JP4028053B2 - Image processing apparatus, image processing method, and recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image processing technique for outputting an output image after performing a predetermined conversion process on an input image.
[0002]
[Prior art]
In general, an image processing apparatus performs various processes such as color conversion, gradation conversion, range conversion, noise removal, contour enhancement, and smoothing on an image acquired from an input device such as an input scanner or a digital camera. After that, it is output from an output device such as an image setter. These various processes are performed in order to improve the image quality in accordance with the characteristics of the output device.
[0003]
Normally, the above-mentioned various processes are performed by an image processing apparatus operator directly specifying image processing parameters. However, with regard to “color” processing, the characteristics of the input device, the characteristics of the output device, the operator's requirements, etc. The integrated management of the entire image processing apparatus in consideration of the above is performed.
[0004]
FIG. 11 is a diagram for explaining the concept of image data management in a conventional image processing apparatus. The standardization conversion unit 102 performs standardization conversion on the image data acquired from the input unit 101 configured by an input scanner or the like, and the standardized image data after conversion is stored in the storage unit 104. Here, the standardization conversion is conversion of image data expressed in raw R (red), G (green), and B (blue) into a standard system for color display. Specifically, CIELab uniform color Conversion to space, XYZ color system, sRGB color system (standard-RGB), or the like.
[0005]
In the standardization conversion in the standardization conversion unit 102, conversion processing according to “input machine characteristic information” is performed. The “input machine characteristic information” is information that defines reading characteristics of an input scanner or the like that constitutes the input unit 101. In other words, the image data read by the input unit 101 is subjected to standardization conversion considering the reading characteristics of the input unit 101.
[0006]
“Finish request information” input by the operator via the editing unit 103 is added to the standardized image data stored in the storage unit 104. “Finish request information” is information that defines an operator's request for an image output result. For example, “color priority (for vector graphics)”, “paper white priority (for vector graphics)”, “high saturation” (Business) (for graphics)), "perception priority (natural image orientation)" and other keywords.
[0007]
When the standardized image data to which the “finish request information” is added is output from the output unit 106 configured by, for example, an image setter, the recording conversion unit 105 performs recording conversion. The conversion for recording is processing for converting standardized image data into raster data that can be directly handled by the output unit 106. In the recording conversion, the “finishing request information” and the “recording characteristic information” are referred to. “Recording characteristic information” is information defining the recording characteristics of the output unit 106. That is, the conversion for recording is performed in consideration of the request for the output result of the operator and the recording characteristics of the output unit 106.
[0008]
On the other hand, there is a case where the operator wants to confirm the standardized image data via the display unit 108 constituted by a display or the like. At this time, the display conversion unit 107 performs display conversion. The display conversion is a process of converting standardized data into a data format that can be displayed by the display unit 108. In the display conversion, “display characteristic information” is referred to. “Display characteristic information” is information that defines display characteristics of a display or the like that constitutes the display unit 108. Thereby, display conversion is performed in consideration of the display characteristics of the display unit 108.
[0009]
As described above, regarding the “color”, the image processing apparatus performs unified management of the image data in consideration of the characteristics of the input device, the characteristics of the output device, the operator's request, etc. A desired output result can be obtained simply by specifying a request for an image with a keyword.
[0010]
[Problems to be solved by the invention]
However, in the conventional image processing apparatus, unified management is not performed for image quality elements other than “color”, for example, edge enhancement. Therefore, for example, when it is desired to perform contour enhancement, it is necessary for the operator to set the contour enhancement parameters while being aware of the output characteristics of the output unit 106. This operation depends largely on the skill of the operator, and is difficult unless the operator is skilled. Even if a skilled operator performs the work, the trial and error is repeated based on his / her own experience, so the processing efficiency has to be low.
[0011]
In the conventional image processing apparatus, it is necessary to set “finishing request information” in consideration of the state of the subject of the image input to the input unit 101 for image data management related to “color”. That is, for example, even when “Perception Priority” is designated as “Finish Request Information”, the degree of perception of the output result differs between when a person is a subject and when a general landscape is a subject. It was a thing. Therefore, as the “finishing request information”, it is necessary to define in advance complicated settings according to the combination of the request for the output result and the state of the subject.
[0012]
The present invention has been made in view of the above problems, and an object of the present invention is to provide an image processing technique capable of easily obtaining an output result of optimum image quality without being conscious of an output device.
[0013]
It is another object of the present invention to provide an image processing technique that can easily obtain an output result of optimum image quality without being conscious of the state of a subject.
[0014]
[Means for Solving the Problems]
In order to solve the above problems, the invention of claim 1 is an image processing apparatus that outputs an output image after performing a predetermined conversion process on an input image, and (a) inputs the image Image input means, (b) image output means for outputting the output image, and (c) input machine characteristic information, subject information, document physical information, finish request information, in order to determine the quality of the output image, Storage means for storing image quality management information including recording characteristic information and standardization processing history; (d) standardization conversion means for performing standardization conversion on the image input by the image input means to obtain a standardized image; and Recording conversion means for performing recording conversion on a standardized image and obtaining the output image, and the standardization conversion means is stored in the storage means when performing standardization conversion on the input image. In addition, the standardization conversion based on only the image quality management information necessary according to the use among the image quality management information is performed, and the image quality management information referred to when performing the standardization conversion is recorded in the standardization processing history, and the recording The conversion means refers to the standardization processing history in the image quality management information when performing the recording conversion for the standardized image. , The recording conversion is performed based on the image quality management information necessary for the application.
[0016]
Further, the invention of claim 2 is the image processing apparatus according to the invention of claim 1, wherein (f) display conversion means for performing display conversion on the standardized image to obtain a display image; and (g) the display Image display means for displaying an image for use, wherein the image quality management information further includes display characteristic information, and the standardization conversion means stores in the storage means when performing standardization conversion on the input image. The image quality management information is subjected to the standardization conversion means based only on the image quality management information necessary according to the use, and the recording conversion means performs the standardization conversion on the standardized image. By referring to the standardized processing history ,for The recording conversion is performed based on the required image quality management information according to the way, and the display conversion means refers to the display characteristic information in the image quality management information when performing the display conversion on the standardized image. By ,for The display conversion is performed on the basis of necessary image quality management information.
[0018]
The invention of claim 3 is an image processing method for outputting an output image after performing a predetermined conversion process on an input image, and (a) an image input step of inputting the image; (b) a storage step for storing image quality management information including input machine characteristic information, subject information, document physical information, finish request information, recording characteristic information, and standardization processing history in order to determine the quality of the output image; c) The input image is subjected to standardization conversion based on only the image quality management information necessary according to the use among the image quality management information stored in the storage means, and is referred to when the standardization conversion is performed. A standardization conversion step of recording image quality management information in the standardization processing history and obtaining a standardized image; and (d) referring to the standardization processing history in the image quality management information for the standardized image. R , A recording conversion step of performing recording conversion based on image quality management information required according to the application and obtaining the output image; and (e) an image output step of outputting the output image.
[0020]
According to a fourth aspect of the present invention, in the image processing method according to the third aspect, the image quality management information further includes display characteristic information, and (f) the display characteristic information of the image quality management information for the standardized image. By referring to ,for A display conversion step of obtaining a display image by performing display conversion based on necessary image quality management information according to the way; and (g) an image display step of displaying the display image.
[0022]
According to the invention of claim 5, (a) a procedure for inputting an image to a computer, and (b) input machine characteristic information, subject information, original physical information, finish request information for determining the quality of an output image. , A procedure for storing image quality management information including recording characteristic information and standardization processing history, and (c) image quality management required for the input image according to use among the image quality management information stored in the storage means Performing standardization conversion based only on the information, and recording the image quality management information referred to when performing the standardization conversion in the standardization processing history to obtain a standardized image; and (d) the image quality management for the standardized image. By referring to the standardized processing history in the information , A procedure for performing conversion for recording based on image quality management information required according to the application and obtaining the output image; (e) a procedure for outputting the output image; and (f) the image quality for the standardized image. By referring to the display characteristic information in the management information ,for A computer-readable recording of an image processing program for performing a conversion for display based on image quality management information necessary according to the way to obtain a display image, and (g) a procedure for displaying the display image It is a possible recording medium.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0024]
<A. Overall Configuration of Image Processing Device>
FIG. 1 is a schematic configuration diagram showing the overall configuration of an image processing apparatus according to the present invention. The image processing apparatus includes an input unit 10, a display unit 20, an output unit 30, an editing unit 40, and an image processing unit 50.
[0025]
The input unit 10 is a processing unit that acquires image data in a format that can be processed by the image processing unit 50. The form of the input unit 10 includes a device that optically reads a document and converts it into image data, such as an input scanner, and a communication unit. There may be a device that captures network data, such as a terminal. In addition, the input unit 10 may be a digital camera or an optical disk reader. In the present embodiment, a case will be described in which the input unit 10 is an input scanner that optically reads a document and converts it into image data.
[0026]
The display unit 20 is a display capable of displaying image data. The output unit 30 is a processing unit that outputs image data that has been processed by the image processing unit 50, and may take the form of an image setter that outputs image data as printed matter, a communication terminal that outputs network data, or the like. The output unit 30 may be a recording device that records image data on an optical disc. In the present embodiment, a case where the output unit 30 is an image setter that outputs image data as a printed matter will be described.
[0027]
The editing unit 40 is a processing unit for an operator to input various commands and information to the image processing apparatus, and is configured using a keyboard and a mouse.
[0028]
The image processing unit 50 is configured using a computer, performs various processes such as color conversion and contour enhancement on the image data acquired by the input unit 10, and supplies processed image data to the output unit 30. Is a processing unit. The image processing unit 50 includes a standardization conversion unit 60, a display conversion unit 70, a recording conversion unit 80, and a storage unit 54. The standardization conversion unit 60, the display conversion unit 70, and the recording conversion unit 80 will be described later. The storage unit 54 is a storage device that stores an image processing program and image data, and is configured using, for example, a magnetic disk. It is also possible to read the program and data from the disk 55 as a recording medium in which the processing procedure is stored in the storage unit 54 as a program and execute the processing.
[0029]
The standardization conversion unit 60, the display conversion unit 70, and the recording conversion unit 80 are not included in the image processing unit 50, and may be formed integrally with the input unit 10, the display unit 20, and the output unit 30, respectively. Good.
[0030]
<B. Image data management in the entire image processing apparatus>
First, an overview of image data management in the entire image processing apparatus having the above configuration will be described. FIG. 2 is a diagram for explaining the concept of image data management in the entire image processing apparatus according to the present invention.
[0031]
The image data acquired from the input unit 10 is subjected to standardization conversion by the standardization conversion unit 60, and the standardized image data after conversion is stored in the storage unit 54. Here, the standardization conversion is to convert image data expressed in raw R (red), G (green), and B (blue) into a standard system for color display as described above. Specifically, it means conversion to a CIELab uniform color space, XYZ color system, sRGB color system, or the like. At this time, conversion processing based on “input machine characteristic information”, “original physical information”, and “subject information” is performed.
[0032]
When the standardized image data stored in the storage unit 54 is output from the output unit 30, the recording conversion unit 80 performs recording conversion. The conversion for recording is processing for converting standardized image data into raster data that can be directly handled by the output unit 30. In the conversion for recording, “input machine characteristic information”, “original physical information”, and “subject information” are referred to in addition to “finishing request information” and “recording characteristic information”.
[0033]
When displaying the standardized image data on the display unit 20, the display conversion unit 70 performs display conversion. The display conversion is a process of converting the standardized data into a data format that can be displayed by the display unit 20. In the conversion for display, “finishing request information”, “recording characteristic information”, “input machine characteristic information”, “original physical information”, and “subject information” are referred to in addition to “display characteristic information”.
[0034]
<B-1. Standardized conversion>
An original is scanned by an input scanner constituting the input unit 10, and the content is converted into an RGB image signal by a photoelectric conversion element such as a photomultiplier or a CCD and input to the standardization conversion unit 60. Then, standardization conversion is performed by the standardization conversion unit 60 in order to convert the image signal into a standard system for color display.
[0035]
FIG. 3 is a functional block diagram showing the configuration of the standardization conversion unit 60. The image signal input from the input unit 10 to the standardization conversion unit 60 is branched into two, one of which is input to the image analysis unit 61 and used for image analysis. The image analysis here is statistical analysis based on the density histogram of the input image signal. Then, as analysis results, for example, “subject automatic classification (what type of subject is)”, “representative color extraction (what is a noteworthy color of an image)”, “noise analysis (noise distribution state is Image analysis information on “how is it)”, “exposure state analysis”, and the like. The obtained image analysis information is transmitted to the image processing parameter determination unit 62.
[0036]
On the other hand, information about a document to be processed and information about an input scanner constituting the input unit 10 are input to the image processing apparatus from the editing unit 40 in advance. That is, “subject information” and “original physical information” are input for the original to be processed, and “input machine characteristic information” is input for the input scanner constituting the input unit 10.
[0037]
Here, “subject information” is information defining the state of the subject, and for example, indicates whether the subject is a “general object” or a “person”. If the subject is a “general object”, it indicates whether it is classified as, for example, landscape, food, jewelry, pottery, watercolor painting, fading, etc.・ It shows whether the skin is classified as light skin or dark skin.
[0038]
The “original physical information” is information defining the nature of the original. For example, “original type” and “original size” are defined. The “type of document” indicates, for example, whether it is a positive document, a negative document, or a reflection document, and the brand name is also added. Further, although it is not a property of the original in a strict sense, “scan resolution” is also included in “original physical information” because it affects the data characteristics of the original read by the input scanner.
[0039]
As described above, “input machine characteristic information” is information that defines the reading characteristics of the input scanner constituting the input unit 10.
[0040]
The image processing parameter determination unit 62 determines the image processing parameter based on the “subject information”, “original physical information”, “input machine characteristic information”, and the image analysis information of the image analysis unit 61. The method for determining the image processing parameter will be described later. The type of parameter to be determined is a range for correcting a range conversion lookup table (hereinafter referred to as “LUT”) that adjusts the conversion area of the image signal. These are a conversion LUT parameter, a color conversion LUT parameter for correcting a color conversion LUT for converting colors, and a gradation conversion LUT parameter for correcting a gradation conversion LUT for converting gradations. The determined various image processing parameters are transmitted from the image processing parameter determination unit 62 to the image signal processing unit 63.
[0041]
The image signal processing unit 63 branches and transmits the image signal input from the input unit 10 and also receives various image processing parameters. Then, the image signal processing unit 63 corrects various LUTs based on the image processing parameters, and performs predetermined image processing using the corrected LUTs. FIG. 4 is a diagram for explaining a state of image processing in the image signal processing unit 63.
[0042]
The image signal processing unit 63 has a range conversion LUT, a color conversion LUT, and a gradation conversion LUT in advance, and corrects these LUTs based on the various image processing parameters. The RGB image signal of the document input to the image signal processing unit 63 is adjusted in the conversion area by the corrected range conversion LUT, further converted into the CIELab uniform color space by the corrected three-dimensional color conversion LUT, and then further corrected. Tone conversion is performed by the already-prepared tone conversion LUT. Then, in the image signal processing unit 63, the processed image signal subjected to the above-described processes is output from the image signal processing unit 63 as a standardized image signal.
[0043]
The standardized image signal is sent from the standardization conversion unit 60 to the storage unit 54 and stored in the storage unit 54 as standardized image data. FIG. 5 is a diagram illustrating a file structure of standardized image data stored in the storage unit 54. As shown in the figure, standardized image data is added with file information indicating the storage location of the file, image data format information indicating the data format of the standardized image data, and image quality management information. The image quality management information includes “recording characteristic information”, “display characteristic information”, and “finishing request information” to be described later in addition to the above “document physical information”, “subject information”, and “input machine characteristic information”. Yes. Here, the image quality management information further includes “standardization processing history”. The “standardization processing history” is information indicating the history of standardization conversion in the standardization conversion unit 60. For example, “subject information”, “original physical information”, and “input machine characteristic information” are referred to during standardization conversion. History contents are recorded. The image quality management information does not necessarily have to be included in the same file as the standardized image data, and is stored in the storage unit 54 as a separate file after the standardized image data is associated with the database. May be.
[0044]
<B-2. Conversion for recording>
After the standardized image data is stored in the storage unit 54, the operator performs page editing on the standardized image data from the editing unit 40. That is, the standardized image data is incorporated as one of the page components that constitute the printed material. At this time, the standardized image data to be incorporated does not necessarily include all data, and may be rough image data thinned to such an extent that it can be edited. In this case, the original fine image data may be replaced during recording conversion. The edited standardized image data (represented by page description data at this time) is directly sent to the recording conversion unit 80, or once stored in the storage unit 54 and then sent to the recording conversion unit 80. Used for recording conversion.
[0045]
In the recording conversion unit 80, the edited standardized image data is converted into raster data that can be output by the output unit 30. FIG. 6 is a functional block diagram showing the configuration of the recording conversion unit 80. The image signal representing the standardized image data sent to the recording conversion unit 80 is branched into two, one of which is input to the image analysis unit 81 and used for image analysis. The image analysis here is the same as the image analysis of the image analysis unit 61 of the standardization conversion unit 60 described above, and image analysis information is obtained by statistical analysis based on the density histogram of the input image signal. The obtained image analysis information is transmitted to the image processing parameter determination unit 82.
[0046]
By the way, in the image processing apparatus, in addition to the “subject information”, “original physical information”, and “input machine characteristic information” described above, “recording characteristic information”, “finishing request information”, and “display characteristic information” are edited. 40 is input.
[0047]
Here, the “recording characteristic information” is information defining the recording characteristics of the output unit 30. For example, whether the output unit 30 is a “printer” such as an image setter, an “optical disk”, a “network” It is shown whether it is a “terminal”. When the output unit 30 is “printing machine”, “paper quality (eg, coated paper, newspaper)” or “ink type” is “optical disk”, and “data format (eg, JPEG)”. Etc.) is “network terminal”, “data format (for example, JPEG etc.)” is also appended.
[0048]
“Finish request information” is information that defines an operator's request for an image output result. Specifically, “Kansei finish request” and “Physical finish request” are input and defined. “Sensitive finish requirements” include, for example, “finish standard”, “darken / bright”, “clean”, “sharp, soft”, “volume”, “highlight white”, “contrast” Keywords such as “Strong” and “Keep the atmosphere” are input, and “Resolution”, “Magnification” and the like are input as “Physical finish request”. The “display characteristic information” will be further described later.
[0049]
As shown in FIG. 6, the image processing parameter determination unit 82 includes “subject information”, “original physical information”, “input machine characteristic information”, “recording characteristic information”, “finishing request information”, and “standardization processing history”. The image processing parameter is determined based on the image analysis information of the image analysis unit 81. The image processing parameter determination method here will be described later. The types of parameters to be determined are the range conversion LUT parameter for correcting the range conversion LUT for adjusting the conversion area of the image signal, and the color conversion LUT for converting the color. Color conversion LUT parameter for correcting image quality, sharpness parameter for determining the degree of edge enhancement in the edge enhancement process (hereinafter referred to as “USM”), and gradation conversion LUT for correcting the gradation conversion LUT for converting the gradation It is a parameter. The determined various image processing parameters are transmitted from the image processing parameter determination unit 82 to the image signal processing unit 83.
[0050]
The image signal processing unit 83 branches and transmits the image signal of the standardized image, and also receives the image processing parameters. The image signal processing unit 83 performs various image processing based on the input image processing parameters. FIG. 7 is a diagram for explaining a state of image processing in the image signal processing unit 83.
[0051]
The image signal processing unit 83 has a range conversion LUT, a color conversion LUT, and a gradation conversion LUT in advance, and corrects these LUTs based on the various image processing parameters. The image signal in the CIELab uniform color space of the standardized image input to the image signal processing unit 83 is adjusted in the conversion area by the corrected range conversion LUT, and further printed by the Y (yellow) for printing by the corrected three-dimensional color conversion LUT. ) M (magenta) C (cyan) K (black) signal is converted. Then, if necessary, contour enhancement processing according to the sharpness parameter is performed, and gradation conversion is performed using a corrected gradation conversion LUT. In the image signal processing unit 83, the processed image signal subjected to each of the above processes is output from the image signal processing unit 83 as a recording image signal.
[0052]
The recording image signal output from the image signal processing unit 83 is transmitted to the output unit 30 and output from an output device constituting the recording image signal. In this embodiment, it is output as a printed matter from the imagesetter.
[0053]
<B-3. Conversion for display>
When the operator wants to confirm the output result from the output unit 30 in advance, the standardized image data is converted for display in the display conversion unit 70 and the converted image data is displayed on the display unit 20.
[0054]
In the display conversion unit 70, the edited standardized image data is converted into a data format that can be displayed by the display unit 20. FIG. 8 is a functional block diagram illustrating a configuration of the display conversion unit 70. The image signal representing the standardized image data sent to the display conversion unit 70 is branched into two, one of which is input to the image analysis unit 71 and used for image analysis. The image analysis here is the same as the image analysis of the image analysis unit 61 of the standardization conversion unit 60 described above, and image analysis information is obtained by statistical analysis based on the density histogram of the input image signal. The obtained image analysis information is transmitted to the image processing parameter determination unit 72.
[0055]
As shown in FIG. 8, the image processing parameter determination unit 72 includes “subject information”, “original physical information”, “input device characteristic information”, “recording characteristic information”, “finishing request information”, and “standardization processing history”. The image processing parameters are determined based on the “display characteristic information” and the image analysis information of the image analysis unit 71. Here, “display characteristic information” is information that defines the display characteristics of the display constituting the display unit 20.
[0056]
FIG. 9 is a conceptual diagram for explaining an image processing parameter determination method in the image processing parameter determination unit 72. In this embodiment, “subject information”, “original physical information”, “input machine characteristic information”, “recording characteristic information”, “finishing request information”, “standardization process” given to the image processing parameter determination unit 72 from the outside of the apparatus. The “history”, “display characteristic information”, and image analysis information which is an analysis result inside the apparatus are all information represented by keywords. All of these keywords form an observation information group for inference in the image processing parameter determination unit 72.
[0057]
In the image processing parameter determination unit 72, a plurality of conditions for inference are defined in advance as an inference rule base group. Then, the image processing parameter determination unit 72 obtains an image processing parameter as an inference result from the observation information group based on the inference rule base group. For this reasoning, for example, fuzzy reasoning may be used, and other reasoning methods may be used. The image processing parameter determination method in the image processing parameter determination unit 62 of the standardization conversion unit 60 and the image processing parameter determination unit 82 of the recording conversion unit 80 described above is also the same method as shown in FIG. However, the number of observation information groups and inference results is reduced in standardization conversion and recording conversion.
[0058]
The types of image processing parameters as inference results obtained in the present embodiment are the range conversion LUT parameter for correcting the range conversion LUT for adjusting the conversion area of the image signal, and the color conversion LUT for correcting the color. These are a color conversion LUT parameter, a sharpness parameter that determines the degree of edge enhancement in USM, and a gradation conversion LUT parameter for correcting a gradation conversion LUT that converts gradation. These various image processing parameters are transmitted from the image processing parameter determination unit 72 to the image signal processing unit 73.
[0059]
An image signal of the standardized image is branched and transmitted to the image signal processing unit 73, and the image processing parameters are also input. The image signal processing unit 73 performs various image processing based on the input image processing parameters. FIG. 10 is a diagram for explaining a state of image processing in the image signal processing unit 73.
[0060]
The image signal processing unit 73 has a range conversion LUT, a color conversion LUT, and a gradation conversion LUT in advance, and corrects these LUTs based on the various image processing parameters. The image signal in the CIELab uniform color space of the standardized image input to the image signal processing unit 73 has its conversion area adjusted by the corrected range conversion LUT, and further, the RGB image signal for display by the corrected three-dimensional color conversion LUT Is converted to Then, if necessary, contour enhancement processing according to the sharpness parameter is performed, and gradation conversion is performed using a corrected gradation conversion LUT. In the image signal processing unit 73, the processed image signal that has been subjected to the above-described processes is output from the image signal processing unit 73 as a display image signal.
[0061]
The display image signal output from the image signal processing unit 73 is transmitted to the display unit 20 and displayed on the display that forms the display image signal.
[0062]
<C. Significance of Image Quality Management Information>
As described above, the image processing apparatus according to the present invention sets image quality management information, and manages overall image quality in image processing (image quality in general including elements other than colors such as edge enhancement) based on the image quality management information. It is carried out. Here, the image quality management information includes “subject information”, “document physical information”, “input machine characteristic information”, “recording characteristic information”, “finishing request information”, and “display characteristic information”. Thus, information covering all the characteristics of all input / output devices and originals used for typical image processing is set. Therefore, the operator simply sets his / her request as “finished request information” without being aware of the characteristics of the devices constituting the image processing apparatus (for example, without being aware of the characteristics of the image setter which is the output unit 30). Thus, a desired output result can be easily obtained.
[0063]
In addition, since “image information” that defines the state of the subject is included in the image quality management information, image processing parameter setting that also considers the state of the subject is performed. Therefore, the operator can easily obtain a desired output result without being aware of the state of the subject.
[0064]
Here, as shown in FIG. 2, the image processing in the image processing apparatus of the present embodiment is performed in three conversion processing units, that is, the standardization conversion unit 60, the display conversion unit 70, and the recording conversion unit 80. Each of the three conversion processing units performs conversion processing by referring to some of the image quality management information, but which image quality management information is to be referred to is not necessarily the above embodiment (see FIGS. 3, 6, and 8). It is not limited to. For example, the standardization conversion unit 60 always refers to “input machine characteristic information”, but does not refer to “subject information” and “original physical information”, but merely associates with standardized image data. Also good. In this case, the fact that only “input machine characteristic information” is referred to is recorded in the “standardization processing history”. Then, the recording conversion unit 80 or the display conversion unit 70 discriminates the “standardization processing history” and always performs conversion processing in consideration of “subject information” and “original physical information”.
[0065]
Considering “subject information” and “document physical information” at the time of standardization conversion, if you want to obtain standardized image data that does not refer to “subject information” after that, the influence of “subject information” may not be removed. However, if the image quality management information referred to by the standardization conversion unit 60 is only “input machine characteristic information”, such inconvenience can be solved.
[0066]
Conversely, “recording characteristic information” and “finishing request information” may be referred to as necessary during standardization conversion.
[0067]
In other words, in the image processing apparatus according to the present invention, the type of image quality management information referred to by the standardization conversion unit 60, the display conversion unit 70, and the recording conversion unit 80 is not fixed, and depends on the use of the image data. Only necessary image quality management information can be referred to.
[0068]
In this embodiment, the display conversion unit 70 performs display conversion by referring to “recording characteristic information” and “finishing request information” as well as “display characteristic information”. Therefore, the operator can grasp the output result from the output unit 30 more accurately by visually recognizing the display on the display unit 20.
[0069]
Further, in the present embodiment, the conversion processing unit is divided into three parts, that is, the standardization conversion unit 60, the display conversion unit 70, and the recording conversion unit 80, and the standardized data created by the standardization conversion unit 60 is stored in the storage unit 54. I remember it. Then, conversion for recording and conversion for display are performed while referring to predetermined image quality management information based on the standardized data. That is, since various conversion processes are performed on standardized data having high versatility, the captured image data can be used for a wide range of purposes.
[0070]
<D. Modification>
While the embodiments of the present invention have been described above, the present invention is not limited to the above examples. For example, “subject information” in the image quality management information does not necessarily have to be input, and may be created by image analysis. That is, the image analysis units 61, 71, 81 may analyze the image signal to obtain an analysis result regarding the subject, and the analysis result may be used instead of “subject information”.
[0071]
In the above-described embodiment, the image quality management information is expressed by keywords, but it may be expressed by numerical data.
[0072]
Further, in the above embodiment, the standardization conversion unit 60 may perform USM. In this case, the display conversion unit 70 and the recording conversion unit 80 may be used.
[0073]
【The invention's effect】
As described above, according to the first aspect of the present invention, the standardization conversion unit and the recording conversion unit respectively perform standardization conversion and recording conversion based on the image quality management information for determining the quality of the output image. Therefore, it is possible to easily obtain an output result with optimum image quality without being conscious of the output device constituting the image processing apparatus.
[0074]
Claims 1 According to the invention, the image quality management information includes input machine characteristic information, subject information, document physical information, finish request information and recording characteristic information, and the standardization conversion means includes the input machine characteristic information, subject information and Since the standardization conversion is performed based on the physical document information and the recording conversion unit performs the recording conversion based on all of the image quality management information, the subject information is also considered in the conversion process, and the subject state is conscious. Therefore, it is possible to easily obtain an output result with optimum image quality.
[0075]
Claims 2 According to this invention, since the display conversion means performs the display conversion based on the image quality management information, an optimal display result can be obtained without being conscious of the display device.
[0076]
Claims 2 According to the invention, the image quality management information includes input machine characteristic information, subject information, document physical information, finish request information, recording characteristic information, and display characteristic information, and the standardization conversion means includes the input machine characteristic information in the image quality management information, Standardization conversion is performed based on subject information and physical document information, and a recording conversion unit performs recording conversion based on input device characteristic information, subject information, physical document physical information, finish request information, and recording characteristic information in image quality management information. Since the display conversion means performs the display conversion based on all the image quality management information, the output result can be accurately grasped in advance by viewing the display result.
[0077]
Claims 3 According to the invention, an image input process for inputting an image, a storage process for storing image quality management information for determining the quality of an output image, and standardization conversion of the input image based on the image quality management information is performed. Because it includes a standardization conversion step for obtaining a standardized image, a recording conversion means for performing recording conversion on the standardized image based on image quality management information to obtain an output image, and an image output step for outputting the output image Therefore, it is possible to easily obtain an output result with optimum image quality without being conscious of the output device constituting the image processing apparatus.
[0078]
Claims 3 According to the invention, the image quality management information includes input machine characteristic information, subject information, original physical information, finish request information, and recording characteristic information. In the standardization conversion step, the input machine characteristic information, subject information, among the image quality management information. Since the standard conversion is performed based on the original physical information and the recording conversion is performed based on all of the image quality management information in the recording conversion process, subject information is also considered in the conversion process. An output result with optimum image quality can be easily obtained without being conscious of the state.
[0079]
Claims 4 According to the invention, since the standardized image is further provided with the display conversion step of obtaining the display image by converting the display based on the image quality management information, and the image display step of displaying the display image, the display is performed. Optimal display results can be obtained without being conscious of the device.
[0080]
Claims 4 According to the invention, the image quality management information includes input machine characteristic information, subject information, document physical information, finish request information, recording characteristic information, and display characteristic information. Information, subject information, and document physical information, and standardization conversion is performed. In the recording conversion process, input device characteristic information, subject information, document physical information, finish request information, and recording characteristic information are included in the image quality management information. Since the conversion for recording is performed and the conversion for display is performed based on all of the image quality management information in the display conversion step, the output result can be accurately grasped in advance by visually checking the display result.
[0081]
Claims 5 According to the invention, a procedure for inputting an image, a procedure for storing image quality management information for determining the quality of an output image, and a standardized image obtained by performing standardization conversion on the input image based on the image quality management information A procedure for obtaining the output image by converting the recording for the standardized image based on the image quality management information, a procedure for outputting the output image, and a display conversion for the standardized image based on the image quality management information. By causing a computer to read and execute a recording medium on which an image processing program for executing a procedure for obtaining a display image and a procedure for displaying a display image is executed, the same effect as that of the invention of claim 1 can be efficiently obtained. Obtainable.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing an overall configuration of an image processing apparatus according to the present invention.
2 is a diagram for explaining a concept of image data management in the entire image processing apparatus of FIG. 1; FIG.
FIG. 3 is a functional block diagram showing a configuration of a standardization conversion unit.
4 is a diagram for explaining a state of image processing in an image signal processing unit in FIG. 3; FIG.
FIG. 5 is a diagram illustrating a file structure of standardized image data stored in a storage unit.
FIG. 6 is a functional block diagram illustrating a configuration of a recording conversion unit.
7 is a diagram for explaining a state of image processing in the image signal processing unit of FIG. 6;
FIG. 8 is a functional block diagram illustrating a configuration of a display conversion unit.
FIG. 9 is a conceptual diagram for explaining an image processing parameter determination method in an image processing parameter determination unit.
10 is a diagram for explaining a state of image processing in the image signal processing unit of FIG. 8;
FIG. 11 is a diagram illustrating a concept of image data management in a conventional image processing apparatus.
[Explanation of symbols]
10 Input section
20 Display section
30 Output section
40 editorial department
50 Image processing section
54 Memory
55 discs
60 Standardization converter
70 Display converter
80 Recording converter

Claims (5)

An image processing apparatus that outputs an output image after performing a predetermined conversion process on an input image,
(a) image input means for inputting the image;
(b) image output means for outputting the output image;
(c) storage means for storing image quality management information including input machine characteristic information, subject information, document physical information, finish request information, recording characteristic information, and standardization processing history to determine the quality of the output image;
(d) Standardization conversion means for performing standardization conversion on the image input by the image input means to obtain a standardized image;
(e) recording conversion means for performing recording conversion on the standardized image to obtain the output image;
With
The standardization conversion unit performs the standardization conversion based on only the image quality management information necessary according to the use among the image quality management information stored in the storage unit when performing the standardization conversion on the input image. , Recording the image quality management information referred to when performing the standardization conversion in the standardization processing history,
The recording converting means, when performing recording transformation on the normalized image, by referring to the normalization processing history of the quality control information, the recording conversion based on the quality control information required according to the application An image processing apparatus characterized by The image processing apparatus according to claim 1.
(f) display conversion means for performing display conversion on the standardized image to obtain a display image;
(g) image display means for displaying the display image;
Further comprising
The image quality management information further includes display characteristic information,
The standardization conversion unit performs the standardization conversion unit based on only the image quality management information necessary according to the use among the image quality management information stored in the storage unit when performing the standardization conversion on the input image. ,
The recording converting means, when performing normalization transformation on the normalized image, by referring to the normalization processing history of the quality control information, the recording conversion based on the quality control information required according to APPLICATIONS And
The display conversion unit, when performing display conversion with respect to the normalized image, by referring to the display characteristic information of the quality control information, said display based on the quality control information required according to APPLICATIONS An image processing apparatus that performs conversion. An image processing method for outputting an output image after performing predetermined conversion processing on an input image,
(a) an image input step for inputting the image;
(b) a storage step of storing image quality management information including input machine characteristic information, subject information, document physical information, finish request information, recording characteristic information, and standardization processing history to determine the quality of the output image;
(c) For the input image, standardization conversion is performed based on only the image quality management information necessary for the application among the image quality management information stored in the storage unit, and is referred to when performing the standardization conversion. Image quality management information is recorded in the standardization processing history and a standardized conversion step for obtaining a standardized image;
(d) For the standardized image, by referring to the standardized processing history in the image quality management information, recording conversion is performed based on the image quality management information required according to the application, and the output image is obtained. Conversion process;
(e) an image output step for outputting the output image;
An image processing method comprising: The image processing method according to claim 3.
The image quality management information further includes display characteristic information,
For (f) the normalized image, by referring to the display characteristic information of the quality control information, performs conversion for display on the basis of the quality control information required according to APPLICATIONS, display to obtain a display image Conversion process;
(g) an image display step for displaying the display image;
An image processing method further comprising: On the computer,
(a) The procedure for inputting images,
(b) a procedure for storing image quality management information including input machine characteristic information, subject information, document physical information, finish request information, recording characteristic information, and standardization processing history in order to determine the quality of an output image;
(c) For the input image, standardization conversion is performed based on only the image quality management information necessary for the application among the image quality management information stored in the storage unit, and is referred to when performing the standardization conversion. Recording the image quality management information in the standardization processing history and obtaining a standardized image;
(d) With respect to the standardized image, by referring to the standardization processing history in the image quality management information, the recording conversion is performed based on the image quality management information required according to the application, and the output image is obtained. ,
(e) a procedure for outputting the output image;
For (f) the normalized image, by referring to the display characteristic information of the quality control information, performs conversion for display on the basis of the quality control information required according to APPLICATIONS, the procedure for obtaining the display image ,
(g) a procedure for displaying the display image;
The computer-readable recording medium which recorded the image processing program which performs this.

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