JP2006262304A - Original reader and original reading method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an original reader and an original reading method capable of favorably reading an original. <P>SOLUTION: When reading an original as a monochrome image, the reading of the original is performed by a monochrome image reading part and a color image reading part. Color image information obtained by the color image reading part is converted in terms of a color space. Monochrome image information is applied with density correction for adding a border detected only by the color image information after the color space conversion. A filter is provided on an optical path of an image reader. Whether the filter is used by the monochrome image reading part or not can be selected, and appropriate correction is applied to the image information depending on whether the filter is used or not. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an original reading apparatus and an original reading method, and more particularly to an original reading apparatus and an original reading method that can read an original satisfactorily.

  In a document reading device having an automatic document feeder (ADF), streaky noise occurs in the image reading result (image information) when dust adhering to the document stains or adheres to the contact glass at the document reading position. To do.

  As a method for removing such noise, a method has been proposed in which an original is read by a plurality of image reading means, and the noise is removed by comparing the acquired image information (see, for example, Patent Document 1). .

  FIG. 5 is a schematic conceptual diagram showing an example of the configuration of the optical element. As shown in FIG. 5A, the optical element 100 uses an element such as a CCD (Charge Coupled Devices) and reads an original “without a filter” (the optical element is not provided with a filter). A monochrome image reading unit 101 that acquires black and white image information, and an original is read by an element for each filter through each filter of “R (red)”, “G (green)”, and “B (blue)”, and color. A color image reading unit 102 that acquires image information is provided.

  When comparing image information obtained by actually reading a black and white document using a white lamp as an exposure light source, it is preferable that the spectral characteristics of both the black and white image reading unit and the color image reading unit are equal.

For this reason, in a CVT (Constant Velocity Transport) system that scans while feeding a document at a high speed, “G” is added to the “no filter” line in order to detect and correct black and white stripes that occur when the document is read. As shown in FIG. 5B, the document is read using the four-line optical elements 100 of “R”, “G”, “B”, and “G”.
Japanese Patent Application Laid-Open No. 2002-271631

  However, when a filter is applied to the black-and-white image reading means, the dynamic range of the black-and-white image is lowered, and the S / N (signal / noise) ratio is lowered.

  In addition, there are cases in which it is impossible to recognize a boundary of density that is originally identifiable by color.

  Therefore, an object of the present invention is to provide a document reading apparatus and a document reading method capable of reading a document satisfactorily.

  A document reading apparatus according to the present invention includes a monochrome image reading unit that acquires monochrome image information from a document, a color image reading unit that acquires color image information from the document, and density change detection that detects a boundary between the color image information. A determination unit; and a density correction unit configured to correct the density of the black and white image information and perform correction to clarify the boundary.

  The image processing apparatus further includes a color space conversion unit that converts the color image information into a color space, and the density change detection / determination unit detects a boundary from the color image information after the color space conversion.

  The monochrome image reading unit reads any of the RGB components to acquire the monochrome image information.

  The document reading apparatus according to the present invention includes a monochrome image reading unit that acquires monochrome image information from a document, a color image reading unit that acquires color image information from the document, and a space between the document and the monochrome image reading unit. A filter that can be placed on the optical path, and a drive unit that places the filter on the optical path in accordance with conditions for reading the document.

  Next, in the document reading method according to the present invention, monochrome image information is acquired from a document by a monochrome image reading unit, color image information is acquired from the document by a color image reading unit, and density change detection is performed on the boundary of the color image information. The detection is performed by the determination unit, and the density of the black and white image information is corrected by the density correction unit to make the boundary clear.

  In the present invention, appropriate processing can be performed on image information obtained by reading a document.

  The best mode for carrying out a document reading device and a document reading method according to the present invention will be described below in detail with reference to the accompanying drawings.

  FIG. 1 is a functional block diagram illustrating an example of the configuration of an image reading apparatus according to the present invention. As shown in the figure, the document reading apparatus 1 includes an ADF 10, an exposure light source 11, an optical element 12, a drive unit 13, a signal processing unit 14, an image information storage unit 15, a control unit 16, and a control. A program storage unit 17, a mode setting unit 18, a color space conversion unit 19, a density change detection / determination unit 20, and a density correction unit 21 are provided, and a communication interface (I / F) such as a serial cable is provided. 22 is connected to an information processing apparatus 2 that processes image information acquired by an image reading apparatus, such as a PC (personal computer).

  Here, the ADF 10 is an automatic document feeder that sequentially feeds a plurality of documents in order to read the documents.

  The exposure light source 11 is a light source that emits light when scanning and reading a document, such as a white lamp.

  The optical element (CCD) 12 has four lines of “R (red)”, “G (green)”, “B (blue)”, and “no filter” as shown in FIG. Light is received for each line, and the received light is converted into a signal for each line.

  The drive unit 13 is a drive unit such as a drive motor.

  The signal processing unit 14 includes an image processing circuit that processes the signal converted by the optical element 16, and performs processing for removing characteristic irregularities based on optical characteristics from a signal read by scanning a document.

  The image information storage unit 15 temporarily stores image information acquired by scanning a document.

  The control unit 16 includes an arithmetic device such as a CPU (Central Processing Unit), and performs processing for controlling the entire image reading device.

  The control program storage unit 17 is a storage device such as a memory, and stores a program for the control unit 16 to control the entire image reading apparatus.

  The mode setting unit 18 sets a mode for reading an original as a black and white original or a color original.

  This mode setting can be performed using any setting method such as a method performed using an operation unit (not shown) of the document reading apparatus or a method performed via the information processing apparatus 2.

The color space conversion unit 19 converts the color image information acquired by the color image reading unit shown in FIG. 5 into image information of another color expression. For example, image information (color image information) expressed in RGB color is converted into image information expressed in color using L ^* a ^* b ^* or YCbCr.

  The density change detection / determination unit 20 detects a density change of the color image information converted by the color space conversion unit 19, and determines that the border is a boundary when the density change exceeds a threshold value.

  The density correction unit 21 detects a “border” of black-and-white image information whose luminance change exceeds the threshold, and is not detected as a “border” in the black-and-white image information (brightness change is equal to or less than the threshold). In the color image information, in order to add the portion detected as “border” to the monochrome image information, a process of adding / subtracting the density of the monochrome image information is performed.

  In the image reading apparatus according to the present embodiment using the above configuration, when reading a document as a monochrome document, monochrome image information and color image information are acquired, and the monochrome image information is not detected as a boundary. Correction for adding the portion detected as the boundary to the monochrome image information is performed.

  In FIG. 1, the portions surrounded by dotted lines (the mode setting unit 18, the color space conversion unit 19, the density change detection / determination unit 20, and the density correction unit 21) are parts realized by software or the like.

  FIG. 2 is a flowchart showing the flow of processing in the document reading apparatus.

  First, an image reading mode indicating whether a document is read as a monochrome image or a color image is set (step 100), and when reading of the document is instructed (step 101), the image reading mode is set to monochrome image reading. It is determined whether or not the mode is selected (step 102).

  If it is determined that the mode is not the black and white image reading mode (the color image reading mode) (NO in step 102), the color image reading units “R”, “G”, and “B” are used to read the original. Reading is performed (step 103), and the acquired color image information is transmitted to the information processing apparatus (step 104).

  On the other hand, if it is determined in step 102 that the monochrome image reading mode is set (YES in step 102), at least one of the lines “R”, “G”, and “B” that are color image reading units (preferably “G”). The original is read with the “line” and the “no filter” line as the monochrome image reading unit (step 105).

  Here, color space conversion for converting the color expression is performed on the color image information acquired by the color image reading unit (step 106), and the color image information after the color space conversion has a density change exceeding a threshold value. (Boundary) is detected (step 107).

  Also, a portion (boundary) where the density change exceeds the threshold in the monochrome image information acquired by the monochrome image reading unit is detected (step 108), and the boundary between the color image information after color space conversion and the monochrome image information coincides. Is determined (step 109).

  If it is determined that all the borders in the image information match (YES in step 109), the monochrome image information acquired from the document is transmitted to the information processing apparatus (step 104).

  On the other hand, if it is determined in step 109 that all of the boundaries do not match (at least some of them are different) (NO in step 109), the boundary detected by the color image information after the color space change becomes clear also in the monochrome image information. Thus, the density of the monochrome image information is corrected (step 110), and the corrected monochrome image information is transmitted to the information processing apparatus (step 104).

  Corrections to clarify the border include, for example, a method for adjusting the density of one or both of the overlapping images, or a method for making the border different from the surrounding image, such as a method of making the border different from the surrounding image. Any method can be used.

  Thus, according to the present invention, color image information is subjected to color space conversion, and if a boundary is detected in the image information, the black and white image information is corrected to clarify the boundary.

  Therefore, if a boundary is detected at least one of the luminance component and the color component, this boundary is reflected in the black and white image information, and it becomes possible to recognize a density boundary that can be identified by color.

  By the way, in this embodiment, four lines of “R”, “G”, “B”, and “no filter” are provided in the optical element, but “R”, “G”, and “G” are installed on the “no filter” line. Four lines of “B” and “G” may be used.

  Further, a filter may be installed on the side of the platen glass on which the document is placed, and the exposure light of the document may be received by the “no filter” line through this filter. Explained.

  FIG. 3 is a schematic configuration diagram illustrating an example of the configuration of the image reading apparatus according to the present exemplary embodiment. As shown in the figure, the image reading apparatus 1 includes an ADF 10, an exposure light source 11, an optical element 12, a signal processing unit 14, a white reference plate 23, a document table glass 24, a lens 25, and a reflection. A mirror part 26 and a G filter 27 are provided.

  Note that parts having the same functions as those described in the functional block diagram of FIG. 1 are denoted by the same reference numerals as those used in FIG. 1, and detailed description thereof is omitted.

  The white reference plate 23 is a reference for correcting a specific output change that occurs when scanning a document due to optical characteristics and the like.

  The document table glass 24 places a document to be read.

  The lens 25 enters the optical element 13 with light scanned from the document.

  The reflecting mirror unit 26 reflects the light scanned on the document with the reflecting mirror and sends it to the lens 25.

  The G filter 27 is installed in the vicinity of the white substrate 23 of the exposure table glass 24 along the white substrate (see FIG. 3A).

  In the mode setting unit 18 of the image reading apparatus shown in FIG. 1, in addition to the mode setting for reading an original as a black and white original or a color original, the mode for reading the original as a black and white original is set. A setting is made as to whether or not to read the original using the G filter.

  In the image reading apparatus according to the present embodiment using the above-described configuration, when an image reading mode is set in which an original is set on the ADF and the original is read as a black and white original through a filter, Read.

  FIG. 4 is a flowchart showing the flow of processing in the document reading apparatus.

  First, an image reading mode is set (step 200). When an original is set on the ADF and reading is instructed (step 201), it is determined whether or not the image reading mode is a monochrome image reading mode (step 201). Step 202).

  If it is determined that the mode is not the monochrome image reading mode (the color image reading mode) (NO in step 202), the original is read at the normal image reading position using the color image reading unit (step 203).

  On the other hand, if it is determined in step 202 that the mode is the black and white image reading mode (YES in step 202), it is determined whether or not a filter is used (step 204), and it is determined that no filter is used (NO in step 204). The original is read at the normal image reading position using the monochrome image reading unit and the color image reading unit (step 203).

  If it is determined in step 204 that a filter is to be used (YES in step 204), the original reading position is changed according to the position of the filter on which the exposure table is placed on the lath (step 205), and black and white. The original is read at the image reading position changed according to the filter using the image reading unit and the color image reading unit (step 203).

  In this embodiment, the image reading position is changed according to the filter installed on the exposure table glass. However, the filter may be installed at a normal image reading position using ADF. .

  Further, as shown in FIG. 3B, a filter may be provided on the optical path such as between the reflecting mirror 15 and the lens 25. With this configuration, even when reading a normal document that does not use the ADF, You can choose to use filters.

  Further, in this embodiment, the “G” filter is installed in the conventional “no filter” line, but an “R” or “B” filter may be used. However, since the “G” filter can have a wider range than other filters and has a high transmittance for black and white images, the “G” filter is preferable to other filters.

  In addition, the image information acquired in the present embodiment may be configured to be corrected by the method described in the first embodiment regardless of the presence or absence of a filter. Further, a filter is used. In this case, the color image information and the monochrome image information are processed using the method described in the first embodiment, and when the filter is not used, the color image information is compared with the monochrome image information, and is generated when the document is read. Processing for detecting and correcting black and white stripes to be performed may be performed on black and white image information.

  In this embodiment, the original is read by the black and white image reading unit and the color image reading unit when the black and white image reading mode is set, but the original may be read only by the black and white image reading unit.

  As described above, in this embodiment, since the filter is installed on the optical path, it is possible to select whether or not to use the filter when the original is read by the monochrome image reading unit.

  In addition, when an image defect occurs due to a decrease in the S / N ratio accompanying a decrease in the dynamic range when using a filter, it is possible to read an image without a filter, and the reading can be performed using a method suitable for a document. It can be carried out.

  Furthermore, it is possible to perform appropriate processing on the image information depending on whether the filter is used or whether the filter is used, and appropriate correction according to the document reading method is applied to the monochrome image information. Can be applied.

1 is a functional block diagram illustrating an example of the configuration of an image reading apparatus according to the present invention. A flowchart showing a flow of processing in the document reading apparatus Schematic configuration diagram showing an example of the configuration of an image reading apparatus in Embodiment 2 A flowchart showing a flow of processing in the document reading apparatus Schematic conceptual diagram showing an example of the configuration of the optical element

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Image reading apparatus 2 ... Information processing apparatus 10 ... ADF
DESCRIPTION OF SYMBOLS 11 ... Exposure light source 12 ... Optical element 13 ... Drive part 14 ... Signal processing part 15 ... Image information memory | storage part 16 ... Control part 17 ... Control program memory | storage part 18 ... Mode setting part 19 ... Color space conversion part 20 ... Density change detection and detection Determination unit 21 ... Density correction unit 22 ... Communication I / F
DESCRIPTION OF SYMBOLS 23 ... White reference plate 24 ... Original plate glass 25 ... Lens 26 ... Reflector part 27 ... Filter 100 ... Optical element 101 ... Monochrome image reading part 102 ... Color image reading part

Claims (5)

A black and white image reading unit for acquiring black and white image information from a document;
A color image reading unit for obtaining color image information from the original;
A density change detection / determination unit for detecting a border of the color image information;
An original reading apparatus, comprising: a density correction unit that corrects the density of the black and white image information to make the boundary clear. A color space conversion unit for converting the color image information into a color space;
The document reading apparatus according to claim 1, wherein the density change detection / determination unit detects a boundary from the color image information after color space conversion. 4. The document reading apparatus according to claim 1, wherein the monochrome image reading unit acquires any of the RGB components by reading any of the RGB components. A black and white image reading unit for acquiring black and white image information from a document;
A color image reading unit for obtaining color image information from the original;
A filter that can be placed on an optical path between the original and the black and white image reading unit;
An original reading apparatus, comprising: a drive unit configured to place the filter on the optical path according to a condition for reading the original. Acquire black and white image information from the original in the black and white image reading unit,
Color image information is acquired from the original by a color image reading unit,
The boundary of the color image information is detected by the density change detection / determination unit,
An original reading method comprising: correcting the density of the black and white image information by a density correction unit to make the boundary clear.

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