JPH0980849A - Image processor and image output device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to obtain an output image looked in the same color state at all times, when the output image is observed in a light environment different from the environment where an image output device is installed, as well. SOLUTION: A measuring part 111 which can be detachably installed in an image output device main body and removed from the main body, to enable measurement for a light source in an arbitrary environment different from the environment of the image output device is provided. A light source converting part 104 for executing color correction processing with respect into an image signal, based on light source information obtained by the measuring part 111 is provided in the main body. The measuring part 111 is provided with a photosensor for measuring the light source, a storage part for storing information of the light source detected by the photosensor and a light source information selecting means for transmitting arbitrary light source information out of plural bits of light source information stored in the storage part to the light source converting part 104. It is preferable that a light source information input means for inputting the existent light source information and a network interface for transferring the light source information from an arbitrary environment position to the main body are provided as well.

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 and an image output apparatus capable of outputting a color image optimized for an image observed with a certain and desired environment light source.

[0002]

2. Description of the Related Art It is known that the appearance of colors (hue, etc.) changes depending on the type of light source in the environment in which any color image is viewed (for example, sunlight, fluorescent lamps, tungsten lamps, etc.). . Therefore, in order to eliminate the difference in the appearance of colors due to the environmental light source and make the appearance of colors match, a correction focusing on the observation light source of the image has been conventionally performed. In such a conventional device, an optical sensor is installed in the image output device as an input device in order to consider the observation light source, and based on the light source information obtained by the optical sensor, various corrections using an adaptation equation are performed. By the data correction, correction focusing on the observation light source of the image was performed.

[0003]

However, the environment for observing the actually output image is not always the same as the environment in which the image output apparatus is installed. Generally, images output by a printer and images copied by a copying machine are observed under various environments. In the conventional device as described above, since the optical sensor is incorporated in the image output device,
When observing an image in the environment where the image output device is installed, it can be said that the correction can be performed in consideration of the environment.
When observing an image in an environment different from the environment in which the image output device is installed (for example, another meeting room or a business trip destination),
It is impossible to output an image optimized in consideration of the observation environment. Therefore, a phenomenon occurs in which the appearance of the color of the image actually viewed by the user does not match the appearance of the color of the image when the image was created.

Further, when the same image is created by using different image output devices, the environment in which the image output devices are installed is different, so that the images are the same but different in color. Various problems were occurring.

The present invention has been made in view of the above points, and an object thereof is to observe an output image in an arbitrary light environment different from the light environment in which the image processing apparatus or the image output apparatus is installed. Even in the case, it is to provide an image processing device and an image output device that can always obtain an output image that looks the same.

[0006]

In order to achieve the above object, the image processing apparatus of the present invention is detachable from the image processing apparatus and an input means for inputting an image signal showing a color image. A measuring unit that can be detached from the main body to measure a light source of an arbitrary environment different from the ambient environment of the image processing apparatus, and the input unit based on the light source information on the light source of the arbitrary environment obtained by the measuring unit. And a light source conversion processing unit that performs a light source conversion process on the image signal input from.

As one form thereof, the present invention can be characterized in that the light source conversion processing uses an adaptation equation.

In order to achieve the above object, the image output apparatus of the present invention is an image output apparatus which forms and outputs a visible image on a recording medium according to an image signal, and can be detachably attached to the image output apparatus main body. A measuring unit that can be detached from the main body of the image output device to measure a light source in an arbitrary environment different from the surrounding environment of the image output device, and a color for the image signal based on the light source information obtained by the measuring unit. And an image processing unit that performs a correction process.

Further, as one form of the present invention, the measuring unit includes an optical sensor for measuring a light source of the environment,
And a storage unit that stores light source information that is a detection result of the optical sensor.

Further, as another aspect, the present invention further comprises a light source information selection means for supplying to the image processing means light source information selected from a plurality of light source information stored in the storage means. It can be a feature.

As another aspect, the present invention further comprises a light source information input means for inputting previously known light source information corresponding to a light source of an environment different from the environment surrounding the image output device, and the light source information selection The means supplies the light source information input from the light source information input means and one light source information arbitrarily selected from the light source information stored in the storage means to the image processing means. it can.

Further, as another aspect of the present invention, the measurement unit is capable of transferring light source information, which is a measurement result of a light source of the arbitrary environment, from the position of the arbitrary environment to the image output main body. It can be characterized by further comprising a transfer means.

As another aspect of the present invention, in an image output device for forming and outputting a visible image on a recording medium in accordance with an image signal, it corresponds to a light source in an environment different from the surrounding environment of the image output device in advance. Light source information input means for inputting known light source information, and image processing means for performing color correction processing on the image signal based on the light source information input from the light source information input means. be able to.

As another aspect of the present invention, storage means for storing the light source information input from the light source information input means, and light source information selected from a plurality of light source information stored in the storage means. And light source information selecting means for supplying the image processing means to the image processing means.

As another aspect of the present invention, the light source information obtained from the measuring section or the input means may be spectral data.

As another aspect of the present invention, the light source information obtained from the measuring unit or the input means may be three predetermined color information such as tristimulus values.

According to the present invention, the image processing apparatus or the image output apparatus is provided with a detachable measuring unit, and the measuring unit can be moved to the position of the desired environment to measure the light source data. Alternatively, it is possible to obtain light source information of various environments in addition to the light source in which the image output device is installed. Therefore, various light source information when the user observes the image when forming the image can be obtained in a selectable manner.
Since appropriate color correction can be performed based on the light source information, it is possible to perform processing so as to output an optimum image corresponding to the light sources of various observation environments.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below in detail with reference to the drawings.

An embodiment in which the present invention is applied to a copying machine will be described below, but the present invention is also applicable to other image output devices such as printers and monitors, or image processing devices.

(First Embodiment) FIG. 1 is a diagram showing a data flow in a copying machine, and FIG. 2 is a diagram showing a removable measuring section 111 attached to the copying machine. Mainly this figure 1
Based on this, a description will be given of a copying machine having a detachable measuring unit which is a feature of the present invention.

The scanner unit 101 in FIG. 1 is a full-color scanner having a color image sensor such as CCD generally used in a color copying machine, and when an original image is placed on the original table 202 in FIG. RGB (red, green, blue) signals are obtained.

The RGB data obtained by the scanner unit 101 is converted into the RGB-XYZ conversion unit 10 of the image processing unit 102.
In step 3, XY based on the data of the scanner color characteristic 107
It is converted into X ₁ Y ₁ Z ₁ of the Z color system. And X ₁ Y ₁
The Z ₁ data is subjected to light source conversion processing based on light source information of the observation environment, as described later, in order to create an image suitable for the observation environment in the light source conversion unit 104.

The light source information here is obtained from the detachable measuring section 111 installed in the upper part of the copying machine (hereinafter referred to as the output device) as shown in FIG. The detachable measuring unit 111 includes, for example, as shown in FIG. 3, a sensor 301 that senses light, a data processing unit 302 that converts data obtained from the sensor 301 into various necessary values,
And the value measured by the sensor 301 and the data processing unit 302
And a storage unit 303 for recording the value subjected to the data processing.

Before the normal copying operation, the user first
Remove the detachable measuring unit 111 from the output device,
Under the environment where the user wants to observe the output image, the measurement unit 1
Place 11. A light source of the environment (for example,
A sensor 301 for sensing indoor light) is provided, and spectral data of a light source under a certain environment can be obtained from the sensor 301. From the spectral data, the data processing unit 302
The XYZ values of CIE (spectral three stimulus values) are obtained at. The storage unit 303 stores the spectral data obtained by the sensor 301 and the XYZ values obtained by the data processing unit 302. A plurality of light source information can be stored in the storage unit 303 by placing the measuring unit 111 under a plurality of environments in order.
As described above, the recording unit 303 stores one or more light source information, and includes the selection unit 304 that allows the user to selectively output the light source information as needed.

When outputting an image, the user installs a detachable measuring unit in the output device, and uses the light source information selecting means 304 installed in the measuring unit 111 to record in the recording unit 3.
The light source information corresponding to the light source for actually viewing the output image is selected from the light source information recorded in 03. The selected light source information is stored in the memory 108 in the output device,
The data is read from the memory 108 at the time of image processing, and the light source conversion unit 104 performs data conversion using the data of the light source information.

When outputting an image, as shown in FIG.
Without installing the detachable measuring instrument 111 on the output device,
The read data may be recorded in the storage unit 303 at a place where the light source information is read, and the light source information may be transferred to the memory 108 in the output device via the network interface 401 by wire or wirelessly.

Based on the light source information 110 thus obtained from the sensor 301, the light source conversion unit 104 sets the following von kries for the input data X ₁ Y ₁ Z _1.
The light source conversion is performed by using the adaptation equations (Equation 1) and (Equation 2) of Equation ₂ to obtain the data X ₂ Y ₂ Z ₂ .

[0028]

[Equation 1]

[0029]

[Equation 2]

The matrix M1 of equation 2 is used for illuminating the original image of the copying machine when the input image is read by the light source 1, and for illuminating the output image for observing the output image obtained from the measuring unit 111 to which the light source 2 is detachable. As a light source, each chromaticity value is obtained by substituting it into the above equation 1. The matrix M2 is a light source 1 which is a light source for observing an output image, and a light source 2 is a light source (for example, a C light source) which measures a color chart when calculating output color characteristics
Is obtained by substituting the respective chromaticity values into the above equation 1. By performing the correction on the light source as described above, appropriate color correction according to the observation light source can be performed.

The output color characteristic 109 supplied to the XYZ-CMY conversion unit 105 is the CMY input to the output unit 106.
(Cyan, magenta, yellow) data and its CMY
This is a relationship with XYZ when a color chart printed based on data is measured. The relationship between CMY and XYZ is a relationship between input and output of a LUT (lookup table).

In the XYZ-CMY conversion unit 105, the color signal X ₂ Y ₂ Z ₂ which has been subjected to the light source conversion in the light source conversion unit 104 as described above is stored in the output color characteristic unit L.
The output signal CMY is converted using the UT data 109.
The output form of the output color characteristics may be a matrix instead of an LUT.

A printed output image can be obtained from the output unit 106 by using the CMY color signals obtained in this way. As the output unit 106, various known color printers such as a laser beam printer (LBP) and an ink jet printer can be applied.

The measuring unit 111 may measure and store not only spectral data but also tristimulus values. In addition, the value measured by the sensor 301 without the data processing unit 302 may be directly recorded in the storage unit 303, or the light source information may be directly transferred to the memory 108 without the storage unit 303. . Then, the measuring unit 111
Indicates the light in the surrounding environment where the copier is located when installed in the copier, and when used after removal from the copier, the light source in various environments other than the environment where the copier is located Information can be recorded. The selection means 304 for selecting necessary light source information from the light source information of various environments recorded in this manner is provided by the detachable measuring unit 1.
11 or in the copying machine body. Further, in the present embodiment, the von kries adaptation equation is used as an example for the light source conversion, but other arithmetic expressions for the light source conversion may be used.

(Second Embodiment) When the detachable measuring unit 111 used in the first embodiment is used, information on a light source under a certain environment is previously obtained as color data such as spectral data. However, an embodiment in which the user does not need to actually perform measurement will be described below.

If the light source information is known in advance, instead of sensing the light source with the sensor 301, as shown in FIG.
As shown in the figure, the measuring unit 1 including the light source information input unit 501
11 is used. Spectral data as light source information is input from the light source information input unit 501, necessary processing is performed in the data processing unit 302, and the light source information is recorded in the storage unit 303. Then, when the image is output, the user selects the light source information of the environment where the output image is to be viewed using the light source information selection means 304, and the selected light source information is read out to the memory 108 in the output device, and The light source conversion processing similar to is performed.

The light source information input unit 501 may be incorporated in the detachable measuring unit 111 or the output device main body, and the light source information that can be input is other light sources such as tristimulus values other than spectral data. Information is also possible. Further, the data processing unit 302 may be provided in the detachable measuring unit 111, or may not be provided in the measuring unit 111, but may be provided in an output device to output an image by the output device. Alternatively, the output of the sensor 301 or the light source information input unit 501 may be converted into necessary data.

The other points are similar to those of the first embodiment.

Further, as shown in FIG. 5, when both the sensor 301 and the light source information input section 501 are provided, the light source information can be measured by the sensor 301, and when the light source information is known. In order to form and output an image suitable for the observation environment of the output image by inputting the light source information from the light source information input unit 501, even if the measuring unit 111 is not taken to the room where the output image is observed. You can

[0040]

As described above, according to the present invention, the light source at the place where the output image is observed is the light source at the place where the input / output device (image processing device, image output device) such as a monitor or printer is installed. Even if it is different, since the means for obtaining the light source information of various observation environments is provided, it is possible to perform processing so as to output an optimum image corresponding to various observation environments.

[Brief description of drawings]

FIG. 1 is a block diagram showing a circuit configuration and a data flow when the present invention is applied to a copying machine.

FIG. 2 is a plan view showing a detachable measuring unit detachably installed on the upper portion of the copying machine of FIG.

FIG. 3 is a block diagram illustrating an example of a configuration of a detachable measurement unit in FIG. 2;

FIG. 4 is a block diagram showing another example of the configuration of the detachable measuring unit in FIG. 2;

5 is a block diagram showing still another configuration example of the detachable measuring unit in FIG.

[Explanation of symbols]

 Reference Signs List 101 scanner unit 102 image processing unit 103 RGB-XYZ conversion unit 104 light source conversion unit 105 XYZ-CMY conversion unit 106 output unit 107 scanner color characteristic 108 memory 109 output color characteristic 110 light source information from sensor 111 detachable measurement unit 202 document table 301 sensor 302 data processing unit 303 storage unit 304 light source information selecting means 401 network interface 501 light source information input unit

Claims (11)

[Claims] 1. A light source of an arbitrary environment which is detachable from an image processing apparatus main body and an input means for inputting an image signal showing a color image and which is detached from the main body of the image processing apparatus and different from the surrounding environment of the image processing apparatus. And a light source conversion processing unit that performs light source conversion processing on the image signal input from the input unit based on light source information regarding the light source of the arbitrary environment obtained by the measurement unit. An image processing apparatus comprising: 2. The image processing apparatus according to claim 1, wherein the light source conversion process uses an adaptation equation. 3. An image output device for forming and outputting a visible image on a recording medium according to an image signal, the device being detachably mountable to the main body of the image output device, and detachable from the main body of the image output device. A measurement unit capable of measuring a light source in an arbitrary environment different from the surrounding environment, and an image processing unit for performing color correction processing on the image signal based on the light source information obtained by the measurement unit. Characteristic image output device. 4. The measurement unit has an optical sensor for measuring a light source of the environment, and a storage unit for storing light source information which is a detection result of the optical sensor. Image output device. 5. The light source information selecting means for supplying to the image processing means light source information selected from a plurality of light source information stored in the storage means. Image output device. 6. A light source information input means for inputting previously known light source information corresponding to a light source of an environment different from the environment surrounding the image output device, wherein the light source information selection means is provided from the light source information input means. The image output device according to claim 5, wherein one light source information arbitrarily selected from the input light source information and the light source information stored in the storage means is supplied to the image processing means. 7. The measurement unit further comprises an information transfer unit capable of transferring light source information, which is a measurement result of a light source in the arbitrary environment, from a position in the arbitrary environment to the image output main body. The image output device according to any one of claims 3 to 6. 8. An image output apparatus for forming and outputting a visible image on a recording medium according to an image signal, wherein a light source for inputting previously known light source information corresponding to a light source in an environment different from the surrounding environment of the image output apparatus. An image output device comprising: an information input unit; and an image processing unit that performs a color correction process on the image signal based on the light source information input from the light source information input unit. 9. Storage means for storing the light source information input from the light source information input means, and light source information selected from a plurality of light source information stored in the storage means are supplied to the image processing means. 9. The image output device according to claim 8, further comprising: a light source information selecting unit that controls the light source information. 10. The image output device according to claim 3, wherein the light source information obtained from the measuring unit or the input unit is spectral data. 11. The light source information obtained from the measuring unit or the input unit is three predetermined color information such as tristimulus values, according to any one of claims 3 to 9. Image output device.