JP4188487B2 - Eye makeup simulation system - Google Patents

Eye makeup simulation system Download PDF

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Publication number
JP4188487B2
JP4188487B2 JP08672999A JP8672999A JP4188487B2 JP 4188487 B2 JP4188487 B2 JP 4188487B2 JP 08672999 A JP08672999 A JP 08672999A JP 8672999 A JP8672999 A JP 8672999A JP 4188487 B2 JP4188487 B2 JP 4188487B2
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Prior art keywords
eye
makeup
eye shadow
eyeline
application
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JP08672999A
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JP2000285222A (en
Inventor
康男 後藤
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株式会社資生堂
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Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an eye makeup simulation system, and more particularly to an eye makeup simulation system that applies and displays an eyeline or eyeshadow on a human face image.
[0002]
[Prior art]
The image production method by make-up applies modeling theory, and grasps the characteristics of the shape and how it feels when it is seen. For example, a straight line produces a sharp or static image, and a curve produces a soft or dynamic image. Therefore, by making a linear or curvilinear makeup, it is possible to produce a sharp image or a soft image, respectively. Similarly, it is possible to produce a calm image using a descending line, or to produce a robust image using a thick line.
[0003]
It is considered to realize such image production by makeup using image processing technology of a computer system. In the conventional image processing technique of a computer system, the shape is simply deformed linearly or curvedly.
[0004]
[Problems to be solved by the invention]
However, with conventional computer system image processing technology, when performing eyeline or eyeshadow application simulation, the operator specifies the eyeline or eyeshadow area to be applied in the face image, the degree of blurring, the eyeline or eyeshadow area. Color correction, etc., must be input in detail, and the operation requires specialized knowledge of image processing, which takes time and effort.
[0005]
The present invention has been made in view of the above points, and by simply selecting a makeup image type, an eyeline for drawing an eyeline of an eye portion of a face image or applying an eyeshadow according to the selected type is displayed. An object is to provide a makeup simulation system.
[0006]
[Means for Solving the Problems]
The invention according to claim 1 is an eye makeup simulation system for drawing an eye shadow and an eye line on a face image,
Type selection means for selecting a desired type from the first to fourth makeup image types;
Contour detecting means for detecting the contour of the eye in the eye part of the face image;
In the first makeup image type, the detected contour of the eye and its vicinity are reduced in the brightness of the pixels in the drawing pattern with a width from the top of the upper eyelid to the corner of the eyelid, and in the second makeup image type, the upper eyelid is reduced. The brightness of the pixels in the drawing pattern with the width from the center to the corner of the eye is lowered. In the third makeup image type, the brightness of the pixels in the drawing pattern with the width from the top of the upper eyelid to the corner of the eye is lowered. In the makeup image type, eyeline drawing means for drawing an eyeline by reducing the brightness of pixels in a drawing pattern having a width from the upper eyelid to the corner of the upper eyelid ,
In the eye part of the face image, in the first makeup image type, the maximum application size is 1/3 of the vertical maximum value from the contour line of the upper eyelid to the contour line of the eyebrows, and at an intermediate position from the top of the eye to the corner of the eye. A region for applying an eye shadow having an upper limit of the curve corresponding to the maximum application size and an upper contour of the lower limit is set, and in the second makeup image type, 1/6 of the maximum value is set as the maximum application size. A third or fourth makeup image is set by setting a region having an upper limit as the curve corresponding to the maximum application size and a lower limit as the contour line of the upper eyelid at an intermediate position from the upper eyeline contour line to the corner of the eye corner that is further separated by a predetermined length. Aisha with type lower and the upper limit curve becomes the maximum applied size at the intermediate position from the inner corner and the maximum applied size 1/2 of the maximum value to the outer corner of the eye as a contour line of the upper eyelid And eye shadow application area setting means for setting a region for applying the cormorant,
In the region where the eye shadow is applied by the eye shadow application region setting means, the middle position from the top of the eyelid to the corner of the upper eyeline outline is set as the application start point, and the eye shadow is centered on the application start point. Eye shadow application means for applying an eye shadow by superimposing the color of the eye shadow on the color of the face image with the radius of a circle in contact with the upper limit of the area to be applied as the application size .
[0007]
As described above, when a desired type is selected from the first to fourth makeup image types, an eye shadow application region is set in the eye portion of the face image according to the selected makeup image type, and the eye shadow is applied. The eye shadow is applied to the face image color of the area to be overlapped by applying the eye shadow color. Therefore, just by selecting the desired type, the eye shadow is applied to the eye area of the face image according to the selected makeup image type. The selected makeup image type can be displayed simply by selecting the desired type in order to draw the outline of the eye detected from the face image and its vicinity according to the selected makeup image type. Accordingly, an eyeline can be drawn and displayed on the eye area of the face image.
[0008]
The invention according to claim 2 is the eye makeup simulation system according to claim 1,
The eyeline drawing means blurs the eyeline in the horizontal direction of the face image in the first or second makeup image type, and blurs the eyeline in the vertical direction of the face image in the fourth makeup image type. Do.
[0009]
Thereby, the eyeline according to the selected makeup image type can be drawn and displayed.
The invention according to claim 3 is the eye makeup simulation system according to claim 1 or 2,
The eye shadow applying means includes blurring means for reducing the concentration of the eye shadow as the distance from the application start point in the area where the eye shadow is applied is increased.
[0010]
In this way, since the eye shadow density is lowered and blurred as the distance from the application start point in the area where the eye shadow is applied, the applied eye shadow becomes familiar with the skin color of the face image and does not feel strange Can be displayed.
The invention described in claim 4 is an eye makeup simulation system according to claim 1 or 2,
The eye shadow application means includes start point moving means for sequentially moving application start points within a region where the eye shadow is applied.
[0011]
In this way, since the start point of application is sequentially moved within the area where the eye shadow is applied, the applied eye shadow blends with the skin color of the face image regardless of the shape of the area where the eye shadow is applied in the face image. Can display eye shadows with no shadow
[0012]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a block diagram of an embodiment of the eye makeup simulation system of the present invention. In the figure, an input device 20, a storage device 30, a display device 40, a printing device 50, and a communication device 60 are connected to a central processing unit (CPU) 10 via a bus 15. The input device 20 includes a keyboard 21, a touch sensor 22, a digital camera (or CCD camera) 23, and the storage device 30 includes a RAM 31, a ROM 32, a hard disk device 33, a flexible disk device 34, and the like. . For example, a CRT is used as the display device 40, and a transparent touch sensor 22 is installed on the front surface of the CRT.
[0013]
The CPU 10 executes various processing programs stored in the storage device 30, stores the results in the storage device 30, displays them on the display device 40, prints them with the printing device 50, and outputs them. The storage device 30 stores face image data and the like, and stores various processing programs in advance.
FIG. 2 shows a flowchart of an embodiment of a main routine of eye makeup simulation executed in the system of the present invention. In the figure, a work face image area is secured in the storage device 30 in step S10. Next, in step S12, the image data of the face image (color face image) of the subject captured by the digital camera 23 is copied to the secured work face image area. Note that the image data of the face image of the subject is already stored in a predetermined area in the storage device 30.
[0014]
In step S14, feature points of the face image are extracted from the image data. Here, first, the face position is recognized for the face image, the face area is labeled, and the feature points of the face outline are extracted. The face image represents a position in XY coordinates with the upper left corner as the origin, the horizontal direction as the X axis, and the vertical direction as the Y axis. Further, an edge image (binary image) of the face area is created, and Y projection is performed to create an edge histogram by projecting the edge image onto the Y axis. Then, the Y coordinate of each part of the face, that is, the eyebrows, eyes, nose, and mouth is searched from the histogram by Y projection. Further, feature points of eyes and nose and their associated feature points are extracted at the Y coordinate positions including the eyes and nose in the face edge image, and mouth feature points and their associated points are extracted at the Y coordinate positions including the mouth. The feature point to be extracted is extracted, and the feature point of the eyebrow and the feature point associated therewith are extracted at the Y coordinate position including the eyebrow.
[0015]
As a result, the point C3 having the maximum Y-axis coordinate, the point C2 having the minimum Y-axis coordinate, and the intersection F1 between the straight line passing through the points C2 and C3 and the hairline shown in FIG. 3 are extracted as facial feature points. Eyes PL, PR, Eyes EL1, ER1, Eyes EL4, ER4, Eye contours EL5, ER5, EL3, ER3, Nasal contours N1, N2, N3, Top of mouth M2, M4, Left and right ends Various feature points such as M1, M5, lower end M6, brow mountain BL2, BR2, brow head BL3, BR3, brow butt BL1, BR1, brow base BL4, BR4 are extracted.
[0016]
Next, in step S16, the skin color data of the subject is obtained by averaging a plurality of image data in a region corresponding to, for example, the cheek in the face image. Further, in step S18, it is read which makeup image type is selected by the touch sensor 22 from the four makeup image types of sweet, cool, cute, and fresh, and which eye shadow color is selected in step S20. It is read whether the subject has selected the color by the touch sensor 22.
[0017]
Note that when executing the eye makeup simulation, a screen as shown in FIG. 4 is displayed on the display device 40. The subject's face image is displayed in the center of this screen, and four makeup image types of sweet, cool, cute, and fresh can be selected by the selection boxes 41A, 41B, 41C, and 41D, and the eye shadow selection box 43 is touched. Thus, a plurality of eye shadow colors are displayed in the eye shadow selection box 43, and the color of the eye shadow can be selected. It is also possible to select a plurality of eyeline drawing patterns by touching the eyeline selection box 44.
[0018]
Thereafter, eyeline search processing is executed in step S22, eyeline drawing processing is executed in step S24, eyeshadow application processing is executed in step S26, and when this processing ends, the process proceeds to step S28. The work face image area secured in step S10 is released, and this process ends.
FIG. 5 shows a flowchart of an embodiment of the eyeline search process executed in step S22. In the figure, first, a face image of a rectangular area surrounding the eyes and eyebrows is acquired in step S30, and an area for holding a binary image is secured in the storage device 30 in step S31. In the next loop processing of step S32, the threshold value TH is sequentially increased from the minimum value to the maximum value in increments of a predetermined value. In step S34 in the loop, the threshold value TH is used to binary the face image of the rectangular area surrounding the eyes and eyebrows. To do. The reason why binarization is performed by changing the threshold value TH is to accurately detect the eyeline.
[0019]
In the next step S36, median filter processing is performed on the edge image obtained by binarization to remove noise. This is done to remove noise generated by eyelashes and the like. In step S38, it is determined whether or not there is a plurality of edge pixels that extend continuously in the eye width direction (y direction in the rectangular area), that is, contour line forming pixels. If there is no contour line forming pixel, the threshold value TH is increased by an increment of a predetermined value, and the process returns to step S34. If there is the contour line forming pixel, the process proceeds to step S40.
[0020]
In step S40, a contour line is extracted from the binary image. Next, linear interpolation (or curved line interpolation) is performed on the discontinuous portions in the contour line extracted in step S42, and further, median filter processing is performed on the interpolated contour line in step S44 to remove noise, and this processing ends. To do.
FIG. 6 shows a flowchart of an embodiment of the eyeline drawing process executed in step S24. This process is performed for the upper eyelid region on the upper side (eyebrow side) from the contour line of the upper eyelid connecting the eyes EL4, ER4 and the eye corners EL1, ER1. In the figure, first, an eyeline drawing pattern is set in step S50. When cool is selected as the makeup image type, this eyeline drawing pattern is an eyeline with a width from the top of the upper eyelid to the corner of the eye as shown in FIG. An eyeline drawing pattern for blurring the eyeline is set on the direction corner.
[0021]
In addition, when fresh is selected as the makeup image type, as shown in FIG. 8, the eyeline has a width from the center of the upper eyelid (intermediate point between the eyes and the corners of the eyes) to the corner of the eyes, and is hatched. In the area Ib, an eyeline drawing pattern for blurring the eyeline is set on the x direction corner of the eye.
When sweet is selected as the make-up image type, as shown in FIG. 9, an eyeline drawing pattern is set which is an eyeline from the upper eyelid to the outer corner of the eyelid and does not blur the eyeline. Is done.
[0022]
Further, when cute is selected as the makeup image type, as shown in FIG. 10, the eyeline has a width from the top of the upper eyelid to the outer corner of the eyelid, and the eye is on the eyebrows side in the y direction in the hatched area Id. An eyeline drawing pattern for blurring lines is set.
The eyeline drawing pattern corresponding to the makeup image type is a default value when the eyeline selection box 44 is not touched. From the four eyeline drawing patterns displayed when the eyeline selection box 44 is touched, It is also possible to select a desired pattern.
[0023]
Next, in the loop process of step S52, the x coordinate value is sequentially increased from 0 (eye position) to the maximum value (eye corner position) in pixel units. In this loop, the loop process of step S54 is performed for each x coordinate value. Here, the y-coordinate value is sequentially increased from 0 (the y-coordinate of the contour line) to the maximum value (eye height width: maximum separation distance between the upper eyelid and the lower eyelid) in units of pixels, and the following processing is performed.
[0024]
In step S56, the brightness of the pixel indicated by the x coordinate and y coordinate is calculated, and in step S58, it is determined whether or not the brightness of this pixel is the same as the brightness of the eyeline. Here, if they are not the same, the y coordinate value is increased and the process returns to step S56. If the brightness of this pixel is the same as the brightness of the eyeline, the process proceeds to step S60, and the brightness of this pixel is lowered by a predetermined value from the current brightness. As a result, the brightness of the pixels on the contour line is lowered and darkened, and as a result, the eyeline can be conspicuous.
[0025]
Thereafter, in step S62, it is determined from the x and y coordinates whether the region is Ia in FIG. 7 (in the case of sweet) or region Ib in FIG. 8 (in the case of cool), and the above regions Ia, Ib are determined. In this case, the eyeline is blurred in the x-direction outer corner in step S64. Further, in step S66, it is determined from the x-coordinate and y-coordinate whether the area is Id in FIG. 10 (in the case of fresh), and in the case of the above-described area Id, the eyeline is blurred on the eyebrows in the y direction in step S68. Do. Thereafter, when the loop processing in steps S52 and S54 is completed, the face image on which the eyeline is drawn is displayed on the display device 40 in step S70, and this processing is terminated.
[0026]
FIG. 11 shows a flowchart of an embodiment of the eye shadow application process executed in step S26. In the figure, first, an eye shadow application region is set in step S80. Here, the maximum distance Ymax in the y direction from the contour line of the upper eyelid to the contour line of the eyebrows shown in FIG. 12 is obtained, and the maximum application size My = Ymax / α is obtained. Note that α = 2 when the makeup image type is sweet or cute, α = 3 when cool, and α = 6 when fresh. Further, using the curves shown in FIGS. 13A and 13B, the upper limit (eyebrow side) of the eye shadow application region is obtained for each makeup image type. At this time, the maximum application size My is used. Here, in the case of sweet, cool, or cute, the curve from the top of the eye to the corner of the eye shown in FIG. 13A is used, and in the case of fresh, on the contour line of the upper eyelid that is a predetermined length away from the eye head shown in FIG. A curve from one point to the corner of the eye is used. In addition, the lower limit of the eye shadow application area is the upper eyelid outline.
[0027]
In step S82, the movement locus of the start point is set, and in step S84, the application size at the start point of eye shadow application is set. FIG. 14 shows the eye shadow application area corresponding to FIG. 13A, and the approximate center position P0 of the lower limit (upper contour of the eye shadow) of the eye shadow application area is set as the eye shadow application start point. Further, the radius of a circle that is centered on the start point and is in contact with the upper limit of the eye shadow application region is defined as the application size, and arrows A1 and A2 that are superimposed on the lower limit of the eye shadow application region are used as the movement locus of the start point.
[0028]
Next, in step S88, the eye shadow density at the start point is calculated from the skin color data of the subject and the selected eye shadow color using a predetermined calculation formula, and the obtained eye shadow color is applied to the start point. . In step S90, an airbrush process is performed to reduce (blur) the density of the color of the eye shadow applied to the start point in proportion to the distance from the start point within a circle having the start point as the center and the application size as the radius. The color of the eye shadow at each pixel position obtained in this way is added to the skin color of the pixel at that position to obtain the color of each pixel with the eye shadow superimposed on the skin. Update the color.
[0029]
In the airbrush process described above, only a circle with the radius of the application size in the eye shadow application area is a target of processing, and the process is not performed in a semicircle portion below the lower limit of the eye shadow application area. Further, the relationship between the distance from the center and the density in the airbrush process uses a characteristic that the density decreases in proportion to the distance from the center as shown in FIG. 15A when the makeup image type is cute or fresh. In the case of sweet or cool, as shown in FIG. 15 (B), when the distance from the center is small, the degree of thinning of the density is large, and when the distance from the center is large, the degree of thinning of the density is small. Use.
[0030]
Thereafter, in step S92, the starting point is moved by a predetermined distance according to the moving locus of the starting point indicated by arrows A1 and A2. The start point is repeatedly moved from the position P0 in the arrow A1 direction by a predetermined distance. When the moved start point is outside the eye shadow application region, the start point returns to the position P0 and moves in the arrow A2 direction by the predetermined distance. To do. This moving distance is, for example, several tens of percent of the application size. In step S94, a new application size is calculated. The new application size decreases at a rate of several percent to several tens percent as the starting point moves from the position P0 in the directions of arrows A1 and A2.
[0031]
Next, in step S96, it is determined whether or not it is the end point of the eye shadow application. If it is not the end point, the above steps S88 to S94 are repeated. If it is the end point, the eye shadow application is terminated, and the eye shadow is applied in step S98. The face image is displayed on the display device 40, and this process ends. The eye shadow application end point is determined when the start point moves in the direction of arrow A2 and is outside the eye shadow application region.
[0032]
As described above, when a desired type is selected from a plurality of makeup image types, an area for applying eye shadow in the eye part of the face image is set according to the selected makeup image type, and the face in the area for applying eye shadow is set. The eye shadow is applied by overlaying the eye shadow color on the image color. Simply select the desired type and apply the eye shadow to the eye area of the face image according to the selected makeup image type. can do.
[0033]
In addition, since the contour of the eye detected by detecting the contour of the eye and the vicinity thereof are drawn according to the selected makeup image type, only the desired type is selected, and the selected makeup image type is selected. An eyeline can be drawn and displayed on the eye portion of the face image.
In addition, since the eye shadow density decreases as the distance from the application start point in the area where the eye shadow is applied is blurred, the applied eye shadow blends with the skin color of the face image and displays an eye shadow that does not feel strange. Since the start point of application is sequentially moved within the area where the eye shadow is applied, the applied eye shadow is compatible with the skin color of the face image regardless of the shape of the area where the eye shadow is applied. Eye shadow can be displayed.
[0034]
The selection boxes 41A, 41B, 41C and 41D correspond to the type selection means described in the claims, step S80 corresponds to the eye shadow application area setting means, and steps S88 and S90 correspond to the eye shadow application means. Step S22 corresponds to the contour detection means, step S24 corresponds to the eyeline drawing means, step S90 corresponds to the blurring means, and step S92 corresponds to the start point moving means.
[0035]
【The invention's effect】
As described above, the invention according to claim 1 is an eye makeup simulation system for drawing eye shadows and eye lines on a face image.
Type selection means for selecting a desired type from the first to fourth makeup image types;
Contour detecting means for detecting the contour of the eye in the eye part of the face image;
In the first makeup image type, the detected contour of the eye and its vicinity are reduced in the brightness of the pixels in the drawing pattern with a width from the top of the upper eyelid to the corner of the eyelid, and in the second makeup image type, the upper eyelid is reduced. The brightness of the pixels in the drawing pattern with the width from the center to the corner of the eye is lowered. In the third makeup image type, the brightness of the pixels in the drawing pattern with the width from the top of the upper eyelid to the corner of the eye is lowered. In the makeup image type, eyeline drawing means for drawing an eyeline by reducing the brightness of pixels in a drawing pattern having a width from the upper eyelid to the corner of the upper eyelid ,
In the eye part of the face image, in the first makeup image type, the maximum application size is 1/3 of the vertical maximum value from the contour line of the upper eyelid to the contour line of the eyebrows, and at an intermediate position from the top of the eye to the corner of the eye. A region for applying an eye shadow having an upper limit of the curve corresponding to the maximum application size and an upper contour of the lower limit is set, and in the second makeup image type, 1/6 of the maximum value is set as the maximum application size. A third or fourth makeup image is set by setting a region having an upper limit as the curve corresponding to the maximum application size and a lower limit as the contour line of the upper eyelid at an intermediate position from the upper eyeline contour line to the corner of the eye corner that is further separated by a predetermined length. Aisha with type lower and the upper limit curve becomes the maximum applied size at the intermediate position from the inner corner and the maximum applied size 1/2 of the maximum value to the outer corner of the eye as a contour line of the upper eyelid And eye shadow application area setting means for setting a region for applying the cormorant,
In the region where the eye shadow is applied by the eye shadow application region setting means, the middle position from the top of the eyelid to the corner of the upper eyeline outline is set as the application start point, and the eye shadow is centered on the application start point. Eye shadow application means for applying an eye shadow by superimposing the color of the eye shadow on the color of the face image with the radius of a circle in contact with the upper limit of the area to be applied as the application size .
[0036]
As described above, when a desired type is selected from the first to fourth makeup image types, an eye shadow application region is set in the eye portion of the face image according to the selected makeup image type, and the eye shadow is applied. The eye shadow is applied to the face image color of the area to be overlapped by applying the eye shadow color. Therefore, just by selecting the desired type, the eye shadow is applied to the eye area of the face image according to the selected makeup image type. The selected makeup image type can be displayed simply by selecting the desired type in order to draw the outline of the eye detected from the face image and its vicinity according to the selected makeup image type. Accordingly, an eyeline can be drawn and displayed on the eye area of the face image.
[0037]
According to a second aspect of the present invention , the eyeline drawing means blurs the eyeline in the lateral direction of the face image in the first or second makeup image type, and the face in the fourth makeup image type. Blur eyeline in the vertical direction of the image .
Thereby, the eyeline according to the selected makeup image type can be drawn and displayed.
[0038]
According to a third aspect of the present invention, the eye shadow applying means includes blurring means for reducing the concentration of the eye shadow as the distance from the application start point in the area where the eye shadow is applied is increased.
In this way, since the eye shadow density is lowered and blurred as the distance from the application start point in the area where the eye shadow is applied, the applied eye shadow becomes familiar with the skin color of the face image and does not feel strange Can be displayed.
[0039]
According to a fourth aspect of the present invention, the eye shadow applying means includes start point moving means for sequentially moving the start point of application within a region where the eye shadow is applied.
In this way, since the start point of application is sequentially moved within the area where the eye shadow is applied, the applied eye shadow blends with the skin color of the face image regardless of the shape of the area where the eye shadow is applied in the face image. Can display eye shadows with no shadow
[Brief description of the drawings]
FIG. 1 is a block diagram of an embodiment of an eye makeup simulation system of the present invention.
FIG. 2 is a flowchart of an embodiment of a main routine of eye makeup simulation executed in the system of the present invention.
FIG. 3 is a diagram illustrating feature points of a face image.
FIG. 4 is a diagram illustrating an example of a display screen when performing eye makeup simulation.
FIG. 5 is a flowchart of an embodiment of eyeline search processing.
FIG. 6 is a flowchart of an embodiment of eyeline drawing processing.
FIG. 7 is a diagram showing an eyeline drawing pattern.
FIG. 8 is a diagram showing an eyeline drawing pattern.
FIG. 9 is a diagram showing an eyeline drawing pattern.
FIG. 10 is a diagram showing an eyeline drawing pattern.
FIG. 11 is a flowchart of an embodiment of an eye shadow application process.
FIG. 12 is a diagram for explaining setting of an eye shadow application region.
FIG. 13 is a diagram showing an upper limit of an eye shadow application region.
FIG. 14 is a diagram for explaining eye shadow application;
FIG. 15 is a diagram showing the relationship between the distance from the center and the density in airbrush processing.
[Explanation of symbols]
10 Central processing unit (CPU)
20 Input device 21 Keyboard 22 Touch sensor 23 Digital camera 30 Storage device 31 RAM
32 ROM
33 Hard disk device 34 Flexible disk device 40 Display devices 41A, 41B, 41C, 41D Selection boxes 43, 44 Selection box 50 Printing device

Claims (4)

  1. An eye makeup simulation system for drawing eye shadows and eye lines on a face image,
    Type selection means for selecting a desired type from the first to fourth makeup image types;
    Contour detecting means for detecting the contour of the eye in the eye part of the face image;
    In the first makeup image type, the detected contour of the eye and its vicinity are reduced in the brightness of the pixels in the drawing pattern with a width from the top of the upper eyelid to the corner of the eyelid, and in the second makeup image type, the upper eyelid is reduced. The brightness of the pixels in the drawing pattern with the width from the center to the corner of the eye is lowered. In the third makeup image type, the brightness of the pixels in the drawing pattern with the width from the top of the upper eyelid to the corner of the eye is lowered. In the makeup image type, eyeline drawing means for drawing an eyeline by reducing the brightness of pixels in a drawing pattern having a width from the upper eyelid to the corner of the upper eyelid ,
    In the eye part of the face image, in the first makeup image type, the maximum application size is 1/3 of the vertical maximum value from the contour line of the upper eyelid to the contour line of the eyebrows, and at an intermediate position from the top of the eye to the corner of the eye. A region for applying an eye shadow having an upper limit of the curve corresponding to the maximum application size and an upper contour of the lower limit is set, and in the second makeup image type, 1/6 of the maximum value is set as the maximum application size. A third or fourth makeup image is set by setting a region having an upper limit as the curve corresponding to the maximum application size and a lower limit as the contour line of the upper eyelid at an intermediate position from the upper eyeline contour line to the corner of the eye corner that is further separated by a predetermined length. Aisha with type lower and the upper limit curve becomes the maximum applied size at the intermediate position from the inner corner and the maximum applied size 1/2 of the maximum value to the outer corner of the eye as a contour line of the upper eyelid And eye shadow application area setting means for setting a region for applying the cormorant,
    In the region where the eye shadow is applied by the eye shadow application region setting means, the middle position from the top of the eyelid to the corner of the upper eyeline outline is set as the application start point, and the eye shadow is centered on the application start point. An eye makeup simulation system characterized by comprising eye shadow application means for applying eye shadow by superimposing the color of the eye shadow on the color of the face image with the radius of a circle in contact with the upper limit of the area to be applied as the application size .
  2. In the eye makeup simulation system according to claim 1,
    The eyeline drawing means blurs the eyeline in the horizontal direction of the face image in the first or second makeup image type, and blurs the eyeline in the vertical direction of the face image in the fourth makeup image type. Eye make-up simulation system characterized by performing.
  3. In the eye makeup simulation system according to claim 1 or 2,
    The eye make-up simulation system, characterized in that the eye shadow applying means includes a blurring means for reducing the density of the eye shadow as the distance from the application start point in the area where the eye shadow is applied is reduced.
  4. In the eye makeup simulation system according to claim 1 or 2,
    The eye makeup applying simulation system, wherein the eye shadow applying means includes start point moving means for sequentially moving an application starting point within a region where the eye shadow is applied.
JP08672999A 1999-03-29 1999-03-29 Eye makeup simulation system Expired - Lifetime JP4188487B2 (en)

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CN101371272B (en) * 2006-01-17 2012-07-18 株式会社资生堂 Makeup simulation system, makeup simulation device, makeup simulation method
JP4753025B2 (en) * 2006-03-22 2011-08-17 カイノア・テクノロジーズ株式会社 Makeup simulation method
JP2009064423A (en) * 2007-08-10 2009-03-26 Shiseido Co Ltd Makeup simulation system, makeup simulation device, makeup simulation method, and makeup simulation program
JP4862955B1 (en) * 2010-10-29 2012-01-25 オムロン株式会社 Image processing apparatus, image processing method, and control program
JP4760999B1 (en) 2010-10-29 2011-08-31 オムロン株式会社 Image processing apparatus, image processing method, and control program
JP6008323B2 (en) * 2013-02-01 2016-10-19 パナソニックIpマネジメント株式会社 Makeup support device, makeup support method, and makeup support program
CN109426767A (en) * 2017-08-24 2019-03-05 丽宝大数据股份有限公司 Informer describes guidance device and its method

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