KR20190023226A - Measuring Device and Measuring Method of Coating Properties of Screening Agent - Google Patents

Abstract

The present invention relates to an apparatus, a method and a system for measuring a coating property of an ultraviolet screening agent, and an apparatus for measuring the coating properties of an ultraviolet screening agent according to an embodiment of the present invention includes an image measuring unit ; A brightness characteristic calculating unit for calculating a brightness characteristic value of a region of interest in the skin image measured by the image measuring unit; And a coating property calculation unit for calculating a coating property of the region of interest based on the brightness characteristic value of the region of interest.

Description

TECHNICAL FIELD [0001] The present invention relates to a measuring apparatus and a measuring method for coating properties of a UV-

TECHNICAL FIELD The present invention relates to an apparatus and method for measuring a coating property of an ultraviolet screening agent and, more particularly, to a coating property measuring apparatus capable of calculating coating characteristics of an ultraviolet screening agent in an area of interest using ultraviolet images based on quantitative data, And a measurement method.

There has been a method of measuring the weight of a cosmetic before and after use of the cosmetic and determining the amount of the cosmetic by the difference in order to determine the application amount or the application concentration of the cosmetic. In addition, there was a method of displaying a specific area and measuring a coating concentration by applying a certain amount to only the area. However, there is a problem that the application concentration of a specific specific site can not be quantified.

In the case of general cosmetics having a color, since the color change appears on the applied region, it is possible to judge how well the applied region and the unexposed region are coated, but in the case of the sunscreen agent, the color of the cosmetics is proportional It is difficult to judge the application amount or the application concentration by color change.

Therefore, as in Patent Document 1, in the case of an ultraviolet screening agent, a method of measuring the application state of the ultraviolet screening agent by photographing a skin image by irradiating ultraviolet rays is used.

However, in such a case, it is possible to evaluate whether or not the portion of interest is coated, whether the ultraviolet screening agent is applied or not, but there is a problem that it is impossible to measure the coating properties such as coating strength, coating concentration, or coating amount.

JP4707332 B2

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and method for measuring the coating properties of an ultraviolet screening agent which can produce the same result regardless of the skin color of a person or the type of ultraviolet screening agent.

An apparatus for measuring an application characteristic of an ultraviolet screening agent according to an embodiment of the present invention includes an image measuring unit for measuring an ultraviolet image of a skin applied with an ultraviolet screening agent; A brightness characteristic calculating unit for calculating a brightness characteristic value of a region of interest in the skin image measured by the image measuring unit; And a coating property calculation unit for calculating a coating property of the region of interest based on the brightness characteristic value of the region of interest.

The ultraviolet screening agent may be an organic ultraviolet screening agent.

The brightness characteristic value is a brightness value (L) of the ROI, and the coating amount or the application concentration of the ROI can be calculated based on the brightness value (L).

The coating amount calculating unit may calculate the coating amount or the coating concentration corresponding to the calculated brightness (L) value based on the relation of the brightness (L) value depending on the coating concentration or the coating amount of the ultraviolet screening agent to be tested.

The above relational expression can be expressed by [Equation 1].

[Formula 1]

L = 77.53x ² - 123.65x + 71.498

Here, L is the brightness (L) value of the region of interest, and x (mg / cm ² ) is the application concentration.

Wherein the brightness characteristic calculating unit calculates a brightness value (L) of one or more regions of interest, and the coating characteristic calculating unit calculates a brightness value (L) of the at least one region of interest As the application region, a region of interest having a brightness (L) value less than the preset value can be divided into application regions.

The brightness characteristic value may be a deviation of the brightness (L) of the ROI, and may quantitatively calculate the coating uniformity of the ROI based on the deviation of the brightness (L).

Wherein the brightness characteristic calculating unit calculates a brightness (L) deviation of at least one region of interest, and the coating characteristic calculating unit calculates an area of interest having a deviation of a brightness (L) As a non-uniform application region, a region of interest having a deviation of brightness (L) less than the preset value can be divided into a uniform application region.

Wherein the image measuring unit measures an image of the skin applied with the ultraviolet screening agent over time and the brightness characteristic calculating unit calculates a brightness characteristic value of a region of interest with respect to time, Based on the brightness characteristic value of the region of interest according to the amount of the coating material, the required application period or the required application period for the predetermined application amount may be calculated.

According to another embodiment of the present invention, there is provided a method of measuring a coating property of an ultraviolet screening agent, comprising: an image measuring step of measuring an ultraviolet image of a skin applied with an ultraviolet screening agent; A brightness characteristic calculating step of calculating a brightness characteristic value of a region of interest in the skin image measured by the image measuring unit; And a coating property calculating step of calculating a coating property of the region of interest based on the brightness characteristic value of the region of interest.

An image measuring unit for measuring an ultraviolet image of the skin to which the ultraviolet screening agent is applied; An image analyzer for calculating a coating characteristic of the region of interest based on a brightness characteristic value of the region of interest in the skin image measured by the image measuring unit; And a display unit displaying the coating characteristics calculated by the image analysis unit.

The display unit may be connected to the image analysis unit to provide at least one of a measured skin image, a coating property value, and a coating distribution map.

The display unit may be implemented on an electronic mirror or a mobile communication terminal.

And an input unit connected to the image analysis unit and providing at least one of user information, environment information, and cosmetic information.

According to one embodiment of the present invention, since the brightness of the image can be analyzed to determine the application concentration of a specific site and only the characteristics of the organic ultraviolet screening agent that absorbs ultraviolet light are related, It is possible to provide an apparatus and a method for measuring a coating property of an ultraviolet screening agent that can produce the same result regardless of the above.

In addition, it is possible to separate an image at a specific concentration or more by filtering an image by designating a specific concentration, and it is possible to immediately confirm the application concentration of a specific region with only the image without specifying a specific amount or range of cosmetics containing the ultraviolet screening agent The present invention can provide an apparatus and method for measuring a coating property of an ultraviolet screening agent.

1 is a schematic view showing an apparatus for measuring a coating property of an ultraviolet screening agent according to an embodiment of the present invention.
2 is a schematic diagram illustrating an image measurement unit and an image analysis unit according to an embodiment of the present invention.
3 is a photograph showing an application image according to an application concentration of a measured ultraviolet screening agent according to an embodiment of the present invention.
4 is a graph showing a change in brightness (L) value according to the application concentration of the ultraviolet screening agent of FIG.
5 is a view for explaining the uniformity of application of the ultraviolet screening agent.
6 is a flowchart schematically showing a method of measuring a coating property of an ultraviolet screening agent according to an embodiment of the present invention.
7 is a schematic view showing a system for measuring a coating property of an ultraviolet screening agent according to an embodiment of the present invention.
FIG. 8 is a view illustrating a system for measuring the characteristics of UV-screening agent application according to an embodiment of the present invention.
FIG. 9 is a photograph showing an uncoated area of the ultraviolet light blocking agent measured according to an embodiment of the present invention and a coverage area of more than a predetermined coating amount.

These embodiments are capable of various modifications and various embodiments, and specific embodiments will be described in detail with reference to the drawings. It is to be understood, however, that it is not intended to limit the scope of the specific embodiments but includes all transformations, equivalents, and alternatives falling within the spirit and scope of the disclosure disclosed. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the embodiments of the present invention,

In the embodiment, 'module' or 'sub' performs at least one function or operation, and may be implemented in hardware or software, or a combination of hardware and software. In addition, a plurality of 'modules' or a plurality of 'parts' may be integrated into at least one module except for 'module' or 'module' which need to be implemented by specific hardware, and implemented by at least one processor (not shown) .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Referring to the accompanying drawings, the same or corresponding elements are denoted by the same reference numerals, and a duplicate description thereof will be omitted.

1 is a schematic view showing an apparatus for measuring a coating property of an ultraviolet screening agent according to an embodiment of the present invention. 2 is a schematic diagram illustrating an image measurement unit and an image analysis unit according to an embodiment of the present invention.

In the case of an ultraviolet screening agent, it is difficult to grasp the application concentration by the color change because the color change does not appear depending on the application amount. However, in the case of an ultraviolet screening agent (or a cosmetic composition containing an ultraviolet screening agent), in particular, in the case of an organic ultraviolet screening agent, the ultraviolet light is absorbed and reacted.

In the case of the present invention, it is possible to determine the application amount and the application concentration of an ultraviolet screening agent (or a cosmetic composition containing an ultraviolet screening agent) by using this property of the ultraviolet screening agent. That is, the application characteristics of the ultraviolet screening agent can be provided as quantitative data based on the correlation between the brightness (L) value on the ultraviolet image of the skin coated with the ultraviolet screening agent and the application concentration or the application amount. More specifically, the application properties of the organic ultraviolet screening agent can be measured using an ultraviolet image.

As used herein, the term " ultraviolet screening agent " refers to an ultraviolet screening agent itself or a cosmetic composition containing the same.

Referring to FIGS. 1 and 2, an apparatus for measuring an application characteristic of an ultraviolet screening agent according to an embodiment of the present invention includes an image measuring unit 20 for measuring an ultraviolet image of a skin applied with an ultraviolet screening agent or a cosmetic containing the same, And an image analysis unit 30 for analyzing the skin image measured by the image measurement unit.

The image measuring unit 20 can measure an ultraviolet image by the ultraviolet light source 10 of the skin S applied with the ultraviolet screening agent T to measure the coating properties. According to one embodiment, a light shielding film (not shown) for shielding a light source other than the ultraviolet light source 10 may be further included to reduce noise caused by other light sources.

In the case of an organic sunscreen agent, when the ultraviolet light is irradiated, the image is changed to black when the ultraviolet light is absorbed and the skin image to be tested is measured. UVA is highly permeable and can not be completely blocked by the thickness of the sunscreen if it is applied. This is a characteristic different from that of the weak UVB. When the UVG light source is used to photograph regions having different application concentrations, the intensity of the black color in the ultraviolet image is strongly proportional to the application concentration.

In clinical trials of real sunscreens, a strong UVA-blocking agent has an approximately 16-fold better blocking effect than a non-applied area, but can cause a blackening reaction on the skin. That is, UVA permeability can be weakened by ultraviolet light, but it is difficult to completely block UVA.

Accordingly, ultraviolet light of the skin to be a target can be measured using the ultraviolet light source 10, according to one embodiment, a UVA light source. However, the present invention is not limited thereto, and it is needless to say that both the UVA light source and the UVB light source may be applied.

The skin S to which the ultraviolet screening agent (T) to be tested is applied in this specification can be applied not only to the skin of the subject but also to the plate to which the artificial skin or the ultraviolet screening agent can be applied. This is because the amount of ultraviolet light absorbed by the ultraviolet screening agent is calculated based on the brightness (L) value by the ultraviolet absorbing ability of the ultraviolet screening agent (T). That is, in the present specification, the term "skin (S)" is a concept including not only the actual skin of the subject but also the object corresponding to the skin.

The image analyzer 30 includes a brightness characteristic calculator 31 for calculating a brightness characteristic value of the ROI from the ultraviolet image measured by the image measuring unit, And a coating characteristic calculating unit 33 for calculating a coating characteristic.

Since the panty image analyzing unit 30 calculates the application characteristic of the region of interest based on the brightness (L) value of the ultraviolet image, the pungent image analyzing unit 30 absorbs ultraviolet rays of the organic ultraviolet screening agent regardless of the skin color of the skin to be tested, Only properties can be measured. Accordingly, the same result with high repeatability can be obtained irrespective of the skin color of the skin to be tested or the type of ultraviolet screening agent.

The brightness characteristic calculating unit 31 may calculate a brightness characteristic value of the ROI from the ultraviolet image measured by the image measuring unit 20. [ The area of interest is the area on the skin that is measured. The ultraviolet light can be irradiated to set one or more regions of interest in the measured image.

In the present specification, the term " brightness characteristic " means a value based on the brightness (L) value in the skin image by the ultraviolet light source. For example, values of a brightness (L) value of a region of interest, an average value of brightness (L), a deviation value of brightness (L), and the like.

According to one embodiment, the brightness characteristic value may be a brightness (L) value within a predetermined point or a predetermined area, and an average value or standard deviation value of a brightness (L) value within a predetermined area .

The coating characteristic calculating unit 33 can calculate the coating characteristic of the region of interest based on the brightness characteristic value of the region of interest.

As used herein, the " application property " is a characteristic related to the application amount of a cosmetic composition containing an ultraviolet screening agent or an ultraviolet screening agent, and may be a quantified value including an application amount, an application concentration, an application distribution chart, have.

According to an exemplary embodiment, when the brightness characteristic value is a brightness (L) value of a region of interest, the coating characteristic calculating unit 33 may calculate a coating amount or a coating concentration based on the brightness (L) value. Here, the value of the brightness L of the ROI corresponds to the brightness L of the ROI when the ROI is a point. If the ROI is an area of interest, Lt; / RTI >

Specifically, in the coating property calculating unit 33, the coating amount or the coating concentration (concentration) corresponding to the brightness (L) value calculated based on the relational expression of the brightness (L) value according to the coating concentration or the coating amount of the UV- Can be calculated.

3 is a photograph showing an application image according to an application amount of an ultraviolet screening agent according to an embodiment of the present invention.

(L) value of the regions of interest is measured while increasing the application concentration of the organic UV blocking agent from the first region of interest (R1) to the eighth region of interest (R8). The value of the brightness (L) [Table 1].

Area of interest Application concentration (mg / cm ² ) Brightness (L) Uncoated area 0 73.82 R1 0.1 53.27 R2 0.2 52.56 R3 0.3 46.29 R4 0.4 33.51 R5 0.5 26.39 R6 0.6 23.65 R7 0.7 24.96 R8 0.8 22.05

Referring to Table 1, it can be seen that the organic sunscreen agent has a correlation that the brightness change increases proportionally depending on the concentration. That is, in the case of the organic ultraviolet screening agent, the value of the brightness (L) changes according to the ultraviolet absorptivity due to the property of absorbing the ultraviolet ray, and the coating concentration or the coating amount can be confirmed based on such characteristics.

4 is a graph showing a change in brightness (L) value according to the application concentration of the ultraviolet screening agent of FIG.

Referring to FIG. 4, the brightness (L) value according to the application concentration of the ultraviolet screening agent decreases with a constant correlation according to the concentration. More specifically, when the image is photographed using an ultraviolet light source at a coating concentration of the ultraviolet screening agent in the range of about 0.1 to 0.8 mg / cm ² , it can be confirmed that the brightness L value is decreased depending on the concentration.

According to one embodiment, the relation between the application concentration of the ultraviolet screening agent and the brightness can be expressed in a quadratic form as shown in [Equation 1].

[Formula 1]

L = 77.53x ² - 123.65x + 71.498

Here, L is the brightness (L) value of the region of interest, and x (mg / cm ² ) is the application concentration. In the graph, the correlation coefficient (R ² ) value for the regression equation is 0.9627. That is, it can be seen that the correlation coefficient (R ² ) is 0.96 or more, which is highly correlated.

That is, the coating concentration x of the corresponding region can be calculated according to the brightness (L) value of the ROI derived from the measured ultraviolet image. For example, when the brightness (L) value of the region of interest is 33.51, the brightness (L) value is input to the above formula 1 and the coating concentration (x) is 0.4 mg / cm ² .

On the other hand, the ultraviolet screening agent may have a different ultraviolet screening index depending on the product. For example, it may have a different SPF index or a PA index. These indexes indicate how much the amount of ultraviolet light reaches the skin when applied with the sunscreen.

Therefore, according to one embodiment of the present invention, the SPF index or the PA index can be calculated by calculating a reduction amount of the brightness (L) value according to the predetermined coating concentration of the ultraviolet screening agent on the skin that is not properly used. That is, when the application concentration or the application amount is known, the application property including the SPF index or the PA index may be derived.

Meanwhile, referring to FIG. 4, the ultraviolet screening agent does not decrease in brightness continuously as the concentration increases, and does not become darker when it goes above a certain concentration. That is, the ultraviolet screening agent no longer increases the ultraviolet ray absorption rate even when the application amount is increased according to the inherent SPF index or PA index.

Therefore, if there is a correlation between the application concentration and the brightness or if the graph shows a known ultraviolet screening agent, the correlation or graph may be corrected by comparing the SPF index or the PA index of the ultraviolet screening agent to be tested with the ultraviolet screening agent having a known correlation.

Since the coating characteristics are calculated on the basis of the brightness (L) value of the region of interest in the ultraviolet image, ultraviolet image filtering can be performed based on a predetermined brightness (L) value or a deviation of the brightness (L) It is also possible to separate the regions based on the concentration, the specific application amount, and the specific application distribution map and provide them as images.

Specifically, the brightness characteristic calculating unit 31 calculates a brightness (L) value of one or more regions of interest, and the coating characteristic calculating unit 33 sets a preset brightness (L) Areas of interest can be divided into application areas and non-application areas, respectively.

A region of interest having a brightness (L) value of a predetermined value or more among the one or more regions of interest may be divided into an uncoated region and a region of interest having a brightness (L) value of less than the predetermined value may be divided into a coated region.

The coating property calculating unit 33 identifies whether each of the regions of interest is a coating region or an uncoated region in the measured ultraviolet image and displays the image on an image display unit 50 to be described later, Can be provided.

In the ultraviolet image not subjected to the above-described image processing, the region where the ultraviolet screening agent is applied is displayed in black due to the property that the ultraviolet screening agent absorbs the UV. In this case, only the portion having the black color and the portion having no black color are considered, and the presence or absence of the UV light blocking agent is checked.

However, according to one embodiment of the present invention, dividing a region having a value of a value equal to or greater than a preset value into a region having a value smaller than a predetermined value is different from simply checking whether or not the ultraviolet screening agent is coated, depending on the intensity of light (L) . That is, a region having a brightness (L) strength of less than a preset value means a region to which the ultraviolet screening agent is applied at a coating amount or a coating concentration corresponding thereto. Therefore, only the region having the desired coating density can be identified according to the brightness intensity.

For example, the application amount or the application concentration of the ultraviolet ray blocking agent required for a blade having a high ultraviolet index and a blade having a low ultraviolet index may be different. According to an embodiment of the present invention, a preset value can be set differently according to the amount of required ultraviolet screening agent, and a region where the ultraviolet screening agent is not applied at a necessary amount or coating concentration is referred to as an uncoated region, Or a region where the ultraviolet screening agent is applied at the application concentration can be classified into the application concentration. That is, according to the present invention, it can be confirmed whether or not the sunscreen agent has been sufficiently applied.

According to another embodiment, the brightness characteristic value may be a deviation of brightness (L) of the ROI, and quantitatively calculate a coating uniformity of the ROI based on the deviation of the brightness (L). Further, it can be divided into a non-uniform coating region and a uniform coating region by filtering based on a deviation of a preset brightness (L).

FIG. 5 is a view showing the uniformity of application measured according to an embodiment of the present invention. FIG.

Fig. 5 (a) is a cosmetic composition having poor wettability, and Fig. 9 (b) is a cosmetic composition having good wettability. The cosmetic material is a cosmetic material containing an ultraviolet screening agent or an ultraviolet screening agent.

When only an ultraviolet image is used, it is only calculated depending on the presence or absence of application regardless of the application strength (or concentration) of the cosmetic. In addition, in the case of using visible light, when the ultraviolet screening agent or cosmetic material is colored, the penetration power is weak and most of it is absorbed. Therefore, it is difficult for the intensity of light to change with the application concentration (that is, the thickness of the portion coated with the cosmetic material) , It is possible to confirm only the presence or absence of application of the cosmetic material.

However, according to an embodiment of the present invention, the brightness characteristic calculating unit 31 calculates a deviation of the brightness (L) of one or more regions of interest, and the coating characteristic calculating unit 33 calculates the brightness ), The uniformity of application of the cosmetic material can be exhibited.

5 (a) and 5 (b), the uniformity of coating is calculated by applying a deviation value of brightness (L) according to ultraviolet absorption of the ultraviolet screening agent. That is, the larger the deviation of the brightness L is, the more uniformly the coating is applied, and the less the deviation is, the more uniformly the coating is applied. Therefore, the uniformity of coating can be provided as quantitative data according to the deviation value of the brightness (L).

Specifically, when the deviation values of the brightness L of the ROI R21 and the ROI R22 of FIG. 5A are calculated, the ROI 21 of the ROI of FIG. Is larger. Accordingly, it is possible to identify the non-uniform application region through quantitative data without directly confirming the image.

According to an embodiment, a region of interest having a deviation of brightness (L) of more than a predetermined value among at least one region of interest is referred to as a non-uniform coating region, and a region of interest having a variation of brightness (L) May be divided into a uniform application region and provided as an image. Thereby, the user can promptly confirm the uniformly coated region and the nonuniformly coated region.

According to the present invention, the uniformity of the coating can be confirmed even on the area coated with the ultraviolet screening agent, because it is based on the brightness intensity, unlike the ultraviolet image distinguishing only the presence or absence of coating. In addition, depending on the color of the sunscreen itself or the color of the skin, visible light may give different results. However, since ultraviolet light is used to measure the intensity of light intensity according to the absorbance, Can be derived.

According to another embodiment of the present invention, the image measuring unit 20 measures an image of the skin applied with the ultraviolet screening agent over time, and the brightness characteristic calculating unit 31 calculates a brightness characteristic value The coating characteristic calculating unit 33 can calculate the necessary coating period for the required additional coating amount or predetermined coating amount based on the time based on the brightness characteristic value of the region of interest with time.

Ultraviolet light shielding agents may deteriorate in UV protection over time. In other words, the duration may vary depending on the sunscreen itself. Accordingly, the ultraviolet absorptivity of the ultraviolet screening agent over time can be confirmed by checking the brightness (L) value with time.

It is possible to confirm the amount of the ultraviolet screening agent applied or the concentration of the ultraviolet screening agent required to have a desired ultraviolet ray absorption rate by checking the ultraviolet ray absorption rate with time. Further, the time point at which the ultraviolet absorptivity falls below the desired ultraviolet absorptivity may be set to a time point at which the redeposition is required, so that the application period and / or the additional application amount (or application concentration) can be calculated.

FIG. 6 is a flow chart schematically showing a method of measuring a coating property of an ultraviolet screening agent according to an embodiment of the present invention.

According to one embodiment of the present invention, the method for measuring the coating properties of the ultraviolet screening agent can be performed using the coating properties measuring apparatus described above, and the content of the coating properties measuring apparatus described above is also applied to the coating properties measuring method. The opposite is true.

Referring to FIG. 6, a method of measuring the application characteristics of an ultraviolet screening agent according to another embodiment of the present invention includes: an image measuring step (S10) of measuring an ultraviolet image of skin applied with an ultraviolet screening agent; A brightness characteristic calculating step (S20) of calculating a brightness characteristic value of a region of interest in the skin image measured by the image measuring unit; And a coating characteristic calculating step (S30) of calculating a coating characteristic of the region of interest based on the brightness characteristic value of the region of interest.

The pretreatment step for measuring the application characteristics of the ultraviolet screening agent may further include measuring ultraviolet image while increasing the application amount of the ultraviolet screening agent to be tested in a predetermined size area on the skin. (L) value according to the application amount, and deriving a correlation between the application amount of the ultraviolet screening agent or the brightness (L) value according to the application concentration.

However, the present invention is not necessarily limited to this, and the correlation (L) between the coating amount or the coating concentration depending on the SPF or PA index of the ultraviolet screening agent, based on the correlation between the known coating amount or the brightness (L) (A graph or an equation).

7 is a schematic view showing a system for measuring a coating property of an ultraviolet screening agent according to an embodiment of the present invention.

According to another embodiment of the present invention, there is provided a system for measuring a coating property of an ultraviolet screening agent, comprising: an image measuring unit 20 for measuring an ultraviolet image of a skin applied with an ultraviolet screening agent; An image analyzer 30 for calculating a coating characteristic of the region of interest based on a brightness characteristic value of the region of interest in the skin image measured by the image measuring unit 20; And a display unit 40 displaying the coating characteristics calculated by the image analysis unit.

The coating property measurement system according to one embodiment of the present invention is a system including the above-described coating property measurement apparatus, and the content of the above-described coating property measurement apparatus can be included in the coating property measurement system. The opposite is true.

In the case of the coating properties measurement system, ultraviolet images of the skin can be measured to provide information on the coating characteristics to the user through the display unit 40. Specifically, the measured skin image information 51 can be displayed. Specifically, a filtered skin image may be displayed according to the measured ultraviolet image or brightness value.

Further, the application characteristic value 53 can be displayed on the display unit 40. [ Information relating to the application characteristics such as the application amount, the application concentration, the uniformity of application, the application region, the non-application region, the uniform application region, the nonuniform application region, the application period, and the required additional application amount can be expressed by the application property value 53 have. The coating property value (53) corresponding to each region of interest on the measured ultraviolet image may be displayed to increase convenience for the user.

Then, it is possible to provide image information based on the coating characteristic value 53 as in the coating distribution diagram (55). As an example, the uncoated region, the coated region, the nonuniform coated region, the uniformly coated region, and the like can be provided as image information.

The image analyzer 30 may further include an input unit connected to the image analyzer 30 to provide at least one of the user information 41, the environment information 43, and the cosmetics information 45.

The image analysis unit 30 may be configured to input information related to the application characteristics of the ultraviolet screening agent. Specifically, it may be configured to receive information necessary for calculating the application characteristics of the user information 41, environment information 43, cosmetic information 45, and the like.

The user information 41 may be input to input information such as skin region, skin color, skin condition, and age. For example, since exposure to ultraviolet rays is different depending on each part of the face, arms, legs, etc., it is possible to confirm the application amount or the application concentration of the required ultraviolet screening agent for each site.

In addition, the environment information 43 may be inputted, and weather information of the date, for example, ultraviolet ray index or the like may be input to confirm the application amount or the application concentration of the required ultraviolet screening agent.

Then, the cosmetic information 45 is inputted, and information such as the kind of the ultraviolet screening agent, the SPF index or the PA index included therein can be inputted. For example, information such as whether the ultraviolet screening agent used by the user is an inorganic ultraviolet screening agent or an organic ultraviolet screening agent may be input, and the user may be provided with a coating amount or coating concentration of the necessary ultraviolet screening agent,

The input unit 40 may be configured to input data directly by a user or may be configured to receive user information, environment information, and cosmetic information from an external server or database.

8 is a view showing a coating property measurement system according to an embodiment of the present invention.

Referring to FIG. 8, the coating property measurement system may be provided in the form of a terminal including an image measurement unit 61, an image analysis unit (not shown) and a display unit 63.

According to an embodiment of the present invention, the display unit 63 may be connected to the image analysis unit to provide at least one of a measured skin image and a coating property value.

In addition, the application property measurement system can be provided in the form of an electronic mirror or a mobile communication terminal in the form of a tablet and a mobile phone. According to one embodiment, the display unit 63 may be implemented on an electronic mirror or a mobile communication terminal. For example, the user can check the area where the required amount of ultraviolet screening agent is not applied and the necessary amount of application while viewing the electronic mirror or the mobile communication terminal.

However, the present invention is not necessarily limited thereto, and each unit may be implemented in the same device or in a different device as needed. That is, the application measuring device and the mobile communication terminal may be connected to each other so that the ultraviolet image and the application characteristic information measured by the application measuring device are displayed on the user's mobile communication terminal.

Referring to FIG. 8, according to one embodiment, a user can confirm the application characteristics while looking at the display unit 63 implemented on the so-called smart mirror type electronic mirror 60. That is, the ultraviolet image of the user's face X is measured by the image measuring unit 61 including the ultraviolet camera, and the plurality of interest areas S1, S2, S3 ) Can be identified in a region where the desired ultraviolet screening agent is not applied. In the case of the embodiment of Fig. 8, a sufficient amount of ultraviolet screening agent can be formed to display the unexposed area of interest S2 in a different color.

FIG. 9 is a photograph showing an uncoated area of the ultraviolet light blocking agent measured according to an embodiment of the present invention and a coverage area of a predetermined coating amount or more.

FIG. 9A shows the ultraviolet image measured in FIG. 3 (a) filtered by setting the predetermined coating concentration to 0.3 mg / cm ² and the value of the brightness (L) of the coating concentration smaller than this. And an area having a brightness (L) value of 52 or less is divided into a coating area (deep blue color).

In FIG. 9A, since the brightness (L) value of the first region of interest R11 and the second region of interest R12 is greater than 52, it can be seen that the image disappears.

However, since the brightness values of the third ROI, the fourth ROI, and the fifth ROI are equal to or less than 52, it can be seen that the image appears in a rectangular coating form. That is, the ultraviolet rays can group to identify a first region of interest (R11) and the second region of interest (R12) is applied to the set concentration of the coating is less than 0.3 mg / cm ^2, even if it is applied.

Of Figure 9 (b) to the group by setting the predetermined coating amount to 0.4 mg / cm ^2, the ultraviolet image measured in (a) of FIG. 3 as the brightness (L) value 46 that corresponds to the application amount is less than 0.4 mg / cm ² Respectively. And an area having a brightness (L) value of 46 or less is divided into a coating area (dark blue color).

In FIG. 9B, since the brightness (L) value of the first region of interest R11 ', the second region of interest R12', and the third region of interest R13 'is greater than 46, have.

However, since the brightness values of the fourth and sixth regions of interest R14 'and R15' are 46 or less, it can be seen that the image appears in the form of a square coating. That is, it is possible to identify the first region of interest R11 ', the second region of interest R12', and the third region of interest R13 'having a predetermined coating concentration of less than 0.4 mg / cm ² even if ultraviolet rays are applied.

9 (a) and 9 (b), it is possible to selectively image the area where the ultraviolet screening agent has been spread over a specific concentration or the area not exposed. That is, it is possible to identify a region coated with the coating concentration by setting a desired coating density section.

In particular, in the case of the third region of interest (R13, R13 '), it can be seen that the filtering region is divided into a coating region or an uncoated region according to a certain filtering reference value. That is, it is possible for the user to set the required application concentration to confirm the non-applied region.

For example, it is set at 0.5 mg / cm ² or more for hot summer months, 0.3 mg / cm ^{2 for} daily life Or more. In this way, the application concentration can be specified and expressed directly on the ultraviolet image to provide an immediate image. That is, by specifying the target amount of ultraviolet rays to be applied or the application concentration according to the necessary environment, an ultraviolet ray image is photographed on the face or the body and the ultraviolet ray image is photographed, thereby visually confirming the application characteristics such as which area can do.

According to the present invention, since the brightness of the image can be analyzed to determine the application concentration of the specific region and only the characteristics of the organic ultraviolet screening agent absorbing the ultraviolet light are related to each other, regardless of the skin color of the person or the type of the ultraviolet screening agent Value can be expected.

In addition, since it is a method of quantitatively calculating the result obtained through image capturing, it is also possible to filter an image by designating a specific density, thereby separating the image from a specific density or more.

It is also possible to immediately confirm the application concentration of a specific site with the image alone without specifying a specific amount or a specific range of the cosmetic material containing the ultraviolet screening agent.

10: ultraviolet light source
20: image measuring unit
30: Image analysis section
31: Brightness characteristic calculating section
33: coating characteristic calculating section
40:
50:
60: Electronic mirror

Claims (14)

An image measuring unit for measuring an ultraviolet image of the skin to which the ultraviolet screening agent is applied;
A brightness characteristic calculating unit for calculating a brightness characteristic value of a region of interest in the skin image measured by the image measuring unit; And
And a coating property calculating unit for calculating a coating property of the region of interest based on the brightness characteristic value of the region of interest.
The method according to claim 1,
Wherein the ultraviolet screening agent is an organic ultraviolet screening agent.
The method according to claim 1,
Wherein the brightness characteristic value is a brightness (L) value of the ROI,
Wherein the coating amount or the coating concentration of the region of interest is calculated based on the value of the brightness (L).
The method of claim 3,
The coating amount calculating unit calculates the coating amount or coating concentration corresponding to the calculated brightness (L) value based on the relational expression of the brightness (L) value depending on the coating concentration or the coating amount of the ultraviolet screening agent to be tested The coating properties of an ultraviolet screening agent.
5. The method of claim 4,
Wherein the relational expression is expressed by [Expression 1].
[Formula 1]
L = 77.53x ² - 123.65x + 71.498
Here, L is the brightness (L) value of the region of interest, and x (mg / cm ² ) is the application concentration.
The method according to claim 1,
The brightness characteristic calculator calculates a brightness (L) value of one or more regions of interest,
Wherein the coating property calculating unit is configured to apply an area of interest having a brightness (L) value of at least a preset value among the one or more areas of interest to an uncoated area, and apply an area of interest having a brightness (L) Wherein the ultraviolet screening agent is divided into two regions.
The method according to claim 1,
Wherein the brightness characteristic value is a deviation of brightness (L) of the ROI,
Wherein the coating uniformity of the region of interest is quantitatively calculated based on the deviation of the brightness (L).
The method according to claim 1,
In the brightness characteristic calculating section, a deviation of brightness (L) of one or more regions of interest is calculated,
Wherein the coating characteristic calculating unit calculates a coating area having a deviation of a brightness (L) of a predetermined value or more from among one or more areas of interest as a non-uniform coating area, Wherein the uniform coating region is divided into a uniform coating region and a uniform coating region.
The method according to claim 1,
The image measuring unit measures an image of the skin applied with the ultraviolet screening agent over time,
The brightness characteristic calculator calculates a brightness characteristic value of a region of interest over time,
Wherein the application characteristic calculating unit calculates the application period required for an additional coating amount or a predetermined coating amount required over time based on the brightness characteristic value of the region of interest with time.
An image measuring step of measuring an ultraviolet image of a skin to which an ultraviolet screening agent is applied;
A brightness characteristic calculating step of calculating a brightness characteristic value of a region of interest in the skin image measured by the image measuring unit; And
And a coating property calculating step of calculating a coating property of the region of interest based on the brightness characteristic value of the region of interest.
An image measuring unit for measuring an ultraviolet image of the skin to which the ultraviolet screening agent is applied;
An image analyzer for calculating a coating characteristic of the region of interest based on a brightness characteristic value of the region of interest in the skin image measured by the image measuring unit; And
And a display unit for displaying the application characteristics calculated by the image analysis unit.
12. The method of claim 11,
Wherein the display unit is connected to the image analysis unit to provide at least one of a measured skin image, a coating property value, and a coating distribution chart.
12. The method of claim 11,
Wherein the display unit is implemented on an electronic mirror or a mobile communication terminal.
12. The method of claim 11,
Further comprising an input unit connected to the image analysis unit and providing at least one of user information, environmental information, and cosmetic information.

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