JP2004120022A - Image processing apparatus, image processing method, program therefor, and recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable image data read from an original by an image processing apparatus to be browsed, edited, and processed or used as it is by an external device. <P>SOLUTION: A color discrimination section of a scanner correction section 2 discriminates whether or not image data (original) received from a read unit 1 is full color data (full color original) or monochromatic data (monochromatic original), a CPU of a printer controller 11 selects a general-purpose format (prescribed format) used by a general-purpose format conversion section for its conversion in an image format conversion unit 14 depending on the result of color discrimination and afterward allows the image format conversion unit 14 to apply expansion processing, resolution conversion, gamma correction, color conversion, medium tone processing, and general-purpose format conversion to image data (image data stored in an HDD 13) read from a semiconductor memory 12, and allows an NIC 15 to distribute the image data subjected to the processing to a personal computer 30 on a network. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image processing apparatus used in a full-color image forming apparatus such as a full-color copying machine (full-color digital copying machine), a full-color multifunction machine (full-color digital multifunction machine), a full-color facsimile (FAX) device, and a full-color scanner device. The present invention relates to a program for realizing a function (a function according to the present invention) necessary for a computer that controls the image processing apparatus, a computer-readable recording medium storing the program, and a computer-readable recording medium.
[0002]
[Prior art]
As a full-color image forming apparatus having a scanner unit (image input means) such as a full-color copying machine (hereinafter, also simply referred to as "image forming apparatus") or a full-color scanner apparatus, for example, an information processing apparatus ( A communication function (communication means) for communicating with the terminal device), an original document is optically scanned by a scanner unit, the image (full color image or monochrome image) is read, and RGB (red, green, blue) system image data is read. 2. Description of the Related Art There is known an image processing apparatus having a distribution function (distribution means), which is a function of network scanner distribution for inputting and distributing the image data to an information processing apparatus on a network.
For example, as described in Patent Literature 1, an expansion box based on the architecture of a general-purpose computer system is provided, and a document is optically scanned and read by an image input unit (scanner unit) of an image forming apparatus. An image editing system has been proposed in which image data is stored as an image file in a hard disk device (scan box) in an extension box, and the image file in the scan box can be shared between computer systems (external devices) on a network. ing.
[0003]
Here, a processing procedure when using the scan box function of the image editing system described in Patent Document 1 will be described.
In this image editing system, an image forming apparatus sets (selects) scan parameters (copy parameters) such as a resolution, a gradation, a magnification, a reading surface, an image size, and a storage destination (storage destination). Is read, and the read image data is transferred to the image processing unit to execute image processing according to the scan parameters. At this time, the image data is converted into the output data format without performing the image output (image formation) of the image data by the image output unit. That is, image processing such as color coordinate system conversion from RGB system to CMYK (cyan, magenta, yellow, black) system and gradation correction is performed. The image data after the image processing is transferred to the extension box. The expansion box compresses image data from the image forming apparatus, temporarily stores (stores) the image data in a scan box allocated to a predetermined disk area in the hard disk device, and stores the image data of all originals (pages). After storing the image data, the client on the network can retrieve the image data from the scan box.
[0004]
[Patent Document 1]
JP 2000-333026 A
[0005]
[Problems to be solved by the invention]
Such an image editing system has the following problems (1) and (2).
(1) The image data stored in the hard disk device is often in a format that can be easily handled by the image forming device (a format dedicated to the image forming device), and is further compressed by a compression algorithm to save memory. When the data is distributed to an information processing device such as a personal computer (hereinafter, also referred to as a “personal computer”) as an external device via a network, the data may be compressed by a general-purpose application. There was a problem that it could not be browsed (browsing images), edited or processed.
(2) The original (image data input by the image input unit) read by the image input unit may be a color original (full color data) or a monochrome original (monochrome data). If it is desired to change the condition setting for (1), it is necessary to make the setting for each document separately, which is inconvenient.
[0006]
The present invention has been made in view of the above points, and in an image processing apparatus used in a full-color image forming apparatus such as a full-color copying machine or a full-color scanner, a plurality of input image data is full-color data. Optimum processing can be performed on each image data regardless of whether the data is monochrome data or monochrome data, and it is not necessary to set conditions separately for each image data, thereby improving workability by a user. It is an object of the present invention to be able to use (reuse) the image data as it is, such as browsing the image data with an external device (an information processing device such as a personal computer), editing / processing, and the like.
[0007]
[Means for Solving the Problems]
SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides an image processing apparatus such as a digital copying machine, an image processing method, a program for realizing a function required for a computer that controls the image processing apparatus, and a computer readable recording of the program. A simple recording medium is provided.
[0008]
The image processing apparatus according to the first aspect of the present invention includes a communication unit that communicates with an external device, an image data input unit that inputs image data, an image storage unit that stores the image data input by the unit, In an image processing apparatus having a distribution unit for distributing stored image data to an external device by the communication unit, the image data stored in the image storage unit can be stored in a predetermined format (predetermined image data format) usable by the external device. ), A color determining means for determining whether the image data input by the image data input means is full color data or monochrome data, and a determination by the means. Format switching means for switching the format to be converted by the format conversion means according to the result The provided the distribution means, the image data format conversion by said format converting means is obtained by a means for delivering to the outside by the communication means.
[0009]
According to a second aspect of the present invention, in the image processing apparatus of the first aspect, the format conversion unit uses the image data stored in the image storage unit in a general-purpose information processing apparatus such as a personal computer. This is a means for converting to a possible general-purpose format (general-purpose image data format).
An image processing device according to a third aspect of the present invention is the image processing device according to the first or second aspect, wherein the format conversion unit includes a color conversion processing unit that performs a color conversion process on image data, and is stored in the image storage unit. Means for subjecting the processed image data to color conversion processing by the color conversion processing means, and then performing format conversion on the processed image data; and performing color conversion by the color conversion processing means in accordance with the determination result by the color determination means. The color conversion processing switching means for switching the processing is provided.
[0010]
An image processing apparatus according to a fourth aspect of the present invention is the image processing apparatus according to the third aspect, wherein the color conversion processing switching means is used for the color conversion processing by the color conversion processing in accordance with the determination result by the color determination means. Is a means for switching. An image processing apparatus according to a fifth aspect of the present invention is the image processing apparatus according to the third aspect, wherein the color correction processing switching means controls a method of the color conversion processing by the color conversion processing means according to a determination result by the color determination means. This is a means for switching.
[0011]
According to a sixth aspect of the present invention, in the image processing apparatus according to the first or second aspect, the general-purpose format conversion unit includes a gamma correction processing unit that performs a gamma correction process on image data, and is stored in the image storage unit. Gamma correction processing is performed on the processed image data by the gamma correction processing means, and the processed image data is converted into a format. The gamma correction is performed by the gamma correction means according to the determination result by the color determination means. A gamma correction processing switching means for switching the processing is provided.
An image processing apparatus according to a seventh aspect of the present invention is the image processing apparatus according to the sixth aspect, wherein the gamma correction processing switching means is used for gamma correction processing by the gamma correction processing means in accordance with a determination result by the color determination means. This is a means for switching gamma correction data.
[0012]
An image processing device according to an eighth aspect of the present invention is the image processing device according to the first or second aspect, further comprising: the general-purpose format conversion unit includes a halftone processing unit that performs halftone processing on image data, and is stored in the image storage unit. Means for subjecting the processed image data to halftone processing by the halftone processing means, and then performing format conversion on the processed image data; and performing halftone processing by the halftone processing means in accordance with the determination result by the color determination means. A halftone process switching means for switching the tone process is provided.
An image processing apparatus according to a ninth aspect of the present invention is the image processing apparatus according to the eighth aspect, wherein the halftone processing switching means controls the halftone processing method by the halftone processing means in accordance with the determination result by the color determination means. This is a means for switching.
[0013]
An image processing apparatus according to a tenth aspect of the present invention is the image processing apparatus according to the eighth or ninth aspect, wherein, when it is recognized from the determination result by the color determination means that full-color data and monochrome data are mixed, A halftone process switching prohibition unit for prohibiting the switching of the halftone process by the process switching unit is provided.
An image processing apparatus according to an eleventh aspect of the present invention is the image processing apparatus according to the tenth aspect, wherein the halftone processing switching inhibiting means selects whether or not to inhibit the halftone processing switching by the halftone processing switching means. A processing switching prohibition necessity selecting means is provided.
[0014]
The image processing apparatus according to the twelfth aspect of the present invention is the image processing apparatus according to any one of the first to eleventh aspects, wherein, when it is recognized that full-color data and monochrome data are mixed from the determination result by the color determination unit, A format switching prohibiting unit for prohibiting format switching by the format switching unit is provided.
An image processing apparatus according to a thirteenth aspect of the present invention is the image processing apparatus according to the twelfth aspect, wherein the format switching prohibition means selects whether or not to prohibit the format switching by the format switching means. Is provided.
[0015]
An image processing apparatus according to a fourteenth aspect of the present invention is the image processing apparatus according to the twelfth or thirteenth aspect, further comprising: a format setting unit that sets a format to be converted by the general-purpose format conversion unit to be changeable. Means for converting the image data stored in the image storage means into the format set by the format setting means when the format switching by the format switching means is prohibited by the format switching means. .
[0016]
An image processing method according to claim 15 is a communication means for communicating with the outside, an image data input means for inputting image data, an image storage means for storing image data input by the means, and a storage means for the image data. And a distribution unit for distributing the received image data to the outside by the communication unit, wherein the image data input by the image data input unit is full color data or monochrome data. And switching a predetermined format that can be used in the external device in accordance with the determination result, and when distributing the image data stored in the image storage means to the outside by the communication means, It is converted to the format after switching.
[0017]
An image processing method according to a sixteenth aspect of the present invention is the image processing method according to the fifteenth aspect, wherein the predetermined format is a general-purpose format that can be used in a general-purpose information processing device such as a personal computer.
An image processing method according to a seventeenth aspect of the present invention is the image processing method according to the fifteenth or sixteenth aspect, wherein the color conversion processing is switched according to the determination result, and the image data stored in the image storage means is externally transmitted by the communication means. When the image data is distributed to the image data, the color conversion processing after the switching is performed on the image data, and the format of the processed image data is converted.
[0018]
An image processing method according to an eighteenth aspect of the present invention is the image processing method according to the fifteenth or sixteenth aspect, wherein the gamma correction processing is switched according to the determination result, and the image data stored in the image storage means is externally transmitted by the communication means. When distributing the image data to the image data, the image data is subjected to the gamma correction process after the switching, and then the format of the processed image data is converted.
An image processing method according to a nineteenth aspect of the present invention is the image processing method according to the fifteenth or sixteenth aspect, wherein the halftone processing is switched according to the determination result, and the image data stored in the image storage means is externally transmitted by the communication means. When the image data is distributed to the image data, the halftone processing after the switching is performed on the image data, and the format of the processed image data is converted.
[0019]
An image processing method according to a twentieth aspect of the present invention is the image processing method according to the nineteenth aspect, wherein the switching of the halftone processing is prohibited when it is recognized from the determination result that full-color data and monochrome data are mixed. Things.
The image processing method according to the twenty-first aspect of the present invention is the image processing method according to any one of the fifteenth to twentieth aspects, wherein the format switching is performed when full color data and monochrome data are recognized as being mixed from the determination result. Is prohibited.
An image processing method according to a twenty-second aspect is the image processing method according to the twenty-first aspect, wherein the image data stored in the image storage means is converted to a preset format when the format switching is prohibited. It is.
[0020]
A program according to a twenty-third aspect of the present invention controls an image processing apparatus having communication means for communicating with the outside, image data input means for inputting image data, and image storage means for storing image data input by the means. A computer that converts the image data stored in the image storage unit into a predetermined format such as a general-purpose format that can be used in a general-purpose information processing apparatus such as a personal computer; A delivery function of delivering the image data to the outside by the communication means, a color determination function of determining whether the image data input by the image data input means is full color data or monochrome data, and a determination by the function. The format converted by the format conversion function according to the result It is intended for realizing the format switching function for switching the bets.
[0021]
A program according to a twenty-fourth aspect of the present invention controls an image processing apparatus having communication means for communicating with the outside, image data input means for inputting image data, and image storage means for storing image data input by the means. A color conversion processing function for performing color conversion processing on the image data stored in the image storage means, and a general-purpose information processing apparatus such as a personal computer for performing the color conversion processing by the function. A format conversion function for converting the image data into a predetermined format such as a general-purpose format, a distribution function for distributing image data format-converted by the function to the outside by the communication unit, and an image input by the image data input unit. A color format that determines whether the data is full color data or monochrome data A function, a color conversion processing switching function for switching the color conversion processing by the color conversion processing function according to the determination result by the function, and a format for switching the format to be converted by the format conversion function according to the determination result by the color determination function This is for realizing the switching function.
[0022]
A program according to a twenty-fifth aspect controls an image processing apparatus having communication means for communicating with the outside, image data input means for inputting image data, and image storage means for storing image data input by the means. Gamma correction processing function for performing gamma correction processing on image data stored in the image storage means, and a versatile information processing apparatus such as a personal computer for performing image processing on which gamma correction processing has been performed by the function. A format conversion function for converting the image data into a predetermined format such as a general-purpose format, a distribution function for distributing image data format-converted by the function to the outside by the communication unit, and an image input by the image data input unit. Whether the data is full color data or monochrome data The gamma correction processing switching function for switching the gamma correction processing according to the gamma correction processing function according to the determination result by the function, and the format conversion function according to the determination result by the color determination function This is for realizing a format switching function for switching formats.
[0023]
A program according to a twenty-sixth aspect controls an image processing apparatus having communication means for communicating with the outside, image data input means for inputting image data, and image storage means for storing image data input by the means. A halftone processing function for performing halftone processing on the image data stored in the image storage means, and a versatile information processing apparatus such as a personal computer for performing the halftone processing by the function. A format conversion function for converting the image data into a predetermined format such as a general-purpose format, a distribution function for distributing image data format-converted by the function to the outside by the communication unit, and an image input by the image data input unit. A color format that determines whether the data is full color data or monochrome data A function, a halftone processing switching function for switching halftone processing by the halftone processing function according to the determination result by the function, and a general-purpose format to be converted by the format conversion function according to the determination result by the color determination function. This is for realizing a format switching function.
[0024]
A program according to a twenty-seventh aspect of the present invention is the program according to the twenty-sixth aspect, wherein when it is recognized from the determination result by the color determination function that full-color data and monochrome data are mixed, the halftone processing switching function is used. This is also to realize a halftone process switching prohibition function for prohibiting process switching.
A program according to a twenty-eighth aspect of the present invention is the program according to any one of the twenty-third to the twenty-third aspect, wherein the format switching function is performed when full color data and monochrome data are recognized as being mixed from the determination result by the color determination function. This is also for realizing a format switching prohibition function of prohibiting format switching by the above.
A recording medium according to a twenty-ninth aspect of the present invention is a computer-readable recording medium on which the program according to any one of the twenty-third to twenty-eighth aspects is recorded.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.
FIG. 1 is a block diagram showing an example of the configuration of a full-color MFP as an MFP (Multi Function Printer), which is an embodiment of a full-color image forming apparatus including an image processing apparatus according to the present invention, together with the flow of image data at the time of copying. .
FIG. 2 is a block diagram illustrating a configuration example of the scanner correction unit 2 in FIG.
FIG. 3 is a block diagram illustrating a configuration example of the printer correction unit 6 of FIG.
[0026]
This full-color MFP is roughly divided into a plotter engine unit (hereinafter simply referred to as an “engine unit”), a printer controller unit, and an operation panel 20.
The engine unit includes a reading unit (scanner unit) 1, a scanner correction unit 2, a fixed-length multi-value compressor 3, an engine controller 4, a fixed-length multi-value decompressor 5, a printer correction unit 6, a GAVD (writing unit) 7, It comprises an image unit 8, a facsimile controller 9, and the like.
[0027]
The printer controller includes a printer controller 11, a semiconductor memory 12, an HDD (hard disk device) 13, an image format conversion unit 14, an NIC (network interface controller), and the like.
Note that the image processing apparatus of the full-color multifunction peripheral includes a part (for example, the GAVD 7 and the image forming unit 8) corresponding to a printing unit (image forming unit) of the engine unit.
[0028]
The engine unit and the printer controller unit are connected by a general-purpose bus interface (hereinafter, “interface” is referred to as “I / F”) 16.
The reading unit 1 of the engine unit is image input means (image reading means), and optically converts an image of a document set (placed) on a reading position (for example, on a contact glass) or a document passing through the reading position. read. At this time, each of the R (red), G (green), and B (blue) color separation lights is photoelectrically converted and amplified, and an 8-bit (each other than 8-bit) image of each color of RGB, which is an electrical image signal. The data is sent to the scanner correction unit 2 as data.
[0029]
The document to be read is set at the reading position of the reading unit 1 by the user, or the document on the document table is automatically fed one by one by an ADF (automatic document feeder) and set at the reading position. Or simply passes through the reading position by the ADF. Although the image data read by the reading unit 1 is 8 bits for each color here, the present invention is not limited to this.
2, the scanner correction unit 2 includes a scanner gamma (γ) correction unit 101, a filter processing unit 102, a color correction unit 103, a scaling unit 104, and a color determination unit 105 (color determination unit). Thus, various processes are performed on the image data sent from the reading unit 1.
[0030]
That is, the scanner gamma correction unit 101 performs (executes) a scanner gamma (γ) correction process on the image data, and the filter processing unit 102 performs a filter process on the processed image data. The color correction unit 103 performs color correction processing (color conversion from RGB system to CMYK system) on the image data on which the processing has been performed, and the scaling processing unit 104 performs scaling on the image data on which the processing has been performed. The image data subjected to the image processing is sent to a fixed-length multi-value compressor (fixed-length irreversible compressor) 3. In parallel with the image processing, the color determination unit 105 determines whether the image data (original) input from the reading unit 1 is full-color data (full-color original) or monochrome data (monochrome original). The color determination processing is performed, and the color determination result is notified to the engine controller 4. The color determination result may be read by the CPU in the engine controller 4 and used as needed.
[0031]
The fixed-length multi-level compressor 3 is a compression unit, and irreversibly compresses (encodes) the image data sent from the scanner correction unit 2. That is, CMYK 8-bit color data (color signal) is converted into 2-bit color data (other than 2 bits).
Since the output section of the fixed-length multi-value compressor 3 is connected to the general-purpose bus I / F 16, the CMYK-based image data after the lossy compression passes through the general-purpose bus I / F 16 to the printer controller 11 of the printer controller. Sent.
[0032]
The printer controller 11 uses a microcomputer including a CPU (Central Processing Unit), ROM, and RAM, and controls the entire printer controller unit.
The semiconductor memory 12 is independent for each color of CMYK, and can store (store) CMYK-based image data under the control of the printer controller 11.
The HDD 13 is a large-capacity storage device, and can store various types of data such as a large amount of image data, job history data, and various programs including a program according to the present invention. Note that the HDD 13 and the semiconductor memory 12 correspond to an image storage unit. Further, instead of the HDD 13, another mass storage device such as an optical disk device can be used.
[0033]
Here, the image data stored in the semiconductor memory 12 is also stored in the HDD 13 as needed. This is to avoid rereading the same document even if the paper is jammed at the time of printing (printout) and printing is not completed normally, or to use electronic sorting to sort the image data of multiple documents. To do it. In recent years, not only this, but also a full-color multifunction peripheral has been added with a function of accumulating image data of a read original and re-outputting (reprinting or redistributing) when necessary.
[0034]
Here, irreversible compression is performed on CMYK image data. However, if the bandwidth of the general-purpose bus I / F 16 is sufficiently wide and the storage capacity of the HDD 13 to store is large, the data is not compressed. May be treated. That way, image deterioration due to irreversible compression can be prevented.
At the time of copying, the CMYK system image data (compressed data) in the HDD 13 is once expanded in the semiconductor memory 12 by the printer controller 11 and then passes through the general-purpose bus I / F 16 to the fixed-length multi-level decompressor 5 of the engine unit. Sent.
[0035]
The fixed-length multi-level decompressor (fixed-length irreversible decompressor) 5 of the engine unit is a decompression unit, and decompresses (decodes) image data (compressed data) sent from the printer controller. That is, the CMYK 2-bit color data is converted into 8-bit color data. Then, the converted image data is sent to the printer correction unit 6.
As shown in FIG. 3, the printer correction unit 6 includes a printer gamma correction unit 110 and a halftone processing unit 111, and performs each image processing. That is, the printer gamma correction unit 110 sequentially performs printer gamma correction processing on the color data of each of the CMYK colors, which are the image data sent from the fixed-length multi-level decompressor 5, and performs the processing on each color data. The halftone processing unit 111 sequentially performs halftone processing according to the GAVD 7 and the image forming unit 8, and sends the processed image data to the GAVD 7 for each color.
[0036]
The GAVD 7 modulates and drives a semiconductor laser (laser diode) (not shown) based on the C image data sent from the printer correction unit 6 to emit a corresponding laser beam, and periodically emits the laser beam using a polygon mirror (rotating polygon mirror). In the main scanning direction, a drum-shaped or belt-shaped photosensitive member which is deflected and rotated in the sub-scanning direction by a laser beam focused by a scanning lens (previously charged by the charger of the image forming unit 8) is moved in the main scanning direction. An electrostatic latent image is formed by performing repetitive scanning (main scanning). Thereafter, the same processing as described above is performed on each of the M, Y, and K image data sequentially sent from the printer correction unit 6.
[0037]
The image forming unit 8 performs a known image forming process. For example, a C charger is used to uniformly charge the photoreceptor, and a C developing unit is used to form a C toner image by attaching a C toner to an electrostatic latent image corresponding to the C image data formed on the photoreceptor. Then, it is transferred onto a belt-like or drum-like intermediate transfer body by a primary transfer unit. Next, an M toner is adhered to the electrostatic latent image corresponding to the M image data formed on the photoconductor by the M developing unit to form an M toner image, and the M toner image is formed by the primary transfer unit. On the C toner image. Thereafter, the same processing as described above is sequentially performed by each of the developing units for Y and K to form a four-color superimposed toner image on the intermediate transfer member, and the four-color superposed toner image is supplied from the paper feeding unit. After a batch transfer onto the fed paper (transfer paper) by the secondary transfer unit, the toner image on the paper is fused and fixed by the fixing unit, and the paper (copy) after the fixing process is sent to the paper discharge unit. Discharge paper. The order of image formation is not limited to CMYK.
[0038]
The engine controller 4 uses a microcomputer including a CPU, a ROM, and a RAM, and controls the entire engine unit.
The engine unit has an automatic color selection (ACS) function, and the CPU of the engine controller 4 uses the color determination result of the color determination unit 105 to output image data (document) input from the reading unit 1. Is recognized as full-color data (full-color document), the GAVD 7 and the image forming unit 8 form an image of each color of CMYK (full-color document). The image forming unit 8 forms a K color (monochrome) image.
[0039]
The FAX controller 9 controls transmission and reception of FAX data (image data) to and from an image forming apparatus such as a FAX apparatus or another full-color multifunction peripheral having a FAX function via a public line.
The image format conversion unit 14 is a format conversion unit, and performs various processes such as converting the format of image data (image data format).
The NIC 15 is a communication unit, and communicates with an external device such as a personal computer 30 (external PC) on a network such as a LAN (local area network).
The operation panel 20 (FIG. 6) includes various operation buttons such as a copy button (copy key) and a display for displaying various information.
[0040]
Here, the color determination unit 105 of FIG. 2 will be described in more detail with reference to FIGS.
FIG. 4 is a block diagram illustrating a configuration example of the color determination unit 105.
FIG. 5 is a timing chart illustrating an example of the effective image area signal START_X and the line synchronization signal LSYNC input to the color determination unit 105 when forming an image using image data for one page.
The color determination unit 105 can correspond to a type in which the reading unit 1 optically reads an image of a document passing a reading position by automatic feeding of an ADF, and includes a color pixel block determination circuit 201, a selector 202, and a threshold value switching. The signal generator 210 is configured.
[0041]
The threshold value switching signal generation section 210 outputs a K_GATE signal described later to the selector 202.
The color pixel block determination circuit 201 performs the following processing based on the 8-bit RGB color image data for each pixel of the original image sent from the reading unit 1.
That is, the maximum value ΔRGB of the difference between RGB is calculated by the following equation.
ΔRGB = d [i, j] (d [i, j] = MAX [rij, gij bij] −MIN [rij, gij bij] i, j = 0, 1, 2, 3)
Next, the number of pixels in which the maximum color difference d [i, j] is larger than the color difference threshold value th_1 in a unit block (16 pixels) of the unit of 4 lines × 4 pixels is counted. If this is called the number of chromatic pixels: | C |
| C | = {d [i, j] | d [i, j]> th_1}
Required by
[0042]
When the number of chromatic pixels | C | is larger than the color determination threshold value: th_2, it is determined that the document is a chromatic original (full-color original), and the determination result is notified to the engine controller 4. In this example, the color determination signal YUSAI to the engine controller 4 is set to the high level “H”.
Conversely, when | C | is equal to or less than th_2, it is determined that the document is an achromatic document (monochrome document), and the determination result is notified to the engine controller 4. In this example, the color determination signal YUSAI is set to low level “L”.
[0043]
The selector 202 selects one of the two thresholds th_a and th_b according to the threshold switching signal K_GATE from the threshold switching signal generator 210. That is, when the threshold switching signal K_GATE is “H”, the threshold th_b is selected, and when the threshold switching signal K_GATE is “L”, the threshold th_a is selected. Then, the selected threshold value is output to the color pixel block determination circuit 201 as a color determination threshold value th_2. For th_a and th_b, th_b is a parameter that makes it easier to perform achromatic determination in color determination than th_a.
[0044]
The threshold value switching signal generator 210 receives an effective image area signal START_X and a line synchronization signal LSYNC from the engine controller 4. For example, as shown in FIG. 5, in the effective image area signal START_X, the section of “H” indicates an effective image area in the sub-scanning direction (the rotation direction of the photoconductor). The point in time when the line synchronization signal LSYNC changes from “L” to “H” indicates the line start position (the main scanning start position of one line by the laser beam).
The threshold switching signal generator 210 counts up (+1) every time the line synchronization signal LSYNC changes from L to H after the effective image area signal START_X changes from L to H. Accordingly, the line position in the sub-scanning direction can be managed, and the output of the threshold switching signal K_GATE is controlled according to the line position.
[0045]
The CPU of the engine controller 4 sends the threshold switching signal generation unit 210 the width of the threshold switching area, that is, the number K_START of the area start line corresponding to the area start line position and the number K_END of the area end line corresponding to the area end line position. Enter and set.
Threshold switching area width = (area start line number, area end line number)
= (K_START, K_END)
As a result, the threshold switching signal generator 210 counts up each time the line synchronization signal LSYNC changes from “L” to “H” after the effective image area signal START_X changes from “L” to “H”, The threshold switching signal K_GATE is changed from “L” to “H” when the count reaches the region start line number K_START, and the threshold switching signal K_GATE is changed from “H” to “L” when the count reaches the region end line number K_END. To change.
[0046]
That is, the threshold switching signal K_GATE is set to “H” until the count reaches the area start line number K_START to the area end line number K_END, and otherwise to “L”.
The width of the threshold switching area can be set to any width.
Also, a plurality of widths of the threshold value switching area can be set.
For example, if you want to set the width of three threshold switching areas,
Width A of threshold switching area = (1000, 1100)
Width B of threshold switching area = (2000, 2500)
Width C of threshold switching area = (3000,3300)
Thus, a desired area can be set as a threshold switching area.
[0047]
In this example, the line position in the sub-scanning direction is managed by counting up (+1) every time the line synchronization signal LSYNC changes from L "to" H ". However, the effective image area signal START_X Of course, the line position in the sub-scanning direction may be managed by measuring the time from "L" to "H".
Further, as the color determination processing, there is another processing other than the processing described above. These are known techniques and are described in, for example, JP-A-63-107274, JP-A-2000-152000, JP-A-2001-157051, and JP-A-6-14205.
[0048]
Hereinafter, each embodiment of a portion according to the present invention in the full-color multifunction peripheral having the above-described configuration will be specifically described with reference to FIGS.
First, a first embodiment will be described.
In the first embodiment, the CPU in the printer controller 11 operates in accordance with the program according to the present invention stored (recorded) in the ROM or the HDD 13 (recording medium) or the like, so that the format switching means and the distribution means are operated. Function can be realized.
FIG. 6 is a block diagram showing a configuration example of the full-color multifunction peripheral together with a flow of image data at the time of distribution.
FIG. 7 is a block diagram showing a configuration example of the image format conversion unit 14 of FIG.
[0049]
As can be understood from a comparison between FIG. 1 and FIG. 6, the flow of image data until it is stored in the HDD 13 is the same as that at the time of copying, and therefore, description thereof will be omitted.
The HDD 13 stores CMYK-compressed 2-bit image data that has passed through the same path as during copying.
When distributing image data to the personal computer 30 via the network, the CPU in the printer controller 11 reads out CMYK 2-bit image data (compressed data) stored in the HDD 13 and expands it in the semiconductor memory 12 once. Thereafter, the developed image data is read out and sent to the image format conversion unit 14 via the general-purpose bus I / F 16 to perform the following processing.
[0050]
As shown in FIG. 7, the image format conversion unit 14 includes a decompression processing unit 121, a resolution conversion unit 122, a gamma correction unit 123 (gamma correction processing unit), a color conversion unit 124 (color conversion processing unit), and a halftone processing unit. 15 (halftone processing means) and a general-purpose format conversion section 126 (format conversion means), whereby the image data transmitted from the printer controller 11 via the general-purpose bus I / F 16 is converted into an image format. Perform conversion processing (image processing).
That is, the image data (compressed data) is decompressed by the decompression processing unit 121 (conversion of 2-bit CMYK color data into 8-bit color data), and the resolution of the decompressed image data is converted by the resolution conversion unit 122. Performs a resolution conversion process for converting the image data to a preset resolution, the gamma correction unit 123 performs a gamma correction process on the processed image data, and performs a color conversion on the processed image data. The unit 124 performs color conversion processing (color conversion from CMYK system to RGB system), the halftone processing unit 125 performs halftone processing on the processed image data, and processes the processed image data. The general-purpose format conversion unit 126 converts the data into a general-purpose format.
[0051]
The color conversion unit 124 not only converts the image data from the CMYK system to the RGB system but also converts the image data into a color coordinate system (color space) such as sRGB or YUV on the operation panel 20 or the personal computer 30. Can be converted by an operation (designation).
Further, the resolution can be set in advance by a user operation on the operation panel 20 or the personal computer 30.
The CPU in the printer controller 11 distributes the image data subjected to the format conversion processing by the image format conversion unit 14 to the personal computer 30 or another general-purpose information processing device (external device) on the network by the NIC 15.
[0052]
Here, the processing of the image format conversion unit 14 and the printer controller 11 will be described a little more.
The CPU in the printer controller 11 acquires the color determination result by the color determination unit 105 in the scanner correction unit 2 from the engine controller 4 via the general-purpose bus I / F 16, and according to the color determination result, the image format conversion unit 14 The general-purpose format (predetermined format) to be converted by the general-purpose format conversion unit 126 is switched. The switchable general-purpose format uses image data on which image processing including halftone processing has been performed by each unit including the halftone processing unit 125 in a general-purpose information processing apparatus such as a personal computer 30 as an external apparatus ( This is a format that can be viewed, edited, and processed), and includes, for example, a JPEG (Joint Photographic Expert Group) format, a TIFF (Tagged Image File Format) format, and a BPM (Bitmap) format.
[0053]
For example, when the image data (original) input from the reading unit 1 is determined to be full-color data (full-color original) by the color determination unit 105 in the scanner correction unit 2, the image is switched to the JPEG format (select the JPEG format). If it is determined that the data is monochrome data (monochrome original), the binary data is switched to the binary TIFF format (the TIFF format is selected). Of course, the format may be switched to another general-purpose format, or the same general-purpose format may be used. If this can be set by an operation (designation) by the user on the operation panel 20 or the personal computer 30, it can be more matched to the user's preference.
[0054]
Thus, the color determination unit 105 in the scanner correction unit 2 determines whether the image data (original) input from the reading unit 1 is full-color data (full-color original) or monochrome data (monochrome original). The CPU in the printer controller 11 performs a color determination process and switches the general-purpose format (predetermined format) to be converted by the general-purpose format conversion unit 126 in the image format conversion unit 14 according to the color determination result. The read image data (the image data stored in the HDD 13) is subjected to the above-described image format conversion processing by the image format conversion unit 14, and the processed image data is distributed to the personal computer 30 on the network by the NIC 15. By reading Regardless of whether a plurality of originals (a plurality of image data input from the reading unit 1) read by the scanning unit 1 are full-color originals (full-color data) or monochrome originals (monochrome data), each original ( Since the optimum processing can be performed on the image data), it is not necessary to separately set conditions for each of the originals, thereby improving workability. Further, the image data read from these manuscripts can be used as it is, such as browsing with the personal computer 30, editing, and processing.
[0055]
Note that the image format conversion unit 14 is provided with a dedicated format processing unit instead of the general-purpose format conversion unit 126, and the image data including the halftone processing performed by the units including the halftone processing unit 125 is used for general-purpose image data. It can also be converted into a dedicated format (predetermined format) that can be used by an external device other than a certain information processing device. In this case, it is assumed that the external device has dedicated software (dedicated program) for using the image data in the dedicated format. Therefore, the image data of each document read from the document can be used as it is, such as browsed by an external device other than the general-purpose information processing device, edited, and processed.
[0056]
Further, the image format conversion unit 14 includes a decompression processing unit 121, a resolution conversion unit 122, a gamma correction unit 123, a color conversion unit 124, and a halftone processing unit 125, in addition to the general-purpose format conversion unit 126 (or dedicated format processing unit). , But it is not always necessary to provide components other than the general-purpose format conversion unit 126. In this case, the CPU in the printer controller 11 converts the image data read from the semiconductor memory 12 into a general-purpose format (or a special-purpose format) by the general-purpose format conversion unit 126 (or the special-purpose format processing unit) of the image format conversion unit 14 as it is. The format-converted image data can be distributed by the NIC 15 to the personal computer 30 or another external device on the network.
[0057]
Alternatively, the image format conversion unit 14 may include a decompression processing unit 121, a resolution conversion unit 122, a gamma correction unit 123, a color conversion unit 124, and a halftone processing unit 125, in addition to the general-purpose format conversion unit 126 (or dedicated format processing unit). Any one or more (arbitrary combination) may be provided. In this case, the CPU in the printer controller 11 can perform one or more of the following (1) to (5).
(1) After the image data (compressed data) read from the semiconductor memory 12 is expanded by the expansion processing unit 121 in the image format conversion unit 14, the expanded image data is converted into the general-purpose format conversion unit 126 (or the dedicated format processing unit). ), And converts the format-converted image data to the personal computer 30 or other external device on the network by the NIC 15.
[0058]
(2) A resolution conversion process is performed to convert the resolution of the image data read from the semiconductor memory 12 by the resolution conversion unit 122 in the image format conversion unit 14, and the processed image data is converted to a general-purpose format conversion unit 126 (or The image data is converted into a general-purpose format (or a dedicated format) by the dedicated format processing unit, and the format-converted image data is distributed to the personal computer 30 or another external device on the network by the NIC 15.
(3) After performing gamma correction processing on the image data read from the semiconductor memory 12 by the gamma correction unit 123 in the image format conversion unit 14, the processed image data is converted into a general-purpose format conversion unit 126 (or The image data is converted into a general-purpose format (or a dedicated format) by the dedicated format processing unit, and the format-converted image data is distributed to the personal computer 30 or another external device on the network by the NIC 15.
[0059]
(4) After performing color conversion processing (conversion from CMYK system to RGB system) on the image data read from the semiconductor memory 12 by the color conversion unit 124 in the image format conversion unit 14, the processing is performed. The image data is converted into a general-purpose format (or a special-purpose format) by a general-purpose format conversion unit 126 (or a special-purpose format processing unit), and the format-converted image data is distributed to the personal computer 30 or another external device on the network by the NIC 15. .
(5) After performing halftone processing on the image data read from the semiconductor memory 12 by the halftone processing unit 125 in the image format conversion unit 14, the processed image data is converted into a general-purpose format conversion unit 126 ( Alternatively, the image data is converted into a general-purpose format (or a dedicated format) by a dedicated format processing unit, and the format-converted image data is distributed to the personal computer 30 or another external device on the network by the NIC 15.
[0060]
Next, a second embodiment will be described.
In the second embodiment, the CPU in the printer controller 11 operates according to the program according to the present invention stored in the ROM or the HDD 13 or the like, so that the format switching unit, the color conversion switching unit, and the distribution unit Function can be realized.
The second embodiment differs from the first embodiment (FIG. 4) in that the CPU in the printer controller 11 further performs the following processing.
[0061]
The CPU in the printer controller 11 acquires the color determination result by the color determination unit 105 in the scanner correction unit 2 from the engine controller 4 via the general-purpose bus I / F 16, and according to the color determination result, the image format conversion unit 14 The color conversion processing by the color conversion unit 124 in the switch is switched. Actually, the parameters used for the color conversion processing or the method of the color conversion processing are switched. Switching of the color conversion processing method means that, when the color conversion unit 124 includes a plurality of color conversion circuits in which different parameters are set in advance as parameters used in the color conversion processing, one of the color conversion circuits is used. To switch.
[0062]
For example, when the color determination unit 105 in the scanner correction unit 2 determines that the image data (original) input from the reading unit 1 is full-color data (full-color original), the personal computer 30 or another The parameter or method is changed so that the copy image (image of the copy output document) can be faithfully reproduced on the display of the external device. When it is determined that the image data (original) is monochrome data (monochrome original), the parameter or method is changed to a method for decreasing the saturation so that the RGB values are aligned in the achromatic region. In this case, when color conversion processing of the parameter or method after switching is performed on the image data, the image data is converted to gray scale (converted to gray scale data).
[0063]
The grayscaled image data is converted into a general-purpose format (or a special-purpose format) by a general-purpose format conversion unit 126 (or a special-purpose format processing unit), similarly to the RGB-based image data. Then, the format-converted image data is distributed by the NIC 15 to the personal computer 30 or another external device on the network.
Therefore, according to the second embodiment, the user can obtain a distribution image in the optimum color reproduction / color space for each document.
[0064]
Next, a third embodiment will be described.
In the third embodiment, the CPU in the printer controller 11 operates according to the program according to the present invention stored in the ROM or the HDD 13 or the like, so that the format switching unit, the gamma correction processing switching unit, and the distribution unit Function can be realized.
The third embodiment differs from the first embodiment (FIG. 4) in that the CPU in the printer controller 11 further performs the following processing.
[0065]
The CPU in the printer controller 11 acquires the color determination result by the color determination unit 105 in the scanner correction unit 2 from the engine controller 4 via the general-purpose bus I / F 16, and according to the color determination result, the image format conversion unit 14 The gamma correction process by the gamma correction unit 123 is switched. Actually, the gamma correction data used for the gamma correction processing is switched.
For example, when the color determination unit 105 in the scanner correction unit 2 determines that the image data (original) input from the reading unit 1 is full-color data (full-color original), the gamma is emphasized with emphasis on gradation. The correction unit 123 switches to gamma correction data for performing a smooth gamma correction process. If the image data (original) is determined to be monochrome data (monochrome original), the gamma correction unit 123 converts the image data (monochrome original) into gamma correction data for performing gamma correction processing with enhanced contrast with emphasis on character readability. Switch.
Therefore, according to the third embodiment, the user can obtain a distribution image having an optimum gamma characteristic for each document.
[0066]
Next, a fourth embodiment will be described.
In the fourth embodiment, the CPU in the printer controller 11 operates according to the program according to the present invention stored in the ROM or the HDD 13 or the like, so that the format switching unit, the halftone processing switching unit, and the distribution unit Function can be realized.
The fourth embodiment differs from the first embodiment (FIG. 4) in that the CPU in the printer controller 11 further performs the following processing.
The CPU in the printer controller 11 acquires the color determination result by the color determination unit 105 in the scanner correction unit 2 from the engine controller 4 via the general-purpose bus I / F 16, and according to the color determination result, the image format conversion unit 14 The halftone processing by the halftone processing unit 125 is switched. In practice, the method of the halftone processing is switched.
[0067]
For example, when the color determination unit 105 in the scanner correction unit 2 determines that the image data (original) input from the reading unit 1 is full-color data (full-color original), the intermediateness is emphasized with emphasis on gradation. The halftone processing system is switched so that the tone processing unit 125 can output 8-bit image data (RGB data) as it is (does not perform the process). When it is determined that the image data (original) is monochrome data (monochrome original), the halftone processing unit 125 performs binary error diffusion or dithering on the 8-bit image data with emphasis on the data amount. The method of the halftone processing is switched to perform the processing.
Therefore, according to the fourth embodiment, the user can obtain a distribution image obtained by performing an optimal halftone process on each document.
[0068]
Next, a fifth embodiment will be described.
In the fifth embodiment, the CPU in the printer controller 11 operates in accordance with the program according to the present invention stored in the ROM or the HDD 13 or the like, thereby prohibiting the format switching unit, the halftone process switching unit, and the halftone process switching prohibition. It is possible to realize a function as a means, a halftone processing switching prohibition necessity selection means, and a distribution means.
The fifth embodiment differs from the fourth embodiment in that the CPU in the printer controller 11 further performs the following processing.
[0069]
The CPU in the printer controller 11 obtains a color determination result by the color determination unit 105 in the scanner correction unit 2 from the engine controller 4 via the general-purpose bus I / F 16, and obtains full-color data (full-color original) from the color determination result. When it is recognized that monochrome data (monochrome original) is mixed, switching of halftone processing by the halftone processing unit 125 is prohibited. That is, the halftone processing performed on the image data of each document (both full-color document and monochrome document) stored in the HDD 13 is unified (unified).
For example, when distributing image data of five originals (image data input from the reading unit 1) stored in the HDD 13, of the image data, the image data of one original is determined by the color determination unit 105. It is assumed that the data is determined to be full color data, and the image data of the remaining four originals is determined to be monochrome data by the color determination unit 105.
[0070]
At this time, if the halftone processing to be applied is 8-bit through, each image after distribution to the personal computer 30 or another external device has a unified impression on the display (the unified impression of the user can be unified), It becomes easier to put together as one document.
Of course, there is a case where the halftone processing for the image data of each document is not required to be unified, but is desired to be performed separately. Request (operation signal), the CPU in the printer controller 11 can select (ON / OFF) whether or not to prohibit the switching of the halftone processing by the halftone processing unit 125 in the image format conversion unit 14. Good to keep.
As described above, in a case where a full-color original and a monochrome original are mixed, the optimal processing can be automatically performed without the user's awareness, which is very convenient.
[0071]
Next, a sixth embodiment will be described.
In the sixth embodiment, the CPU in the printer controller 11 operates in accordance with the program according to the present invention stored in the ROM or the HDD 13 or the like, so that the format switching unit, the format switching inhibiting unit, The functions as the means, the format setting means, and the distribution means can be realized.
The sixth embodiment differs from the first embodiment in that the CPU in the printer controller 11 further performs the following processing.
[0072]
The CPU in the printer controller 11 obtains a color determination result by the color determination unit 105 in the scanner correction unit 2 from the engine controller 4 via the general-purpose bus I / F 16, and obtains full-color data (full-color original) from the color determination result. When it is recognized that monochrome data (monochrome original) is mixed, switching of the format to be converted by the general-purpose format conversion unit 126 (or dedicated format unit) in the image format conversion unit 14 is prohibited. That is, the format of the conversion process performed on the image data of each document (a full-color document and a monochrome document are mixed) stored in the HDD 13 is unified.
[0073]
For example, when distributing image data of five documents (image data input from the reading unit 1) stored in the HDD 13, of the image data, the image data of one document is determined by the color determination unit 105. It is assumed that the data is determined to be full color data, and the image data of the remaining four originals is determined to be monochrome data by the color determination unit 105.
In this case, the CPU in the printer controller 11 can recognize from the color determination unit 105 that the full-color data (full-color original) and the monochrome data (monochrome original) are mixed, so that the general-purpose format conversion in the image format conversion unit 14 is performed. The switching of the format to be converted by the unit 126 (or the dedicated format unit) is prohibited, and the format of the image data of each document to be distributed, that is, the format of the image data of each document stored in the HDD 13 is set in a preset format (for example, JPEG format) Unify to.
[0074]
The format in that case can be set to be changeable by the CPU in the printer controller 11 in response to a request generated by a user operation on an external device such as the operation panel 20 or the personal computer 30.
After unifying the format, the CPU in the printer controller 11 sequentially reads out the image data of each document stored in the HDD 13 and develops the image data in the semiconductor memory 12, and converts the image data into an image format conversion unit via the general-purpose bus I / F 16. When the image data is transmitted to the image format conversion unit 14, the image format conversion unit 14 performs the following processing.
[0075]
That is, a resolution conversion process in which the image data (compressed data) of each document sequentially sent is expanded by the expansion processing unit 121 and the resolution of the expanded image data is converted by the resolution conversion unit 122 to a preset resolution. The gamma correction unit 123 performs a gamma correction process on the processed image data, and the color conversion unit 124 performs a color conversion process on the processed image data. The halftone processing unit 125 performs halftone processing on the performed image data, and the general-purpose format conversion unit 126 converts the processed image data into a preset format.
Thereby, each image data after distribution to the personal computer 30 or another external device can be easily handled as one file (document), and the same effect as in the fifth embodiment can be obtained.
[0076]
Of course, there is a case in which the format for the image data of each document is not required to be unified, but may be different. In such a case, a request generated by a user operation on the operation panel 20, the personal computer 30, or another external device is required. Thus, the CPU in the printer controller 11 can select (ON / OFF) whether or not to prohibit the switching of the format to be converted by the general-purpose format conversion unit 126 (or the dedicated format unit) in the image format conversion unit 14. Good to keep.
[0077]
The second to sixth embodiments described above can be all or arbitrarily combined.
By the way, the color determination unit 105 and the image format conversion unit 14 are dedicated hardware, thereby speeding up the processing. However, in order to enhance the versatility, the functions of the color determination unit 105 and the components of the image format conversion unit 14 may be configured by a programmable processor, or the CPU of the printer controller 11 or a CPU provided separately therefrom. May execute a predetermined program to realize the functions of the respective units of the color determination unit 105 and the image format conversion unit 14.
In this case, the program according to the present invention (the program for realizing the functions of the respective units of the color determination unit 105 and the image format conversion unit 14 and the program for realizing the distribution function) is stored in the ROM provided in the printer controller 11. Alternatively, the information may be recorded (stored) in the HDD 13 or the like, or may be recorded in another memory such as a ROM as a recording medium and provided.
[0078]
Of course, it is also possible to provide the information by recording it on another nonvolatile recording medium (memory) such as an SRAM, an EEPROM, a memory card, and an optical disk (CD-ROM or the like). In this case, if a recording medium reading device (such as an optical disk device) having means for inserting the nonvolatile recording medium into the full-color multifunction peripheral is provided or can be externally attached, the nonvolatile recording medium is inserted into the recording medium reading device. By reading the program recorded on the nonvolatile recording medium and installing the program on the HDD 13, the function according to the present invention can be realized. If the memory for storing the program according to the present invention is a rewritable non-volatile storage means, the program can be easily updated in accordance with the progress of technology.
[0079]
Furthermore, it is also possible to execute the program by downloading from an external device connected to a network connected to the NIC 15 and having a recording medium on which the program according to the present invention is recorded.
The embodiment in which the present invention is applied to an image processing apparatus used in a full-color multifunction peripheral has been described. The present invention is also applicable to an image processing device used in the device.
[0080]
【The invention's effect】
As described above, according to the present invention, regardless of whether a plurality of input image data is full-color data or monochrome data, optimal processing can be performed on each image data. This eliminates the need to separately set conditions for each image data, thereby improving workability. In addition, it becomes possible to use such image data as it is, such as browsing it with an external device such as a personal computer, or editing and processing the image data.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration example of a full-color multifunction peripheral as an embodiment of an image forming apparatus including an image processing apparatus according to the present invention, together with a flow of image data at the time of copying.
FIG. 2 is a block diagram illustrating a configuration example of a scanner correction unit 2 of FIG. 1;
FIG. 3 is a block diagram illustrating a configuration example of a printer correction unit 6 of FIG.
FIG. 4 is a block diagram illustrating a configuration example of a color determination unit 105 in FIG. 3;
5 is a timing chart illustrating an example of an effective image area signal START_X and a line synchronization signal LSYNC input to the color determination unit 105 of FIG. 4 when forming an image using image data of one page.
FIG. 6 is a block diagram showing an example of the configuration of the full-color MFP shown in FIG. 1 together with a flow of image data at the time of distribution.
7 is a block diagram illustrating a configuration example of an image format conversion unit 14 in FIG.
[Explanation of symbols]
1: reading unit 2: scanner correction unit
3: Fixed-length multi-value compressor 4: Engine controller
5: Fixed-length multi-level decompressor 6: Printer correction unit
7: GAVD 8: Imaging unit
9: FAX controller 11: Printer controller
12: Semiconductor memory 13: HDD
14: Image format conversion unit
15: NIC 16: General-purpose bus I / F
20: Operation panel 30: PC
101: scanner gamma correction unit
102: Filter processing unit 103: Color correction unit
104: scaling processing unit 105: color determination unit
110: Printer gamma correction unit
111: halftone processing unit 121: decompression processing unit
122: resolution conversion unit 123: gamma correction unit
124: color conversion unit 125: halftone processing unit
126: General-purpose format conversion unit
201: color pixel block determination circuit 202: selector
210: threshold switching signal generator

Claims (29)

A communication unit that communicates with an external device; an image data input unit that inputs image data; an image storage unit that stores the image data input by the unit; An image processing apparatus having a distribution unit for distributing to the apparatus,
Format conversion means for converting the image data stored in the image storage means into a predetermined format usable by the external device,
Color determination means for determining whether the image data input by the image data input means is full color data or monochrome data,
Format switching means for switching the format to be converted by the format conversion means according to the determination result by the means,
The image processing apparatus according to claim 1, wherein the distribution unit is a unit that distributes the image data that has been format-converted by the format conversion unit to the outside by the communication unit. The image processing apparatus according to claim 1,
An image processing apparatus, wherein the format conversion means is means for converting image data stored in the image storage means into a general-purpose format usable by a general-purpose information processing apparatus such as a personal computer. The image processing apparatus according to claim 1, wherein
The format conversion means has color conversion processing means for performing color conversion processing on image data, and after performing color conversion processing on the image data stored in the image storage means by the color conversion processing means, the processing is performed. Means for format conversion of the performed image data,
An image processing apparatus comprising: a color conversion processing switching unit that switches a color conversion process by the color conversion processing unit according to a determination result by the color determination unit. The image processing apparatus according to claim 3,
An image processing apparatus, wherein the color conversion processing switching means is means for switching parameters used for color conversion processing by the color conversion processing according to a result of the determination by the color determination means. The image processing apparatus according to claim 3,
The image processing apparatus according to claim 1, wherein the color correction processing switching means is means for switching a method of the color conversion processing by the color conversion processing means according to a determination result by the color determination means. The image processing apparatus according to claim 1, wherein
The general-purpose format conversion means has gamma correction processing means for performing gamma correction processing on image data, and performs gamma correction processing on the image data stored in the image storage means by the gamma correction processing means. Means for format conversion of the image data subjected to
An image processing apparatus comprising: a gamma correction process switching unit that switches a gamma correction process by the gamma correction unit according to a result of the determination by the color determination unit. The image processing apparatus according to claim 6,
An image processing apparatus, wherein the gamma correction processing switching means is means for switching gamma correction data used for gamma correction processing by the gamma correction processing means according to a result of the determination by the color determination means. The image processing apparatus according to claim 1, wherein
The general-purpose format conversion means has halftone processing means for performing halftone processing on image data, and performs halftone processing on the image data stored in the image storage means by the halftone processing means. Means for format conversion of the image data subjected to
An image processing apparatus comprising: a halftone processing switching unit that switches halftone processing by the halftone processing unit according to a result of the determination by the color determination unit. The image processing apparatus according to claim 8,
The image processing apparatus according to claim 1, wherein the halftone processing switching unit is a unit that switches a method of halftone processing by the halftone processing unit according to a determination result by the color determination unit. The image processing apparatus according to claim 8, wherein
A halftone process switching prohibition unit that prohibits the halftone process switching unit from switching the halftone process when it is recognized from the determination result by the color determination unit that full color data and monochrome data are mixed. An image processing apparatus characterized by the above-mentioned. The image processing apparatus according to claim 10,
An image processing apparatus comprising: a halftone process switching prohibition necessity selecting unit for selecting whether or not to prohibit the halftone process switching by the halftone process switching unit by the halftone process switching prohibiting unit. The image processing apparatus according to any one of claims 1 to 11,
An image characterized by comprising a format switching prohibiting unit for prohibiting format switching by the format switching unit when it is recognized from the determination result by the color determining unit that full-color data and monochrome data are mixed. Processing equipment. The image processing apparatus according to claim 12,
An image processing apparatus comprising: a format switching prohibition necessity selecting unit for selecting whether or not to prohibit the format switching by the format switching unit by the format switching prohibiting unit. The image processing apparatus according to claim 12, wherein
Providing a format setting means for setting the format to be converted by the general-purpose format conversion means to be changeable,
The format conversion means converts the image data stored in the image storage means to a format set by the format setting means when the format switching is prohibited by the format switching means by the format switching prohibition means. An image processing apparatus comprising: Communication means for communicating with the outside, image data input means for inputting image data, image storage means for storing image data input by the means, and image data stored in the means to the outside by the communication means An image processing method in an image processing apparatus having a distribution unit for distributing,
It is determined whether the image data input by the image data input means is full-color data or monochrome data, and a predetermined format that can be used by the external device is switched according to the determination result, and stored in the image storage means. An image processing method for converting the image data into the format after the switching when delivering the selected image data to the outside by the communication means. The image processing method according to claim 15,
The image processing method according to claim 1, wherein the predetermined format is a general-purpose format that can be used in a general-purpose information processing device such as a personal computer. The image processing method according to claim 15 or 16,
Switching the color conversion process according to the determination result, when distributing the image data stored in the image storage unit to the outside by the communication unit, after performing the color conversion process after the switch to the image data, An image processing method characterized by converting the format of the processed image data. The image processing method according to claim 15 or 16,
Switching the gamma correction process according to the determination result, when distributing the image data stored in the image storage unit to the outside by the communication unit, after performing the gamma correction process after the switch to the image data, An image processing method characterized by converting the format of the processed image data. The image processing method according to claim 15 or 16,
Switching the halftone process according to the determination result, when distributing the image data stored in the image storage unit to the outside by the communication unit, after performing the halftone process after the switch to the image data, An image processing method characterized by converting the format of the processed image data. The image processing method according to claim 19,
An image processing method, wherein when it is recognized from the determination result that full-color data and monochrome data are mixed, switching of the halftone processing is prohibited. The image processing method according to any one of claims 15 to 20,
An image processing method, wherein the switching of the format is prohibited when it is recognized from the determination result that full-color data and monochrome data are mixed. The image processing method according to claim 21,
An image processing method comprising: converting image data stored in the image storage unit into a preset format when the format switching is prohibited. A computer for controlling an image processing apparatus having communication means for communicating with the outside, image data input means for inputting image data, and image storage means for storing image data input by the means;
A format conversion function of converting the image data stored in the image storage means into a predetermined format such as a general-purpose format usable in a general-purpose information processing device such as a personal computer; and A delivery function for delivering to the outside by the communication means, a color determination function for determining whether the image data input by the image data input means is full-color data or monochrome data, A program for realizing a format switching function for switching a format to be converted by the format conversion function. A computer for controlling an image processing apparatus having communication means for communicating with the outside, image data input means for inputting image data, and image storage means for storing image data input by the means;
A color conversion processing function for performing color conversion processing on the image data stored in the image storage means, and the image data subjected to the color conversion processing by the function can be used in a general-purpose information processing apparatus such as a personal computer. A format conversion function for converting the image data into a predetermined format such as a general-purpose format, a distribution function for distributing image data that has been format-converted by the function to the outside by the communication means, and image data input by the image data input means being full-color data Or a color determination function for determining whether the data is monochrome data, a color conversion processing switching function for switching color conversion processing by the color conversion processing function according to the determination result by the function, and a determination result by the color determination function. A format for switching the format to be converted by the format conversion function in accordance with the format Program for realizing the door switching function. A computer for controlling an image processing apparatus having communication means for communicating with the outside, image data input means for inputting image data, and image storage means for storing image data input by the means;
A gamma correction processing function for performing gamma correction processing on the image data stored in the image storage means, and the image data on which the gamma correction processing has been performed by the function can be used in a general-purpose information processing apparatus such as a personal computer. A format conversion function for converting the image data into a predetermined format such as a general-purpose format, a distribution function for distributing image data that has been format-converted by the function to the outside by the communication means, and image data input by the image data input means being full-color data Or gamma correction processing for switching gamma correction processing by the gamma correction processing function according to the determination result by the function, and a determination result by the color determination function. The format conversion function converts according to the format Program for realizing the format switching function for switching the bets. A computer for controlling an image processing apparatus having communication means for communicating with the outside, image data input means for inputting image data, and image storage means for storing image data input by the means;
A halftone processing function for performing halftone processing on the image data stored in the image storage means, and the image data subjected to the halftone processing by the function can be used in a general-purpose information processing apparatus such as a personal computer. A format conversion function for converting the image data into a predetermined format such as a general-purpose format, a distribution function for distributing image data that has been format-converted by the function to the outside by the communication means, and image data input by the image data input means being full-color data Or a monochrome data, a halftone processing switching function for switching halftone processing by the halftone processing function according to the determination result by the function, and a determination result by the color determination function. A format for switching the general format to be converted by the format conversion function Program for realizing the mat switching function. The program according to claim 26,
In order to realize a halftone processing switching prohibition function of prohibiting switching of halftone processing by the halftone processing switching function when it is recognized from the determination result by the color determination function that full color data and monochrome data are mixed. Program. The program according to any one of claims 23 to 27,
A program for realizing a format switching prohibition function for prohibiting format switching by the format switching function when it is recognized from the determination result by the color determination function that full color data and monochrome data are mixed. A computer-readable recording medium on which the program according to any one of claims 23 to 28 is recorded.

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