JP2000232576A - Image processor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image processor which can quickly recognize a specific original without any complicated circuit. SOLUTION: This image processor is provided with an image memory 20 which stores the RGB image signals fetched via an image reading part 10, a 1st color space conversion part 101 which converts the RGB image signals into the image signals consisting of the uniform color spaces, a 2nd color space conversion part 102 which converts the corrected image signals consisting of the uniform color spaces obtained at the part 101 into the image signals consisting of YMCK, a 3rd color space conversion part 103 which converts the RGB image signals divided in the upper stream of the memory 20 into the image signals consisting of uniform color spaces, a paper memory recognizer 50 which detects a specific image on the basis of the image signals consisting of the uniform color spaces obtained at the part 103 and a system controller 40 which inhibits the image signals consisting of the YMCK to be outputted onto paper when the specific image is detected by the recognizer 50.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to an image processing apparatus for temporarily storing a read color image, performing predetermined processing, and outputting an image according to the read image.

[0002]

2. Description of the Related Art Conventionally, a copying apparatus that stores RGB data in an image memory, or image data that is temporarily stored using an image memory to improve productivity, and read out at a speed higher than the writing speed to the image memory. An image processing apparatus for processing is disclosed (see Japanese Patent No. 2501195).

There is also disclosed an image processing apparatus having means for detecting a specific document such as a bill, and prohibiting the output of copy recording paper when the document is a specific document (Japanese Patent Laid-Open No. 5-207).
261 and JP-A-6-86052).

Further, in order to recognize a specific image such as a bill, the captured RGB data is converted into a uniform color space L ^*.
A technique for converting the data into a ^* b ^* data has been disclosed (see Japanese Patent Application Laid-Open No. 8-7100). In this technique, R
By converting the GB data to L ^* a ^* b ^* , a specific image can be determined at high speed by simple pattern matching.

[0005]

However, when RGB data is stored in the image memory, the RGB data is not stored in the image memory.
It is necessary to provide a means for converting the data into L ^* a ^* b ^* data after the image memory. If the L ^* a ^* b ^* data is used to determine the specific image, the specific image can be converted from the image capture to the specific image. It takes a long time until the determination is made, and there is a problem that the specific image cannot be determined before the image output is completed.

Therefore, from the viewpoint of determining the specific document at an early stage, a configuration in which the image data is stored in another memory at the same time as the image data is taken into the image memory and the specific document is determined by another path can be considered. This results in a complicated circuit configuration, which leads to an increase in the cost of the device.

[0007]

SUMMARY OF THE INVENTION The present invention is an image processing apparatus designed to solve such a problem. That is, the image processing apparatus of the present invention includes an image reading unit that reads a color image, an image storage unit that stores RGB image signals output from the image reading unit, and an RGB image signal that is stored in the image storage unit. A first color space conversion means for converting the image signal into a uniform color space, and a YMCK image obtained by correcting the image signal having the uniform color space obtained by the conversion by the first color space conversion means. A second color space conversion means for converting the image signal into a signal, and an RGB image signal branched upstream from the image storage means in the flow of the image signal from the image reading means to the image storage means, is converted into an image signal having a uniform color space. Third color space converting means, a specific image detecting means for detecting a specific image based on an image signal composed of a uniform color space obtained by conversion by the third color space converting means, and a specific image detecting means When detecting the specific image, and a control means for performing image output inhibit processing of the sheet to the image signal consisting of YMCK obtained by converting the second color space conversion unit.

According to the present invention, an RGB image signal is stored in an image storage means, converted into an image signal composed of a uniform color space, and then converted into an image signal composed of YMCK to output an image. In the above, the RGB image signal read by the image reading means is branched upstream of the image storage means and converted into an image signal composed of a uniform color space by a third color space conversion means. Is used to detect a specific image. That is, in synchronization with the accumulation of the RGB image signals in the image storage means, the RGB image signals output from the image reading means are converted into image signals having a uniform color space, and the specific image is detected. This makes it possible to obtain the detection result of the specific image by the specific image detecting means before outputting the image to the paper using the image signal composed of YMCK, and to output the image by the control means when the specific image is detected. Prohibition processing can be performed.

[0009]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of an image processing apparatus according to the present invention. FIG. 1 is a block diagram illustrating an image processing apparatus according to the present embodiment. That is, the image processing apparatus according to the present embodiment temporarily accumulates image signals of a document, performs color space conversion, performs predetermined processing, and outputs the processed signals. The image processing apparatus mainly includes the image reading unit 10, the image memory 20, and the first image signal. Color space conversion unit 101, second color space conversion unit 1
02, image output unit 30 and system controller 40
It has. In addition, a third color space conversion unit 103, a bill recognition device 50, and a filling processing unit 60 are also provided to perform recognition and output prohibition processing of a bill, which is a specific document, and the like.

The image reading section 10 reads a color image of a document and outputs an image signal composed of R (red), G (green), and B (blue). The RGB image signals output from the image reading unit 10 are subjected to shading correction as inter-pixel sensitivity adjustment by a shading correction unit 11, and are subjected to γ correction by a γ correction unit 12, and then input to an image memory 20.

The RG output from the image memory 20
The B image signal is input to the first color space conversion unit 101. The first color space conversion unit 101 performs a process of converting an RGB image signal output from the image memory 20 into an L ^* a ^* b ^* image signal that is a uniform color space. First color space conversion unit 101
The L ^* a ^* b ^* image signal converted in is subjected to correction processing in the color correction unit 21 and is input to the second color space conversion unit 102.

In the second color space conversion unit 102, the corrected L
^* a ^* b ^* Y (yellow), M for image output for image signal
(Magenta), C (cyan), and K (black) are converted into image signals. Y converted by the second color space conversion unit 102
The MCK image signal passes through a reduction / enlargement unit 22 that performs a reduction / enlargement process, a filter 23, and a γ correction unit 24, and is filled in by a filling processing unit 60.
Sent to

In the filling processing section 60, the bill recognizing device 5
0, it is determined that the original is a specific original such as a bill,
A process of painting the CK image signal in a predetermined color is performed. In addition,
If the original is not a specific original, the YMCK image signal is sent to the next-stage screen processing unit 25 without performing the filling process.

The YMCK image signal is sent to the screen processing unit 2
5, the signal is converted into a signal representing a predetermined gradation, and the image output unit 30
Passed to The image output unit 30 performs a process of converting the YMCK image signal into a toner image and outputting the toner image on paper.

In such an image processing apparatus, the present embodiment
In the embodiment, L is a uniform color space.^*a ^*b^*Use image signal
To detect specific documents such as banknotes
In the flow of the image signal from the unit 10 to the image memory 20
The signal line is branched upstream of the image memory 20 and the third color
L to the bill recognition device 50 via the space conversion unit 103^*a ^*
b^*The feature is that the image signal is sent.

That is, in the image processing apparatus of the present embodiment, the RGB image signal read by the image reading unit 10 is branched before the image memory 20 and input from the γ correction unit 13 to the third color space conversion unit 103. I have. Thereby, the RGB image signals output from the image reading unit 10 are stored in the image memory 20.
To the third color space conversion unit 1 from the branch position.
03 and is converted into an L ^* a ^* b ^* image signal which is a uniform color space.

That is, the RG read by the image reading unit 10
While the B image signal is stored in the image memory 20, the conversion processing in the third color space conversion unit 103 and the recognition processing of a bill or the like in the bill recognition device 50 can be performed in parallel. With such a configuration, an image processing apparatus for recognizing bills and the like can store an image memory 20 for storing RGB image signals.
Without using a special memory other than the above, it is possible to quickly perform a recognition process of a bill or the like by using an L ^* a ^* b ^* image signal.

The bill recognition device 50 includes a third color space conversion unit 1.
Based on the L ^* a ^* b ^* image signal output from the output unit 03, it is possible to detect in a short time whether or not the original is a specific original such as a bill by a simple pattern matching process.

When the bill recognition device 50 detects that the document is a specific document such as a bill, the system controller 4
0 is sent to that effect. System controller 40
When a signal indicating that the document is a specific document such as a bill is received from the bill recognition device 50, the filling processing unit 6
0 or instructs the image output unit 30 to perform the image output prohibition process.

When the image output prohibition processing is instructed to the filling processing section 60, a filling signal for filling the image signal with a predetermined color is generated corresponding to the image signal output to the sheet, and Pass it to the output unit 30. As a result, the portion where the specific original of the paper is to be output is filled with the predetermined color.

When an image output prohibition process is instructed to the image output unit 30, the image output operation on paper is forcibly stopped, and a predetermined message or warning is output. In any of the processes, duplication of a specific document such as a bill can be prevented.

The system controller 40 switches between instructing the image processing unit 60 and the image output unit 30 to perform the image output prohibition process according to the image processing mode. FIG. 2 is a flowchart illustrating the switching operation of the image output prohibition process. Hereinafter, the switching operation will be described along this flowchart.

First, it is determined whether the mode is a mode for performing color processing on the read image signal (step S10).
1). If the mode is not the color processing mode, it is determined that copying of banknotes and the like cannot be performed, and writing to the image memory (step S102) and reading (step S103) are performed, and normal image output is performed without performing image output prohibition processing. To do.

On the other hand, if the mode is the color processing mode, it is determined whether or not the mode is the FCOT mode (step S104). The FCOT mode is a processing mode in which writing and reading of image signals to and from an image memory are performed in parallel in order to reduce the time from when the user presses a start button for instructing the start of copying or the like to when the image is output. It is. That is, in the case of the FCOT mode, since the time from image reading to image output is short, a part of the image signal is sent to the image output unit during the detection processing of a bill or the like.

Therefore, in the case of the FCOT mode, reading is performed in parallel with writing of the image signal to the image memory (step S105), and during that time, it is detected whether or not the original is a bill or the like (step S106). If it is not a bill or the like, normal image output is performed using the read image signal. On the other hand, if it is determined that the image data is a bill or the like, an instruction of the image filling process is given to the filling processing unit 60 (see FIG. 1) because a part of the image signal has already been read from the image memory (step S109). ).

That is, in the case of the FCOT mode, a part of the image signal (for example, the Y signal) is sent to the image output unit 30 (see FIG. 1) at the time of determining that the image is a bill or the like. Some have been started. For this reason, a signal for a filling process is given by overwriting the image such as a bill before the entire image such as a bill is output on a sheet, so that the image such as a bill does not remain on the outputted sheet.

If the mode is not the FCOT mode, the image signal is written into the image memory (step S10).
8) It is determined whether the original is a bill or the like (step S109). If it is not a bill or the like, an image signal is read from the image memory (step S110), and normal image output is performed.

On the other hand, in the case of a bill or the like, display of bill detection (display on a touch panel or the like) is performed without reading image signals from the image memory (step S11).
1) The system controller 40 (see FIG. 1) gives an instruction to stop the machine operation to the image output unit 30 (see FIG. 1) (step S112).

That is, when the mode is not the FCOT mode,
The reading of the image memory is not performed until the detection result of the bill etc. is output, and the image signal is not sent to the image output unit, so the mechanical operation of the image output unit is forcibly stopped at the stage when a specific original such as a bill is detected Thus, it is possible to prevent bills and the like from being erroneously copied onto a sheet.

System controller 40 (see FIG. 1)
Thus, based on the fact that the flow of the image signal differs according to the operation mode of the image processing apparatus, the image output prohibition process when the original is a specific original such as a bill is switched to prevent unauthorized copying. Control.

By such an operation, the image of this embodiment is displayed.
The image processing apparatus has a uniform color space L ^*a^*b^*Image signal
Detects specific documents such as banknotes using
When a document is detected, it is possible to appropriately prohibit output.
I will be able to.

Further, like the image processing apparatus of the present embodiment, the γ correction section 13 and the third color space conversion section 103 for sending the L ^* a ^* b ^* image signal to the bill recognition apparatus 50 include an image output section. Because it is provided independently from the 30 side,
Parameters (dictionary data) for performing image recognition of a specific document can be created independently of the processing characteristics of the image output unit 30. Thus, even if the signal processing configuration of the image output unit 30 changes (even if there is a model change, etc.), the dictionary data adapted to the banknote recognition device 50 can be used as it is.

[0033]

As described above, the image processing apparatus according to the present invention has the following effects. That is, after the image reading of the original is completed, the recognition result of the specific original can be obtained promptly, and the image output of a bill or the like is prohibited,
Processing time for processing and outputting an image can be sufficiently secured, and fraud such as banknote forgery can be reliably prevented. Further, it is not necessary to provide a special memory for recognizing a specific document, and it is possible to avoid a complicated circuit configuration.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating an image processing apparatus according to an embodiment.

FIG. 2 is a flowchart illustrating a switching operation of an image output prohibition process.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 ... Image reading part, 20 ... Image memory, 30 ... Image output part, 40 ... System controller, 50 ... Bill recognition device, 60 ... Filling processing part, 101 ... 1st color space conversion part, 102 ... 2nd color space conversion Unit, 103 ... third color space conversion unit

Continued on the front page F-term (reference) 5B057 AA20 BA02 BA11 CA01 CA08 CA12 CA16 CB01 CB08 CB12 CB16 CC01 CE17 CH18 DB02 DB06 DB09 DC01 DC36 5C077 LL14 LL17 LL18 PP19 PP31 PP32 PP33 PP36 PP38 PP42 PP55 PP65 PQ22 LAC08B LB15 MA02 NA09 NA11

Claims (4)

[Claims] An image reading means for reading a color image; R (red), G (green),
Image storage means for storing an image signal of B (blue); R (red), G (green) and B stored in the image storage means
First color space conversion means for converting the (blue) image signal into an image signal comprising a uniform color space; and after correcting the image signal comprising a uniform color space obtained by conversion by the first color space conversion means. A second color space conversion unit for converting the image signal into an image signal composed of Y (yellow), M (magenta), C (cyan), and K (black); and an image from the image reading unit to the image storage unit. Third color space conversion means for converting the R (red), G (green), and B (blue) image signals branched upstream of the image storage means in the signal flow into image signals having a uniform color space. And a specific image detecting means for detecting a specific image based on an image signal composed of a uniform color space obtained by the conversion by the third color space converting means; and when the specific image is detected by the specific image detecting means, Y (yellow) obtained by conversion by the second color space conversion means, An image processing apparatus comprising: control means for performing image output prohibition processing on paper for an image signal composed of M (magenta), C (cyan), and K (black). 2. The image processing apparatus according to claim 1, wherein the image output prohibiting process includes the steps of: Y (yellow), M (magenta), C (cyan), K
2. The image processing apparatus according to claim 1, wherein processing is performed on the image signal composed of (black). 3. The image processing apparatus according to claim 1, wherein the control unit performs, as the image output prohibiting process, control for stopping image output on the sheet. 4. The image processing apparatus according to claim 1, wherein the control unit switches between filling in a predetermined color of the output image on the paper set as the image output prohibiting process and stopping the image output on the paper in accordance with an image processing mode. The image processing apparatus according to claim 1, wherein: