corresponding to the changed determination result;
A second display step for displaying an image subjected to image processing again;
An output step of outputting an image obtained by performing image processing again;
A control method for an image processing system, comprising:

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