JP3957540B2 - Image processing control device, program, and recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image processing control apparatus, a program, and a recording medium. Specifically, in an image processing apparatus such as a copying machine, a scanner, or a printer that handles digital images, control when image processing is performed based on digital images and profiles. Regarding request information management.
[0002]
[Prior art]
As an image input / output device, various devices such as a scanner, a display, a printer, and a copying machine are sold. However, even though these input / output devices (devices) handle the same data, color reproduction may differ.
For example, in order to express colors by adding three primary colors of RGB light on the display and adding four colors of CMYK on the printer, the image displayed on the display is displayed. It is difficult to print as it is. In addition, depending on the type of display or printer, there will be a difference in color even in the same image.
For this reason, the color attributes of each input / output device are expressed by a common object, and the characteristics (for example, size and resolution) that can be expressed by the input / output device are provided as a profile.
[0003]
Regarding management of profiles corresponding to devices, for example, a method for managing profiles of input devices and output devices, such as a color management system disclosed in “Image processing apparatus and method” of Japanese Patent Laid-Open No. 10-224643, is considered. Has been.
In Japanese Patent Laid-Open No. 10-224643, profile information (here, color space) of a plurality of input / output devices, a plurality of image data, color processing modules, and the like are managed in a database, and in response to a request from a network terminal. Color matching is performed by downloading image data, a color processing module, and a profile to a network terminal.
[0004]
In this case, as the number of combinations of input / output devices connected to the network increases, the number of profiles managed by the database becomes enormous, and it becomes difficult to expand with the addition or change of input / output devices.
Further, in an environment where there are a plurality of image storage devices and image processing devices, optimal performance cannot be provided.
[0005]
[Problems to be solved by the invention]
In recent years, input / output devices such as digital copying machines, scanners, and printers are connected via a network, and a large number of digital images can be used.
When such a digital image is used, it is determined whether or not image characteristic conversion or format conversion is to be performed based on the digital image profile as described above.
However, a standard and effective method has not yet been established for inputting / outputting not only a digital image but also control request information indicating what kind of processing is required for the image.
[0006]
The conventional profile management method for each device cannot cope with expandability, image processing after input, and image editing.
Also, when the application software developer creates a general-purpose I / O interface, if the interface for control request information is not standardized, a different method will be adopted for each I / O device model. As the burden increases, it becomes poorly scalable.
[0007]
The present invention has been made in consideration of the above-described circumstances, and the role of the image processing request source device and the device that performs the image processing can be separated, and the cost can be optimally allocated to each device. An object of the present invention is to provide an image processing control apparatus, a program for executing the functions of the image processing control apparatus, and a computer-readable recording medium on which the program is recorded.
[0009]
[Means for Solving the Problems]
BookClaims of the invention1In the image processing control apparatus for processing a digital image based on a profile and control request information,Desired control request information among control request information assigned in advance for each of a plurality of image processes to be performed on image data,The distinction between input and output,Image data addressAndControl request receiving means for receiving;If the input / output category is an output device, the image data and its profile are requested for the address of the image data, or if the input / output category is an input device, this apparatus For input devices connected toImage data requesting means for requesting image data and a profile of the image data, and the image data requesting meansByThe requested image data and the profile of this image dataGetThe image data receiving means and the image data receiving meansGetdidSaidimage dataAgainstProfile and previousNotationRequestIn the newsOn the basis ofimageControl request processing means for performing processing;When the input / output category is an output device, the image data processed by the control request processing means is output to an output device connected to the apparatus, or the input / output category is an input device. A request to the address of the image data to record the image data processed by the control request processing means and its profile.Image data output means,It is provided with.
[0012]
  Further, the claims of the present invention2Claims1In the image processing control device described above, the control request information isOf image processing applied to image data, high-level processing form that does not depend on the output deviceIt is characterized by being.
  Further, the claims of the present invention3Claims1In the image processing control device described above, the control request information isOf image processing applied to image data, a relatively high level of abstraction that does not depend on the output deviceIt is characterized by being.
  Further, the claims of the present invention4Claims1In the image processing control device described above, the control request information isOf the image processing applied to image data, a processing mode with a low abstraction level depending on the output deviceIt is characterized by being.
  Further, the claims of the present invention5The program comprises a computer.4The image processing control device according to any one of the aboveEach meansIt is a program to make it function as.
  Further, the claims of the present invention6The recording medium of claim5A computer-readable recording medium on which the image processing control program described in 1 is recorded.
[0013]
With the above configuration, the control request information when inputting / outputting images can be set to a plurality of levels (modes, functions, details), and the roles of the image processing request source device and the device performing the image processing can be separated. This makes it possible to optimally allocate the cost for each device.
[0014]
Here, when the control request information is in the mode level, the interface between the image processing request source and the image processing destination is simplified, and the execution of the image processing can be concentrated on the server.
This simplification of the interface can greatly reduce the cost of the interface. Since the cost is concentrated on the server, it is effective when having a large-scale client environment.
[0015]
Also, when the control request information is at the function level, the interface between the image processing request source and the image processing destination is relatively simplified, and control request management can be distributed between the server and the client, so the cost is distributed between the server and the client. It is effective when the client environment is relatively medium.
[0016]
Further, when the control request information is at the detailed level, the interface of the image processing request source can be detailed and advanced, whereas the server can centralize the execution of the image processing. This refinement increases the cost for the interface of the image processing request source, but changes in the user request can deal with many parts by the change in the image processing request source.
This case is effective when a wide variety of small client environments are provided.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of an image processing control apparatus of the present invention (hereinafter referred to as the present apparatus) will be described with reference to the drawings.
[0018]
(1) Configuration example of equipment using this device
1, FIG. 2 and FIG. 3 are typical configuration examples of equipment using this apparatus.
FIG. 1 shows a network 50 that includes a device A20 as a database server for managing the image database 30, a device B10 as a server of an input / output device equipped with this apparatus, and a device C40 that gives instructions to the device B10 by a user. Connected through. In the image database 30, image data (high resolution data, low resolution data, etc.) and a profile of the image (for example, a source profile such as the number of images, color space information, and data amount) are recorded in association with each other.
Here, any number of devices A20, B10, and C40 may be connected via the network 50.
The network 50 may be a general-purpose communication means such as a LAN (Local Area Network), a public telephone line, a dedicated telephone line, an optical fiber network, or a satellite communication means, and may use an infrastructure such as the Internet.
[0019]
When the user outputs image data in the image database 30 to an output device such as a printer connected to the device B10, the device C40 sends the address of the desired image data in the image database 30 to the device B10. The control request information indicating what kind of image processing is desired to be performed on the image (the address of the device A20, the identification name of the image data, etc.) and the output format thereof are instructed.
[0020]
Upon receiving this instruction, the device B10 requests the device A20 to transmit the designated image. At this time, the image data and its profile are also transmitted.
The device A20 takes out the requested image and its profile from the image database 30, and transmits them to the requesting device B10.
The device B10 executes optimum processing based on the returned (source) profile of the image, the (destination) profile of the printer managed by the device B10, and the control request information sent from the device C40. Output to the printer.
[0021]
When the user acquires image data from an input device such as a scanner connected to the device B10 and records it in the image database 30, the storage location of the input image data from the device C40 to the device B10 is stored. The address of the image database 30 (the address of the device A20 and the identification name of the image data) and the control request information indicating what kind of image processing is desired to be performed on the input image data are instructed.
[0022]
Upon receiving this instruction, the device B10 obtains image data and its profile from the scanner connected to the device B10.
Based on the (source) profile of the input image and the control request information sent from the device C40, optimum processing is executed, and the image data processed into the image database 30 of the designated device A20 Ask to record the profile.
Further, the device B10 may be a printer, a scanner, a facsimile, or a multifunction machine itself.
[0023]
In FIG. 2, a device C 40 as a database server that manages the image database 30 and a device B 10 as a server of an input / output device equipped with this apparatus are connected via a network 50. Here, any number of devices B10 and C40 may be connected via the network 50, respectively.
The device C40 is used by the user to give an instruction to output the image data in the image database 30 to the device B10 or record the image data obtained from the device B10 in the image database 30.
Components having the same functions as those in FIG. 1 are denoted by the same reference numerals.
In the configuration example as shown in FIG. 2, the operation is the same as the configuration of FIG. 1, except that the device C40 also has the function of the device A20 of FIG.
Similarly to FIG. 1, the device B10 may be a printer, a scanner, a facsimile, or a multifunction machine itself.
[0024]
FIG. 3 shows a connection between a database server for managing the image database 30 and a device B10 as a server of an input / output device equipped with this apparatus, and a device C40 for giving an instruction to the device B10 by a user via a network 50. Yes.
Here, any number of devices B10 and C40 may be connected via the network 50, respectively.
Components having the same functions as those in FIG. 1 are denoted by the same reference numerals.
[0025]
In the configuration example as shown in FIG. 3, the operation is the same as the configuration of FIG. 1, except that the device B10 also has the function of the device A20 of FIG.
The image database 30 may be managed by the device A20, and the device A20 may be connected to the device B10 via a LAN or the like.
Further, as in FIG. 1, the device B10 may be a printer, a scanner, a facsimile machine, or a multifunction machine itself.
[0026]
(2) Configuration of this device
Next, the configuration of this apparatus will be described with reference to the block diagram of FIG. Hereinafter, this apparatus will be described as a board incorporated in the above-described device B10, and data transmission / reception with the device A20 and device C40 and data transmission / reception with the input / output device connected to the device B10 are performed by the device B10. This is achieved by providing communication means and control means.
However, it is easy to configure these communication means and control means so that each means of the apparatus 60 performs.
[0027]
4, the image processing control device 60 includes at least a control request receiving unit 61, a control request processing unit 62, an image data requesting unit 63, an image data receiving unit 64, and an image data output unit 65.
[0028]
The control request receiving unit 61 receives the following three pieces of information transmitted from the device C40 operated by the user.
Input / output distinction: Classification information indicating whether an input device or an output device is used for this apparatus.
Address of image data: When the input / output classification is an output device, it is an address (identification name or the like) in the image database 30 indicating the location of the image data to be output.
When the input / output classification is an input device, it is the address (identification name, etc.) of the image database 30 where the input image data is stored.
Control request information: One level information selected from a plurality of levels of control request information for image processing applied to image data.
[0029]
The control request information used when requesting image processing for a digital image uses the following three levels as an interface between the device C40 and the device B10.
[0030]
(A) Mode level with a high level of abstraction
The mode level has a high level of abstraction. For example, as shown in FIG. 5, when the control request information 1 is designated, the character priority processing as the image quality mode, the scaling factor means 100%, and the control request information 2 Is designated as the image quality mode, the scaling factor means 200%, and when the control request information 3 is designated, the image quality mode means mixed text / photo, and the scaling factor means 50%. To do.
In this way, only the mode level type (specify one of the control request information 1, 2, and 3) is specified from the application software side operating on the device C40. By specifying the level information, the apparatus can perform optimum image processing with reference to the input / output device corresponding to the level information and the profile of the image data to be operated.
This mode-level control request information does not need to have detailed information on what kind of control request is related to image processing in the input / output device at the request source, and the control request specified by the request source. The actual image processing can be localized in the apparatus and can be optimized according to the input / output equipment connected to the apparatus. As a result, the cost for the interface of the request source can be greatly reduced, and the input source application software can be combined with a plurality of various input / output devices.
[0031]
(B) Functional level with a relatively high level of abstraction
The function level has a relatively high level of abstraction. For example, as shown in FIG. 6, when the control request information 1 is designated, the filter is set to MTF emphasis level 5, the image quality processing means ternary error diffusion, When the control request information 2 is designated, the filter is smoothing intensity 2 and the image quality processing is binary dither. When the control request information 3 is designated, the filter is MTF enhancement level 2 and the image quality processing is quinary error diffusion. It means.
In this way, only the function level type (specify one of the control request information 1, 2, and 3) is specified from the application software side operating on the device C40. By specifying the level information, the apparatus can perform optimum image processing with reference to the input / output device corresponding to the level information and the profile of the image data to be operated.
This control request information at the function level is a control request related to image processing at the input / output device at the request source. The control request instructed by the user to the application software needs to be refined to a control request up to the function level. It is possible to simplify information related to the control request information, and it is possible to localize the actual image processing contents for the control request specified by the request source in the apparatus.
As a result, the cost for the interface of the request source can be reduced, so that a plurality of various input / output devices can be combined in the input source application software.
[0032]
(C) Detail level
For example, as shown in FIG. 7, the detail level can be specified in detail for the control request information 1, 2, and 3 with respect to a filter coefficient that represents the sharpness of the image and a γ table that specifies the contrast of the image.
As described above, only the type of detail level (specifying one of the control request information 1, 2, and 3) is specified from the application software side operating on the device C40. By specifying the level information, the apparatus can perform detailed image processing with reference to the input / output device corresponding to the level information and the profile of the image data to be operated.
The control request information at the detailed level is that the control request related to image processing in the input / output device at the request source requires that the control request specified by the user is at the detail level. However, the actual image processing contents can be localized in the apparatus.
Although the cost of the request source increases with respect to the interface with this apparatus, a change in the request from the user can be dealt with in many parts by changing the application software.
[0033]
The image data requesting unit 63 requests the image data designated by the control request receiving unit 61 and a profile of this image data.
When the input / output classification designated by the control request receiving means 61 is an output device, a request is made for the designated address to transmit the designated image data and its profile.
Further, when the input / output classification designated by the control request receiving means 61 is an input device, a request is made to obtain image data from the input device connected to this apparatus.
[0034]
The image data receiving unit 64 receives the image data requested by the image data requesting unit 63.
When the input / output classification designated by the control request receiving means 61 is an output device, the image data and its profile are received.
When the input / output classification designated by the control request receiving means 61 is an input device, image data is obtained from a scanner connected to the apparatus.
[0035]
The control request processing means 62 is based on the profile of the image data received by the image data receiving means 64, the profile of the target input / output device, and the level information of the control request information received by the control request receiving means 61. Performs optimal processing for image data.
The level information of the received control request information is translated into a corresponding detailed control request in the case of the mode level and the function level, and the above processing is performed using this detailed control request.
For example, this process will be described with reference to FIG.
If the profile of the image data received by the image data receiving means 64 is a black and white binary image like pattern 1, if the control request of the request source is a photograph priority, the detailed control request is “pseudo-multiple”. Execute “Value + Dither”.
If the profile of the image data is 650,000 colors and the control request from the request source is pastel as shown in pattern 4, palette color conversion is performed.
[0036]
The image data output means 65 outputs the image data processed by the control request processing means 62.
If the input / output classification specified by the control request receiving means 61 is an output device, the image data processed by the control request processing means 62 is transmitted to the output device connected to the apparatus. When the output device is a printer, printing is performed.
If the input / output classification designated by the control request receiving means 61 is an input device, the image data processed by the control request processing means 62 to the address (image database 30) designated by the control request receiving means 61. And its profile.
[0037]
(3) Operation of this device
The operation of this apparatus in the configuration described above will be described.
(A) When an output device is used in this device
The information “input / output distinction, image data address, control request information” transmitted from the user (request source) is received.
Requests the designated address to send the designated image data and its profile.
Receive the requested image data and its profile.
The optimal processing is performed on this image data based on the profile of the received image data, the profile of the target input / output device, and the level information of the control request information transmitted from the request source.
The level information of the received control request information is translated into a corresponding detailed control request in the case of the mode level and the function level, and the above processing is performed using this detailed control request.
The processed image data is transmitted to an output device connected to the apparatus, and is printed if the output device is a printer.
[0038]
(B) When an input device is used for this device
The information “input / output distinction, image data address, control request information” transmitted from the user (request source) is received.
Requests that image data be obtained from an input device connected to the device.
Obtain image data from an input device connected to the device.
-Optimal processing is performed on the image data based on the profile of the image data received from the input device and the level information of the control request information received from the request source.
The level information of the received control request information is translated into a corresponding detailed control request in the case of the mode level and the function level, and the above processing is performed using this detailed control request.
The processed image data and its profile are recorded at the address (image database 30) designated by the request source.
[0039]
Furthermore, the present invention is not limited only to the above-described embodiment.
FIG. 9 is a block diagram showing a hardware configuration when the functions of the present invention are realized by a computer.
In FIG. 9, a central processing unit (CPU) 1, an input device 2 such as a keyboard, a mouse or a touch panel, a display device 3 such as a display, a memory 4, a storage device 5 such as a hard disk, and a medium reader 6 A network connection device 7 that is an interface for communicating with other computers via a communication network is connected by a data bus 8.
The program code for executing the functions of the above-described embodiment is recorded on a recording medium, the program code recorded on the recording medium is read from the medium reading device 6 or the storage device 5, and installed in the computer shown in FIG. The present invention can be easily implemented by executing the program by the CPU 1.
In this case, the program code itself read from the recording medium also realizes the functions of the above-described embodiment, and the program code and the recording medium storing the code constitute the present invention.
[0040]
As a recording medium, a semiconductor medium (for example, ROM, nonvolatile memory card, etc.), an optical medium (for example, DVD, MO, MD, CD-R, etc.), a magnetic medium (for example, magnetic tape, flexible disk, etc.), etc. Any of these may be used.
[0041]
Moreover, not only the functions of the above-described embodiment are realized by executing the loaded program, but the operating system or the like performs part or all of the actual processing based on the instructions of the program, and the processing described above The case where the functions of the above-described embodiments are realized is also included.
[0042]
Furthermore, a program for realizing the functions of the above-described embodiment is loaded into a memory provided in the function expansion board or function expansion unit, and the CPU or the like provided in the function expansion board or function expansion unit is actually installed based on the instructions of the program. A case where part or all of the processing is performed and the functions of the above-described embodiments are realized by the processing is also included.
[0043]
【The invention's effect】
As described above, according to the present invention, the control request information when inputting / outputting an image is set to a plurality of levels (modes, functions, details), and the roles of the image processing request source device and the device that performs the image processing are as follows. Since they can be separated, it is possible to optimally allocate the cost in each device.
[0044]
Here, when the control request information is in the mode level, the interface between the image processing request source and the image processing destination is simplified, and the execution of the image processing can be concentrated on the server.
This simplification of the interface can greatly reduce the cost of the interface. In addition, since the cost is concentrated on the server, it is effective when there is a large-scale client environment.
[0045]
Also, when the control request information is at the function level, the interface between the image processing request source and the image processing destination is relatively simplified, and control request management can be distributed between the server and the client, so the cost is distributed between the server and the client. It is effective when the client environment is relatively medium.
[0046]
Further, when the control request information is at the detailed level, the interface of the image processing request source can be detailed and advanced, whereas the server can centralize the execution of the image processing. This refinement increases the cost for the interface of the image processing request source, but changes in the user request can deal with many parts by the change in the image processing request source.
This case is effective when a wide variety of small client environments are provided.
[Brief description of the drawings]
FIG. 1 is a configuration example of a device using the present apparatus.
FIG. 2 is another configuration example of a device using the apparatus.
FIG. 3 is another configuration example of a device using the apparatus.
FIG. 4 is a block diagram illustrating a configuration of the apparatus.
FIG. 5 is an example of mode level control request information;
FIG. 6 is an example of function level control request information;
FIG. 7 is an example of detailed level control request information;
FIG. 8 is a diagram for describing control processing executed from control request information of a request source and an image profile.
FIG. 9 is a block diagram showing a hardware configuration when the present invention is realized by a computer.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... CPU (central processing unit), 2 ... Input device, 3 ... Display device, 4 ... Memory, 5 ... Storage device, 6 ... Media reader, 7 ... Network connection device, 8 ... Data bus, 10 ... Device B , 20 ... Device A, 30 ... Image database (DB), 40 ... Device C, 50 ... Network, 60 ... Image processing control device, 61 ... Control request receiving means, 62 ... Control request processing means, 63 ... Image data requesting means 64, image data receiving means, 65, image data output means.

Claims (6)

In an image processing control apparatus that processes a digital image based on a profile and control request information , desired control request information out of control request information assigned in advance to each of a plurality of image processes to be performed on image data The control request receiving means for receiving the input / output distinction and the address of the image data; and when the input / output classification is an output device, the image data and its profile are assigned to the address of the image data. Or when the input / output classification is an input device, image data requesting means for requesting image data and a profile of the image data to the input device connected to the apparatus, and the image image data receiving means for obtaining a profile of the image data and the image data requested by the data request means, the image data On the image data acquired by Shin means, a control request processing means for performing image processing based on the profile before and SL control request information, when division of the input is an output device, wherein The image data processed by the control request processing means is output to an output device connected to the apparatus, or when the input / output classification is an input device, the image data processed by the control request processing means an image processing controller for the image data output means for requesting its profile to the address of the image data to be recorded, comprising the. The image processing control device according to claim 1 , wherein the control request information is a processing form having a high degree of abstraction that does not depend on an output device among image processing performed on image data . The image processing control device according to claim 1 .
The image processing control apparatus according to claim 1, wherein the control request information is a processing form having a relatively high level of abstraction that does not depend on an output device among image processing performed on image data . The image processing control apparatus according to claim 1 , wherein the control request information is a processing form having a low abstraction level depending on an output device among image processing performed on image data . The program for functioning a computer as each means of the image processing control apparatus of any one of Claims 1 thru | or 4 . A computer-readable recording medium on which the image processing control program according to claim 5 is recorded.

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