KR20130061619A - Trainging system and method for developing human resources using neuro mental behavior program - Google Patents

Abstract

PURPOSE: A human resource development education system and a method are provided to give positive change to an individual behavior by providing a customized training after measuring and analyzing a brain index and a brain constitution of an individual or an organization. CONSTITUTION: A brain constitution diagnosis module(112) infers a content of a brain chemical material with reference to a result of a question to a research method. A list module(113) includes an estimation item about the brain index and constitution. The list module prepares a brain index list and a brain constitution list having a reference score to judge the normality of the score range of each estimated items. A first analysis module(120) classifies the brain index by type and value with reference to the brain index list. A second analysis module(130) classifies the brain index by type and value with reference to the brain constitution list. A training module(140) provides a training list in the training programs to satisfy the reference score registered to a user terminal. A post management module(150) provides a deviation of the brain index and brain constitution values to the training module. [Reference numerals] (110) NMB program module; (111) Brain index module; (112) Brain constitution diagnosis module; (113) Brain constitution list; (113a) Brain index list; (113b) List module; (120) First analysis module; (130) Second analysis module; (140) Training module; (141) Training list; (150) Post management module; (AA) List module

Description

Training System and Method for Developing Human Resources Using Neuro Mental Behavior Program}

The present invention relates to a human resources development education system and method using the NMB program (hereinafter referred to as NMB program), and more specifically, to measure the brain quotient (Brain Quotient) and brain constitution of the subject, the measured brain quotient and brain The present invention relates to a human resource development education system and method using an NMB program that can positively improve the brain, emotion and body of the subject by setting and providing customized training according to the constitution value.

Human resource development means a systematic and planned educational activity that allows an organization to develop its members' capabilities for today and for the future. In the past, human resource development focused on improving employees' work capabilities by periodically conducting work-based education activities. Such a training method has a problem of staying in a formal one-time event as it is composed of a batch injection training regardless of individual differences.

The prior art shown in FIG. 1, "Total Learning of Workplaces through Career Development and Knowledge Management," is intended to systematize the education system of the corporate education field, and accumulates the intellectual assets held by the members of the organization in the organization. It is then delivered to the members of the organization to provide a corporate education system that enables each individual to develop into a workforce with expertise in their field. However, the conventional technology attempts to solve the existing problems through the systematic education management, but as the education focused on the work is carried out in a batch injection method, it is difficult to make customized education according to the level of the individual, and There is a problem that access to the emotional aspects of the subject is not made.

An object of the present invention, by measuring the brain index and brain constitution of the subject to set up and implement a customized training program according to the constitution and characteristics of the individual, and provide periodic follow-up management, as well as the brain nerve, emotion of the subject And to provide a human resource development education system and method using the NMB program that can improve the body.

According to the present invention, the brain index, the questionnaire to classify the brain nerves, emotions and physical conditions of the subject by reference to any one of the EEG type, amplitude and frequency of the subject measured by the EEG measuring apparatus, and a survey In the human resource development education system using the NMB (Neuro Mental Behavior) program that determines brain constitution to classify brain chemicals by type with reference to the results of the method, the autonomic nervous system of the brain is controlled for the brain of the subject Self-regulation index for judging ability, basic rhythm index for judging brain development and stability, attention index for judging brain arousal, activity index for judging brain activity, physical stress Antistress index, emotional index to judge emotional balance, and left and right encephalopathy to judge balance between left and right brain Brain index module for calculating and storing the numerical value of the brain index consisting of the index, the brain constitution diagnostic module for inferring the content of the brain chemicals with reference to the results of the survey method, evaluation items for the brain index and brain constitution Brain score list and brain constitution list having a score section having a range of 1 to 40 for the evaluation item, and having a reference score for determining whether the score section of each evaluation item is normal A list module including a list module, a first analysis module for classifying the brain index by type and number, and a second analysis classifying the brain constitution by type and number with reference to the brain constitution list with reference to the brain index list One of a module, a brain index for each evaluation item, and the brain constitution value If it is not sufficient, the training module for providing a training list registered with a training program to satisfy the reference score to the user terminal and the brain index and the brain constitution values before and after the subject using the training list deviations It is achieved by a post-management module provided to the training module.

In addition, it is performed by the human resource development system using the NMB (Neuro Mental Behavior) program to determine the brain index and brain constitution of the subject by referring to the results of the EEG measuring device, the survey method, EEG through the EEG measuring device Calculating the brain index and the brain constitution value of the subject by referring to the results of the survey, the survey method, and a brain classifying the brain index and the evaluation items for the brain constitution into score sections of 1 to 40. Classifying the brain index and the brain constitution according to an evaluation item with reference to a list module including an index list and a brain constitution list, and the brain index and the brain constitution value are included in the brain index list and the brain constitution list. The reference score for determining whether or not the normal for the score section of each evaluation item provided Determining whether the brain index and the brain constitution value do not satisfy the reference score, wherein the brain index and the brain constitution value are trained with a training program for meeting the reference score. Referring to a list, referring to the training list, setting the training program corresponding to the brain index and the brain constitution value, and providing the set training program to a user terminal, before providing the training program. Thereafter, comparing the deviation of the brain index and the brain constitution value of the subject and resetting the training program with reference to the training list as a result of the deviation comparison of the brain index and the brain constitution value. .

According to the present invention, by measuring and analyzing the brain index and brain constitution of an individual or tissue, by providing a personalized training tailored to the characteristics of the individual or tissue, it is possible to make a positive change in emotion, thinking and behavior.

In addition, continuous follow-up management measures, compares and analyzes changes in the brain index and brain constitution levels of the subjects to reflect in the training program, so that the training program can be reset according to the current status of the subjects.

1 shows a flow chart of the prior art.
2 is a block diagram of a human resource development education system using an NMB program according to an embodiment of the present invention.
3 shows a flowchart in accordance with one embodiment of the present invention.
4 is an interface reference diagram for a brain index measurement result according to an embodiment of the present invention.
5 illustrates an interface reference diagram for brain constitution measurement results according to an embodiment of the present invention.
6 (a) to 7 (b) illustrate reference diagrams for brain indexes and brain constitutions and training program settings of subjects before providing a training program according to an embodiment of the present invention.
8 to 9 are reference drawings for a questionnaire for measuring brain constitution according to an embodiment of the present invention.

The NMB (Neuro Mental Behavior) program mentioned in the present invention measures and digitizes the brain index and brain constitution of the subjects through an EEG, a survey, and sets an appropriate training program in case of abnormalities. It can refer to a program that corrects to a normal value.

Brain index referred to in the present invention, by measuring the brain wave of the subject through the EEG measuring self regulation Quotient (Basic Regulation Quotient), basic rhythm index (Basic rhythm index) Rhythm Quotient, Attention Quotient, Activity Quotient, Activity Quotient, Stress Quotient, Emotion Quotient, and Left and Right Brain Balance Index may be collectively referred to.

Brain constitution referred to in the present invention is classified as a dopamine constitution, dopamine deficiency, acetylcholine constitution, acetylcholine deficiency constitution, Gaba constitution, Gaba deficiency constitution, serotonin constitution and serotonin deficiency Can be generically named.

2 is a block diagram of a human resource development education system using an NMB program according to an embodiment of the present invention.

Referring to FIG. 2, the NMB program module 110 includes a brain index module 111 for measuring a brain index of a subject, a brain constitution diagnostic module 112 for measuring brain constitution, and a reference score for each evaluation item of a brain index. It may be configured to include a list module 113 consisting of a brain index list 113a, a brain constitution list 113b including a reference score for each evaluation item of the brain constitution included.

The brain index module 111 is a delta wave (δ-Wave), theta wave (θ-Wave), alpha wave (α-Wave), SMR wave (Sensory Motor Rhythm-Wave) and beta wave generated in the brain of the subject ß-Wave) any one of the brain waves is measured by the EEG. In addition, the self-regulation index, which determines the autonomic nervous system control ability of the brain, the basic rhythm index, which determines the degree of development and stability of the brain, and the degree of arousal, It consists of the attention index to determine the activity, the activity index to determine the activity of the brain, the anti-stress index to determine the degree of physical stress, the emotional index to determine the emotional balance and the left and right brain balance index to determine the balance between the left and right brain The brain index is numerically calculated for each index.

Here, brain waves, delta waves, theta waves, alpha waves, SMR waves, and beta waves, which occur in the brain of a subject and are measured by an EEG measuring device, have respective frequency bands, preferably Delta waves are 01.Hz to 3Hz. Theta waves may have a frequency band of 4 Hz to 7 Hz, alpha waves of 8 Hz to 12 Hz, SMR waves of 12 Hz to 15 Hz, and beta waves of 16 Hz to 30 Hz. In addition, the beta wave may be classified into a first beta wave having a frequency band of 16 Hz to 20 Hz and a second beta wave having a frequency band of 21 Hz to 30 Hz.

The brain index list 113a is a numerical value of the brain index quantified by the brain index module 111, A score section having a range of 1 to 40 is divided into 4 to 8 evaluation items.

For example, the value of the self-regulation index in the brain index includes a score interval consisting of 20 intervals of less than 40, less than 40 and less than 60, less than 60 and less than 80 and less than 80 and less than 100, and each score interval is 'lowest'. It can be expressed as four evaluation items, 'low', 'normal' and 'best', and can be briefly expressed through the evaluation item including the numerical value of the self-regulation index of the subject. In addition, although not shown, a specific score may be set as a reference score, and an evaluation item including the reference score may be determined as a brain index in a steady state. Therefore, when the value of the brain index of the subject of education is measured in the brain index module 111, the brain index may be classified according to a section corresponding to the numerical value with reference to the brain index list 113a.

Here, the reference scores are brain indexes and brain constitutions for determining whether the brain index and brain constitution values are normal values, and may refer to specific scores and ranges of specific scores.

Brain Constitution Diagnosis Module 112, through a survey focused on the content of brain chemicals, including any one of dopamine, acetylcholine, gabba and serotonin in the brain of the subject Digitize by type of brain constitution. The survey consists of 200 questions of normal constitution, 115 questions of overlapping constitution, and 315 questions. In the normal constitution questionnaire, which ranges from 1 to 50, the values of the dopamine, acetylcholine, gabba and serotonin are calculated, and the brain chemicals having the highest values are the normal brain constitutions of the subjects. Judging by In addition, if there is a difference between the highest and lowest levels of each of the brain chemicals calculated through the normal constitution questionnaire more than 10, the lowest level of the brain chemicals can be judged as a lifelong deficiency of the subject. Can be.

For example, if the level of brain chemicals calculated through the normal constitution questionnaire is calculated as dopamine 15, acetylcholine 20, Gaba 40 and serotonin 33, the normal brain constitution of the subject may be determined to be Gaba constitution. Through these results, it is possible to recognize that the Gaba content is the highest among the brain chemicals of the current education subjects, and it is possible to determine the brain nerves, emotions, and body characteristics of the education subjects according to Gaba constitution.

In the case of a deficiency constitution questionnaire, the survey result ranges from 1 to 25, and the deficiency constitution questionnaire calculates values of each of dopamine, acetylcholine, gaba, and serotonin, and the calculated value is 6 or more. For example, the substance may be regarded as a deficiency of the subject. In addition, when a large number of substances having a calculated value of 6 or more are determined, the substance having the highest value may be determined as a representative deficient brain constitution.

For example, if the level of brain chemicals calculated through the deficiency constitution questionnaire is calculated as dopamine 15, acetylcholine 10, gabba 4 and serotonin 23, the subject's deficiency constitution is calculated to be at least 6, dopamine, It can be judged by acetylcholine and serotonin. In particular, the highest level of serotonin can be judged as a representative deficiency of education. These results indicate that serotonin among the brain chemicals of the current target subjects has the most overlap, and to determine the characteristics of the brain, emotion, and body of the subjects due to serotonin deficiency.

Therefore, the normal constitution can be quantified by dividing into any one of the normal constitution such as dopamine constitution, acetylcholine constitution, Gaba constitution and serotonin constitution, dopamine deficiency constitution of the overlapping brain constitution through the overlapping constitution survey It can be quantified by dividing into any one of the constitution, acetylcholine deficiency constitution, Gaba deficiency constitution and serotonin constitution.

For example, if the dopamine level was highest in the normal constitution questionnaire, and the Gaba level was calculated to be 6 or higher in the deficiency constitution questionnaire, the subject may be determined to be a normal dopamine constitution and a gava deficiency constitution.

Here, the deficiency constitution may be determined as a deficiency constitution if the value calculated through the deficiency survey is 6 or more, and the constitution including the highest value may be determined as a representative deficiency constitution. Therefore, there may be a plurality of overlap constitution, and if the deficiency of the total constitution is less than 6, there may be no deficiency.

The brain constitution list 113b includes a score section having a range of 1 to 40, preferably 1 to 10, of the brain constitution values of the subjects measured in the brain constitution diagnosis module 112, and 4 to 8 evaluations. Separate items.

For example, the scores of dopamine constitution in the brain constitution include four intervals of less than 9, 9 or more, less than 13, 13 or more, less than 17, 17 or more, less than 21, and 21 or more and less than 25, and each score interval 'Best', 'Bottom', 'Average', 'Up' and 'Best' are displayed as five evaluation items, and can be briefly expressed through evaluation items that include the dopamine constitution value of the subject. In addition, although not shown, a specific score may be set as a reference score, and an evaluation item including the reference score may be determined as a normal brain index.

Here, the brain index list 113a and the brain constitution list 113b may be included in the list module 113.

The first analysis module 120 classifies the values of the brain indexes measured and calculated by the brain index module 111 by the type and the number of the brain indexes with reference to the brain index list 113a of the list module 113. .

For example, among the calculated brain index, the value of self-regulation index is 30, and the value 30 is included in the 'low' evaluation item among 'high', 'middle' and 'low' in the brain index list. If so, the self-regulation index through the first analysis module 120 may be classified as a 'low' evaluation item having a value of 30.

The second analysis module 140 classifies the brain index values measured and calculated by the brain constitution diagnosis module with the brain constitution list 113b of the list module 113 and classifies the brain constitutions by type and numerical value. In addition, the brain constitution can be classified by type and number through the same method as the first analysis module.

The brain index and brain constitution classified through the first analysis module and the second analysis module can easily recognize the state of the subject who cannot be recognized through the numerical value by dividing each evaluation item.

Training module 140, the brain index and brain constitution classified in the first analysis module 120 and the second analysis module 130, according to the respective numerical values and evaluation items, the type of training, the training time, the number of training, etc. By referring to the training list in which the training program for correcting the reference score is applied differently, a suitable training program is set, and the training program is provided to the user terminal.

For example, if the brain index and brain constitution values classified through the first analysis module and the second analysis module, the attention index among the brain index does not meet the reference score, and the brain constitution is a Gaba deficient constitution to the normal dopamine constitution. For example, walking training, meditation training, and diet control and presentation training programs can be established and provided to correct the state's index to baseline.

In this case, the user terminal may be configured as a terminal that allows the target person to check the contents of the training program set by the training module 140 in a visual and auditory manner.

Here, if the brain index and brain constitution values do not satisfy the reference score set in the brain index list 113a and the brain constitution list 113b, the brain index as an evaluation item including the reference score and the reference score In order to correct brain constitution levels, it is provided. In addition, when the brain index and brain constitution values are included in the reference score, it may be set and provided to correct the brain index and brain constitution values in a direction to maintain or improve the current state of the subject.

Here, the training program is visual, auditory, olfactory, taste, and tactile to the subject to correct the normal pattern if the brain wave pattern of the subject to be identified in real time through the EEG measuring device is an abnormal pattern outside the normal pattern, Neurofeedback training to induce changes in brain waves through stimulation of the back. The EEG pattern is checked in real time, and when the EEG pattern is normally returned through a specific stimulus, the EEG pattern is normally corrected by maintaining and repeating the stimulus state at that moment.

The post-management module 150 is linked with the training module 140 and the NMB program module 110, and compares the brain index and brain constitution values of the subject before and after the training program, respectively, and compares the variation of the change in the values. The training module 140 may be transferred to the training module 140 and the training module 140 may reset the training program by referring to the variation of the numerical value and the training list 131. In addition, the brain index and brain constitution values of the trainees after receiving the training program and the brain index and brain constitution values of the trainees before receiving the training program are output so that the trainees can check visually, auditory, and tactilely. This allows the trainees to check their brain index and changes in brain constitution.

3 shows a flowchart according to an embodiment of the present invention.

Referring to FIG. 3, the brain wave measurement apparatus is performed by a human resource development system using a NMB (Neuro Mental Behavior) program for determining the brain index and brain constitution of a subject by referring to the results of a survey method. The brain index and brain constitution values are calculated with reference to the results of the EEG test and the survey method of the target subject (S101).

Here, the method of calculating the brain index and brain constitution values may be calculated by referring to any one of the brain wave types, amplitudes, and incidences of the subjects, and the normal constitution that distinguishes between normal constitution and deficiency constitution of brain constitution. Surveys and deficiency constitution surveys can be used to calculate the number of types of brain constitution.

The brain index and brain constitution are determined by referring to a list module including a brain index list and a brain constitution list including a plurality of evaluation items divided into score sections of the brain index and the brain constitution (S102).

It is determined whether each evaluation item is normal by comparing the score section obtained from each evaluation item with respect to a predetermined reference score that can determine whether the brain index and the brain constitution value are included in the normal value (S103).

It is determined whether the brain index and the brain constitution value satisfies the reference score (S104), and if so, it is set with reference to a training list including a training program for maintaining or improving the current brain index and the brain constitution value (S104). . On the contrary, when the reference score is not satisfied, the reference score is set with reference to the training list including the training program for satisfying the reference score (S105).

When the setting of the training program is completed, the set training program is provided to the user terminal which outputs the training program in one of video and audio (S106), and comparing the brain index and brain constitution value deviations before and after training program provision. Check the brain index and whether there is a change in brain constitution (S107).

According to the change in the brain index and brain constitution values, the type of training, the training time and the number of training of the training program are reset (S108), and the reset training program is provided for improving the brain index and brain constitution of the subject. The same sequence can be repeated periodically, depending on the subject's condition or the cycle of the training program.

4 is an interface reference diagram for a brain index measurement result according to an embodiment of the present invention.

Referring to FIG. 4, the brain index measured by the EEG measuring device is divided into numerical values for each type and illustrated in graphs and tables. The brain index is composed of self-regulation index, basic rhythm index, attention index, activity index, anti-stress index, emotional index and left and right brain balance index, and in particular, basic rhythm index, attention index, activity index and anti-stress index, left brain Measure the and right brain respectively. The brain index measurement method is performed by referring to the brain wave type, amplitude, and frequency of training subjects through an EEG measuring apparatus, and the numerical value obtained by adding the numerical values for each type of brain index calculated is a brain index value.

The score of the brain index is divided into score sections of 1 to 40, and each score section may be expressed as an evaluation item such as high, low, upper, middle, and lower, rather than a numerical value. In FIG. 7, the score section of the brain index is set to 10 and divided into seven evaluation items, and the highest, upper, upper, middle, normal, middle, lower and lower evaluation items are expressed according to the numerical value. Through this, it is possible to easily recognize where the brain index is generally included by expressing the current state, which is hard to be recognized by the numerical expression, in the evaluation item method such as upper, middle, and lower.

5 illustrates an interface reference diagram for brain constitution measurement results according to an embodiment of the present invention.

Referring to FIG. 5, brain constitutions measured by Braveman's survey method are classified into normal brain constitution and deficient brain constitution. The normal brain constitution measured through the normal constitution questionnaire, the result range of the survey can be set to 1 to 50, and classified into dopamine constitution, acetylcholine constitution, gaba constitution and serotonin constitution. In the normal brain constitution diagram 200 of FIG. 5, dopamine 25, acetylcholine 26, Gaba 39, and serotonin 12 are shown, and the normal brain constitution of the subject can be judged as the highest Gaba constitution.

In the depleted brain constitution chart 300, it is measured as dopamine 0, acetylcholine 8, Gaba 6, and serotonin 4, and the deficient brain constitution of the subjects is acetylcholine, Gaba constitution including a value of 6 or more, in particular, the deficiency level. The highest acetylcholine constitution can be judged as a representative deficient brain constitution.

According to FIG. 5, the brains of the subjects are judged to be Gaba, acetylcholine-deficient, and Gava-deficient, and can be provided with training programs suitable for each normal and deficient constitution.

6 (a) to 7 (b) illustrate reference diagrams for brain indexes and brain constitutions and training program settings of subjects before providing a training program according to an embodiment of the present invention.

6 (a) to 7 (b), FIG. 6 (a) shows that the brain index of the subjects is 64.3, the brain constitution is Gaba normal constitution 25, and dopamine deficiency constitution 8 through the EEG and the survey. do. The baseline scores for the brain index are 70-80, normal brain constitution reference scores are 30-35, and deficient brain constitution reference scores are 2-4. Therefore, according to FIG. 6A, the brain index is determined to be less than 5.7 at the minimum value of the reference score, less than 5 at the minimum value of the normal brain constitution reference score, and less than 4 at the minimum value of the deficient brain constitution reference score. As both the brain index and the brain constitution values correspond to abnormal values that do not satisfy the reference score, a training program for correcting each value to the reference score is set as shown in FIG. 6 (b).

FIG. 6 (b) shows a training program that is set up three times a month for anaerobic exercise, 30 minutes per session, three times a week for breathing, 20 minutes per session, and 1: 1 counseling and presentation training once a week. This is provided. We want to correct the brain index through exercise training and communication training.

In addition, to correct brain constitution, a meditation training session is provided twice a week, a neurofeedback training session 6 times a week, and a diet program for breakfast, lunch, and dinner for 2 months is provided. Training to control the brain wave is mainly done, and to limit the nutrients ingested to correct the brain constitution.

Here, the type of training provided, the training time, and the number of trainings are not limited, and may be variously applied according to the condition of the subject or the surrounding environment.

FIG. 7 (a) shows the brain index and brain constitution values after the training program set in FIG. 6 (b) is provided to the user terminal and the subject is trained. Through the training program of FIG. 6 (b), the brain index of the subjects is corrected from 64.3-> 72.5, the brain constitution is corrected from Gaba normal constitution to 25-> 28, dopamine deficiency constitution to 8-> 5. Both the brain index and brain constitution values increased, and the brain index was included in the reference score, and the brain constitution was measured to be 2 or 1 below the reference score, respectively. As the brain index and brain constitution levels of the subject change, there is a need to reset the training program.

Therefore, with reference to FIG. 7 (b), the brain index was included in the reference score, so that the existing anaerobic training, the time and frequency of double breathing, and 1: 1 counseling training and presentation were maintained to maintain or improve the current value. Reset training by replacing it with group discussion training. In the case of cerebral constitution, although it is close to the reference score, but it is still showing an abnormal level, it maintains the time and frequency of the existing meditation and neurofeedback training, and resets the diet to a training program that adjusts the menu and application period. .

As such, the setting of the training program-> training program provision-> feedback-> resetting the training program-> the cycle of the training program provision method can be performed periodically according to the change in the brain index and brain constitution values of the subjects, The method may be applied in consideration of the surrounding environment, physical and emotional state, and even if all the brain indexes and brain constitutions are included in the reference score, to correct or maintain the current state of the brain index and brain constitutions. For this purpose, the measurement of brain index and brain constitution, setting up and providing training programs can be continued.

8 to 9 show reference drawings for a questionnaire for measuring brain constitution according to an embodiment of the present invention.

8 shows a survey interface for calculating the level of dopamine constitution in the brain constitution. The total number of questions is 50. For each item, the questionnaire is checked by checking 'Yes' if it matches its status and 'No' if it does not match. When the questionnaire is completed for 50 questions, the total number of items checked in the 'Yes' item is added, and the sum is the subject's dopamine constitution level.

Although not shown, the number of questions is the same as in FIG. 8, and the questionnaire may be surveyed for acetylcholine, gabba, and serotonin constitution through a questionnaire with a different questionnaire. Can be calculated. When the survey calculates the number of brain constitutions by type, the brain constitution with the highest value among each is judged as the normal brain constitution of the subject. In addition, if the same value is calculated, ① dopamine, ② acetylcholine, ③ gaba, ④ serotonin in order to prioritize normal constitution.

For example, when the brain constitution values calculated through the survey are dopamine 34, acetylcholine 41, gaba 28 and serotonin 33, the acetylcholine level is the highest, so that the normal brain constitution of the subjects is changed to acetylcholine constitution. You can judge. In addition, when the brain constitution values calculated through the survey are dopamine 42, acetylcholine 35, Gaba 42, and serotonin 32, the dopamine and gaba levels are the highest and the same, so education in the order of determining normal brain constitution The normal brain constitution of the subject can be determined by the dopamine constitution.

9 shows a survey interface for calculating levels of Gaba deficiency constitution, among brain constitutions. The total number of questions is 25 questions, and the value of Gava deficiency constitution is calculated in the same manner as the method for calculating brain constitution values in FIG. 8.

Although not shown in FIG. 9, the number of questions is the same, and questions about the dopamine deficiency constitution, the acetylcholine deficiency constitution, and the serotonin deficiency constitution may be conducted through a questionnaire with a different questionnaire. A numerical value can be calculated for each.

Here, if the value calculated by the survey is less than 6, it is determined that there is no deficiency, and if it contains a value of 6 or more can be determined as deficient brain constitution. In addition, when the calculated value is 6 or more deficient constitutions having the same value, it is possible to determine the deficient constitution that is representative of the education subject in the same order as the priority order of FIG.

For example, if the survey, dopamine 4, acetylcholine 2, Gaba 3 and serotonin 5 is calculated, each level is less than 6, it can be determined that there is no deficiency brain constitution of the subjects. In addition, if the survey calculates the levels of dopamine 22, acetylcholine 22, Gaba 18 and serotonin 4, the subjects are deficient in all of the constitution of dopamine, acetylcholine and Gabba having a value of 6 or more, especially the highest Acetylcholine can be regarded as a representative deficiency brain constitution.

Through the above judgment, by classifying the normal brain constitution and the deficient brain constitution of the subjects and calculating the numerical value, the brain index and the brain constitution value can be corrected to the normal value range by applying a customized training program suitable for each condition. , Can improve.

100: NMB program 120: first analysis module
110: NMB program module 140: second analysis module
111: brain index module 140: training module
112: Brain Constitution Diagnostic Module 141: Training List
113: list module 150: post-management module
113a: Brain Index List
113b: Brain Constitution List

Claims (15)

Brain chemicals that classify the brain, emotion, and physical state of the subject by referring to any one of the EEG type, amplitude, and frequency of the subject measured by the EEG, and the results of the survey method In the human resource development education system using the NMB (Neuro Mental Behavior) program for judging the brain constitution that classifies the content of the
Self-regulation index, which determines the autonomic nervous system control ability of the brain, the basic rhythm index, which determines the degree of development and stability of the brain, the degree of aging, the attention index, which determines the degree of arousal of the brain, the state of brain activity Computing and storing the values of the brain index consisting of the activity index to determine the physical stress level, the anti-stress index to determine the degree of physical stress, the emotional index to determine the emotional balance and the left and right brain balance index to determine the balance between the left and right brain Brain index module;
Brain constitution diagnostic module for inferring the content of the brain chemicals with reference to the results of the survey method;
And a score section having an evaluation item for the brain index and brain constitution, and having a range of 1 to 40 with respect to the evaluation item, and a reference score for determining whether or not the score point of each evaluation item is normal. A list module including a brain index list and a brain constitution list;
A first analysis module classifying the brain index by type and numerical value by referring to the brain index list;
A second analysis module that classifies the brain constitution by type and value by referring to the brain constitution list;
A training module for providing a user list with a training list registered with a training program for satisfying the reference score when any one of the brain index and the brain constitution value for each evaluation item does not satisfy the reference score; And
A post-management module for providing the training module with a deviation of the brain index and the brain constitution value before and after the subject uses the training list;
Human resource development education system using the NMB program, characterized in that it comprises a. The method of claim 1,
The EEG type is,
Human resource development education system using the NMB program, characterized in that any one of the delta wave, theta wave, alpha wave, SMR (Sensory Motor Rhythm) wave and beta wave generated in the brain of the subject. The method of claim 2,
The beta wave is,
Human resource development education system using an NMB program comprising any one of a first beta wave having a wavelength of 16Hz to 20Hz and a second beta wave having a wavelength of 21Hz to 30Hz. The method of claim 1,
The brain chemicals,
Human resource development education system using the NMB program, characterized in that it comprises any one of dopamine, acetylcholine, gaba and serotonin. The method of claim 1,
The brain constitution,
According to the results of each of the normal constitution and the deficiency constitution questionnaire, one of the dopamine constitution, dopamine deficiency constitution, acetylcholine constitution, acetylcholine deficiency constitution, Gaba constitution, Gaba deficiency constitution, serotonin constitution and serotonin deficiency constitution Human resource development education system using the NMB program, characterized in that divided into constitutions. The method of claim 1,
The training list,
The human resource development education system using the NMB program, characterized in that for applying the training method of any one of the type of training, the training time and the number of training in accordance with the brain index, the brain constitution value. The method of claim 1,
The training program,
Check the brain wave pattern of the subject in real time, and if the brain wave pattern is an abnormal pattern, neurofeedback corrected to the normal brain wave pattern through stimulation of any one of the senses of sight, touch, hearing, taste and smell ( Human resource development education system using NMB program, characterized in that the training including Neuro-Feedback). The method of claim 1,
The user terminal comprises:
Human resource development education system using the NMB program, characterized in that the terminal for outputting the training program provided by the training module to any one of the video and audio. The method of claim 1,
The aftercare module,
Human resource development education system using the NMB program, characterized in that for outputting the brain index and the brain constitution value of the subject receiving the training program. The method of claim 1,
The aftercare module,
The human resource development education system using the NMB program, characterized in that for outputting the brain index and the brain constitution value before and after the subject receiving the training program. It is performed by the human resource development system using the NMB (Neuro Mental Behavior) program that determines the brain index and brain constitution of the subjects by referring to the results of EEG measurement and survey method.
Calculating the brain index and the brain constitution value of the subject by referring to an EEG test through the EEG measuring device and a result of the survey method;
Determining the brain index and the brain constitution by referring to a list module including a brain index list and a brain constitution list including a plurality of evaluation items partitioned into score sections of 1 to 40 for the brain index and the brain constitution step;
Determining whether each of the evaluation items is normal by comparing a score interval obtained from each evaluation item with respect to a predetermined reference score;
If one of the brain index and the brain constitution value does not satisfy the reference score, referring to a training list equipped with a training program for the brain index and the brain constitution value to meet the reference score;
Setting a training program corresponding to the brain index and the brain constitution value by referring to the training list and providing the same to a user terminal;
Comparing the deviation of the brain index and the brain constitution value of the subject before and after providing a training program provided to the user terminal; And
Resetting the training program by referring to a comparison result of the deviation between the brain index and the brain constitution value and the training list;
Human resource development education method using NMB program comprising a. 12. The method of claim 11,
Wherein the calculating step comprises:
Through the EEG measuring device, the step of obtaining any one of the EEG type, amplitude and frequency of the subject of the education and calculating the numerical value for each type of the brain index, characterized in that the human resource development using the NMB program Teaching method. 12. The method of claim 11,
Wherein the calculating step comprises:
The human resource development education method using the NMB program, characterized in that the step of calculating the numerical value for each type of brain constitution through the normal constitution questionnaire and deficiency constitution questionnaire, which distinguishes the normal constitution and deficiency constitution of the brain constitution. 12. The method of claim 11,
The providing step,
Providing the training program to the user terminal to which the training method of any one of a training type, a training time, and a training number is applied to correct the brain index and the brain constitution value with the reference score. Human resource development education method using NMB program. 12. The method of claim 11,
Wherein the resetting comprises:
Before and after providing the training program, if there is a deviation between the brain index and the brain constitution value, the training program corresponding to the deviation of the brain index and the brain constitution value with reference to the training list is the training of the subject. Human resource development education method using the NMB program, characterized in that the step of resetting to the program.

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