KR20130115573A - Brain meridian activity measurement device and measuring method thereof - Google Patents

Abstract

PURPOSE: A head meridian-system activity measuring apparatus and a measuring method are provided to apply diagnosis and treatment of diseases understanding a physical state with an emotional state by analyzing brainwave measured from a meridian point which is positions in line with a meridian point line of a head. CONSTITUTION: A head meridian-system activity measuring apparatus is composed of an electrode sensor or a needle. The head meridian-system activity measuring apparatus comprises one or more of conductive materials (10) which measures a brainwave signal of a user by being arranged on a meridian point in line with the meridian line of a head, which supplies a stimulation signal to the meridian point; a database (40) which stores the brainwave of the body as a standard data by patterning by at least one or more of classifications; a signal sending and receiving part (20) which receives the brainwave signal of a user which is measured from the conductive material and which sends the stimulation signal to the conductive material; a brainwave signal analysis part (30) which converts the brainwave signal of the user which is received in the signal sending and receiving part into an index data and which analyzes background emotion and a physical state of the user in comparison with a standard data stored in the database; and a stimulation signal generation part (50) which generates a stimulation signal based on the background emotion and the physical state of the user analyzed in the brainwave signal analysis part and which sends the stimulation signal generated toward the conductive material. [Reference numerals] (10) Conductive material; (20) Signal sending and receiving part; (30) Brainwave signal analysis part; (40) Database; (50) Stimulation signal generation part; (60) Sight and hearing information output part

Description

Head meridian activity measuring device and measuring method {BRAIN MERIDIAN ACTIVITY MEASUREMENT DEVICE AND MEASURING METHOD THEREOF}

The present invention relates to an apparatus and a measuring method for the head meridian activity, and more specifically, to analyze the brain waves measured from the acupoints located on the meridians of the head to grasp the physical state including the emotional state to be used in the diagnosis and treatment of diseases The present invention relates to a head meridians activity measuring apparatus and a measuring method.

In general, oriental medicine has a physical and psychological characteristic that emphasizes the relationship between body and mind. For example, the fear of anger, anger, anxiety, excessive thought, sadness, fear, and surprise are thought to be a major cause of disease.

In particular, the mind is physically recognized as a result of brain activity, and since brain activity is reflected in brain waves, brain waves have a high correlation with the body's reactions, activities, and emotions.

According to Jeff Hawkins' memory-prediction theory, the cerebral cortex has a universal processing algorithm, regardless of the modality of the sensory input from the outside, which is stored in the past when processing new incoming information. Predictions from memory indicate a consistent response.

In addition, according to Antonio D'Maggio's theory, in order to maintain homeostasis, life has a motive to approach homeostasis and to avoid breaking homeostasis. It is known to feel uncomfortable.

These signals are generated from parts and tissues of the living body as well as information from outside the living body, and the sum of these forms a background emotion, which serves as a reference for all rational and emotional judgments and decisions.

Taken together, these theories are closely related to the memory-prediction and emotions of the brain, and they can play a role in regulating these functions through emotion as well as reflecting the state of the body, including the memory-prediction of the brain. It is not only in line with classical Oriental medicine theory that Chiljeong determines Chi movement, but also can be used to improve the efficiency of existing treatment methods by developing new oriental medical treatment methods.

Related to the technique of measuring meridians by measuring a slight change in current value occurring in the acupuncture points, Korean Patent Publication No. 10-2005-0001145 (January 6, 2005) relates to a meridian diagnostic device, A technique for measuring current values at menstrual points without errors is disclosed, which consists of a menstrual blood meter measuring electrical signals generated at menstrual points and a menstrual blood meter measuring current values measured at menstrual points.

However, in the prior art, it is merely a measure of the current value generated in the acupuncture points of a part of the body, for example, the finger or the toe, and only the physiological activity of the body is measured.

In addition, Korean Patent Application Publication No. 10-1100718 (2011.12.23.) Relates to a measurement and meridians device using electric stimulation and a meridians method using the same, and detects an electric signal emitted from a specific part of the body to detect a specific part of the body. There is disclosed a technique that can convert the specific acupuncture points into electrical stimulation among a plurality of acupuncture points in a specific site after converting the to site size data.

However, in the prior art as described above, it is only controlled to electrically stimulate specific acupuncture points among a plurality of acupuncture points of the body according to an input command, and after analyzing the data measured from the acupuncture points, it can be used for diagnosis and treatment of the disease accordingly. The problem is that a feedback system that can provide electrical stimulation cannot be implemented.

The present invention has been made to solve the problems described above, by measuring the brain waves on the meridians of the head to analyze the measured brain waves to generate indicator data, the generated indicator data including the stored base data and the emotional state It is an object of the present invention to provide a head meridians activity measuring apparatus and measuring method which can grasp the user's body information by grasping the degree of conformity with the body state information.

In addition, the present invention is based on the classification of the EEG measured on the head meridian pattern according to the emotion as a criterion, while stimulating the meridians associated with a particular emotion and at the same time to provide a stimulation that can cause a specific emotion can increase the treatment efficiency An object of the present invention is to provide an apparatus and a measuring method for tofu meridian activity.

In addition, the present invention provides a meridian meridian activity measuring apparatus and measuring method that can increase the treatment efficiency by inputting multimodal information into the brain by stimulating the meridians of the head and using audiovisual information as an auxiliary stimulus means. It aims to provide.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the head meridian activity measuring device according to an embodiment of the present invention is made of an electrode sensor or acupuncture points, placed on the acupoints on the meridians of the user's head to measure the EEG signal of the user, At least one conductive member providing a stimulus signal; A database for patterning the brain wave signals of the human body by at least one classification and storing the brain wave signals as reference data; A signal transceiving unit which receives the EEG signal of the user measured from the conductive member and transmits a stimulus signal to the conductive member; An EEG signal analysis unit for converting the EEG signal of the user received by the signal transmission unit to the indicator data, and analyzes the background emotion and physical state of the user by comparing with the reference data stored in the database; And a stimulus signal generator configured to generate a stimulus signal based on the background emotion and the physical condition of the user analyzed by the EEG signal analyzer and transmit the generated stimulus signal to the conductive member.

The head meridian activity measuring apparatus according to the present invention, the audio-visual information output unit for outputting visual and auditory information based on the user's background emotion and physical condition analyzed by the brain wave signal analysis unit;

Head meridian activity measuring apparatus according to the present invention, the EEG signal analysis unit received an amplitude and potential analysis (evoked potential) of the EEG signal (evoked potential) received through the signal transceiving unit, beta / alpha (beta / alpha) Analysis of band power ratio, comparative analysis of symmetry of EEG, correlation dimension and Lyapunov exponent, and coherence and mutual information analysis of EEG by frequency band It is characterized in that the conversion to the indicator data by performing at the same time.

Head meridians activity measuring method according to the invention, the first step of measuring the EEG signal of the user through at least one conductive member at the acupuncture points on the menstrual blood line on the head; A second step of analyzing, by the EEG signal analyzer, the EEG signal measured by the conductive member; A third step of generating indicator data based on the EEG signal analyzed by the EEG signal analyzer; A fourth step of deriving an evaluation of the user's background emotion and physical condition by comparing the generated indicator data with the patterned reference data stored in the database; And a fifth step of generating a stimulus signal based on the background emotion and the physical condition of the user derived in the fourth step, and providing the generated stimulus signal to the head acupoints.

According to the present invention, in the fifth step, the meridians activity measuring method is characterized in that it comprises the step of outputting the visual and auditory information on the basis of the analyzed user's background emotion and physical condition.

According to the apparatus and method for measuring the meridians activity of the present invention, by measuring the brain waves on the meridians of the head to analyze the measured brain waves to generate indicator data, the generated indicator data body state including the stored base data and emotional state By grasping the degree of agreement with the information there is an advantage that can grasp the user's body information.

According to the present invention, the brain waves measured on the meridians of the head based on the pattern classification based on the emotion, and by stimulating the meridians associated with a particular emotion and at the same time providing a stimulus that can cause a specific emotion can increase the treatment efficiency There is an advantage.

In addition, according to the present invention, by stimulating the meridians of the head and at the same time using the audiovisual information as an auxiliary stimulation means has the advantage of increasing the treatment efficiency by inputting the multimodal information into the brain.

1 (a) to (d) is a diagram showing the acupuncture points of the human body to which the head meridian activity measuring apparatus according to the present invention can be applied.
Figure 2 is a block diagram showing an apparatus for measuring tofu Meridian activity according to the present invention.
Figure 3 is a flow chart showing a control method of the head meridian activity measuring apparatus according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, 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.

Embodiments in accordance with the concepts of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail in this specification or application. However, this is not intended to limit the embodiments in accordance with the concept of the present invention to a particular disclosed form, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between. Other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this specification, the terms "comprises ",or" having ", or the like, specify that there is a stated feature, number, step, operation, , Steps, operations, components, parts, or combinations thereof, as a matter of principle.

1 (a) to (d) is a diagram showing the acupuncture points of the human body to which the apparatus for measuring head meridian activity according to the present invention can be applied.

The head and facial part of the human body are called 'Jeyang branch' in Oriental medicine, where all the veins of 12 canons are gathered. In this case, the meridians that can measure the EEG signals are the venous vein, the foot foot, the foot solar bladder, and the foot foot's acupuncture points. Among these, the venom has the meaning as a central axis. Foot solar bladder 'is important because it is related to drainage blood appearing to the outside while driving the rear of the human body.

Under the principle of yin and yang phenomena, oriental medicine has a theoretical system that categorizes and recognizes all natural and human phenomena, which has advantages in the interpretation of life phenomena organically connected rather than independent.

In addition, in order to interpret the information from the EEG signal, in order to take advantage of these advantages, the electrode is attached on the meridians instead of the position where the conventional EEG electrode is attached to increase the degree of agreement with the meridians and the consistency of the theory. Emotional status can be derived from the indicators and can be used to construct diagnostic and therapeutic stimuli.

The emotion of Chiljeong of 'righteous saber reverence' is assigned to the following and is associated with books or meridians, so it can be a standard for diagnosis and treatment of physical condition by identifying the emotional state and the therapeutic effect. It can be an objective criterion for

Slave-Throat-Liver-Foot Jiggle

Hee-hwa-sim-hydrogencock

Usa-Sat-Rain-Footjob

Non-Gold-Lung-Imperoral Menopause

Gong-Su-Shin-Sungso Ninja

The intensity of emotion corresponding to each 'cotton embargo' can be assessed in three stages: weak, medium, and strong. For example, if an indicator appears in a patient's EEG signal with the strongest anger and the highest agreement, the feedback may be a 'timber' approach that controls' neck 'with' gold ', or' It can also be a stimulus of the 'incarnation' method of bringing the spirit of the neck to the next level.

In Oriental medicine, each part of the body is not independent of each other, but has a meridians structure connected with the flow of information, and the information of each part of the meridians is more related to the EEG signal of the head of the same meridians. Can be. Accordingly, the feedback of the judgment based on this information is fed back to the corresponding meridians, thereby increasing the consistency of treatment and improving the treatment efficiency.

Figure 2 is a block diagram showing a head meridian activity measuring apparatus according to the present invention, Figure 3 is a flow chart showing a control method of the head meridian activity measuring apparatus according to the present invention.

Referring to the drawings, the head meridian activity measuring apparatus 1 is a conductive member 10, the signal transmitting and receiving unit 20, the EEG signal analysis unit 30, the database 40, the stimulus signal generator 50 and audio-visual information It may include an output unit 60.

The conductive member 10 includes a plurality of electrode sensors or needles, and is disposed at each menstrual point on the meridians of the user's head to measure an EEG signal of the user. In this case, the EEG signal measurement through the conductive member 10 may measure the EEG signal in a situation in which no stimulus is present or an audiovisual stimulus related to a specific emotion is presented, or a needle / electrical stimulus is applied to a specific drainage blood. . In addition, the conductive member 10 may provide a multi-faceted stimulus signal to the user's head.

The database 40 stores the EEG signals of the human body by at least one or more classifications and stores them as reference data. By patterning the EEG signals of the gender, age group, normal persons, patients with specific diseases, or the user's own stored in the past, Can be stored as reference data.

The signal transceiver 20 may receive a brain wave signal of the user measured from the conductive member 10 and transmit a stimulus signal to the conductive member 10. In addition, although not shown, the signal transceiver 20 may further include a configuration capable of transmitting and converting an electrical signal, including a signal converter, for example, an amplifier and an analog-digital converter.

The EEG signal analysis unit 30 converts the EEG signal of the user received by the signal transmitter 20 into indicator data, and compares the converted indicator data with reference data stored in the database 40, thereby the background emotion and body of the user. Analyze the condition. In this case, the EEG signal analysis unit 30 analyzes the amplitude and potential of the evoked potential with respect to the EEG signal received through the signal transmission and reception unit 20, beta / alpha (beta / alpha). Simultaneous analysis of band power ratio, comparative analysis of symmetry of EEG, correlation dimension and Lyapunov exponent, and coherence and mutual information analysis of EEG by frequency To convert EEG signals into indicator data.

At this time, the magnitude and rate of the cognitive response to the stimulus can be known by analyzing the amplitude and latent potential of the evoked potential, and by analyzing the beta / alpha band power ratio. The degree of increase in brain activity can be seen, and the comparative analysis of EEG symmetry can identify approach motivation, avoidance motivation and related positive and negative emotions.

In addition, the correlation dimension analysis shows the complexity of brain activity, the Liafnov index shows the sensitivity to stimuli, and the frequency-specific coherence of the EEGs for each electrode. And mutual information analysis (mutual information) analysis can be found the association between the points of the menstrual blood points in different positions.

Accordingly, the EEG signal analysis unit 30 may derive an evaluation of the most agreeable and predominant background emotion and its strength and physical condition by comparing the indicator data with the reference data.

The stimulus signal generator 50 generates a stimulus signal capable of stimulating meridians related to a particular emotion based on the background emotion and the physical condition of the user analyzed by the EEG signal analyzer 30, and challenges the generated stimulus signal. By transmitting to member 10, acupuncture or electrical stimulation signals can be provided to each acupoints on the meridians of the head associated with a particular emotion.

In addition, the audiovisual information output unit 60, for example, monitors and speakers using the audiovisual information as an auxiliary stimulation means, based on the user's background emotion and physical condition analyzed by the EEG signal analysis unit 30 By providing visual and auditory information, multimodal information can be input into the brain to increase treatment efficiency.

Meridian stimulation and audiovisual stimulation provided by the stimulus signal generation unit 50 and the audiovisual information output unit 60 may be simultaneously or sequentially performed. Thus, by observing changes in the EEG signal after the implementation of the multi-modal stimulation, it is possible to confirm and monitor the therapeutic effect and to improve the treatment efficiency.

As shown in FIG. 2, in the method of measuring head meridian activity through the head meridian activity measuring device 1, first, at least one conductive member 10 is disposed at a plurality of acupoints on the menstrual blood lines of the head to receive a user's EEG signal. Measure (S10).

The EEG signal measured by the conductive member 10 is provided to the EEG signal analysis unit 30 via the signal transceiver 20, and the EEG signal analysis unit 30 induces an induced potential for the received EEG signal. Amplitude and latency analysis, beta / alpha band power ratio analysis, comparative analysis of symmetry of EEG, correlation dimension and Lyapunov exponents, and EEG for each electrode The coherence and mutual information analysis for each frequency band is simultaneously performed in real time (S20), and the received EEG signal is converted into indicator data (S30).

In the above, the amplitude and latent analysis of the evoked potential reveals the magnitude and rate of the cognitive response to the stimulus and the beta / alpha band power ratio analysis. The degree of activity of the brain is increased through the analysis, and the comparative analysis of the symmetry of the EEG can identify the approach motivation, the avoidance motivation, and the positive and negative emotions related thereto.

In addition, the correlation dimension analysis shows the complexity of brain activity, the Liafnov index shows the sensitivity to stimuli, and the frequency-specific coherence of the EEGs for each electrode. And mutual information analysis (mutual information) analysis can be found the association between the points of the menstrual blood points in different positions.

Thereafter, the generated index data is compared with the patterned reference data stored in the database 40 to derive the evaluation of the most agreeable and predominant background emotion and its strength and physical condition (S50).

The stimulus signal generation unit 50 generates a stimulus signal based on the user's background emotion and body state derived from the EEG signal analyzer 30, and further, based on the derived background emotion and body state, the audiovisual information is provided. The multimodal stimulus is provided by outputting the visual and auditory information through the output unit 60 (S60). Multimodal stimuli provided at this time may be provided simultaneously or sequentially.

Therefore, the use of audio-visual information as a supplementary stimulus means to stimulate meridians associated with a particular emotion and at the same time as a supplementary stimulus means not only to increase treatment efficiency but also to measure stimulation applied to drainage blood. It can be applied to various fields such as detecting changes in EEG signals and using them to diagnose diseases or verify therapeutic effects.

As described above, the present invention can overcome the limitations of the conventional EEG measurement, attaching the EEG electrode on the meridians rather than anatomically determined position, and derives the most predominant background emotion from the measured EEG signals. Afterwards, the treatment method can be fed back according to the theory of five medicines of oriental medicine, and the change of EEG signal is detected based on the stimulus applied to the drainage blood of the 'foot solar bladder' to diagnose the physical condition and to verify the treatment effect. By using this, it is possible to increase the diagnostic value of EEG signals and to expand the therapeutic method of oriental medicine. In addition, there is a feature that can provide an objective evaluation criteria in treatment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. will be. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1: head meridians activity measuring device 10: conductive member
20: signal transceiver 30: EEG signal analysis unit
40: database 50: stimulus signal generator
60: audiovisual information output unit

Claims (6)

At least one conductive member made of an electrode sensor or saliva, disposed on the menstrual point on the meridians of the user's head to measure the EEG signal of the user, and provides a stimulus signal to the menstrual point;
A database for patterning the brain wave signals of the human body by at least one classification and storing the brain wave signals as reference data;
A signal transceiving unit which receives the EEG signal of the user measured from the conductive member and transmits a stimulus signal to the conductive member;
An EEG signal analysis unit for converting the EEG signal of the user received by the signal transmission unit to the indicator data, and analyzes the background emotion and physical state of the user by comparing with the reference data stored in the database; And
Head meridian activity comprising: a stimulus signal generating unit for generating a stimulus signal based on the user's background and body condition analyzed by the EEG signal analysis unit, and transmits the generated stimulus signal to the conductive member Measuring device.
The method of claim 1,
Head meridian activity measuring apparatus further comprises; audio and visual information output unit for outputting visual and auditory information based on the user's background emotion and physical condition analyzed by the EEG signal analysis unit.
The method of claim 1,
The EEG signal analysis unit, the amplitude and potential analysis of the evoked potential, the beta / alpha (beta / alpha) band power ratio analysis, EEG signals received through the signal transmission and reception unit Simultaneous comparison of symmetry, correlation dimension and Lyapunov exponents, and coherence and mutual information analysis of frequency bands of EEG appearing at each electrode are performed in real time and converted into indicator data. Tofu meridian activity measuring device.
A first step of measuring an EEG signal of a user through at least one conductive member at the acupuncture points on the head menstrual blood lines;
A second step of analyzing, by the EEG signal analyzer, the EEG signal measured by the conductive member;
A third step of generating indicator data based on the EEG signal analyzed by the EEG signal analyzer;
A fourth step of deriving an evaluation of the user's background emotion and physical condition by comparing the generated indicator data with the patterned reference data stored in the database; And
A fifth step of generating a stimulus signal based on the background emotion and the physical condition of the user derived in the fourth step, and providing the generated stimulus signal to the head acupoints; .
5. The method of claim 4,
The third step, the EEG signal analysis unit for the measured EEG signal,
A first process of performing amplitude and latency analysis of the evoked potential;
A second process of performing beta / alpha band power ratio analysis;
A third step of performing a comparative analysis of symmetry of the brain waves;
A fourth process of performing correlation dimension and Lyapunov index analysis; And
And a fifth step of performing correlation and mutual information analysis for each frequency band of EEG appearing for each electrode; converting to indicator data by simultaneously performing in real time.
5. The method of claim 4,
And in the fifth step, outputting visual and auditory information based on the analyzed background emotion and physical condition of the user.

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