KR102552777B1 - Hair sheen diagnosis system and hair sheen diagnosis method - Google Patents

Abstract

The present invention relates to a hair luster diagnosis system and a hair luster diagnosis method, and the hair luster diagnosis system according to an embodiment of the present invention matches a laser light source and a focal point on a detection pinhole, and arranges hair on a focal plane to obtain hair luster. A hair photographing unit for capturing an image of the hair through light passing through or being reflected, an image processing unit dividing the image of the photographed hair into a first region in which the light is reflected and a second region in which the light is not reflected, and the above and a glossiness calculation unit for calculating glossiness of the hair based on the area of the first region.

Description

Hair gloss diagnosis system and hair gloss diagnosis method {HAIR SHEEN DIAGNOSIS SYSTEM AND HAIR SHEEN DIAGNOSIS METHOD}

The present invention relates to a hair gloss diagnosis system and a method for diagnosing hair gloss, and more particularly, to a hair gloss diagnosis system capable of quantitatively comparing and analyzing hair gloss and a method for diagnosing hair gloss.

Various attempts have been made to measure and evaluate the luster of hair. Specifically, in order to evaluate the luster of hair, there is a method of visually evaluating a glossy ring-shaped part reflected by light when light is applied to the entire head of the hair. Since it is evaluated with the naked eye, the score may change depending on the researcher evaluating it, so there was a disadvantage that reliability and consistency could not be guaranteed.

On the other hand, Patent Documents 1 and 2 disclose that in order to measure the gloss or gloss of hair, light is irradiated to the entire hair and photographed with a camera to observe the reflection area. And Patent Document 3 discloses measuring the reflected light reflected on the hair.

In the case of Patent Documents 1 to 3, since the hair must be photographed as a whole, the subject has to go to the measurement location to evaluate the gloss, and the results vary depending on the lighting of the recording location, the shooting angle, or the skill of the photographer. There was a problem.

In addition, in the case of a camera or a gloss meter that measures reflected light, there is a problem in that results are different depending on the color of the hair. In particular, in the case of black hair, it was difficult to evaluate by measuring reflected light with a gloss meter.

JP2009-168540 A5 JP2000-287953 A JP2004-212088 A

The present invention is to solve the above-mentioned problems, and provides a hair gloss diagnosis system and method capable of quantifying and diagnosing the shine or luster of hair with a gloss value and providing highly consistent and highly reliable results. want to provide

In addition, it is intended to provide a hair gloss diagnosis system and diagnosis method capable of diagnosing and analyzing gloss or luster even for hair of various colors and obtaining constant results regardless of the skill level of the measurer.

In the hair gloss diagnosis system according to an embodiment of the present invention, a hair image is captured by aligning a laser light source and a focal point on a detection pinhole, arranging hair on a focal plane, and capturing the hair image through light passing through or reflecting the hair. An image processing unit that divides the captured hair image into a first area where light is reflected and a second area where light is not reflected, and a gloss calculation unit that calculates the glossiness of the hair based on the area of the first area. include

The hair photographing unit may obtain a hair image through a confocal laser scanning microscope (CLSM).

The image processing unit may calculate a pixel image by distinguishing the first area and the second area with different colors.

The gloss calculation unit may calculate the gloss by dividing the area of the first region by the thickness of the hair.

The glossiness calculation unit may calculate the glossiness by dividing the sum of pixel values of the first region by the thickness of the hair.

In a method for diagnosing hair gloss according to another embodiment of the present invention, an image of the hair is captured by matching a laser light source and a focal point on a detection pinhole, arranging the hair on the focal plane, and using light passing through or reflecting the hair. A photographing step, an image processing step of dividing the captured hair image into a first region where light is reflected and a second region where light is not reflected, and glossiness of hair calculated through the area of the first region It also includes a calculation step.

In the hair photographing step, an image of hair at a predetermined position from the root of one hair may be captured.

In the image processing step, the first region and the second region are converted into pixel images of different colors, and in the gloss calculation step, the hair gloss is obtained by dividing the sum of pixel values of the first region by the hair thickness. can be calculated

In order to diagnose the hair gloss due to hair aging, the glossiness of the hair at a predetermined position from the hair root of the hair can be calculated.

In order to diagnose the glossiness of the hair by hair management, the glossiness of the hair at a predetermined position at the end opposite to the hair root of the hair may be calculated.

To diagnose hair glossiness by the composition, the difference in hair glossiness before and after application of the composition or the rate of change thereof can be calculated.

According to an embodiment of the present invention, it is possible to provide a hair gloss diagnosis system and method capable of quantifying and evaluating glossiness and providing highly reliable results.

In addition, according to an embodiment of the present invention, it is possible to provide a hair gloss diagnosis system and method capable of diagnosing the glossiness of hair of various colors and obtaining constant results regardless of the skill level of the measurer.

1 is a schematic block diagram of a hair gloss diagnosis system according to an embodiment of the present invention.
2 is a flowchart schematically illustrating a method for diagnosing hair gloss according to an embodiment of the present invention.
3 shows a hair image (a) captured according to an embodiment of the present invention and a hair image (b) processed into a first area and a second area.
Figure 4 is a graph showing the correlation between hair gloss and hair roughness measured according to the present invention.
5 is a table comparing hair gloss due to hair aging according to an embodiment of the present invention.
6 is a hair image before and after application of a composition according to an embodiment of the present invention.

The present embodiments can apply various transformations and have various embodiments, and will be described in detail by exemplifying specific embodiments in the drawings. However, this is not intended to limit the scope to specific embodiments, and should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of technology disclosed. In describing the embodiments, if it is determined that a detailed description of a related known technology may obscure the subject matter, the detailed description will be omitted.

In an embodiment, a 'module' or 'unit' performs at least one function or operation, and may be implemented with hardware or software, or a combination of hardware and software. In addition, a plurality of 'modules' or a plurality of 'units' are integrated into at least one module and implemented by at least one processor (not shown), except for 'modules' or 'units' that need to be implemented with specific hardware. It can be.

Hereinafter, the embodiment will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are assigned the same reference numerals, and overlapping descriptions thereof will be omitted.

1 is a block diagram schematically showing a hair diagnosis system according to an embodiment of the present invention. Referring to FIG. 1, the hair diagnosis system according to an embodiment of the present invention includes a laser light source and a focal point on a detection pinhole. and a hair photographing unit 10 that captures an image of the hair through light passing through or reflected by arranging the hair on the focal plane, and a first region where the light is reflected in the photographed image of the hair. and an image processing unit 20 that divides the hair into a second region in which light is not reflected, and a gloss calculation unit 30 that calculates the glossiness of the hair based on the area of the first region.

The hair photographing unit 10 uses light from a point source with a laser as a light source to match the focus of the sample and the focus of the image of the detection pinhole so that parts other than the focal plane do not appear in the image to measure the sample is formed to According to one embodiment of the present invention, a laser scanning confocal microscope (CLSM) may be used as the hair photographing unit 10 .

Since the hair photographing unit 10 uses a confocal laser scanning microscope to measure hair (sample) in the same manner as above, the resolution is about 1.4 times higher than that of conventional fluorescence microscopes. In addition, by installing a pinhole on the optical axis, it is possible to select a light beam that passes through hair or is reflected from a sample, and if it is out of focus, it is possible to maximize resolution by not passing through the pinhole. Accordingly, even minute changes in reflected light from one hair strand can be measured.

In addition, the internal structure can be visualized by scanning to the inside of the hair in a single layer, and the 2D image can be reconstructed into a 3D stereoscopic image through a computer software program. Accordingly, cross-sectional images that could not be observed with a general optical microscope can be observed, and in the case of bulky structures, images in a desired direction can be obtained through a microscope.

Therefore, according to an embodiment of the present invention, physical characteristics such as a cross-sectional curve, a roughness curve, a wavelength curve, and a surface area of the hair can be digitized and analyzed through the hair photographing unit 10 .

The hair photographing unit 10 may acquire a hair image through one strand of hair. Accordingly, the glossiness of the hair can be measured with just one strand of hair, without the subject having to go directly to the photographing device. Of course, it is possible to analyze glossiness through hair image measurement for one or more hairs.

In this specification, the term "glossiness" indicates the degree of light reflection per unit area in hair or in a predetermined area of hair. More specifically, it means how much light can be reflected with respect to a predetermined light source in the hair to be tested. As the amount of reflected light increases, the hair looks shiny, so the gloss or gloss of the hair can be used as a criterion for evaluating

The hair photographing unit 10 may capture a hair image of a predetermined position from the hair root in the hair. For accurate comparison and analysis, a hair image of a predetermined position from the hair root may be captured and analyzed.

Specifically, the hair photographing unit 10 may measure a hair image at a predetermined position from the hair root, for example, at a position approximately 3 to 5 cm from the hair root in order to measure hair aging. This is because the hair closer to the hair root is less affected by other environmental factors.

In addition, in order to measure hair gloss by hair management according to lifestyle, a hair image may be measured at a predetermined position at the opposite end of the hair root, for example, at a position approximately 5 to 7 cm from the opposite end of the hair root. This is because the state of the tip of the hair is a part greatly affected by the external environment.

The image processing unit 20 divides the captured hair image into a first area where the light is reflected and a second area where the light is not reflected. 3 shows a hair image (a) measured by the hair photographing unit 10 and a hair image (b) divided into a first region and a second region by the image processing unit 20 according to an embodiment of the present invention. it represents

A pixel image divided into a first area and a second area may be calculated by the image processing unit 20 . Accordingly, the area of the region caused by the reflected light may be calculated by calculating the sum of pixel values.

According to an embodiment of the present invention, the image processing unit 20 may be implemented as an image conversion program, but is not necessarily limited thereto, but may be implemented as Image-Pro, Photoshop, or the like.

Referring to (a) of FIG. 3 , a hair image measured by the hair photographing unit 10 is an image of transmitted light or reflected light of one hair strand. Referring to (b) of FIG. 3 , the image processing unit 20 separates only the reflected light and separates the first region by the reflected light and the remaining second region, that is, the first region in the hair image to calculate the glossiness. It can be distinguished as the second area excluded. The first area and the second area may be distinguished by different colors. In the case of (b) of FIG. 3 , the first area is black and the second area is white, but is not necessarily limited thereto.

In addition, the glossiness of the hair may be calculated by calculating the area of the first region in the glossiness calculating unit 30 . More specifically, the gloss calculation unit 30 derives the area of the first region at a predetermined location or for a unit length of hair, for example, and divides it by the thickness (d) of the hair to obtain glossiness. figure can be calculated. More specifically, the glossiness may be quantitatively calculated by obtaining the area of the first region by summing the pixel values and dividing the area by the thickness (d) of the hair.

Since the area of the first region may increase as the thickness of the hair increases, for accurate analysis, the ratio of the area of the first region per unit thickness may be obtained by dividing the value by the thickness of the hair to calculate and compare the glossiness.

According to one embodiment of the present invention, by using the hair photographing unit 10 such as a confocal laser scanning microscope, the area of the part reflected from the hair by the laser is quantified through image conversion to derive the glossiness, so it is accurate and , it is possible to derive repeatable results. In addition, in the case of a confocal laser scanning microscope, only the light of a light source with the same focus can be passed through and analyzed by passing only the light source of the wavelength of the desired band, so even if the color is different, it is possible to analyze the reflected light of the wavelength of the desired band, so it is possible to analyze various hair colors It can also produce accurate and reliable results.

2 is a flowchart of a method for diagnosing hair gloss according to another embodiment of the present invention. The hair gloss diagnosis method of the present invention may be performed by applying the above-described hair gloss diagnosis system, and the description of the hair gloss diagnosis system described above may also be applied to the hair gloss diagnosis method.

Referring to FIG. 2, in the method for diagnosing hair luster according to an embodiment of the present invention, a laser light source and a focal point on a detection pinhole are matched, hair is placed on a focal plane, and the hair is imaged through light reflected from the hair. A hair photographing step (S10) of photographing hair, an image processing step (S20) of dividing the image of the photographed hair into a first region in which light is reflected and a second region in which light is not reflected (S20), and the area of the first region It includes a gloss calculation step (S30) of calculating the glossiness of the hair through.

In the hair photographing step (S10), an image of hair at a predetermined position from the root of one strand of hair may be captured. Conventionally, since the entire head is photographed, the subject must visit the photographing location, but according to an embodiment of the present invention, the glossiness of the hair can be measured only by analyzing one hair strand.

Specifically, in the image processing step (S20), the first area by reflected light reflected from the hair and the reflected light are excluded, and the second area by a light source including transmitted light is converted into pixel images of different colors. can In the gloss calculation step, the hair gloss may be calculated by dividing the sum of pixel values of the first region by the hair thickness. Here, the area of the first region may be obtained as the sum of pixel values of the first region in a hair image of a preset region of the hair, for example, a hair root at a preset position. Then, the glossiness can be calculated by dividing the area of the first region by the thickness of the hair.

In particular, in order to diagnose the hair gloss due to hair aging, the glossiness of the hair at a predetermined position from the hair root of the hair can be calculated. According to an embodiment, the hair gloss may be calculated by dividing the area of the first region by the hair thickness in the hair image from the hair root to the point approximately 3 to 5 cm. In the case of a region close to the hair root, since the influence of the external environment is small, the glossiness due to hair aging can be diagnosed by calculating the glossiness of this part.

In addition, to diagnose the glossiness of the hair by hair management, the glossiness of the hair at a predetermined position at the end opposite to the hair root of the hair can be calculated. According to an embodiment, the hair gloss may be calculated by dividing the area of the first region by the hair thickness in the hair image from the opposite end of the hair root to a point approximately 5 to 7 cm. In the case of the tip of the hair, since it is more influenced by external factors such as lifestyle habits than internal factors, the glossiness of the hair according to the hair care habit can be diagnosed by calculating the glossiness of this part.

In addition, in order to analyze the influence of lifestyle on hair, the glossiness of the region close to the hair root and the region at the end of the hair may be compared. In the case of the area close to the hair root, the part affected by the external environment is the least affected, and in the case of the hair tip, the part most affected by the external environment. can be diagnosed.

In addition, in order to diagnose hair glossiness by the composition, the difference in hair glossiness before and after application of the composition or the rate of change thereof can be calculated. By calculating the difference or rate of change in gloss value before and after application of the composition, the change in hair gloss caused by the composition can be compared.

In order to analyze the effect of the composition on the shine or gloss of the hair, for example, a method of expanding and analyzing the surface of the hair, such as the roughness of the hair, may be used. However, although there is a correlation between the roughness of the hair and the gloss of the hair, a high value of the roughness of the hair does not always mean that the hair is not shiny.

It is difficult to evaluate whether the hair is shiny with only the roughness value of the hair. This is because even when the roughness of the hair is uniform throughout the hair, the hair may rather be shiny, and when the roughness of the hair is not uniform throughout the hair, the hair does not become shiny. That is, it is insufficient to analyze whether or not hair is glossy simply by comparing only the roughness value of the hair.

In addition, due to the nature of the hair composition, the roughness of the hair does not change immediately even when applied to the hair. In order to measure the change in hair roughness by the composition, the effect can be derived only by analyzing the effect after applying the composition to the hair for a long time.

However, in the case of a hair composition, if there is a change in hair gloss before/after application, the value of reflected light changes. Therefore, when the hair gloss diagnosis system and method of the present invention are applied, the change in hair gloss or gloss by the composition is diagnosed. can pay

In the case of the present invention, since a minute change in reflected light can be measured even for one strand of hair, the change in the value of this reflected light can be measured to compare and analyze the change in hair gloss by the composition.

4 is a graph showing a correlation between hair gloss and hair roughness measured by the gloss diagnosis system according to an embodiment of the present invention.

The smaller the hair roughness value, the smoother the hair, and therefore, the glossier the hair. That is, there is a correlation between the luster of the hair and the roughness of the hair. However, since a high roughness value does not mean that the hair has no luster, it is difficult to analyze the gloss of the hair only with the roughness value.

Referring to FIG. 4 , hair gloss and roughness measured by the hair gloss diagnosis system according to an embodiment of the present invention may be compared with respect to hair. It can be seen that there is a correlation between hair gloss and hair roughness (R ² = -0.303). In particular, it can be seen that the smaller the roughness value of the hair, the more points are distributed in the vicinity of the straight line. As the hair becomes smoother, the glossiness of the hair increases.

5 is a graph showing hair images according to gloss values according to hair aging according to an embodiment of the present invention. It was photographed through a confocal laser scanning microscope, an image of 1024 × 1024 pixels was used, and an image size of 256 × 257 μm was analyzed. Specific gloss values corresponding to the graph of FIG. 5 are shown in Table 1 below.

age low gloss high gloss 25 - 35 years old 65302 pixels/㎛ 98473 pixels/㎛ 55 - 65 years old 45832 pixels/㎛ 67549 pixels/㎛

Referring to [Table 1] and FIG. 5, it was confirmed that the gloss of the hair was reduced when the gloss value was low, and the gloss of the hair was excellent when the gloss value was high. In addition, the gloss values of the 25 to 35 year olds were greater than those of the 55 to 65 year olds, and it was confirmed that the hair gloss of the 25 to 35 year olds was better through the hair image of FIG. 5 .

6 are photographs showing hair images before and after applying a composition (Mies en Scene ^® Hair Essence) through the hair gloss diagnosis system according to an embodiment of the present invention. It was photographed through a confocal laser scanning microscope, an image of 1024 × 1024 pixels was used, and an image size of 256 × 257 μm was analyzed.

The glossiness before application of the composition was 83406 pixels/μm, and the glossiness after application was 117620 pixels/μm. It was confirmed that the glossiness increased by 41.02%, and the increase in hair gloss was confirmed in the hair image before (a) and after (b) of application in FIG. 6 .

According to various embodiments of the present invention, it is possible to provide a system and method for diagnosing hair gloss that is very simple and convenient because the subject only needs to remove and analyze one strand of hair without having to go directly to the measuring device.

In addition, according to various embodiments of the present invention, it is possible to provide a hair gloss diagnosis system and method capable of precise, accurate, and consistent analysis since it is possible to measure the minute change in reflected light of one hair strand.

10: hair shooting unit
20: image processing unit
30: gloss calculation unit

Claims (11)

a hair photographing unit that aligns a laser light source and a focal point on a detection pinhole, places a strand of hair on a focal plane, and captures an image of the single strand of hair through light passing through or reflecting the single strand of hair;
In the image, the first region corresponding to the hair root portion of the hair is divided into a first sub region in which the light is reflected and a second sub region in which the light is not reflected, and at the tip of the hair in the direction opposite to the hair root an image processor dividing the corresponding second area into a third sub area where the light is reflected and a fourth sub area where the light is not reflected;
The first glossiness of the hair root portion is calculated by dividing the area of the first sub-region by the thickness of the single strand of hair, and dividing the area of the third sub-region by the thickness of the single strand of hair to calculate the tip of the hair a glossiness calculation unit for calculating a second glossiness of the portion; and
and a diagnosis unit configured to compare the first glossiness and the second glossiness to diagnose a third glossiness according to a lifestyle of the hair.
According to claim 1,
The hair gloss diagnosis system, characterized in that for obtaining an image of the hair through a confocal laser scanning microscope (CLSM).
According to claim 1,
The image processor calculates a first pixel image by distinguishing the first sub-region and the second sub-region with different colors, and distinguishes the third sub-region and the fourth sub-region with different colors to obtain a pixel image. A hair gloss diagnosis system characterized in that it produces a 2-pixel image.
delete According to claim 1,
The glossiness calculator calculates a first glossiness by dividing the sum of pixel values of the first sub-region by the thickness of the strand of hair, and calculates the sum of pixel values of the third sub-region by the thickness of the strand of hair. The hair gloss diagnosis system, characterized in that the second gloss is calculated by dividing by the thickness of.
A hair photographing step of aligning a laser light source and a focal point on a detection pinhole, placing a strand of hair on a focal plane, and photographing an image of the strand of hair through light passing through or reflecting the strand of hair;
In the image, a first image processing step of dividing a first region corresponding to the hair root portion into a first sub region in which the light is reflected and a second sub region in which the light is not reflected;
a second image processing step of dividing a second region corresponding to the tip of the hair in a direction opposite to the hair root into a third sub region in which the light is reflected and a fourth sub region in which the light is not reflected;
a first gloss calculation step of calculating a first glossiness of the hair root portion by dividing the area of the first sub-region by the thickness of the single strand of hair;
a second glossiness calculation step of dividing the area of the third sub-region by the thickness of the single strand of hair to calculate a second glossiness of the tip of the hair; and
and a third glossiness diagnosis step of comparing the first glossiness and the second glossiness and diagnosing a third glossiness according to lifestyle with respect to the hair.
delete According to claim 6,
The first image processing step includes converting the first sub-region and the second sub-region into first pixel images of different colors;
The second image processing step includes converting the third sub-region and the fourth sub-region into second pixel images of different colors;
The step of calculating the first glossiness includes calculating the first glossiness by dividing the sum of pixel values of the first sub-region by the thickness of the single strand of hair;
The method for diagnosing hair gloss of claim 1 , wherein the step of calculating the second glossiness comprises calculating the second glossiness by dividing the sum of pixel values of the third sub-region by the thickness of the single strand of hair.
According to claim 6,
The first gloss calculation step,
The method for diagnosing hair gloss, characterized in that for calculating the first gloss due to hair aging at a predetermined position from the hair root of the hair.
According to claim 6,
In the second gloss calculation step,
The method for diagnosing hair gloss, characterized in that for calculating the second glossiness by hair management at a predetermined position at an end opposite to the hair root. delete

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