KR101707218B1 - Smartphone linked counterfeit discrimination apparatus and method - Google Patents

Abstract

The present invention relates to an apparatus for discriminating a counterfeit by using a smart phone including a visible light camera and an input / output terminal, And an infrared camera connected to the input / output terminal to capture the same bill as an infrared image at the same time as the visible light camera, wherein the infrared camera comprises: a controller as a controller; A first memory connected to the controller and storing a reference value (difference value between the first sum value and the second sum value) for the pneumatic cylinder; A first summing value obtained by pixel-processing a visible light image photographed by a visible light camera under the control of the controller, converting the infrared light image into an infrared image, summing each pixel value of the converted infrared image, and processing the infrared image picked up by the infrared camera A second memory for storing a calculated value which is a difference between a summed sum of the extracted pixel values; An operation unit for calculating the first sum value and the second sum value under the control of the controller; An image processing unit for processing the visible light image and the photographed infrared image; A pixel value extracting unit for extracting the highest value among R, G, and B of each image-processed pixel; An image generating unit for converting the visible light image into an infrared image based on the extracted pixel value; And a comparison determining unit comparing the reference value stored in the first memory with the calculated value to determine whether the bills are authentic or not.

Description

[0001] The present invention relates to a smartphone linked counterfeit discrimination apparatus and method,

The present invention relates to an apparatus and method for discriminating counterfeit bills in a smartphone, and more particularly, to a method and system for discriminating counterfeits from a simple, fast, and accurate person by simply taking a target banknote using a smart phone having excellent portability The present invention relates to an apparatus and method for discriminating counterfeit bills associated with a smartphone.

With the development of technology, counterfeiting technology is also developing rapidly.

Initially, counterfeit currency was produced by color scanning followed by high resolution output (alternatively color photo copying) or coarse output on non-security paper. Today, the bank note incorporates various security features such as intaglio print, optically variable ink (OVI) features and ultraviolet fluorescence features including fluorescent fibers.

Accordingly, counterfeiters are currently trying to replicate these features, including the fluorescent characteristics of paper.

There is only a very thin border between counterfeit currency and the real.

At least two different verification methods are necessary to determine authenticity.

The integrated visual and ultraviolet fluorescence security features in the currency vary from country to country and also depend on currency units.

For example, in order to discriminate whether money is falsified, a visual method and a magnet head detection method are generally used.

However, since the naked eye method determines whether or not a counterfeit index is printed by using a magnifying device such as a microscope or a magnifying glass, the public can not discriminate the counterfeit. It can be distributed continuously, and there is a disadvantage in that it takes a lot of time to identify counterfeit bills in both the minting construction and the general bank.

In addition, the magnet head detecting method detects a magnet distributed on the image surface of money, and the same magnet is distributed to the counterfeit paper money due to the development of counterfeiting technology, so that it is difficult to discriminate whether or not the US dollar is forged.

Above all, in the case of fine processing except for coarse counterfeiting which is easily discriminated by the naked eye, it is necessary to discriminate through specialist institution or expert, so it takes time and money, and special equipments are required. It is often the case that the actual transactions are damaged.

In order to improve this, Patent Literature No. 2013-0014920 (Feb. 23, 2013) discloses a counterfeit discrimination method using a portable terminal.

The disclosed patent discloses a method for processing a banknote, the method comprising the steps of: receiving a visible-ray photographing image and an infrared-ray photographing image with respect to a banknote; reading a pre-stored denomination database to judge a denomination of a banknote by comparing with a visible- , A step of correcting the infrared photographed image by using the correction information to form a corrected image, a step of binarizing the corrected image, and a step of comparing the binarized corrected image with the previously stored pneumatic database, Based on the result of the determination.

Therefore, if you have a similar terminal, including mobile terminals, you can check the authenticity of the money easily and quickly by installing only the necessary applications, which can help the general public to order healthy transactions.

However, the above-mentioned patent discloses a structure in which a visible light reflection image and an infrared reflection image are acquired using a camera mounted on a portable terminal, and therefore, there is a drawback in that an infrared filter exchanger must be used.

In other words, when obtaining a visible light reflection image, an infrared filter must be used to prevent red eye. However, since an infrared filter should not be used in obtaining an infrared reflection image, a special structure filter exchanger It is the required structure.

In addition, in order to compare the acquired image with the original image information of each book type (book type DB), it is essential to correct the acquired image. Particularly, when taking a paper money with the portable terminal, Therefore, there is a limitation in that it is very difficult to correct the value and to give a value because the finger covers the recess of the banknote. As a matter of fact, the correction should be considered almost impossible when it is blocked.

Therefore, in the structure of the above-mentioned patent, there is an inconvenience that the banknotes are properly spread and placed on a horizontal plane without a crumpled portion and that the banknotes are accurately picked up. Therefore, in a living place where frequent commercial transactions are made, not.

In addition, when the bill is photographed in a twisted state, the correction is also not easy.

In addition, since it is necessary to always compare the original image information and the corrected image information by volume, it takes time for the correction and time for comparison with the original image information, as well as the period of 50,000 won, 10,000 won, It is necessary to determine what the denomination is compared with the DB, so that there is a disadvantage that it takes much time to cover the authenticity of the denomination.

The present invention has been made in view of the above-described problems in the prior art, and it is an object of the present invention to provide an image processing apparatus and a method for processing a banknote, The present invention provides a device and a method for discriminating a counterfeit currency note from a smartphone, which can be used in real life, because it can accurately and easily discriminate authenticity even if the image is obtained while capturing a part of the paper money. have.

As a means for achieving the above object, the present invention provides an apparatus for discriminating a counterfeit by using a smart phone including a visible light camera and an input / output terminal, And an infrared camera connected to the input / output terminal to capture the same bill as an infrared image at the same time as the visible light camera, wherein the infrared camera comprises: a controller as a controller; A first memory connected to the controller and storing a reference value (difference value between the first sum value and the second sum value) for the pneumatic cylinder; A first summing value obtained by pixel-processing a visible light image photographed by a visible light camera under the control of the controller, converting the visible light image into a comparison object image, summing each pixel value of the converted image to be compared and the infrared light image picked up by the infrared camera, A second memory for storing a calculated value, which is a difference between a summed second value obtained by summing each extracted pixel value; An operation unit for calculating the first sum value and the second sum value under the control of the controller; An image processing unit for processing the visible light image and the photographed infrared image; A pixel value extracting unit for extracting the highest value among R, G, and B of each image-processed pixel; An image generating unit for converting the visible light image into a comparison object image based on the extracted pixel value; And a comparison determining unit comparing the reference value stored in the first memory with the calculated value to determine whether the bills are authentic or not.

At this time, the converted comparison object image and the captured infrared image are both monochrome images.

In addition, the present invention provides an apparatus for discriminating a counterfeit by using a smart phone including a visible light camera and an input / output terminal, And an ultraviolet camera connected to the input / output terminal for capturing the same bill at the same time as the visible light camera with an ultraviolet image, wherein the ultraviolet camera includes a controller as a controller; A first memory connected to the controller and storing a reference value (difference value between the first sum value and the second sum value) for the pneumatic cylinder; A first summing value obtained by pixel-processing a visible light image photographed by a visible light camera under the control of the controller, converting the visible light image into a comparison object image, summing each pixel value of the converted image to be compared and the ultrasound image picked up by the ultraviolet camera, A second memory for storing a calculated value, which is a difference between a summed second value obtained by summing each extracted pixel value; An operation unit for calculating the first sum value and the second sum value under the control of the controller; An image processing unit for pixel-processing the visible light image and the photographed ultraviolet image; A pixel value extracting unit for extracting the highest value among R, G, and B of each image-processed pixel; An image generating unit for converting the visible light image into a comparison object image based on the extracted pixel value; And a comparison determining unit comparing the reference value stored in the first memory with the calculated value to determine whether the bills are authentic or not.

In addition, the present invention additionally includes an infrared camera mounted with a reference image in which a visible light image of a pneumatic eye is converted into a comparative image, and a comparative image in which a difference in the sum of pixel values of the simultaneously captured infrared images is set as a reference value, A method for discriminating a counterfeit bill using a smartphone, the method comprising: Acquiring an image of a discrimination target banknote through the visible light camera and the infrared camera; A visible light image conversion step of converting the banknote image obtained by the visible light camera into pixel values and extracting the highest value among R, G, and B of each pixel as pixel values and then converting the image into a comparison object image; Processing the infrared image captured by the infrared camera with pixels and extracting the highest value among R, G, and B of each pixel as pixel values; The difference between the sum of the pixel values of the banknote image converted into the comparison object image and the sum of the sum of the pixel values of the infrared banknote image obtained by the infrared camera is calculated to generate the calculated value, And discriminating whether or not the counterfeit money is a counterfeit money when the coincidence does not coincide with the counterfeit moneyfeeling.

At this time, the visible light image conversion step may be performed using a Fourier transformer or an infrared spectrometer.

The apparatus and method for discriminating counterfeit bills according to the present invention are advantageous in that the processed image is directly read without correcting the sensed image, so that the processing time is very fast, and most of all, it can be conveniently used in real life.

In addition, since there is no need to provide an infrared filter exchanger separately, convenience of use is increased and the technology can be used as it is without changing the mechanical and mechanical structure of the smart phone.

In addition, because it is very easy to use, if you take notes with one hand holding a bill and a smartphone with the other hand, it will be possible to verify the authenticity of the bills in a very short period of time. It can distinguish pneumoconiosis and counterfeiting, not only preventing crime, but also helping to maintain sound commerce order.

FIG. 1 is a block diagram illustrating a smartphone-associated counterfeit bill discrimination apparatus according to the present invention.
FIGS. 2 to 5 are views illustrating an example of discriminating a counterfeit bill associated with a smartphone according to the present invention.
FIG. 6 is a flow chart showing a method for discriminating a counterfeit bill associated with a smartphone according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

In view of the fact that the banknote security characteristic visually confirmed in the visible light region provided in the banknote for preventing forgery of the banknote and the banknote security characteristic which can be confirmed only in the infrared region are different from each other, The most important feature is that it allows discrimination of authenticity of banknotes.

That is, the smartphone-associated counterfeit bill discrimination apparatus and method according to the present invention does not discriminate a comparison with the original image stored in the original database (DB) of the denomination of the bill, but the smartphone stores specific information about the pneumoconiosis It is possible to immediately judge whether it is pneumoconiosis or counterfeiting immediately without taking a separate correction procedure simply by photographing the object banknote to check whether it is counterfeit.

To explain this concept more easily, pneumoconiosis is specially treated for infrared rays to prevent forgery, but in case of fine copying using a color copier, it is not specially treated for infrared rays.

However, when a person looks at the naked eye, it is difficult to distinguish between pneumoconiosis and counterfeiting because infrared can not recognize the special treatment.

Accordingly, in the present invention, the same banknote is simultaneously photographed using a visible light camera and an infrared camera, a bill image photographed by a visible light camera is converted into a comparative image that can be compared with an infrared camera, The difference value is obtained by comparing the image of the banknote photographed by the camera, and the difference value obtained from the same mechanism for the original clean pneumoconiosis is stored in the smartphone, and it is automatically discriminated whether it is pneumatic or counterfeit .

In other words, in the case of pneumoconiosis, the intensity of light for R, G, B is very large between the image of the paper money taken with an infrared camera and the image to be compared after being converted by a visible light camera because it is subjected to infrared special processing However, in the case of counterfeiting, since the infrared special treatment is not performed, the intensity of light between the images of the bills between the two is not large.

Therefore, by using the difference value, the difference value between the value of the original (the sum of the intensity of light of each pixel of the converted comparison object image and the intensity of light of each pixel of the image captured by the infrared camera ) And the photographed version, the authenticity of the bill can be determined easily and quickly by confirming whether or not the difference value of the same mechanism as the original is matched.

To this end, the smartphone-associated counterfeit bill discrimination apparatus according to the present invention may include the following components.

That is, as shown in FIG. 1, the smartphone-associated counterfeit bill discrimination apparatus according to the present invention includes a portable terminal, such as a smart phone 100 that has become almost a necessity.

At this time, the smartphone 100 is a term selected for representation, and may be various types of terminals such as mobile phones, PDAs, tablets, and the like, which are not portable terminals but mobile terminals.

However, the smartphone 100 must be equipped with a camera.

In this case, the camera is a camera capable of capturing an image in the visible light region, and is referred to as a visible light camera 110 in order to distinguish it from an infrared camera, which will be described later.

The visible light camera 110 is a camera mounted with an infrared filter to prevent a red eye phenomenon. The camera mounted on the portable terminal, that is, the smart phone 100, is a visible light camera 110 including an infrared filter do.

Therefore, the present invention has a difference in that the structure of the smartphone 100 used unlike the terminal described in the prior art is not used at all and is used as it is.

Of course, an application that is commonly referred to as an app is required to be installed in the present invention as well as a conventional patent, which can be downloaded and installed in an app store, a Google Play store, or the like and distributed by the initiator of the present invention.

In particular, the app (App) is equipped with a counterfeit discrimination reference value for a clean pneumatic original, which is stored in the first memory 220, which will be described later, when the app is installed, and is updated only when the app is reinstalled .

Here, the counterfeit discrimination reference value is a difference value between a first summed value and a second summed value, which will be described later.

At this time, the first sum value is obtained by photographing a clean original of the pneumoconiosis with a visible ray camera, and then dividing the photographed image into predetermined pixel units. The intensity of light with respect to R, G, B of each pixel is highest That is, the pixel having the highest intensity, extracts the pixel value having the highest intensity, converts the pixel value to the comparison target image based on the extracted highest value, and adds the pixel values of the converted comparison target image.

The second sum value is a value obtained by dividing the photographed image after taking an image of the same banknote with an infrared camera and dividing the photographed image by a predetermined pixel unit, and then summing each pixel value.

Therefore, the reference value is specifically determined if normal pneumatic operation is performed, and the reference value is stored in the first memory 220 at the time of installing the app.

Meanwhile, since the present invention is not unique to such an application, an application can be developed in various forms according to a developer, and a description thereof will be omitted.

In addition, the smartphone 100 used in the present invention must include an input / output terminal 120 that can essentially provide a user interface, and more preferably a USB terminal that guides the infrared camera 200 to use the infrared camera 200.

Of course, the input / output terminals 120 are already implemented in the smartphone 100.

Therefore, the present invention may include only the infrared camera 200 that can be driven through the input / output terminal 120.

The infrared camera 200 according to the present invention is manufactured in a module form for use with the smartphone 100 through a USB terminal and includes a controller 210.

An input / output terminal 120 such as a USB terminal is connected and controlled to the controller 210, and the first and second memories 220 and 230 are connected to the controller 210 for data storage, processing, and updating.

In addition, the controller 210 is connected to and controlled by the image sensing unit 240 for infrared imaging, and includes an image processing unit 250 and a pixel value extracting unit 260 for processing the sensed image, An operation unit 290 for calculating a sum of pixel values and a comparison determination unit 280 for comparing differences calculated in the operation unit 290 are connected and controlled.

In this case, the image sensing unit 240 may be regarded as an infrared camera module, and the image processing unit 250 may convert the sensed banknote image into a predetermined pixel unit in order to convert the image captured by the visible light camera 110 into a comparison object image And the pixel value extracting unit 260 performs a function of extracting a value having the highest light intensity among R, G, and B of each pixel, The operation unit 270 converts the visible light image into a comparison object image and generates a comparison object image based on the value extracted by the pixel value extraction unit 260. The operation unit 290 compares the converted comparison image The difference between the sum of the pixel values, that is, the sum of the pixel values of the infrared image captured by the infrared camera and the first summed value, that is, the difference between the second summed values, or the reference value for the pneumatic pressure, Calculating the calculated value (that is, the difference value between the first and second integrated value), and is compared to the determination unit 280 determines that the mutual match of these values when the calculation is complete.

Here, there are various ways of converting the visible light image into the comparison object image, for example, a method using a Fourier transformer or a method using an infrared spectrometer, which are well known, do.

In addition, the second memory 230 stores the calculated values of the photographed banknotes.

Here, the banknote image picked up by the visible light camera 110 is basically stored in a memory (referred to as 'main memory') to be mounted on the smartphone 110, and the smartphone 100 ) And the controller 210 of the infrared camera 200 communicate with each other and read pixel data, and then pixel-processed through the image processing unit 260 for conversion into a comparison object image, The pixel value extracting unit 260 extracts the highest value as a pixel value for the pixel, and the image generating unit 270 generates an image based on the extracted pixel value, Image. At this time, the extracted pixel values are converted into the respective pixels of the converted image to be compared, and the converted pixel values are the respective pixel values representing the changed pixels.

Therefore, when the first sum value is calculated, it can be easily obtained by adding the respective pixel values of the converted comparison object image.

While the image processing unit 250, the pixel value extracting unit 260 and the image generating unit 270 convert the visible light image into the comparison object image, the infrared image picked up by the infrared camera is converted into the second memory 230). When the image conversion process is completed, image processing (pixel addition) and pixel value extraction are performed on the infrared image captured.

After that, the operation unit 290 calculates a first sum value of the converted comparison image and a second sum value of the captured infrared image, respectively, .

 Since the reference value for the pneumoconiosis is stored in the first memory 220 and the calculated value for the photographed banknote is stored in the second memory 230, the comparison determining unit 280 It is possible to immediately check whether the photographed banknote is authentic or not.

That is, the values on the first and second memories 220 and 230 will coincide with each other if they are pneumatic, and they will be discordant if they are counterfeit. However, taking into account the state of the paper money, it is possible to set the range of the error after reading it several times or more considering the error in the recognition rate or the photographing state.

In addition, when the process is performed through the application, the authenticity can be displayed on the screen of the smartphone 100.

A method of discriminating a counterfeit by using the apparatus according to the present invention having such a configuration will be described in more detail and illustratively with reference to the drawings illustrated in FIGS. 2 to 6. However, since the above-described structures that function in the process of discrimination for counterfeiting are described above, the following description focuses on the concept.

In order to implement the method according to the present invention, the infrared camera 200 must be connected to the input / output terminal 120 of the smartphone 100, that is, the USB terminal.

In the counterfeit discrimination method according to the present invention, first, a banknote image acquisition step (S100) is performed.

The banknote image acquisition step S100 is a step of acquiring the banknote image by connecting the visible light camera 110 mounted on the smartphone 100 and the input / output terminal 120 of the smartphone 100, The same bills are picked up at the same time through the infrared camera 200, that is, the image pickup unit 240.

Therefore, as shown in FIG. 2, the finger holding the banknote by the user can be directly shot, but the present invention does not cause any problem because no image correction is performed.

In addition, in the prior art patent, there is an inconvenience that comparison reading is required to recognize which type of banknote is to be photographed after the banknote is photographed. However, according to the present invention, a banknote type selection screen, It is easy to use because it is not necessary to automatically determine if you use it after selecting it first.

The banknote images photographed through the banknote image obtaining step S100, that is, the banknote images picked up through the visible light camera 110 (hereinafter referred to as 'visible light images') are stored in the main memory And the paper money image picked up through the infrared camera 200, that is, the captured infrared image is stored in the second memory 220 of the infrared camera 200. [

Since such a process can be realized by operating a button on the screen through an application installed in the smartphone 100, the process will be omitted and only the process flow will be described.

Next, a visible light image conversion step (S110) for converting the banknote image picked up by the visible light camera 110, that is, the visible light image, into a comparable comparative image so as to be compared with the infrared image picked up is performed.

The visible light image conversion step (S110) reads the visible light image stored in the main memory under the control of the controller 210, and performs image processing, pixel value extraction, and image conversion in the above-described manner.

Thereafter, the first sum value is calculated by the arithmetic unit 290, and the second sum value is calculated by the arithmetic unit 290 after the image processing and the pixel value extraction are performed on the infrared image taken by the infrared camera .

3 and 4, the image processing unit 260 divides the visible light image into predetermined pixels, and the converted image of the visible light image is converted by a Fourier transformer or an infrared ray A spectrometer, or the like.

In addition, since the infrared image is a monochrome image completely excluded from the color, the comparative image may be converted into a monochrome image and then compared with the infrared image in the visible light image conversion process.

Then, as shown in FIG. 4, the pixel values corresponding to the respective pixels of the visible light image are given the converted pixel values in the corresponding pixels of the infrared image.

For example, the pixel value given to the pixel at the (2,2) position of the visible light image is '8' in the case of FIG. 4, and when it is converted into the converted image to be compared, it is automatically converted into '3' And the converted comparison target image is obtained.

Likewise, the pixel value '5' given to the pixel at the (4,3) position of the visible light image is converted into '1' in the corresponding pixel on the converted comparison object, thereby realizing the converted comparison object image.

For this reason, even if the finger holding the banknote covers the banknote, as shown in FIG. 5, since the visible light image and the infrared image are the same imaging image, when the visible light image is converted into the infrared image, The banknotes can be checked for authenticity without having to make corrections.

In this way, the visible light image processing step (S120) of converting the visible light image into the comparison object is completed.

Thereafter, a first summed value of each pixel value of the converted image to be compared is calculated, and a second summed value of the pixel values of the infrared image taken by the infrared camera is calculated to discriminate whether the money is true or not (S130) is performed.

At this time, it is needless to say that the pixel processed by the image processing unit 250 may be the entire face of the banknote, or may select only a part of the banknote, in particular, an infrared-specifically processed part.

As shown in FIG. 5, the comparison determining unit 270 may compare the reference value stored in the first and second memories 220 and 230 with the calculated values, and determine whether or not the counterfeit money has been paid.

In addition, the paper money may be a special treatment of ultraviolet rays which can be identified only at a specific wavelength band of ultraviolet rays, for example, at 550 nm or 650 nm. Therefore, the principle of fluorescence response to ultraviolet special printing is used, It is possible to distinguish the banknote from the original banknote by simply photographing the target banknote in the field without comparing the original banknote with the pneumatic original DB, so that it can be used very usefully in real life.

100: Smartphone 110: Visible light camera
120: Input / output terminal 200: Infrared camera

Claims (5)

1. A device for discriminating a counterfeit by using a smart phone including a visible light camera and an input / output terminal, the device comprising:
And an infrared camera connected to the input / output terminal to capture the same bill as an infrared image simultaneously with the visible light camera,
The infrared camera includes a controller as a controller; A first memory connected to the controller and storing a reference value (difference value between the first sum value and the second sum value) for the pneumatic cylinder; A first summing value obtained by pixel-processing a visible light image photographed by a visible light camera under the control of the controller, converting the visible light image into a comparison object image, summing each pixel value of the converted image to be compared and the infrared light image picked up by the infrared camera, A second memory for storing a calculated value, which is a difference between a summed second value obtained by summing each extracted pixel value; An operation unit for calculating the first sum value and the second sum value under the control of the controller; An image processing unit for processing the visible light image and the photographed infrared image; A pixel value extracting unit for extracting the highest value among R, G, and B of each image-processed pixel; An image generating unit for converting the visible light image into a comparison object image based on the extracted pixel value; And a comparison determination unit for comparing the reference value stored in the first memory with the calculated value to determine whether the banknote is authentic or not. The method of claim 1,
Wherein the converted comparison image and the captured infrared image are both monochrome images. 1. A device for discriminating a counterfeit by using a smart phone including a visible light camera and an input / output terminal, the device comprising:
And an ultraviolet camera connected to the input / output terminal so as to capture the same bill as an ultraviolet image simultaneously with the visible light camera,
The ultraviolet camera includes a controller as a controller; A first memory connected to the controller and storing a reference value (difference value between the first sum value and the second sum value) for the pneumatic cylinder; A first summing value obtained by pixel-processing a visible light image photographed by a visible light camera under the control of the controller, converting the visible light image into a comparison object image, summing each pixel value of the converted image to be compared and the ultrasound image picked up by the ultraviolet camera, A second memory for storing a calculated value, which is a difference between a summed second value obtained by summing each extracted pixel value; An operation unit for calculating the first sum value and the second sum value under the control of the controller; An image processing unit for pixel-processing the visible light image and the photographed ultraviolet image; A pixel value extracting unit for extracting the highest value among R, G, and B of each image-processed pixel; An image generating unit for converting the visible light image into a comparison object image based on the extracted pixel value; And a comparison determination unit for comparing the reference value stored in the first memory with the calculated value to determine whether the banknote is authentic or not. In addition to a visible light camera, a smartphone capable of separately mounting an infrared camera equipped with a reference image, which is a difference between the converted comparison image when the visible light image of the pneumatic shield is converted into the comparison object image and the sum of the pixel values of the simultaneously captured infrared image The method comprising:
Acquiring an image of a discrimination target banknote through the visible light camera and the infrared camera;
A visible light image conversion step of converting the banknote image obtained by the visible light camera into pixel values and extracting the highest value among R, G, and B of each pixel as pixel values and then converting the image into a comparison object image;
Processing the infrared image captured by the infrared camera with pixels and extracting the highest value among R, G, and B of each pixel as pixel values;
The difference between the sum of the pixel values of the banknote image converted into the comparison object image and the sum of the sum of the pixel values of the infrared banknote image obtained by the infrared camera is calculated to generate the calculated value, And discriminating whether or not the counterfeit money is counterfeit if it is determined that the counterfeit money is not coincident. The method of claim 4,
Wherein the visible light image conversion step comprises:
Wherein the conversion is performed using a Fourier transformer or an infrared spectrometer.

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