KR20150130686A - body analysis system by internet photograph - Google Patents

Abstract

Disclosed is a body analyzing system through an internet photograph which provides accurate body analysis result data and causes of posture imbalance by analyzing a photograph and height and weight information received from the internet. According to an embodiment of the present invention, the body analyzing system comprises: an image unit which sets a photograph of a measured person; and a body analyzing device which generates body shape analysis result data through the photograph of the measured person.

Description

Body analysis system by internet photo system

An embodiment of the present invention relates to a body analysis system using an Internet photo, and more particularly, to a body analysis system capable of obtaining body analysis result data based on photographs, height, and weight information received via the Internet.

The body of the user often has physical imbalance due to a lack of balance between right and left, depending on the usual habit (for example, a wrong posture) or disease. For example, if you sit at a desk for a long time and use your computer or drive for a long period of time in the wrong posture, you will experience physical disproportion. Also, if you have more pain on your left leg for a long time due to illness (or pain) on the right leg, you will not be able to balance the left and right body, resulting in physical unbalance.

Equipment for analyzing the user's body balance and health state by measuring the body shape (or posture) of the user has been developed, which can adversely affect the user's health when the body imbalance is left for a long time. It is widely used.

However, the conventional body measuring device simply measures the body height of the user, measures the body fat through the bioimpedance, etc., and analyzes the body shape of the user based on the measured body fat. However, It is impossible to provide accurate and detailed data on the body shape of the user and the attitude of the user.

In addition, the conventional body measuring apparatus can present only the result of the false attitude, but can not identify the cause of the false attitude.

An embodiment of the present invention relates to a body analysis system capable of analyzing photographs, height, and weight information received via the Internet to present detailed and accurate body analysis result data and cause of posture imbalance.

According to an embodiment of the present invention, there is provided a body analysis system including: a photographing unit photographing a subject; And a body analyzer for generating body analysis result data by combining the photographs taken with the subject and information about height and weight with a coordinate system sheet having a plurality of markers displayed thereon.

And an auxiliary device for maintaining the correct body shape as an auxiliary device capable of maintaining the correct posture utilizing such body analysis data.

According to the embodiment of the present invention, a three-dimensional image model photographed by a subject is analyzed, and the image of each part of the body (for example, head part, upper part of arm, lower part of arm, upper part of leg, Such as the shape, size, length, area, slope of the pelvis of the subject, slope of the pelvis before and after, shoulder slope, vertebral flexion, leg flexion, cervical slope, upper body slope Since the posture analysis result data is generated, accurate and detailed body analysis result data can be obtained.

 At this time, since the markers indicating the elongation of the subject and the elongation of the coordinate system sheet coincide with each other in a state where the plurality of markers are positioned on the same plane as the coordinate system sheet displayed, the body analysis data can be processed immediately.

 In addition, when the body shape and posture of the subject are wrong, it is possible to find a cause by analyzing a plurality of markers and to suggest a method of correcting the cause.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating a configuration of a body analysis system according to an embodiment of the present invention. FIG.
2 is a view illustrating a state in which a body shape of a subject is measured in a body analysis system according to an embodiment of the present invention.
3 is a block diagram of a body analysis apparatus according to an embodiment of the present invention.
4 is a view showing one embodiment of body composition analysis result data and biomechanical analysis result data in the body composition analysis system of the present invention.

Hereinafter, a specific embodiment of the body analysis system of the present invention will be described with reference to FIG. 1 to FIG. However, this is an exemplary embodiment only and the present invention is not limited thereto.

 In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

 FIG. 1 is a view showing a configuration of a body analysis system according to an embodiment of the present invention. FIG. 2 is a view showing a state in which a photograph of a subject is matched and measured on the basis of height in a body analysis system according to an embodiment of the present invention FIG. 3 is a block diagram of a body analysis apparatus according to an embodiment of the present invention. Referring to FIG.

1 to 3, the body analysis system 100 is a system for analyzing a body shape of a subject 150, and includes a coordinate system frame 102 and a measurement attitude correction unit 104. Here, the body analysis apparatus 110 includes a communication unit 121, a video unit 122, a body form analysis unit 123, and a display unit 124.

 In the coordinate system frame 102, a plurality of markers 111 are displayed. At this time, the plurality of markers 111 are displayed on the coordinate system frame 102 so as to be located in the same plane as the subject 150 in the photograph of the subject 150. In this case, the coordinate system frame 102 in which the plurality of markers 111 are displayed serves as a reference coordinate system (i.e., an absolute coordinate system) in the photograph of the subject 150. In this case, since the plurality of markers 111 provide the reference point in the photograph of the subject 150, the absolute value of the size of each body part of the subject 150 can be known. That is, by matching the information about the elongation with the marker 111 for the elongation of the frame of the coordinate system 102 in which the plurality of markers 111 are displayed in the photograph of the subject 150, the body analysis data can be obtained It is.

 The coordinate system frame 102 includes an upper frame 102-1, a first side frame 102-2 formed at one end of the upper frame 102-1 and a lower side at the other end of the upper frame 102-1 And a lower frame (102-3) formed by connecting the first side frame (102-2) and the second side frame (102-3) at a lower portion of the upper frame (102-1) 102-4). Here, the plurality of markers 111 may be displayed on, for example, the first side frame 102-2 and the second side frame 102-3. At this time, the plurality of markers 111 may be symmetrically displayed in the first side frame 102-2 and the second side frame 102-3.

 At this time, the upper frame 102-1 may be connected to the first side frame 102-2 and the second side frame 102-3 vertically.

The first side frame 102-2 and the second side frame 102-3 may be connected to the lower frame 102-4 in a vertical direction.

In this case, the coordinate system frame 102 has a rectangular frame structure.

 When the coordinate system frame 102 has a rectangular frame structure, the image portion 122 is in a state in which the subject 150 is photographed in a state in which the subject 150 is positioned at the bottom of the coordinate system frame 102 The same effect can be obtained. More specifically, the image unit 122 can obtain the effect that the subject 150 is photographed in a state where the subject 150 is standing on the balance measuring unit 106 formed on the lower frame 102-4 do.

The image sent to the Internet has a coordinate system frame sheet on which an auxiliary device for correcting the photographed image is formed on the Internet and analyzed after the correction since distortions actually occur depending on the position at which the photograph is taken. In this way, distorted photographs can be converted into images that match the actual measurements and accurate body measurements can be made.

Here, since the subject 150 is aligned on the same plane as the coordinate system frame 102, when the subject 150 is aligned through the image portion 122, the photograph of the subject 150 is captured by the plurality of markers 111 So that the body size of the subject 150 can be immediately processed as the reference coordinate system in which the coordinate system frame 102 in which the plurality of markers 111 is displayed is used.

 Here, although the coordinate system frame 102 is shown to have a rectangular frame structure, the shape of the coordinate system frame 102 is not limited to this, and may have various other shapes. That is, since the coordinate system frame 102 needs only to display a plurality of markers 111 on the same plane as the subject 150 in the photograph of the subject 150, Are not limited to the above.

 The posture measuring unit 104 may be formed on the lower surface of the upper frame 102-1. That is, the posture measuring unit 104 may be formed on the coordinate system frame 102 located above the subject 150. When analyzing the body shape of the subject 150, the posture measuring unit 104 corrects the measurement posture of the subject 150 by confirming whether the subject 150 is in the correct posture.

 Here, the body analysis refers to the analysis of the shape, size, length, and area of each part of the body using the image of the subject 150. At this time, the body of the subject (150) is divided into the head part, the upper part of the arm, the lower part of the arm, the upper part of the leg, the lower part of the leg, the chest part, the waist part, Can be analyzed. The upper and lower parts of the arms can be distinguished by their elbows, and the upper and lower parts of the legs can be distinguished by their knees.

 The body analysis apparatus 110 generates the body analysis result data. For example, the body analyzer 110 may analyze the body shape (body shape and posture) of the subject 150 through the image of the subject 150 to generate data of the body shape analysis result. The body analyzer 110 can display the body shape analysis result of the subject 150 on the screen.

 The body analysis apparatus 110 includes a communication unit 121, an image unit 122, a body shape analysis unit 123, and a display unit 124.

 The image portion 122 is disposed in the coordinate system frame 102 so as to coincide with the marker on the basis of the elongation of the subject 150. When analyzing the body of the subject 150, the image portion 122 should arrange a photograph in the coordinate system frame 102 in a state in which the subject 150 is in the correct posture.

 When analyzing the posture of the subject 150, the video part 122 is configured to determine the posture normally taken by the subject 150 (in this case, the subject 150 is in the wrong posture due to usual habits, It is necessary to arrange a photograph in a coordinate system frame 102 to obtain accurate data.

 The body shape analyzer 123 analyzes the body shape (posture) of the subject 150 through the photograph of the subject 150. At this time, the body shape analyzer 123 may generate the body shape analysis result data.

 In the embodiment of the present invention, by performing the local body type analysis for each body part of the subject 150, the degree of change of the body shape of the subject 150 can be confirmed for each body part. For example, when the subject 150 undergoes diet or exercise or undergoes plastic surgery (e.g., liposuction), it is possible to easily ascertain the degree of change of the body shape of the subject 150 by each body part .

The body shape analyzer 123 can analyze the posture of the subject 150 through the image of the subject 150 while the subject 150 is in the normal posture. The body shape analyzing unit 123 may extract the body reference feature points from the image of the subject 150 and analyze the posture of the subject 150 through the extracted body reference feature points. The body reference features may include at least one of a head (e.g., lips, nose, eyes, forehead, ear, etc.), shoulder, chest, abdomen, pelvis, knee, ankle, elbow, spine.

 The body shape analyzer 123 analyzes the posture analysis result data such as the left and right tilt of the pelvis, the tilt of the pelvis, the shoulder tilt, the vertebral flexion, the leg flexion, the cervical tilt, and the body slope of the subject 150 through the extracted body reference feature points Can be generated.

 At this time, the body reference feature point may be detected by attaching separate markers to the corresponding part of the subject 150, and then detecting and extracting each marker from the captured image of the subject 150. However, the present invention is not limited to this, and the body reference feature point may be directly extracted from the photographed image of the subject 150 without attaching a separate marker to the subject 150.

According to the embodiment of the present invention, since the morphological analysis is performed through the body morphology analyzer 123, when the posture of the subject 150 is incorrect, morphological analysis is performed to find the cause thereof and correct the morphological analysis It is possible to suggest a way to do so.

 When the left leg of the subject 150 is shorter than the right leg and the result of the body analysis shows that the subject 150 is not balanced to the left and right, it can be confirmed that the left foot is shorter than the right foot, For example, using the insole on the left shoe).

At this time, the body data of the subject 150 may be different depending on the height and the material of the insole. In this case, when photographs of the subject 150 are measured while alternating between various kinds of insole having different heights and materials, it is possible to confirm which insole the subject 150 can maintain the best balance with, .

 The display unit 124 can display the body analysis result data of the subject 150 on the screen.

 The display unit 124 can compare the image of the subject 150 taken with the normal posture with the image taken with the posture of the subject 150 properly corrected and display it on the screen. At this time, the display unit 124 displays the slope of the pelvis of the subject 150, the slope of the pelvis before and after the slope, the slope of the shoulder, the degree of the spine flexion, the flexion of the leg, the cervical slope , And posture analysis result data such as an upper body inclination can be displayed together on the screen. In this case, the subject 150 can immediately check for any problems in his / her normal posture. The display unit 124 may display a variety of exercise therapies and ancillary substances on the screen that can correct the erroneous posture of the subject 150 and recommend the subject to the subject 150.

 4 is a view showing one embodiment of the body analysis result data in the body analysis system of the present invention.

Referring to FIG. 4, a photograph A of the subject 150 may be displayed on the display unit 124. FIG. The display unit 124 may display elongation, weight, and degree of obesity (B) of the subject 150.

Data of attitude analysis data such as shoulder inclination, pelvic inclination, leg flexion, cervical inclination, upper body inclination, pelvic inclination, and vertebral flexion degree of the subject 150 can be displayed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, I will understand. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

100: Body analysis system
102: Coordinate system frame
102-1: upper frame
102-2: first side frame
102-3: second side frame
102-4: bottom frame
104: attitude measuring unit
110: Physical analyzer
111: Marker
121:
122:
123: Body shape analysis unit
124:
150:

Claims (6)

An image portion for setting a photograph of the subject; And
And a bodily analysis device for generating bodily analysis data through a photograph of the subject. 3. The method of claim 2,
The apparatus for analyzing a body through the Internet photo,
Analyzing the two-dimensional image model to generate bodily analysis data including at least one of a shape, a size and a length for each body part of the subject. The method according to claim 1,
The apparatus for analyzing a body through the Internet photo,
A body slope of the pelvis, an inclination of the pelvis, a slope of the shoulder, a degree of flexion of the spine, a flexion of the cervical vertebrae, a cervical slope, and an inclination of the upper body of the subject through the extracted body reference feature points from the image of the subject A body analysis system via Internet photo, which generates posture analysis result data including one. The method according to claim 1,
The system for analyzing a body through the Internet photo,
An internet photograph including a coordinate system frame and a coordinate system frame sheet which are located on the same plane as the subject and are displayed as a reference coordinate for measuring the size of the subject of the subject on the image taken by the subject, Through the body analysis system. The method according to claim 1,
The system for analyzing a body through the Internet photo,
A body analysis system using an Internet picture, including a frame system frame, which can be used to analyze the data after correction by constructing an auxiliary device for correcting the posture based on the body analysis data.
The system for analyzing a body through the Internet photo,
A body analysis system using an Internet photo, comprising a coordinate system frame sheet which can constitute an auxiliary device for correcting the photographed pictures and analyze the post-correction photographs because distortion actually occurs depending on the location where the photograph is taken.

Images