KR20160147533A - System and Method for testing authenticity of paintings using optical characteristics analysis - Google Patents

Abstract

The present invention relates to a system and a method for authenticating and authenticating an artwork using optical characteristic analysis that enables efficient determination based on data using line laser and inherent information on light of a visible light ray reflected from a surface of an artwork A light irradiating unit for irradiating a white light to an artwork and irradiating a line laser to an artwork, a light irradiating unit for irradiating the artwork with light reflected by the white light irradiated by the light irradiating unit, An optical characteristic DB constructing unit for converting the optical characteristic information of the corresponding artwork based on the reflected light information, the reflected light intensity information, and the surface shape data measured by the optical characteristic measuring and processing unit into a DB and storing the optical characteristic information; Based on the optical characteristic information stored in the characteristic DB construction unit, And an authenticity judgment unit for judging authenticity of the target art.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for authenticating an art,

The present invention relates to a true-false emotion system, and more particularly, to an apparatus and method for real-time emotional analysis, which includes an inherent information on light of a visible light ray reflected from a surface of an artwork and an optical characteristic analysis enabling efficient determination based on data using a line laser And to a system and method for authenticity of an artwork using the same.

As people's living standards have improved, interest in art has become very high, and the value of artwork has also increased, creating a huge auction market.

Therefore, there are also incidents that sell and sell at the same price as the famous paintings. The works of art are increasingly becoming increasingly important.

Especially, in recent years, expensive artworks (for example, paintings of famous artists, statues, antiques, etc.) have become popular for investment, and art dealings have become more active.

In recent years, on-line sales and / or auction systems have been actively promoted due to the rapid development of the Internet and the like. As a result, counterfeit works for expensive art objects are being actively performed, and a large number of counterfeit works are actually being bid at a high price in the auction.

Therefore, although emotional apparatuses and experts are mobilized to judge the authenticity of the artwork, it is difficult to evaluate the works by using expensive equipment and experts for all works. In addition, there is room for interpreting the style of a specific painter differently according to each expert, and the controversy is not constant.

There are two ways to judge the authenticity of an artwork: a subjective emotional method based on the consideration of the appraiser and an objective appraisal method involving scientific equipment.

In the case of subjective emotions, problems such as professionalism and ethics arise because they are judged on the judgment of the appraiser. Many of the works that seemingly have difficulty judging authenticity have resulted in many events requiring objective and scientific analysis.

In response to this demand, a group called 'Korean Art Appraisal Appraisal Service' was established in 2002 and using various scientific instruments such as sample analysis, scanning electron microscope (SEM), X-ray fluoroscopy, infrared camera, Is judged to be true or false.

Scanning electron microscopy (SEM) can be used to observe the surface morphology, lamination defects, and interfaces of the material, but this has the disadvantage of damaging the artwork in order to obtain the sample.

It is also possible to know the approximate year of production of artwork by using the age meter, but this has a disadvantage that the error range is as large as 50 years.

X-ray and infrared camera can be used to see the invisible inside of the artwork. Therefore, it is the most used emotional method because it can know the painter's brush stroke and brushing method. .

Therefore, there is a demand for development of art authenticity determination technology of a new method that enables accurate authenticity determination without taking much time for emotion.

Korean Patent Publication No. 10-2013-0141403 Korean Patent Publication No. 10-2009-0032637

An object of the present invention is to solve the problem of the prior art artistic authenticity determination technique. The present invention relates to a method and a system for efficiently authenticating art, which is based on data unique to light of a visible light ray reflected from a surface of an artwork and a line laser, And to provide an authenticity evaluation system and method of an art using an optical characteristic analysis capable of determination.

The present invention provides unique information on the light of the visible light ray reflected from the surface of the artwork after entering a white light and obtains information on the curvature of the surface of the artwork and the surface shape of the canvas using a line laser The present invention provides a system and method for authenticating and authenticating an artwork using optical characteristic analysis in which light is scattered and reflected, and images are observed to obtain data and compared with a masterpiece to determine authenticity.

The present invention provides a system and a method for authenticity evaluation of an artwork using an optical characteristic analysis that analyzes a surface shape in an area scanned by a sunlight irradiated to an artwork and analyzes the shape errors of the genuine article and the counterfeit article so as to accurately determine the authenticity It has its purpose.

The present invention is based on an OCT system in which the surface of a paint is aged or changes in thickness due to etching, and the OCT system is applied to analyze the change in micron units, thereby realizing optical characteristics And to provide a system and method for authenticating and evaluating the authenticity of an artwork using analysis.

The present invention provides an authenticity evaluation system and method of an art using an optical characteristic analysis that can build a vast optical database of an artwork for preventing false work by using an optical characteristic analysis and implement a precise artificial judgment system based thereon. There is a purpose.

The present invention provides a system and method for authenticating and authenticating an artwork using an optical characteristic analysis that can be non-invasively converted into a database of art through an optical method and then used as an analysis tool for changes in artworks over time It has its purpose.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to another aspect of the present invention, there is provided an authenticity evaluation system for an art using an optical characteristic analysis, comprising: a light irradiation unit for irradiating a white light to an artwork and irradiating a line laser to an artwork; An optical characteristic measurement and processing unit for measuring intensity of light and measuring image data which is generated by scattering and reflecting the line laser, a light characteristic measurement and processing unit for measuring the reflected light information, the reflected light intensity information, And an artistic authenticity determining unit determining an authenticity of the artwork to be authenticated based on the optical characteristic information stored in the optical characteristic DB building unit .

According to another aspect of the present invention, there is provided a system for authenticating and authenticating artworks using optical characteristics analysis, comprising: a light irradiating unit for irradiating a white light to an artwork and irradiating a line laser to an artwork; Measuring the intensity of light and measuring the image data of the line laser that is scattered and reflected, measuring the thickness of the interior of the artwork with the optical coherence tomography and measuring the thickness change with time, An optical coherence tomography and processing unit for observing the optical coherence tomography and the image of the artwork of the optical coherence tomography and processing unit, The optical characteristic information of the corresponding artwork is converted into a DB And an artistic truth verifying section for determining authenticity of the artwork to be authenticated based on the optical characteristic information stored in the optical characteristic DB building section.

Here, the light irradiating unit includes a white light irradiating unit for irradiating white light to the art to obtain information on the color using white light, a line laser irradiating unit for irradiating the art with the line laser to obtain information on the surface shape using the line laser, And a control unit.

The optical characteristic measurement and processing unit includes a reflected light information detecting unit for obtaining unique information on the light of the visible light area band where the white light emitted from the light irradiating unit is reflected from the surface of the artwork, A light intensity measuring unit for measuring the intensity of green light and a surface shape data measuring unit for measuring image data in which light is scattered and reflected according to the curvature of the surface of the artwork and the surface shape of the canvas using a line laser .

The surface shape data measuring unit includes a two-dimensional surface shape photographing unit for extracting a two-dimensional surface shape by the optical power irradiated to the artwork, a two-dimensional surface shape collecting unit for scanning the irradiated light beam to collect two- And a three-dimensional surface shape output unit for outputting the two-dimensional surface shape collected on the basis of the scan distance as a three-dimensional surface shape.

The white light emitted from the light irradiation unit has a wavelength in the range of 215 nm to 2500 nm, and the light measured in the optical property measurement and processing unit has a wavelength in the range of 200 nm to 1100 nm.

The light irradiating unit and the optical characteristic measuring and processing unit are configured to include an optical fiber for receiving light reflected by the detector while receiving the light.

In order to observe the surface shape of the artwork, the line laser of the light irradiation section inclines the light using a line laser having a wavelength of 638 nm, and images the light scattered and reflected by the curvature of the artwork through the CCD camera .

In order to scan artwork using two light sources of white light and line laser, a stage driven by X axis and Y axis is used, and the stage on which the art work is mounted is driven at a speed of 0.009 cm / s to 0.9 cm / s, Is scanned.

According to another aspect of the present invention, there is provided a method of authenticating an art using an optical characteristic analysis method, comprising the steps of: irradiating a white light and a line laser to an art object; measuring reflected light information by the white light to be irradiated; And storing the optical characteristic information of the artwork based on the measured reflected light information, the reflected light intensity information, and the surface shape data in a DB format, And an optical characteristic DB for judging the authenticity of the artwork to be authenticity-judged is constructed.

According to another aspect of the present invention, there is provided a method of authenticating an art using an optical characteristic analysis method, comprising the steps of: irradiating art objects with white light and a line laser on an art object; reflecting light information by the white light to be irradiated; A step of measuring image data in which the laser is scattered and reflected, a step of measuring the thickness of the interior of the artwork and measuring the thickness variation according to time with the optical interference tomography, And storing the optical characteristic information of the artwork based on the reflected light information, the reflected light intensity information, the surface shape data, and the three-dimensional image data of the artwork as a DB, And an optical characteristic DB for judging the authenticity of the artwork is constructed.

According to another aspect of the present invention, there is provided a method of authenticating an art using an optical characteristic analysis method, comprising the steps of: irradiating art objects with white light and a line laser on an art object; reflecting light information by the white light to be irradiated; The method includes the steps of measuring image data generated by scattering and reflecting a laser beam, storing optical characteristic information of a corresponding artwork based on the measured reflected light information, reflected light intensity information, and surface shape data, And determining the authenticity of the artwork to be authenticity-judged.

According to another aspect of the present invention, there is provided a method of authenticating an art using an optical characteristic analysis method, comprising the steps of: irradiating art objects with white light and a line laser on an art object; reflecting light information by the white light to be irradiated; A step of measuring image data in which the laser is scattered and reflected, a step of measuring the thickness of the interior of the artwork and measuring the thickness variation according to time with the optical interference tomography, A step of storing the optical characteristic information of the corresponding artwork based on the reflected light information, the reflected light intensity information, the surface shape data, and the three-dimensional image data of the artwork in DB form and storing the authenticity of the artwork to be authenticated And a step of judging whether or not the image is displayed.

Here, the step of measuring the image data appearing by scattering and reflecting the line laser may include a two-dimensional surface shape photographing step of extracting a two-dimensional surface shape with the projected light irradiated on the artwork, And a three-dimensional surface shape output step of outputting the two-dimensional surface shape collected on the basis of the change of the optical rotation according to the surface depth of the artwork and the scan distance as a three-dimensional surface shape .

The system and method for authenticity evaluation of an art using the optical characteristic analysis according to the present invention have the following effects.

First, it is possible to make efficient judgment based on the information unique to the light of the visible ray reflected from the surface of the artwork and the data using the line laser.

Second, it is possible to accurately determine the authenticity by analyzing the shape errors of the genuine article and the counterfeit article by analyzing the surface shape within the area scanned by the illuminant illuminated on the artwork.

Third, by applying the OCT system, it is possible to construct fine art judgment data by analyzing the change in the thickness of the surface of the paints in terms of micron over time.

Fourth, increase the accuracy of the authenticity judgment of artwork, and suppress the occurrence of expensive additional verification cost.

Fifth, it is possible to accurately determine authenticity of artwork in a short time, thereby shortening the time required for verification.

Sixth, it is possible to precisely judge authenticity of art in a short time, so that the monetary and mental damages of the artist due to the sale of the illegible works can be prevented in advance.

Seventh, it is possible to contribute to the development of the art industry by enhancing the reliability of the artwork to be purchased and motivating the buyer to purchase it.

Eighth, we construct a massive optical database of artwork for the prevention of inferiority and effectively implement a false judging system based on it.

Ninth, it is possible to make a database of art objects non-invasively through optical methods, and then it can be used as an analysis tool for the change of artworks according to time.

1 is a block diagram showing the concept of an authenticity and emotion system for an artwork according to the present invention;
FIGS. 2A to 2C are graphs showing a tendency spectrum, a superposition spectrum, and a partial enlargement spectrum diagram for each color of an authenticity and emotion system of an artwork according to the present invention
3 is a block diagram of an authenticity evaluation system for an artwork using optical characteristic analysis according to the first embodiment of the present invention
FIG. 4 is a block diagram of an authenticity evaluation system for art objects using optical characteristic analysis according to a second embodiment of the present invention
5 is a detailed configuration diagram of the surface shape data measuring unit
Figs. 6 and 7 show images of the surface shape of the artwork
Fig. 8 is a schematic view showing scattering of light due to surface curvature
9 is a diagram showing a data quantification process using the MATLAB
10 is a diagram showing the configuration of an OCT system applied to the present invention
FIG. 11 is a diagram showing the result of depth information analysis of 'Saint Leonard of Porto Maurizio' using OCT technique
FIG. 12 is a view showing a process of judging the truth of an art through analysis of the surface shape of a beneficiary ray according to the present invention
13 is a flowchart showing a method of authenticating an artwork using an optical characteristic analysis according to the present invention
14 is a flowchart showing a detailed process of surface shape data measurement

Hereinafter, a detailed description will be made of a preferred embodiment of a system for accurately detecting authenticity of an artwork using the optical characteristic analysis according to the present invention and a method thereof.

The features and advantages of the system and method for authenticity evaluation of artwork using optical characteristic analysis according to the present invention will be apparent from the following detailed description of each embodiment.

FIG. 1 is a block diagram showing the concept of an authenticity and emotion system of artwork according to the present invention. FIGS. 2A to 2C are diagrams showing a tendency spectrum, a superposition spectrum and a partial enlarged spectrum of artwork emotion systems of artwork according to the present invention .

The present invention makes it possible to efficiently determine information based on light using a line laser, and information unique to light in the visible ray region reflected from the surface of the artwork.

In addition, according to the present invention, as the surface of the paints is aged or changes in thickness due to etching, the OCT system is applied to analyze the changes in micron units to construct accurate art data So that it can be used for judgment.

White light and line laser are used for the authenticity evaluation system of the art using the optical characteristic analysis according to the present invention.

First, white light is used to obtain data about the unique colors of artwork.

After entering the white light, unique information about the light of the visible ray area reflected from the surface of the artwork is obtained.

Based on the three primary colors of light, the intensity of red, blue, and green light is measured and stored.

Secondly, data on the surface shape of the artwork is obtained by using a line laser.

For example, a 638 nm line laser is used to observe images reflected and reflected by the curvature of the surface of the artwork and the surface shape of the canvas, and the data is stored.

The artwork used for authenticity determination using such white light and line laser is an oil painting, and the applied artwork is not limited thereto.

The characteristic feature of oil painting is that it uses emulsion paints, so it can get various colors, and it can be painted thick or thin, causing the surface to bend.

Therefore, information on various colors can be obtained by using white light, and it is possible to observe rugged shapes formed on the surface by using a line laser.

In addition, the systems and methods for authenticity evaluation of artwork using the optical characteristic analysis according to the present invention can be applied not only to measurement using white light and line laser but also to measurement technology using optical coherence transmission (OCT) ≪ / RTI >

The reason for applying optical coherence tomography (OCT), which is used to view a tomographic image inside a living tissue, to the authenticity evaluation system and method of an art using the optical characteristic analysis according to the present invention is as follows.

The OCT can be used to observe the artwork in a three-dimensional image form. Thus, it is possible to measure the thickness of the interior of the artwork and the thickness variation according to time.

As described above, the system and method for authenticity evaluation of artwork using the optical characteristic analysis according to the present invention can obtain information on various colors using white light, obtain information on the surface shape (bend) using a line laser , And OCT to obtain information on the thickness of the interior of the artwork.

Here, a configuration for obtaining information on various colors using white light and a configuration for obtaining information on the surface shape (bend) using a line laser may be used alone, or information about the thickness of the inside of an artwork may be obtained using OCT The configuration may be used alone to construct a DB and used for authenticity determination, or a combination of these methods may be used.

With such a configuration, a vast optical database of artwork for preventing false works can be constructed and a false judgment system based on the constructed optical database can be implemented.

In addition, it is possible to make a database of art objects non-invasively through optical methods, and then it can be used as an analysis tool for the change of artworks according to time.

Specifically, a white light source used for measurement using a white light allows light of a wide wavelength (215 nm to 2500 nm) to be incident using a UV-VIS-NIR light source.

And the detector for the measurement is a detector that can detect the light with the wavelength of 200nm ~ 1100nm, and it is configured to detect all light in the visible light region band.

In order to obtain simple and accurate data, it is preferable to use an optical fiber that allows light to be incident on the detector while receiving reflected light.

In order to obtain more precise truth of the artwork, UPLFLN 20X (Olympus, U.S.A) lens is used to reduce the beam size to 1mm diameter.

In addition, a program (Spectra Suite) is set up to measure the intensity of light of 470 nm, 546 nm and 633 nm, which represents the most basic wavelength range in green, blue and red light among lights reflected from artworks using the three primary colors of light .

The line laser is set up as follows.

In order to observe the surface shape of the artwork, light is incident using a line laser having a wavelength of 638 nm, and the reflected image is observed.

When a line laser enters the oil painting, the light is scattered and reflected along the curvature at the surface of the work. At this time, when the reflected light enters through the CCD camera, the image is observed to obtain surface shape information such as lightness and curvature.

To scan an artwork using these two light sources, we use a linear XY motorized stage that can be driven by two axes, the X and Y axes.

1 is a block diagram showing the concept of an authenticity and emotion system for an artwork according to the present invention.

The white light, line laser, and CCD camera are fixed and move the stage to make it easy to scan.

The stage can be driven at various driving speeds (0.009 cm / s to 0.9 cm / s), and the entire artwork can be scanned.

The results shown in FIG. 2A are obtained when a rainbow color picture is scanned in order to know a tendency of each color in measurement using an authenticity and emotion system of an art using an optical characteristic analysis according to the present invention.

When we superimpose the results of the two scan data, we can see that the two graphs have almost the same tendency.

The average values of the two graphs are calculated to obtain the error rate, which is shown in Table 1. The error rate is from 0% to 0.9%, which is 0.4% on average.

Table 1 shows the error rate of the color-specific tendency spectrum.

2B is obtained when an actual art is scanned using an authenticity evaluation system of art using an optical characteristic analysis according to the present invention.

FIGS. 2 (a), 2 (b) and 2 (c) show four result spectra obtained by scanning a part of artwork by wavelength band, respectively.

It looks like the graph looks like one, and you can see that the resulting data is pretty much the same. In order to observe more closely, the distance 175 to 225 mm in the spectrum of FIG. 2 (d) is enlarged and shown in FIG.

The spectrum has a very similar tendency, and the results obtained are almost the same.

The structure of the authenticity and emotion system of art using the optical characteristic analysis according to the present invention having such technical characteristics is as follows.

FIG. 3 is a block diagram of an authenticity evaluation system for an artwork using optical characteristic analysis according to a first embodiment of the present invention. FIG. 4 is a block diagram of an authenticity evaluation system for an artwork using optical characteristic analysis according to a second embodiment of the present invention. FIG.

And Fig. 5 is a detailed configuration diagram of the surface shape data measuring unit.

The system for obtaining authenticity of an artwork using the optical characteristic analysis according to the first embodiment of the present invention includes a configuration for obtaining information on various colors using white light and a configuration for obtaining information about the surface shape (curvature) using a line laser It is shown that DB is constructed by using it alone and used for authenticity judgment.

As shown in FIG. 3, in order to obtain information on various colors using white light, a white light irradiating unit 30a for irradiating white light to an artwork and a line laser for obtaining information on the surface shape (curvature) A light irradiating unit 30 having a line laser irradiating unit 30b for irradiating the light irradiating unit 30 with light and a white light irradiated from the light irradiating unit 30, A reflection light intensity measuring unit 31b for measuring the intensity of red, blue and green light reflected from the reflection light information detecting unit 31a and the light reflected on the basis of the three primary colors of light, And a surface shape data measuring unit 31c for measuring image data appearing when light is scattered and reflected depending on the bending of the canvas and the surface shape of the canvas. An optical characteristic DB construction unit for converting the optical characteristic information of the corresponding artwork based on the reflected light information, the reflected light intensity information, and the surface shape data measured by the optical characteristic measurement and processing unit 40 into a DB, And an artistic truth verifying section (60) for judging authenticity of the artwork to be authenticated based on the optical characteristic information stored in the optical characteristic DB building section (50).

The authenticity evaluation system of art using the optical characteristic analysis according to the second embodiment of the present invention is configured as follows.

The system for authenticating and analyzing artworks using optical characteristic analysis according to the second embodiment of the present invention is configured to obtain information on various colors using white light and to obtain information on surface shape (bending) using a line laser, And a structure for obtaining information on the thickness of the inside of the artwork by using OCT is combined to construct a DB and used for authenticity determination.

As shown in FIG. 4, in order to obtain information on various colors using white light, a white light irradiating unit 30a for irradiating white light to an artwork and a line laser for obtaining information on the surface shape (curvature) A light irradiating unit 30 having a line laser irradiating unit 30b for irradiating the light irradiating unit 30 with light and a white light irradiated from the light irradiating unit 30, A reflection light intensity measuring unit 31b for measuring the intensity of red, blue and green light reflected from the reflection light information detecting unit 31a and the light reflected on the basis of the three primary colors of light, And a surface shape data measuring unit 31c for measuring image data appearing when light is scattered and reflected depending on the bending of the canvas and the surface shape of the canvas. An optical coherence tomography and processing unit 70 for measuring the thickness of the inside of the artwork and measuring the thickness variation with time according to the optical coherence tomography to observe the artwork in a three dimensional image form, The reflected light intensity information, the surface shape data measured by the optical characteristic measuring and processing unit 40, and the optical characteristic of the corresponding artwork based on the three-dimensional image data of the artwork of the optical coherence tomography and processing unit 70 An artistic characteristic authenticity determination unit (60) for determining the authenticity of the artwork to be authenticated based on the optical characteristic information stored in the optical characteristic DB construction unit (50) .

5, the surface shape data measuring unit 31c includes a two-dimensional surface shape photographing unit 71 for extracting a two-dimensional surface shape by the optical power irradiated on the artwork, and a three- A three-dimensional surface shape output unit 72 for outputting the two-dimensional surface shape collected on the basis of the variation of the optical power according to the surface depth of the artwork and the scan distance as a three-dimensional surface shape, (73).

The optical characteristic analysis using the true or false emotion system of the art using the optical characteristic analysis according to the present invention having the above configuration is as follows.

When the line laser is incident on the surface of the artwork and the surface shape of the artwork is observed through the CCD camera, the surface shape image data as shown in Figs. 6 and 7 can be obtained.

In Fig. 6, the artwork exhibits different images depending on the surface shape.

It can be seen that the surface of the curvature is observed with CCD.

Fig. 7 is an image obtained at the same position as Fig.

Comparing FIG. 6 and FIG. 7, almost the same image data can be obtained.

Thus, observing other images in which line lasers are reflected according to the surface curvature can make true emotions.

In this way, the image obtained by the CCD can be stored as initial data, and the data can be compared with the masterpiece to make authenticity evaluation.

In other words, in FIG. 6, it can be seen that different shapes are observed on the CCD according to the surface shape of the artwork. This is because the oil paintings have curvatures on the surface of the artworks due to the characteristics of oil paintings.

Therefore, as shown in FIG. 8, when the line laser is irradiated, light is scattered by the curvature, and when the CCD camera is used, data showing a change in the line of light due to surface curvature can be obtained.

In addition, we could observe the difference of contrast in the image because the light is scattered according to the surface curvature, the reflection angle changes, and the number of photons received by the CCD camera differs.

Then, when the measurement for the optical characteristic analysis is made, programming is performed to convert the image obtained by the measurement into a database.

As shown in FIG. 9, if the intensity of light appearing in an image is divided into pixels and digitized, quantitative data can be obtained.

In addition, it is possible to set the coordinates per pixel by grabbing the baseline (eg, x, y axis) and comparing the bending changes that can appear in the inferiority, to make authenticity emotion.

The OCT system applied to the present invention and optical property measurement using the OCT system will be described as follows.

FIG. 10 is a configuration diagram of an OCT system applied to the present invention, and FIG. 11 is a diagram illustrating a depth information analysis result of 'Saint Leonard of Porto Maurizio' using OCT technique.

OCT is a tomographic technique that is used primarily in the field of medical engineering to examine tissue without injury.

Compared with conventional tomography (CT, MRI, etc.), high-resolution images can be obtained and it is widely used because it uses a near-infrared light source that does not harm the human body.

As shown in FIG. 10, the OCT system includes a light source, an optical part made up of a Michelson interferometer, and a signal processing part receiving a signal.

The light from the light source enters the beam splitter and enters the mirror and the sample to be measured. The light incident on the object to be measured causes scattering or reflection depending on the refractive index in the interior of the object.

Only the scattered light returns back to the beam splitter and meets the light reflected from the mirror. At this time, when the optical path difference between the two lights is shorter than the coherent distance, a constructive interference or destructive interference may occur.

This phenomenon can be obtained by using time-domain or frequency-domain (Fourier-Domain) transformation method.

FIG. 11 shows the result of obtaining the internal depth information of the artwork of oil painting using such an OCT system.

In the case of artwork, the surface of the paint changes with time due to aging or etching. By applying the OCT system, it is possible to construct data of fine art by analyzing the change in the unit of several microns.

FIG. 12 is a block diagram illustrating a process of determining the truth of an art through analysis of the surface shape of a beneficiary ray according to the present invention.

Dimensional surface shape on the basis of the variation of the optical power according to the surface depth of the artwork and the scan distance.

The authenticity evaluation method of the art using the optical characteristic analysis according to the present invention will be described in detail as follows.

FIG. 13 is a flowchart showing an authenticity evaluation method of an art using an optical characteristic analysis according to the present invention, and FIG. 14 is a flowchart showing a detailed process of surface shape data measurement.

In order to obtain information on various colors using white light, white light is irradiated to an artwork, and a line laser is used to obtain information on the surface shape (curvature) by using an optical characteristic analysis according to the present invention. (S1301)

Next, unique information on the light of the visible ray area reflected from the surface of the artwork is obtained (S1302), and the red, blue, and yellow lights of the light reflected based on the three primary colors of light are obtained And measures the intensity of green light (S1303).

Then, image data appearing by scattering and reflecting light according to the curvature of the surface of the artwork and the surface shape of the canvas are measured using a line laser (S1304)

Next, the optical characteristic information of the corresponding artwork based on the reflected light information, the reflected light intensity information, and the surface shape data measured by the optical characteristic measurement and processing are DB and stored (S1305)

Then, the authenticity of the art object to be authenticity determination is determined based on the optical characteristic information stored in the optical characteristic DB building unit (S1306)

Here, in the step of storing the optical characteristic information of the artwork as a DB, the optical interference coherence tomography is used to measure the thickness of the interior of the artwork and the thickness change with time, And may further include a tomography and a processing step (S1307)

In the step of measuring image data in which light is scattered and reflected depending on the bending of the surface of the artwork and the surface shape of the canvas, as shown in Fig. 14, the step of extracting the two- Dimensional surface shape collection step (S1402) for collecting the two-dimensional surface shape by scanning the irradiated light beam; and a two-dimensional surface shape collection step (S1402) for collecting the two- A three-dimensional surface shape output step (S1403) of outputting the surface shape as a three-dimensional surface shape into a DB, and a truth determination step (S1404) through three-dimensional surface shape analysis of the artwork.

The system and method for authenticating and analyzing artwork using the optical characteristic analysis according to the present invention as described above can obtain unique information on the light of the visible light ray reflected from the surface of the artwork after entering the white light, (Line laser) is used to observe images reflected and diffused depending on the curvature of the surface of the artwork and the surface shape of the canvas. Data are obtained and compared with the masterpiece to determine truth.

In addition, as the surface of the paints ages or changes in thickness due to etching, the OCT system is applied to analyze the changes in micron units to build data of fine art objects and to make authenticity judgment It is.

As described above, it will be understood that the present invention is implemented in a modified form without departing from the essential characteristics of the present invention.

It is therefore to be understood that the specified embodiments are to be considered in an illustrative rather than a restrictive sense and that the scope of the invention is indicated by the appended claims rather than by the foregoing description and that all such differences falling within the scope of equivalents thereof are intended to be embraced therein It should be interpreted.

30. Light irradiation part 40. Optical property measurement and processing part
50. Optical characteristic DB construction part 60. Artwork authenticity judgment part
70. Optical coherence tomography and processing unit

Claims (14)

A light irradiating unit for irradiating white light to the artwork and irradiating the artwork with the line laser;
An optical characteristic measurement and processing unit for measuring reflected light information by white light irradiated by the light irradiation unit, an intensity of light, and measuring image data generated by scattering and reflecting the light of the line laser;
An optical characteristic DB construction unit for converting the optical characteristic information of the corresponding artwork based on the reflected light information, the reflected light intensity information, and the surface shape data measured by the optical characteristic measurement and processing unit into a DB;
And an artistic truth authenticity determining section for determining authenticity of the artwork to be authenticated based on the optical characteristic information stored in the optical characteristic DB establishing section. A light irradiating unit for irradiating white light to the artwork and irradiating the artwork with the line laser;
An optical characteristic measurement and processing unit for measuring reflected light information by white light irradiated by the light irradiation unit, an optical characteristic measurement unit for measuring intensity of light and measuring image data generated by scattering and reflecting the light;
An optical coherence tomography and processing unit for measuring the thickness of the interior of the artwork and measuring the thickness variation with time according to the optical coherence tomography to observe the artwork in a three dimensional image form;
The optical characteristic information of the corresponding artwork based on the reflected light information, the reflected light intensity information, the surface shape data, and the three-dimensional image data of the artificial light interference tomography and processing unit measured by the optical property measurement and processing unit is DB An optical characteristic DB construction unit;
And an artistic truth authenticity determining section for determining authenticity of the artwork to be authenticated based on the optical characteristic information stored in the optical characteristic DB establishing section. The light-emitting device according to claim 1 or 2,
A white light irradiating unit for irradiating white light to the art to obtain information on the color using white light,
And a line laser irradiating section for irradiating the art with the line laser to obtain information on the surface shape using the line laser. The optical characteristic measurement and processing unit according to claim 1 or 2,
A reflected light information detecting unit for obtaining information unique to the light of the visible ray region reflected by the surface of the artwork,
A reflected light intensity measuring unit for measuring the intensity of red, blue, and green light reflected from the artwork,
And a surface shape data measuring unit for measuring image data in which light is scattered and reflected according to the curvature of the surface of the artwork and the surface shape of the canvas using a line laser. The apparatus according to claim 4,
A two-dimensional surface shape photographing unit for extracting a two-dimensional surface shape with the projected light irradiated on the artwork,
A two-dimensional surface shape collecting unit that scans the irradiated sunlight to collect a two-dimensional surface shape,
And a three-dimensional surface shape output unit for outputting the two-dimensional surface shape collected on the basis of the change of the optical rotation according to the surface depth of the artwork and the scan distance as a three-dimensional surface shape. Emotional system. The optical device according to claim 1 or 2, wherein the white light emitted from the light irradiation portion has a wavelength in the range of 215 nm to 2500 nm, and the light measured in the optical property measurement and processing portion has a wavelength in the range of 200 nm to 1100 nm An Authenticity Appraisal System of Art Using Analysis. The optical information recording medium according to claim 1 or 2,
And an optical fiber for receiving the reflected light at the same time while allowing the light to be received by the detector. The optical scanning device as claimed in claim 1 or 2,
In order to observe the surface shape of the artwork, light is incident using a line laser having a wavelength of 638 nm, and the light scattered and reflected according to the curvature on the surface of the artwork is imaged through a CCD camera The authenticity emotion system of used artwork. The method according to claim 1 or 2, wherein a stage driven in the X-axis and the Y-axis is used to scan an art using two light sources of white light and line laser,
And the stage on which the artwork is placed is driven at a speed of 0.009 cm / s to 0.9 cm / s to scan the whole of the artwork. Illuminating the art with white light and line laser;
Measuring reflected light information by the white light to be irradiated, measuring intensity of light, and measuring image data that is generated by scattering and reflecting the line laser;
And converting the optical characteristic information of the artwork based on the measured reflected light information, reflected light intensity information, and surface shape data into a DB,
And constructing an optical characteristic DB for judging authenticity of the art to be authenticity-judged based on the optical characteristic information. Illuminating the art with white light and line laser;
Measuring reflected light information by the white light to be irradiated, measuring intensity of light, and measuring image data that is generated by scattering and reflecting the line laser;
A step of measuring the thickness of the interior of the artwork and measuring the thickness variation with time according to the optical coherence tomography so as to observe the artwork in a three-dimensional image form;
And storing the optical characteristic information of the corresponding artwork based on the measured reflected light information, the reflected light intensity information, the surface shape data, and the three-dimensional image data of the artwork as a DB,
And constructing an optical characteristic DB for judging authenticity of the art to be authenticity-judged based on the optical characteristic information. Illuminating the art with white light and line laser;
Measuring reflected light information by the white light to be irradiated, measuring intensity of light, and measuring image data that is generated by scattering and reflecting the line laser;
Storing the optical characteristic information of the artwork based on the measured reflected light information, reflected light intensity information, and surface shape data in a DB format;
And judging authenticity of the artwork to be authenticated based on the stored optical characteristic information. Illuminating the art with white light and line laser;
Measuring reflected light information by the white light to be irradiated, measuring intensity of light, and measuring image data that is generated by scattering and reflecting the line laser;
A step of measuring the thickness of the interior of the artwork and measuring the thickness variation with time according to the optical coherence tomography so as to observe the artwork in a three-dimensional image form;
Storing the optical characteristic information of the corresponding artwork based on the measured reflected light information, the reflected light intensity information, the surface shape data, and the three-dimensional image data of the artwork as a DB;
And judging authenticity of the artwork to be authenticated based on the stored optical characteristic information. 14. The method according to claim 11 or 13, wherein the step of measuring the image data, in which the line laser is scattered and reflected,
A two-dimensional surface shape photographing step of extracting a two-dimensional surface shape with the projected light irradiated on the artwork,
A two-dimensional surface shape collecting step of scanning the irradiated sunlight to collect a two-dimensional surface shape,
And a three-dimensional surface shape output step of outputting the two-dimensional surface shape collected on the basis of the change of the optical rotation according to the surface depth of the artwork and the scan distance as a three-dimensional surface shape. Authenticity method.

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