KR101533321B1 - Human structure analysis system with string doll modelling - Google Patents

Abstract

The present invention relates to a human body structure analyzing system using line doll modeling including an agent and a server, wherein the agent is capable of modeling a posture of a patient by providing a line doll that shapes a muscle, a skeleton and a joint into lines and shapes, Wherein the server analyzes the modeled attitude and provides information on the structural imbalance.
The present invention relates to a human body structure analysis system using line doll modeling including an agent and a server, wherein the agent provides a line doll that shapes the muscles, the skeleton and the joints, Wherein the server is modeled automatically or manually, and the server provides information on the structural imbalance by analyzing the main pain part and posture in an integrated manner.
The present invention relates to a human body structure analysis system using line doll modeling including an agent and a server, wherein the agent automatically models the muscle, the skeleton and the joints as lines and shapes by using an image or model capture signal And the server analyzes the modeled attitude to provide information about the structural imbalance.
The present invention relates to a human body structure analysis system using rope doll modeling, wherein the server provides information about a cause of the structural imbalance, a muscle testing method for examining a structural imbalance, and a treatment method.

Description

{Human structure analysis system with string doll modeling}

The present invention relates to a human body structure analyzing system using line doll modeling including an agent and a server, wherein the agent is capable of modeling a posture of a patient by providing a line doll that shapes a muscle, a skeleton and a joint into lines and shapes, Wherein the server analyzes the modeled attitude and provides information on the structural imbalance.

The present invention relates to a human body structure analysis system using line doll modeling including an agent and a server, wherein the agent provides a line doll that shapes the muscles, the skeleton and the joints, Wherein the server is modeled automatically or manually, and the server provides information on the structural imbalance by analyzing the main pain part and posture in an integrated manner.

The present invention relates to a human body structure analysis system using line doll modeling including an agent and a server, wherein the agent automatically models the muscle, the skeleton and the joints as lines and shapes by using an image or model capture signal And the server analyzes the modeled attitude to provide information about the structural imbalance.

The present invention relates to a human body structure analysis system using rope doll modeling, wherein the server provides information about a cause of the structural imbalance, a muscle testing method for examining a structural imbalance, and a treatment method.

Homeostasis is an essential element for maintaining life phenomena, and can be classified into structural (physical) and chemical fields, and the two are organically complementary to each other.

In other words, the disease state can be regarded as a physical, chemical imbalance induced by structural or chemical homeostasis. The former is mainly caused by the imbalance of the body structure, and the latter is mainly caused by the imbalance of the physical chemical factors Occurrence is the cause of the disease.

Therefore, diseases caused by structural causes should be treated by structural treatment methods, and diseases caused by chemical causes should be treated by chemical treatment methods.

Here, structural treatment methods include acupressure, massage, doin, ankyo, chuna, surgery, rehabilitation, exercise therapy, and bedding, and the chemical treatment methods include diet therapy, drug therapy, and radiation therapy .

On the other hand, the structure of the human body is maintained by the skeleton and muscles, and the position of the skeleton is controlled by the muscles. In other words, the structure of the human body is determined by the contraction and relaxation of various muscles, and the movement is determined by the contraction and relaxation order of the muscles.

Here, the muscle is classified into skeletal muscle, internal muscle, cardiac muscle according to the morphological classification, such as the main muscle, antagonist muscle, and coordinated muscle (auxiliary muscle) according to the movement, and anti-gravity muscle, auxiliary gravity muscle, And thus can be classified into a veterinarian muscle and an involuntary muscle, respectively.

Recently, it has been found that muscles perform very complex functions such as memory function.

In fact, it is impossible to clearly distinguish one muscle from other muscles because the functions of anti-gravity and non-gravity muscles, vasculature and inferior muscles, and main and antagonistic muscles and auxiliary muscles are mixed. It is necessary to consider the function of the muscle.

In other words, it is necessary to specify the function of the muscles in the relationship between the muscles and the muscles, and furthermore, it is important to look at the functions of the muscles in the structure of the human body as a whole.

On the other hand, if the normal structure of the human body collapses, there is an imbalance in the posture such as sitting or standing, which increases the possibility of disease.

Specifically, the movement of the human body is programmed in the cerebellum so that movement of the human body occurs by a certain order of the directional roots and the main roots. This programming is established by various learning, repetition and concentration from infancy. However, if the cerebellum movement control program is entered incorrectly, such as by maintaining the same posture for a long time, or by wrong habits, the wrong sequence or unbalanced tension state that the cerebellum does not recognize when making the movement may change in the posterior, Symptoms of muscles induce disease.

That is, if the patient is uncomfortable or unable to take a specific motion, it means that the exercise program of the vasculature for taking the motion is not proceeding in the right order.

In addition, if the general posture is bent or deflected to one side, there is a problem in the contraction or relaxation of the associated anti-gravity muscle, namely, the balance due to structural homeostasis. This is because the cerebellum does not recognize the balance contraction or tension state of anti- It means that the left / right, front / back, and up / down balances are not maintained.

In addition, when the range of motion of the joint is narrowed, normal motion does not occur. This means that subluxation (subluxation) occurs in one part of the joint surface that governs the movement of the joint, It means that the length is shortened.

Therefore, if the current state of the structure is analyzed through the posture of the human body, the state of the structure such as the muscles and the joints can be known, and it is possible to find out what kind of treatment is needed in the structure. It is a situation.

Meanwhile, Korean Patent Registration No. 10-0745034 discloses an integrated diagnosis and analysis apparatus for muscular function, and it is characterized by using a muscle force sensor, a 3D angle detection sensor and an EMG sensor to diagnose muscle function .

Also, Korean Patent Laid-Open Publication No. 10-2004-0087787 discloses an avatar body transformation system for 3D online game, characterized in that the body shape of an avatar is selected for each site and is transformed programmatically.

In summary, the prior art relates to the diagnosis of individual muscles or the shape of an avatar character, and is not related to the object of the present invention, such as analyzing the structure of the human body and guiding which treatment method is necessary.

The object of the present invention is to provide a method and apparatus for modeling the posture of a human body using a string, determining a main pain area, and determining a structural state of a muscle, a skeleton and a joint and then determining a cause of structural imbalance, And to provide a system capable of guiding methods and methods for treating structural imbalances.

The present invention relates to a human body structure analyzing system using line doll modeling including an agent and a server, wherein the agent is capable of modeling a posture of a patient by providing a line doll that shapes a muscle, a skeleton and a joint into lines and shapes, The server analyzes the modeled attitude and provides information on the structural imbalance. The system is designed to solve the technical problem by providing the human body structure analysis system using the stubble modeling.

The present invention relates to a human body structure analysis system using line doll modeling including an agent and a server, wherein the agent provides a line doll that shapes the muscles, the skeleton and the joints, The system can be modeled automatically or manually, and the server provides information on the structural imbalance by integrally analyzing the main pain area and posture, thereby providing a system for analyzing the human body structure using the stubble modeling. .

The present invention relates to a human body structure analysis system using line doll modeling including an agent and a server, wherein the agent automatically models the muscle, the skeleton and the joints as lines and shapes by using an image or model capture signal And the server analyzes the modeled attitude to provide information on the structural imbalance. The present invention provides a human body structure analyzing system using the humanoid modeling.

The object of the present invention is to provide a human body structure analyzing system using line drawing modeling, in which a user directly adjusts a line length of a line object or selects a specific portion of a line object by touching the screen. .

The present invention further provides a system for analyzing human body structure using a robe modeling method, wherein the server further provides information on a muscle testing method for confirming the structural imbalance and a method for treating an imbalance, .

The present invention models a posture of a human body using a string, but can be modeled by directly inputting a muscle length or using a screen touch, which is remarkable in user convenience.

The present invention is automatically modeled from an image or a motion capture signal, and the muscle length can be directly input using the modeled line doll or the posture can be adjusted using a screen touch, which is remarkable in user convenience.

The present invention sets a main pain part using a string, but can be set by directly inputting or using a screen touch, which is remarkable in user convenience.

The present invention has a remarkable effect of modeling the posture of a human body using a string, and thereby grasping the structural state of muscles, skeleton and joints of the human body.

The present invention has a remarkable effect of integrally analyzing the main pain area and the posture when the main pain area is set by using the string, and the posture is automatically or manually modeled.

The present invention has a remarkable effect of guiding a muscle testing method capable of confirming a structural imbalance after analyzing a human body structure and a treatment method capable of treating a structural imbalance.

FIG. 1 is a schematic view illustrating a main structure of a human body structure analysis system using line doll modeling according to an embodiment of the present invention. Referring to FIG.
Fig. 2 is a view schematically showing an example of a user interface for line doll modeling.
3 is a schematic view showing an example of modeling the posture by directly inputting the length of the muscle.
FIG. 4 is a view schematically showing an example of modeling the posture by adjusting the length of the muscles through a screen touch.
FIG. 5 is a view schematically showing an example in which muscles are attached to a modeled string.
6 is a view schematically showing an example of a side view as a proper posture in a user interface for the plumbing modeling.
FIG. 7 is a view schematically showing an example of setting a main pain part through screen touch.
8 is a view schematically showing an example of an interface for presenting a correct attitude and a modeled attitude together.
9 is a view schematically showing an example of an interface for analyzing the cause of a severe positional change compared to a correct posture.
10 is a diagram schematically showing an example of a flow for integrating and analyzing the address and posture.
11 is a view schematically showing an example of an interface for analyzing a muscle in question and presenting a muscle testing method.
FIG. 12 is a view schematically showing an example of an interface for confirming pain information and performing a confirmation process after a muscle test.
13 is a view schematically showing an example of an interface for presenting a treatment method after confirmation processing.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may properly define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

Before describing the present invention with reference to the accompanying drawings, it should be noted that the present invention is not described or specifically described with respect to a known configuration that can be easily added by a person skilled in the art, Let the sound be revealed.

FIG. 1 is a schematic view illustrating a main structure of a human body structure analysis system using line doll modeling according to an embodiment of the present invention. Referring to FIG.

The human body structure analyzing system using line doll modeling according to an embodiment of the present invention includes an agent 100 and a server 200. [

Preferably, the agent 100 is configured to model the posture while the user directly observes the modeling object, and may include the posture acquisition unit 300 according to the design conditions.

Here, the attitude acquisition unit 300 includes a motion capture module and an image processing module, which function to receive a signal from a sensing means attached to a modeling object to acquire a posture.

The image processing module is configured to perform a function of recognizing and acquiring a posture from an image.

Obviously, depending on the design conditions, attitude acquisition by the attitude acquisition unit 300 can be changed by employing techniques used in the field of motion capture signal processing and image recognition.

The agent 100 is installed in a user device (a personal computer or a mobile device such as a smart phone or a smart pad), and is configured to be linked with various hospital systems used by the user device in addition to the server 200.

Here, the hospital system means a diagnosis management system, an x-ray imaging system, and a prescription management system.

Depending on the design conditions, the components included in the agent 100 may be included in the server 200 or vice versa.

The agent 100 includes a user interface, a muscle length setting module, a posture setting module, a pain site setting module, and a confirmation processing module. The server 200 includes a chess figure modeling module, a muscle analysis module, , A guide presentation module and an analysis database.

First, it is revealed that the present invention can be expressed by a length or shape in a specific direction when a shape, a motility, a volume, etc. as a property of a muscle is processed as a vector, and a mobility of a joint region can be represented by a length or a graphic form Leave.

The user interface uses a string doll to model the posture of the human body or provide an interface to set the main pain site. The user interface can be used to directly input the length or posture of the muscle, the main pain area, Length or posture or an interface to control the main pain site.

FIG. 2 schematically shows an example of a user interface for row doll modeling, which is an example of biceps brachiocephalic and brachiocephalic.

Preferably, the present invention is not limited to the shape of the dummy shown in Fig. 2, and the number of lines, figures and the like may be added, or may be a flat or three-dimensional shape.

In addition, the user interface includes not only the modeling interface but also an interface for providing a muscle or skeleton attached form, an interface for analyzing a cause of disease, an interface for presenting a muscle testing method, an interface for presenting a treatment guide based on structural analysis, And an interface for providing information such as an auxiliary device.

The muscle length setting module performs a function of allowing the user to directly input the length of the muscle to model the posture.

As shown in FIG. 3, when the lengths of biceps brachii and brachial radius are inputted, modeling results are reflected on the screen.

Preferably, the entire structure is influenced by the change in the length of the muscles, and the posture is shown. As shown in FIG. 3, the length of the upper arm radial muscle is abnormally shortened and the upper half is automatically modeled as a disproportionally unbalanced posture .

Of course, depending on the design conditions, only the length of the set muscle is reflected in the modeling posture, and the length or overall posture of the remaining muscles is not affected.

It may also be designed to allow the user to selectively use two modes.

The posture setting module performs a function of allowing the user to directly input the type of posture on the keyboard or to set the posture of the line doll by touching the screen.

FIG. 4 shows an example of modeling the posture by adjusting the length of a muscle using a screen touch.

Preferably, when a particular line is clicked with a finger to move the line in a shorter or longer length direction, the line is reflected in the modeling accordingly.

Depending on the design conditions, it may be designed to provide a corresponding modeling function depending on the movement shape and direction of the finger, for example, a movement of drawing a circular or semicircular shape in a clockwise or counterclockwise direction, or a movement of pinching or stretching two hands .

The server 200 continuously interacts with the agent 100 to provide modeling, analysis, and guide functions. The line doll modeling module continuously interacts with the doll 100 during the execution of the doll doll modeling, .

In addition, the line doll modeling module performs a function of attaching a muscle or a skeleton and modeling and presenting a posture when the user specifies a posture through line doll modeling.

Fig. 5 schematically shows an example in which muscles are attached to the modeled dolls.

The pain site setting module performs a function of allowing the user to set chief complaints of a subject to be modeled on a line drawing doll.

FIG. 6 shows an example of a user interface showing a side view as a right posture, and FIG. 7 shows an example of setting a main pain part.

Preferably, the user can set or directly input by touching the screen, and the set part is designed to be presented together with the screen.

In addition, when the main pain site is set, the muscle analysis module of the server 200 interlocks to calculate the muscular information according to the pain area, and provides it to the cause analysis module.

In addition, when a main pain site is set, a function of automatically modeling the posture is performed. For example, when the cervical vertebra is dragged forward through a screen touch, the posture generated as a result is automatically modeled.

Depending on the design conditions, it may be possible to manually re-model after setting the major pain site.

The muscle analysis module of the server 200 performs a function of analyzing the state of the muscles after the posture is specified through the trine modeling or after the main pain site is set.

That is, the analysis database is used to analyze the muscles that may be a problem depending on the posture or the main pain area, and provide muscle information to the cause analysis module.

FIG. 8 shows an example of an interface for presenting a correct posture and a modeled posture together, which is automatically modeled when a major pain site is set, and is presented together with a correct posture.

After analyzing the attitude of the server 200, the posture analyzing module analyzes the deformation of the muscles, joints, and skeletons corresponding to the postures after the attitude is specified through the quadrangle modeling, and provides a treatment guide by analyzing the corresponding lesions And provides it to the cause analysis module.

Based on the information provided by the muscle analysis module and the posture analysis module, the cause analysis module analyzes the cause using the analysis database, and presents the result on the screen.

Preferably, analyze the primary and secondary causes of the disease together, but first analyze the central cause and the peripheral cause.

For example, if you set up a user's major pain site, the cause analysis module will present the muscle name and cause together on the screen, allowing multiple possible causes to be presented along with frequent sequences or possibilities.

FIG. 9 shows an example of an interface that overlaps a correct posture and a modeled posture. The cause analysis module analyzes and analyzes the change in the muscle length and the cause of the change in the muscle length, .

For example, by analyzing the part of the change depending on the main pain area and the ancillary part caused by the posture, the intersecting rate of the problematic muscles generated according to each part is analyzed, and the types of the overlapping muscles are presented.

Also, if the cause information is confirmed by clicking the part where the position change is severe or the posture is corrected again, the cause information is automatically changed and presented.

The guide presentation module performs the function of guiding information such as the muscle testing method and the treatment method using the information calculated in the cause analysis module.

FIG. 10 schematically shows a flowchart for analyzing and presenting a main pain part and posture according to posture modeling together.

In other words, when the user sets the main pain area (address) and models the posture, the cause of each part with severe change in muscle length is analyzed, and the intersection rate between problem muscles in each part is analyzed. (S100 to S300)

Hereinafter, a muscle testing method is presented. FIG. 11 shows an example of an interface for presenting a problematic muscle information and a method for testing a problematic muscle together. (S400)

The user performs the confirmation process after actually examining the problem muscle of the patient using the muscle testing method information. In FIG. 12, an example of an interface for confirming the pain information and performing the confirmation process is shown.

In this process, the confirmation processing module of the agent 100 is interlocked and performs the function of allowing the user to perform the confirmation process. (S500)

When the user performs the confirmation process, the guide presentation module provides guide information on the treatment method. An example of this is shown in FIG.

It is divided into the self-treatment method and the special treatment method and guides the applicable methods. (S600)

The analysis database functions as a database including data that can be continuously referred to by the pedigree modeling module, the muscle analysis module, the posture analysis module, the cause analysis module, and the guide presentation module.

For example, data on the length of a line and the shape of a figure reflecting the muscle length, the motility and skeleton of the joint region, the data of related medicine (anatomy, physiology, kinematics, anatomy, etc.) Corresponding muscle and joint deformation data, clinical lesion data corresponding to the main pain site and posture, and the like.

Although the terms 'patient', 'confirmation', 'examination', and 'hospital system' are used in the above description, it should be construed that the present invention is not limited to use by professional medical personnel, Do.

1 to 13 are merely illustrative of the essential features of the present invention. As various designs can be made within the technical scope thereof, the present invention is limited to the configurations and functions of Figs. 1 to 13 It is obvious that it is not.

100: Agent
200: Server
300: attitude acquisition unit

Claims (9)

agent; 1. A human body structure analysis system using line doll modeling including a server,
The agent provides a line doll that lines and shapes the muscles, skeletons and joints so that the user can model the patient's posture, but the user can manually adjust the length of the line of the doll by inputting or touching the screen, The patient's posture can be modeled by selecting a specific portion of the patient's body to set the main pain site of the patient,
The server analyzes the modeled posture of the patient to provide information on the structural imbalance, and the information on the structural imbalance is information on the imbalance of the muscles, joints, and skeleton, And information on the cause of the imbalance, based on the intersection rate of the muscles corresponding to the parts of the human body structure.
delete The method according to claim 1,
An attitude acquisition unit is further included,
Wherein the agent makes it possible to use an image or a motion capture signal output from the attitude obtaining unit in a process of allowing the user to model the attitude of the patient.
delete delete delete delete The method according to claim 1 or 3,
The server comprises:
And further provides information on the muscle testing method for confirming the structural imbalance.
The method according to claim 1 or 3,
The server comprises:
And further provides treatment method information for treating the structural imbalance.

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