JP2003150953A - Image processor, image processing method, program for implementing image processing method, and storage medium storing program for implementing the image processing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image processor capable of suitably altering gradation characteristic so that an image formed on a medium and an image formed on a monitor are made to approach to each other in the visible condition, an image processing method, a program for implementing the image processing method and a storage medium storing the program for implementing the image processing method. SOLUTION: One of the plurality of gradation converting techniques can be selected by an operating part 15, and according to the brightness information L obtained from a hard copy, the density information Dmax, Dmin on an image formed on the film, and the selected gradation converting technique, the gradation converting characteristic for monitor display is altered, whereby good gradation converting characteristic can be obtained by using the selected gradation converting technique and the density and brightness information, and the visible condition can be made to approach to that of the image formed on the medium so as to decrease the incompatibility of an image reading person observing both of the images.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image processing apparatus, an image processing method, a program for executing the image processing method, and a storage medium storing the program for executing the image processing method, and more particularly to a technology suitable for the medical field.

[0002]

2. Description of the Related Art Conventionally, an image of a patient obtained by, for example, X-ray photography is printed on a film and then observed by a doctor who is a radiogram interpreter and used for diagnosis. . On the other hand, in recent years, a technique has been developed in which a medical image such as an X-ray image is acquired as image data and is formed as an image as needed. According to such a technique, there is an advantage that it does not take up much space for storage such as a film and the image quality does not deteriorate with time.

[0003]

By the way, when a medical image is treated as image data, the image is once imprinted on a medium such as a film, placed on a Schaukasten (light emitter), and the transmitted light is utilized. For the observation of CR
In a new observation performed by displaying an image on a monitor such as T, the appearance of the image is different, so that a doctor or other image reader may feel uncomfortable.

One of the causes of such a problem is that the gradation characteristic of the image projected on the medium is different from the gradation characteristic of the image displayed on the monitor. On the other hand, in order to match the human visual characteristics, it is possible to perform a brightness conversion when displaying an image on a monitor by a predetermined function.
Imaging and COmmunication in Medicine). However, there is a possibility that the difference in the appearance of the image on the film and the image on the monitor cannot be eliminated only by the gradation conversion characteristic defined by the DICOM standard.

The present invention has been made in view of the above problems, and it is possible to make the images formed on a medium and the image formed on a monitor look closer to each other.
An object of the present invention is to provide an image processing apparatus, an image processing method, a program that executes the image processing method, and a storage medium that stores the program that executes the image processing method, in which the gradation characteristics can be changed appropriately.

[0006]

(1) An image processing apparatus according to the present invention uses an image formed on a medium based on the same image data to determine the appearance of an image displayed on a monitor based on the image data. Is an image processing apparatus that performs image processing so as to approximate the appearance of the image, and brightness information obtained from a medium on which the image is formed, and irradiation for irradiating the medium with transmitted light for observing the image of the medium. Since the gradation conversion characteristic for monitor display is changed based on at least one of the luminance information of the device and the density gradation characteristic of the imager for forming an image on the medium, the conventional DICO can be simply used.
By using the luminance information and the density gradation characteristic, it is possible to obtain a better gradation conversion characteristic for monitor display, as compared with the case where the gradation conversion characteristic defined by the M standard is applied. As a result, the appearance of the image displayed on the monitor is made closer to the appearance of the image formed on the medium, so that the sense of discomfort of the image reader who observes both images can be reduced. Here, the “gradation conversion characteristic” refers to a characteristic represented by an LUT for converting the gradation of image data (for example, 4095 gradations) into the gradation for monitor display (for example, 256 gradations). .

(2) Further, it has a selecting means for selecting one of a plurality of gradation converting methods, and based on the gradation converting method selected by the selecting means, a gradation converting characteristic for monitor display is obtained. If it can be changed, the appearance of the image displayed on the monitor can be formed on the medium by appropriately selecting another conversion method other than the conversion method based on the gradation conversion characteristic defined by the DICOM standard. Since it can be brought closer to the appearance of the image, it is possible to reduce the discomfort of the image reader who observes both images.

(3) Further, when the irradiation device is a Schaukasten, the image appearance on the monitor can be made closer to the image of the medium placed on the Schaukasten, so that it is particularly useful in the medical field. It is valid.

(4) Further, when the brightness information obtained from the medium on which the image is formed includes information on the brightness of the reflected light of the medium, a better gradation conversion characteristic is obtained by using such information. You can

(5) Further, when the density gradation characteristics are obtained based on the information about the maximum density and the minimum density of the image formed on the medium, a better gradation conversion characteristic can be obtained by using such information. You can get it.

(6) Furthermore, it is preferable that the density information is input from an imager which forms an image on the medium, because the input is easy and an input error can be prevented.

(7) Further, when the gradation conversion characteristic for monitor display is changed based on the brightness gradation characteristic of the monitor, the appearance of the image displayed on the monitor is changed to the appearance of the image formed on the medium. It is possible to reduce the discomfort of the image reader who observes both images by bringing them closer to each other.

(8) Furthermore, when the gradation conversion characteristic for monitor display is changed based on the screen reflection brightness of the monitor, the appearance of the image displayed on the monitor is changed depending on the appearance of the image formed on the medium. By bringing them closer, it is possible to reduce the discomfort of the image reader who observes both.

(9) According to the image processing method of the present invention, the appearance of the image displayed on the monitor based on the image data is approximated to the appearance of the image formed on the medium based on the same image data. An image processing method for performing image processing on, the brightness information obtained from a medium on which the image is formed, the brightness information of an irradiation device for irradiating the medium with transmitted light for observing the image of the medium, Since the gradation conversion characteristics for monitor display are changed based on at least one of the density gradation characteristics of the imager that forms an image on the medium, the gradation simply defined by the DICOM standard as in the conventional case is used. By using the luminance information and the density gradation characteristic, a better gradation conversion characteristic for monitor display can be obtained as compared with the case where the conversion characteristic is applied, and the image displayed on the monitor is thereby obtained. By making the appearance of the image closer to the appearance of the image formed on the medium, it is possible to reduce the discomfort of the image reader who observes both images.

(10) The image processing apparatus of the present invention makes the appearance of an image displayed on a monitor based on image data closer to the appearance of an image formed on a medium based on the same image data. An image processing apparatus for performing image processing on, brightness information obtained from a medium on which the image is formed, brightness information of an irradiation device that irradiates the medium with transmitted light in order to observe an image of the medium, Since the gradation conversion characteristics of the image formed on the medium are changed based on at least one of the density gradation characteristics of the forming device that forms an image on the medium, the brightness information and the density gradation characteristics are used. By doing so, it is possible to obtain better gradation conversion characteristics of the medium image, and as a result, the appearance of the image formed on the medium is made closer to the appearance of the image displayed on the monitor. It is possible to reduce the discomfort of the shadow.

(11) Further, it has a selecting means for selecting one of a plurality of gradation converting methods, and the gradation of the image formed on the medium based on the gradation converting method selected by the selecting means. If the conversion characteristics can be changed, the appearance of the image displayed on the monitor can be made closer to the appearance of the image formed on the medium by making an appropriate selection, so that the sense of discomfort of the image reader who observes both images can be reduced. You can

(12) Further, when the irradiation device is a Schaukasten, the appearance of the image of the medium placed on the Schaukasten can be brought close to the appearance of the image on the monitor. Is effective in.

(13) Further, when the brightness information obtained from the medium on which the image is formed includes information on the brightness of the reflected light of the medium, a better gradation conversion characteristic is obtained by using such information. You can

(14) Further, when the density gradation characteristics are obtained based on the information on the maximum density and the minimum density of the image formed on the medium, a better gradation conversion characteristic can be obtained by using such information. You can get it.

(15) Furthermore, it is preferable that the density information is input from an imager that forms an image on the medium, because the input is easy and an input error can be prevented.

(16) Furthermore, if the gradation conversion characteristics of the image formed on the medium are changed based on the brightness gradation characteristics of the monitor, the image formed on the medium will look like the image displayed on the monitor. By making the appearance of the image closer, it is possible to reduce the discomfort of the image reader who observes both images.

(17) Furthermore, if the gradation conversion characteristics of the image formed on the medium are changed based on the screen reflection brightness of the monitor, the image formed on the medium is changed in appearance depending on the appearance of the image displayed on the monitor. By making the appearance closer, it is possible to reduce the discomfort of the image reader who observes both.

(18) According to the image processing method of the present invention, the appearance of an image displayed on a monitor based on image data is made closer to the appearance of an image formed on a medium based on the same image data. An image processing method for performing image processing on, the brightness information obtained from a medium on which the image is formed, the brightness information of an irradiation device for irradiating the medium with transmitted light for observing the image of the medium, Since the gradation conversion characteristics of the image formed on the medium are changed based on at least one of the density gradation characteristics of the forming device that forms an image on the medium, the brightness information and the density gradation characteristics are used. By doing so, it is possible to obtain better gradation conversion characteristics of the medium image, and as a result, the appearance of the image formed on the medium is made closer to the appearance of the image displayed on the monitor. It is possible to reduce the discomfort of the shadow.

[0024]

BEST MODE FOR CARRYING OUT THE INVENTION An image processing apparatus according to an embodiment of the present invention will be described in detail below with reference to the drawings. FIG. 1 is a block diagram showing a schematic configuration of the image processing apparatus 10. In FIG. 1, an image processing apparatus 10 includes a control unit 11 as a control unit that controls each unit, a data input unit 12 to which medical image data is input, an image processing unit 13 that executes image processing, and a monochrome or color image. The image display device 14 (hereinafter referred to as a monitor) for displaying various medical images, an operation unit 15 for inputting an operation from the observation clothes, and a data holding unit 16 for holding various setting data. .

The image processing unit 13 performs gradation conversion by a monitor display LUT (gradation conversion characteristic) described later,
The image display device 14 functions so that the appearance of the image on the image display device 14 substantially matches the appearance of the image (hard copy) formed on the film as the medium. A program for executing image processing (method) described below is stored in a predetermined storage medium such as a hard disk or a CD-ROM (not shown), read out to a work area of the image processing unit 13 and executed. It is like this.

Here, it is assumed that medical image data is generated by a medical image photographing device (not shown). This medical image data is input from the data input unit 12. In this case, the medical image capturing apparatus (not shown) and the image processing apparatus 1
0 may be connected via a network, or data may be transferred via an electronic recording medium.

Next, the operation of the image processing apparatus 10 will be described. From the image processing unit 13 of the image processing apparatus 10, the image data is converted into imager data, and the imager 2 is converted.
By outputting to 0, it is assumed that the imager 20 can obtain a hard copy in which an image is formed on the film. Such a hard copy is illuminated by a Schaukasten (not shown) and becomes observable by a reader. The output of the hard copy by the imager 20 may be performed in the same room or in another room.

The image processing apparatus 10 determines the gradation (monitor display LUT calculation) so that the image displayed on the image display apparatus 14 looks closer to the hard copy image. .

First, the image processing section 13 includes the imager 20.
Characteristics of the hard copy output from the device (“output gradation characteristics” indicating the relationship between the imager input and the hard copy density D)
Is acquired from the imager 20 as characteristic data. It is assumed here that such characteristics are as shown in FIG.

When the hard copy is illuminated by the Schaukasten for observation, the Ska-Stain light emission luminance L0 and the film-reflected luminance La due to the room illumination when the Schaukasten emission is stopped can be measured by separate luminance meters. . When these are input as data via the operation unit 15 or the like, the image processing unit 13 obtains the transmission luminance L at the time of observing the hard copy by the following formula (1). L = La + L0 · 10 ^−D (1) It should be noted that the light emitting luminance L0 of the Schaukasten and the film reflecting luminance La by the room illumination when the light emission of the Schaukasten is stopped represent the “observation environment condition”. This transmitted luminance L is shown in FIG.

On the other hand, like the transmitted luminance L, the lightness L *
It is also possible to use. In that case, the above “observation environment condition” is determined by the brightness of the film illuminated by the Schaukasten or the monitor brightness Y of the image display device 10, and the maximum brightness of the film illuminated by the Schaukasten or the monitor maximum brightness Yn of the image display device 10. Can be represented. L * = 116 (Y / Yn) ¹ / 3-16 (2) The predetermined output gradation characteristic of the hard copy above is defined as "predetermined output gradation characteristic", and the predetermined observation environment condition is "predetermined observation." It is defined as “environmental condition” and stored in the data holding unit 16 in advance.

Here, the "predetermined output gradation characteristic" is a standard output gradation characteristic, an output gradation characteristic whose characteristic value is manually input from the operation unit 15 or the like, and a characteristic value is given from an imager via a network. Any of the above-mentioned output gradation characteristics may be used. Further, the “predetermined observation environment conditions” are standard observation environment conditions, observation environment conditions in which characteristic values are manually input from the operation unit 15 or the like, and observation environment conditions in which characteristic values are given from an observation device via a network. , May be used.

Regarding the output gradation characteristics of the above hard copy, a plurality of output gradation characteristics for each device and a plurality of observation environment conditions for each condition are determined and stored in advance in the data holding unit 16. You may do it.

In this embodiment, a conversion (or brightness conversion) method for determining the brightness relationship between the hard copy and the monitor can be selected. Such gradation conversion methods include "brightness equivalent conversion", "GSDF conversion", "brightness linear conversion", and "brightness-to-numerical linear conversion". First,
The GSDF conversion will be described.

GSDF (Grayscale Standard Display F
The unction) conversion is a brightness conversion based on a characteristic curve as shown in FIG. 3 as an example, and according to this property, a pixel value corresponding to the brightness difference ΔL that can be identified by the image reader can be determined. Here, the maximum brightness value of the hard copy on the Schaukasten is Dmax, the minimum brightness value of the hard copy on the Schaukasten is Dmin, the maximum brightness value of the monitor is Lmon-max, and the minimum brightness value of the monitor is Lmon-m.
in. In addition, the signal values corresponding to the above-mentioned luminance values are set to jmax, jmin, jmon-max, and jmon.
-Nin.

With such a characteristic curve, the corresponding imager pixel value can be obtained from the luminance value of a certain hard copy. Then, the monitor pixel values having the same ratio can be obtained from the ratio of the imager pixel values within the range of the lowest to the highest. Further, the monitor brightness value corresponding to this monitor pixel value can be obtained. By performing such an operation for each point of ΔL of the GSDF characteristic, the monitor target gradation characteristic of the monitor 14 (FIG. 2C) can be calculated.

The "brightness equivalent conversion" is a gradation conversion method for associating the lightness of a hard copy image on a Schaukasten with the lightness of an image displayed on a monitor, and a conversion for associating luminance with each other. different. The "brightness linear conversion" is a floor based on the characteristic obtained by associating the maximum brightness and the minimum brightness of the hard copy on the Schaukasten and the maximum brightness and the minimum brightness of the monitor, and connecting the two points linearly. This is a key conversion method. "Luminance logarithmic linear conversion" is a gradation based on the characteristics obtained by linearly connecting the logarithmic values of the maximum and minimum brightness of hard copy on the Schaukasten and the maximum and minimum brightness of the monitor. This is a conversion method.

The image processing unit 13 refers to the monitor display gradation characteristic (FIG. 2D) showing the display gradation characteristic of the actual monitor 14 based on the gradation conversion method selected in this way. Then, the monitor display LUT (FIG. 2E) as a look-up table that can realize the above-described monitor target gradation characteristic (FIG. 2C) is calculated.

As described above, the gradation conversion process is performed in the image processing unit 13 using the monitor display LUT (FIG. 2E), and then the image is displayed on the monitor 14, so that the image is illuminated by the Schaukasten. An image having the same gradation characteristics as the hard copy is observed.

The standard characteristics of the output gradation characteristics of the hard copy described above are set as predetermined output gradation characteristics, and standard observation environment conditions are set as default as predetermined observation environment conditions. L for standard monitor display by using typical output gradation characteristics and standard observation environment conditions
The UT can be obtained. Therefore, even when the conventional image output device in which the relationship between the input pixel value and the density is defined is used, the consistency of the appearance of the hard copy and the appearance of the image display device can be realized. .

Further, by using the individual characteristics of the output gradation characteristics of the hard copy and the individual observation environment conditions, the monitor display gradation characteristics LUT is obtained in accordance with the actually observed conditions. be able to. That is, even when there are a plurality of imagers 20 having different output gradation characteristics, a monitor display LUT is obtained for each imager 20, and the monitor display gradation characteristics LUT is obtained according to the hard copy obtained from each imager. This can be easily handled by switching.

Further, in the above embodiment, when the image processing apparatus 10 is an image system connected to a network, the data holding unit 16 can be arranged at any position connected to the network. Then, various conditions and L for monitor display in the place where output and display are performed.
It is possible to accumulate the UTs, perform gradation conversion according to the conditions of the output or display place (room), and display an image suitable for the observing environment. As a result, it is possible to eliminate the troublesomeness of resetting the information on the observation environment (such as the Schaukasten brightness and the film surface reflection brightness) for each observation environment.

FIG. 4 is a diagram showing a screen for inputting parameters for creating the monitor display gradation conversion LUT, which may be displayed on the same monitor as the image display device 14 or may be displayed separately. May be done. In FIG. 4, as parameters that can be input, the maximum brightness Dmax and the minimum brightness Dmin of the imager 20 (these are the imager 20
The density gradation characteristic can be directly input, but it can be changed manually.), The luminance L0 of the Schaukasten, the luminance La of the film reflection surface, and the monitor luminance gradation characteristic (manual input is possible or the luminance gradation characteristic of the monitor is set in advance The stored file may be created and read out), and the reflection brightness of the monitor screen and the gradation conversion method may be selected. These can be input using the mouse or keyboard (not shown) from the operation unit 15 constituting the selection means. In particular,
The contents of the image desired to be clearly displayed on the monitor with respect to the hard copy image may be different for each radiologist. Therefore, for example, by switching the gradation conversion method with one click, However, this embodiment is useful in that images having different monitor gradation characteristics can be easily compared. still,
Maximum brightness Dmax and minimum brightness Dmi of the imager 20
n, the brightness L0 of the Schaukasten, the brightness La of the film reflecting surface, and the selected gradation conversion method determine the target value of the gradation conversion LUT for monitor display, and the monitor brightness gradation characteristics and the reflection brightness of the monitor screen are Used to define output data to monitor. For the reflected brightness of the monitor screen, the amount of illumination light in the room reflected from the monitor with the monitor power off may be used, or the value and the amount of illumination light from the monitor with the monitor installed in a dark room. The value obtained by adding the light intensity of

The embodiment for creating the monitor display gradation conversion LUT has been described above. To make the image displayed on the monitor and the hard copy image look closer,
In addition to changing the gradation characteristics on the monitor side, a mode in which the gradation characteristics are changed on the imager side is also conceivable. In such a case, the measured values of the maximum brightness and the minimum brightness of the monitor can be input instead of the maximum brightness Dmax and the minimum brightness Dmin of the imager 20 with respect to the parameters of the above-described embodiment (the format stored in the file in advance). Alternatively, if a gradation conversion method is selected in the same manner, the gradation conversion L for hard copy is processed by the same processing as that of the above-described embodiment.
It becomes possible to create a UT. Monitor maximum brightness,
When inputting the minimum brightness, it is possible to display a monitor screen as shown in FIG. 5 and measure automatically.

As described above, according to this embodiment, it is possible to obtain the effect of enhancing the easiness of the diagnosis even in the network environment in which the hard copy and the monitor diagnosis are used together. Further, since the appearance of the hard copy can be inferred from the monitor display of the image display device, it is possible to reduce the waste of redoing the hard copy due to poor adjustment of gradation conversion. Furthermore, it is possible to use the image output device to output a hard copy after viewing the monitor display of the image display device to obtain a desired display state. In addition, since the appearance on the monitor display can be matched without changing the hard copy side, the effect of not wasting the assets of the gradation conversion parameters optimized for hard copy can be obtained. .

Further, the illumination states of the respective Schaukasten are subtly different, and even when there is a favorite Schaukasten depending on the reader, the output of the imager and the display of the image display device can be easily changed. The embodiment example is extremely useful.

If the image reader's favorite output cannot be obtained even by the operation of the above embodiment, the output and image display of the image output device can be performed by adjusting the contrast and the density by a well-known image processing technique. It is possible to change the display of the device.

[0048]

According to the present invention, the image processing apparatus and the image processing capable of appropriately changing the gradation characteristics so that the image formed on the medium and the image formed on the monitor can be made closer in appearance. A method, a program for executing the image processing method, and a storage medium storing the program for executing the image processing method can be provided.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of an image processing apparatus according to an embodiment of the present invention.

FIG. 2 is a graph showing each characteristic used for obtaining a gradation conversion characteristic in the embodiment of the present invention.

FIG. 3 is a graph showing a GSDF characteristic used to obtain a gradation conversion characteristic in the embodiment of the present invention.

FIG. 4 is a diagram showing a screen for inputting parameters for creating a monitor display gradation conversion LUT.

FIG. 5 is a diagram showing a display example of a screen for measuring the maximum brightness and the minimum brightness of the monitor.

[Explanation of symbols]

10 Image processing device 11 Control unit 12 Data input section 13 Image processing unit 14 Color image display device (monitor) 15 Operation part 16 Data storage 20 imagers

Claims (20)

[Claims] 1. An image processing apparatus that performs image processing so that the appearance of an image displayed on a monitor based on image data is made closer to the appearance of an image formed on a medium based on the same image data. Then, the brightness information obtained from the medium on which the image is formed, the brightness information of the irradiation device that irradiates the medium with the transmitted light in order to observe the image of the medium, and the imager of the imager that forms the image on the medium. An image processing apparatus, characterized in that gradation conversion characteristics for monitor display are changed based on at least one of density gradation characteristics. 2. A gradation converting characteristic for monitor display is changed based on the gradation converting method selected by the selecting means, the selecting means selecting any one of a plurality of gradation converting methods. The image processing device according to claim 1. 3. The image processing apparatus according to claim 1, wherein the irradiation device is a Schaukasten. 4. The image processing device according to claim 1, wherein the brightness information obtained from the medium on which the image is formed includes information on the brightness of the reflected light of the medium. 5. The image processing apparatus according to claim 1, wherein the density gradation characteristic is obtained based on information regarding a maximum density and a minimum density of an image formed on the medium. . 6. The image processing apparatus according to claim 1, wherein the density gradation characteristic is input from an imager that forms an image on the medium. 7. The image processing apparatus according to claim 1, further comprising changing a gradation conversion characteristic for monitor display based on a luminance gradation characteristic of the monitor. 8. The image processing apparatus according to claim 1, further comprising changing a gradation conversion characteristic for monitor display based on a screen reflection brightness of the monitor. 9. An image processing method for performing image processing so that the appearance of an image displayed on a monitor based on image data approaches the appearance of an image formed on a medium based on the same image data. Then, the brightness information obtained from the medium on which the image is formed, the brightness information of the irradiation device that irradiates the medium with the transmitted light in order to observe the image of the medium, and the imager of the imager that forms the image on the medium. An image processing method, characterized in that gradation conversion characteristics for monitor display are changed based on at least one of density gradation characteristics. 10. An image processing apparatus that performs image processing so that the appearance of an image displayed on a monitor based on image data is closer to the appearance of an image formed on a medium based on the same image data. There is brightness information obtained from a medium on which the image is formed, brightness information of an irradiation device that irradiates the medium with transmitted light in order to observe the image of the medium, and a forming device that forms an image on the medium. Based on at least one of the density gradation characteristics of
An image processing apparatus characterized by changing a gradation conversion characteristic of an image formed on a medium. 11. A gradation conversion characteristic for monitor display is changed based on the gradation conversion method selected by said selection means, comprising a selection means for selecting one of a plurality of gradation conversion methods. The image processing device according to claim 10. 12. The image processing apparatus according to claim 10, wherein the irradiation device is a Schaukasten. 13. The image processing apparatus according to claim 10, wherein the brightness information obtained from the medium on which the image is formed includes information on the brightness of the reflected light of the medium. 14. The image processing apparatus according to claim 10, wherein the density gradation characteristic is obtained based on information about a maximum density and a minimum density of an image formed on the medium. . 15. The image processing apparatus according to claim 10, wherein the density gradation characteristics are input from an imager that forms an image on the medium. 16. The image processing according to claim 10, further comprising changing a gradation conversion characteristic of an image formed on a medium based on a brightness gradation characteristic of the monitor. apparatus. 17. The image processing apparatus according to claim 10, further comprising changing a gradation conversion characteristic of an image formed on a medium based on a screen reflection brightness of the monitor. . 18. An image processing method for performing image processing so that the appearance of an image displayed on a monitor based on image data becomes closer to the appearance of an image formed on a medium based on the same image data. There is brightness information obtained from a medium on which the image is formed, brightness information of an irradiation device that irradiates the medium with transmitted light in order to observe the image of the medium, and a forming device that forms an image on the medium. Based on at least one of the density gradation characteristics of
An image processing method, characterized in that a gradation conversion characteristic of an image formed on a medium is changed. 19. A program for executing the image processing method according to claim 9. 20. A computer-readable storage medium storing the program according to claim 19.