KR101199986B1 - Camera Shooting Method - Google Patents

Abstract

PURPOSE: A camera photographing method is provided to calculate a reducing rate according to a focal distance of a subject, thereby reducing only horizontal sizes of a screen. CONSTITUTION: A control unit detects a focal distance of a subject when a camera photographs the subject. The control unit reduces a horizontal size of a screen(4) at a set reducing rate(Y) based on the detected focal distance. The reducing rate is (Y2-Y1)/(X2-X1)xX+[Y1-(Y2-Y1)/(X2/X1)xX1]. X is a focal distance. X1 is a minimum focal distance. X2 is a maximum focal distance. Y1 is a reducing rate when a focal distance is X1. Y2 is a reducing rate when a focal distance is X2.

Description

Camera Shooting Method

The present invention relates to a camera photographing method, and more particularly, to a camera photographing method for reducing the horizontal size of the screen taken at a reduction ratio set according to the focal length of the subject when the camera is photographed to display on the screen.

In general, when the subject is photographed by the camera, the closer the distance to the subject is, the larger the horizontal size of the photographed subject appears on the screen than the horizontal size of the subject viewed by the real eye.

1 shows an example in which the subject is a human face, as shown in (a) and (b), when the human face 1 is viewed by the eye 2 from a distance and the camera 3 When shooting with), there is little difference between the horizontal size (a) of the face seen by the human eye (2) or the horizontal size (a ') of the face displayed on the screen by using the camera (3). I don't think it's bigger than it really is.

However, as shown in (c) and (d), when looking at the human face 1 with the eyes 2 at a close distance, and when photographing with the camera 3, The horizontal size b 'and the horizontal size b' of the face photographed by the camera 3 are different enough to be recognized, thereby recognizing that the face size of the screen is larger than the actual size.

In fact, when shooting a face directly with a digital camera or a smartphone, it is photographed at a short distance. Therefore, the horizontal size of the face displayed on the screen can be seen to be very large. Small faces can also be seen for the same reason.

Conventionally, when photographing one's face directly with a digital camera or smart phone, the face is full on the screen, so to compensate for this, the distance to the face is detected and the entire horizontal and vertical directions of the screen are changed at the same ratio according to the distance. There is a reduction in size so that the face is displayed in the proper size on the screen.

However, since this method reduces the entire horizontal and vertical direction of the screen, only the effect of slightly extending the shooting distance of the subject can be obtained, and when the image is enlarged, the face looks larger. Similarly, it was not possible to resolve the difference between the horizontal face size (b) of the face directly viewed at a close distance and the horizontal size b 'of the screen face photographed at a close distance with a camera.

The present invention is to solve the above-mentioned conventional problems, the object is to reduce the horizontal horizontal size of the subject only when the eye is directly viewed by reducing the size according to the focal length of the subject when taking a close-up of the subject with the camera horizontal of the subject The present invention provides a camera photographing method that can reduce the difference between the size and the horizontal size of a subject on a screen.

In addition, another object of the present invention, the reduction ratio for reducing the horizontal size of the left and right of the screen is calculated by substituting the initial condition determined based on the average distance between the eyes of the adult and the focal length of the subject into the equation to determine the It is to provide a camera photographing method that can match the horizontal size and the horizontal size of the subject to the eye as possible.

In order to achieve the above characteristic configuration, the present invention provides a method for detecting a focal length of a subject during camera shooting, and the controller reduces the horizontal horizontal direction of the screen at a preset reduction ratio based on the detected focal length. There is a feature in a camera photographing method comprising the step of displaying.

In addition, the present invention is characterized in that the left and right horizontal direction of the screen, the camera shooting method that the control unit is determined based on the rotation position of the camera screen detected by the gravity sensor during camera shooting.

According to the present invention having the above-described configuration, when the subject is photographed at a close distance, only the horizontal size of the horizontal direction of the screen is reduced at the reduction ratio calculated according to the focal length of the subject during camera shooting, the horizontal of the subject displayed on the screen You can reduce the difference between the size and the horizontal size of the subject you are looking at.

In addition, according to the present invention, since the reduction ratio for reducing the horizontal direction of the screen is calculated by substituting the initial condition determined in consideration of the average distance between the eyes of the adult and the focal length of the subject into the equation (1), in particular, the face of a person When you take a close-up shot, you can display on the screen to match the horizontal size of the face with the real eye as much as possible, so that when taking a close-up shot of his face directly with a digital camera or a smartphone, can shoot in the normal face horizontal size, In the case of the camera, the actual size of the entertainer's face and the horizontal size of the face appearing on the screen are almost the same, and when the faces of the entertainers are directly viewed by the eyes, the appearance of small faces can be eliminated.

1 is a view for explaining the parallax of the eye and the camera according to the distance to the subject.
2 is a view for explaining a reduction ratio in the camera shooting method according to the present invention.
3 is a view for explaining a process of determining the horizontal direction of the camera screen in the camera shooting method according to the present invention.
Figure 4 is a graph for inducing a reduction rate in another camera photographing method according to the present invention.

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

1 is a view for explaining the parallax of the eye and the camera according to the distance to the subject, Figure 2 is a view for explaining the reduction ratio in the camera shooting method according to the present invention, Figure 3 is a camera shooting method according to the present invention In the camera photographing method of the present invention, a control unit detects a focal length of a subject when the camera is photographed, and controls the controller based on the detected focal length. Is a step of reducing the horizontal size of the screen in the horizontal direction only at a preset reduction ratio and displaying it on the screen.

In this case, the reduction ratio Y for reducing the horizontal size of the screen may be calculated by the following equation (I) derived through the graph shown in FIG. 4.

X: Focal Length (m)
X1: Minimum Focal Length
X2: Maximum Focal Length

Y: reduction rate (%)

Y1: Reduction ratio when the focal length is X1

Y2: Reduction ratio when the focal length is X2

For example, the reduction factor (Y) is preferably applied to a person's face. Therefore, the reduction ratio (Y) is preferably applied to a human face. Set the initial conditions of X1, Y1, X2, and Y2 as shown in Table 1 below.

X1 0.3m X2 3.3m Y1 3% Y2 0%

By substituting the initial conditions of Table 1 in Equation (I), Equation (II) for calculating the reduction rate Y can be obtained as follows.

Equation (II). Y (%) = -X (m) + 3.3 (m)

Therefore, the reduction ratio when X is 0.5m is 2.8%, the reduction ratio when X is 1.5m is 1.8%, and 0.8% when X is 2.5m.

In this case, the control unit applies a reduction ratio (Y) to 0 (%) when the focal length (X) is more than 3.3 m, and the focus of the subject is taken as the face of the person closest to the subject. If not, it is preferable to set such that the reduction ratio is not applied.

In addition, according to the present invention, it is preferable that the horizontal direction of the screen to reduce the screen is determined based on the rotation position of the camera screen detected by the gravity sensor when the camera is photographed.

For example, as shown in FIG. 3 (a), the long side of the camera screen 4 is positioned horizontally and the short side is positioned vertically. Clockwise to set the "S2", "S3" and "S4" sides in turn, and the screen is rotated 90 degrees or 270 degrees from the gravity sensor with 0 degrees when the "S1" side is located at the top. When it is detected, the controller of the camera determines the horizontal direction of the screen 4 as the short side of the screen 4 as shown in FIGS. 3 (b) and 3 (d) and the screen 4 from the gravity sensor. ) Is detected as being rotated by 0 degrees or 180 degrees, the controller of the camera determines the left and right horizontal directions of the screen 4 as the long sides of the screen, as shown in FIGS. 3A and 3C. .

By determining the left and right horizontal directions of the screen 4, a camera photographer photographs a human face by positioning the long side of the screen 4 in the horizontal direction as shown in FIGS. 3A and 3C. 3 (b) and 3 (d), even when the camera photographer photographs a human face by placing a short side of the screen 4 in the horizontal direction, the reduction ratio with respect to the horizontal and horizontal directions of the screen 4 is both It can be applied only horizontally and horizontally with respect to the person.

According to the present invention having such a configuration, when photographing a face of a person as a subject, the closer the focal length is, the larger the horizontal and horizontal reduction ratio of the screen becomes, and the farther the focal length, the closer the horizontal reduction ratio of the screen is closer to zero. Therefore, when a person's face is taken close-up, only the horizontal direction of the image is automatically reduced by the reduction ratio, so that the horizontal size of the face displayed on the screen and the horizontal size of the face directly seen by the eye almost match, making the face of the screen larger than the actual face. The visible phenomenon can be prevented.

That is, when the horizontal size (b) of the face viewed by the eye at close distance is photographed by a conventional camera photographing method as shown in (a) of FIG. 2, the screen 4 as shown in (b) of FIG. The horizontal size b 'of the face is displayed larger. On the other hand, when photographing by the camera photographing method of the present invention, the controller of the camera detects a focal length based on the face of a person, calculates the reduction ratio by applying the detected focal length to Equation (1), and then calculates this. This reduces the horizontal size of the face displayed on the screen by the reduced ratio. Therefore, the face of the person appearing on the screen becomes as thin as the reduction ratio in the existing face horizontal size (b ') as shown in FIG. 2 (c), and is almost the same face as the face horizontal size (b) when viewed directly by eyes. The size is displayed on the screen.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to be illustrative of the present invention and not to be construed as limiting the scope of the present invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: face 2: eyes
3: camera 4: screen

Claims (3)

Detecting, by the controller, a focal length of the subject when the camera is photographed;
Based on the detected focal length, the controller is configured to reduce and display the left and right horizontal directions of the screen at a preset reduction ratio (Y).
The reduction rate (Y) is,

X: Focal Length (m)
X1: Minimum Focal Length
X2: Maximum Focal Length
Y: reduction rate (%)
Y1: Reduction ratio when the focal length is X1
Y2: Reduction ratio when the focal length is X2
The camera shooting method characterized by the above-mentioned. The camera photographing method of claim 1, wherein the horizontal direction of the screen is determined based on a rotation position of the camera screen detected by the gravity sensor when the camera is photographed. delete

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