KR102175988B1 - Method for Analyzing Vitalization of Frontal Lobe, and Media Recorded with Program Executing Method for Analyzing Vitalization of Frontal Lobe - Google Patents

Abstract

A recording medium in which a program for executing a frontal lobe activation analysis method and a frontal lobe activation analysis method is recorded is disclosed. In the present invention, the user terminal analyzes the degree of activation of the frontal lobe of the user based on the user's EEG data, receives control information of the electronic device controlled based on the user's EEG data, and after the user's electronic device is controlled It is implemented through the process of analyzing the user's frontal lobe activation based on the EEG data of. According to the present invention, it is possible to analyze and confirm the degree of frontal lobe activation as a result of the user's neurofeedback training.

Description

BACKGROUND TECHNICAL FIELD [Method for Analyzing Vitalization of Frontal Lobe, and Media Recorded with Program Executing Method for Analyzing Vitalization of Frontal Lobe}

The present invention relates to a recording medium in which a program for executing a frontal lobe activation analysis method and a frontal lobe activation analysis method is recorded, and more particularly, a frontal lobe activation allowing the user to analyze and confirm the degree of frontal lobe activation as a result of neurofeedback training It relates to an analysis method, and a recording medium in which a program for executing the frontal lobe activation analysis method is recorded.

Modern people are not only at risk of mental disorders such as depression by being exposed to constant stress due to excessive competition, but also face a risk of brain and nervous system disorders such as dementia due to aging.

On the other hand, according to the results of many studies in the field of brain science, Neuro Feedback training through brain fitness, a brain exercise that consciously controls brain waves, is the most effective solution for various neurological and psychogenic diseases faced by modern people. It is known.

However, it is very difficult to voluntarily perform such neuro feedback training without assistance through a separate device, and a tool for more effectively supporting neuro feedback training has not been developed.

Accordingly, an object of the present invention is to provide a recording medium in which a program for executing a frontal lobe activation analysis method and a frontal lobe activation analysis method for analyzing and confirming the degree of frontal lobe activation as a result of a user's neurofeedback training is recorded.

The method for analyzing frontal lobe activation according to the present invention for achieving the above object includes the steps of: (a) analyzing, by a user terminal, a degree of the user's frontal lobe activation based on the user's EEG data; (b) receiving, by the user terminal, control information of an electronic device controlled based on brain wave data of the user; (c) analyzing, by the user terminal, a degree of activation of the user's frontal lobe based on EEG data after the user's electronic device is controlled.

Preferably, (d) the user terminal further comprises the step of comparing and analyzing the degree of activation of the frontal lobe in step (a) and the activation information in step (c).

On the other hand, the recording medium according to the present invention is characterized in that a program for executing each step in the method is recorded.

A device control apparatus using EEG according to the present invention for achieving the above object comprises: a communication unit for receiving EEG data of a user from an EEG measuring device; An analysis unit for analyzing a user's mental state based on the brainwave data received by the communication unit; And a controller configured to generate a control signal for the electronic device based on the user's mental state information analyzed by the analysis unit.

Preferably, the mental state information is characterized in that the concentration state information of the user.

In addition, the device control signal is a motor control signal of a toy vehicle equipped with the device control device.

In addition, the device control device is characterized in that it is detachably mounted in the battery pocket of the toy vehicle.

In addition, the device control signal is characterized in that the control signal for a lighting lamp equipped with the device control device.

Meanwhile, the electronic device according to the present invention is characterized in that the device control device is installed.

According to the present invention, it is possible to analyze and confirm the degree of frontal lobe activation as a result of the user's neurofeedback training.

1 is a configuration diagram of a device control system using brain waves according to an embodiment of the present invention,
2 is a functional block diagram showing the structure of a device control device using brain waves according to an embodiment of the present invention, and
3 is a signal flow diagram illustrating an execution process of a method for controlling an electronic device using brain waves and a method for analyzing activation of a user's frontal lobe according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings. It should be noted that the same elements in the drawings are indicated by the same reference numerals wherever possible. In addition, detailed descriptions of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a block diagram of a device control system using brain waves according to an embodiment of the present invention. Referring to FIG. 1, a device control system using brain waves according to an embodiment of the present invention includes a brain wave measuring device 100, a device control device 200, an electronic device 20, and a user terminal 300.

The EEG measuring device 100 is worn on the user's head in the form of a headset, and transmits the user's EEG measurement data to the device control device 200 in real time.

The device control device 200 analyzes the user's mental state based on the user's EEG measurement data received from the EEG measuring device 100, and generates a control signal for the electronic device 20 based on the analyzed mental state information. do.

Inside the electronic device 20, the device control device 200 is integrally installed or detachably installed, and in the practice of the present invention, the electronic device 20 may be an electric toy vehicle, a lighting device, etc. .

In the implementation of the present invention, when the electronic device 20 is an electric toy vehicle, it is preferable that the device control device 200 is detachably mounted in the battery pocket of the electric toy vehicle.

In this way, the device control device 200 installed inside the electronic device 20 controls the electric motor of the electric toy vehicle or the LED inside the lighting device using the control signal generated based on the user's brain wave measurement data. do.

The user terminal 300 is a wireless communication terminal such as a smart pad or a smart phone possessed by the user, and has a predetermined application program installed to execute the frontal lobe activation analysis method according to the present invention.

The application program installed in the user terminal 300 analyzes the degree of activation of the user's frontal lobe based on the user's EEG measurement data measured by the EEG measuring device 100, generates an analysis report, and displays the generated analysis report through the screen. It performs the function of outputting or sending to an external server.

2 is a functional block diagram showing the structure of a device control apparatus 200 using brain waves according to an embodiment of the present invention. Referring to FIG. 2, a device control device 200 using brain waves according to an embodiment of the present invention includes a communication unit 210, an analysis unit 230, a control unit 250, and a power supply unit 270.

The communication unit 210 of the device control device 200 receives the user's EEG measurement data from the EEG measurement device 100, and controls the control signal generated by the control unit 250 to control the motor, LED, etc. inside the electronic device 20 It performs the function of sending to the target device.

The analysis unit 230 analyzes the user's mental state based on the user's EEG measurement data, and the control unit 250 relates to the electronic device 20 based on the user's mental state information analyzed by the analysis unit 230. Individually generate control signals.

Meanwhile, the power supply unit 270 not only supplies operating power to the device control device 200, but also supplies operating power to the electronic device 20 in which the device control device 200 is installed.

3 is a signal flow diagram illustrating an execution process of a method for controlling an electronic device using brain waves and a method for analyzing activation of a user's frontal lobe according to an embodiment of the present invention. Hereinafter, with reference to FIGS. 1 to 3, an execution process of a method for controlling the electronic device 20 using brain waves and a method for analyzing activation of a user's frontal lobe according to an exemplary embodiment of the present invention will be described.

First, when a user wears the EEG measurement device 100 to control the electronic device 20 using EEG, the EEG data measured by the EEG measurement device 100 is transmitted to the device control device 200 ( S405).

Accordingly, the communication unit 210 of the device control device 200 transmits the EEG data received from the EEG measurement device 100 to the user terminal 300 in real time (S410).

Meanwhile, in the above-described step S410 in carrying out the present invention, the user terminal 300 may directly receive the EEG data from the EEG measuring device 100 in real time.

The application program installed in the user terminal 300 primarily analyzes the degree of activation of the user's frontal lobe based on the user's EEG data measured by the EEG measurement device 100, and displays the analysis result on the screen of the user terminal 300. Output through

Specifically, the application program uses the signal strength of α waves mainly generated in the frontal lobe of the brain in a relaxed state and the signal strength of β-waves generated in the frontal lobe of the brain in a concentrated state. You will be able to analyze the degree of activation.

Meanwhile, the analysis unit 230 of the device control device 200 analyzes the mental state of the user based on the EEG data received from the EEG measurement device 100 in step S405 described above (S420), and the analysis unit 230 A control signal for the electronic device 20 is generated based on the analyzed user's mental state information (S425).

Specifically, the analysis unit 230 will be able to quantify the user's concentration based on the signal strength of the β wave included in the user's EEG data, and in Table 1 below when the electronic device 20 is an electric toy car. As described above, the controller 250 may generate a control signal that controls the output of the electric motor inside the electric toy vehicle according to the user's concentration value.

Concentration level Motor output 0-50 0W 51-60 0.5W 61-70 1W 71-80 1.5W 81-90 2W 91-100 3W

Accordingly, as the user concentrates more and the concentration value calculated by the analysis unit 230 increases, the electric toy vehicle runs at a higher speed, thereby allowing a plurality of users to compete for each other's concentration. It becomes possible (S430).

In addition, when the electronic device 20 is a lighting device, as shown in Table 2 below, the controller 250 generates a control signal so that the LEDs for each color provided in the lighting device are differentially lit according to the user's concentration value You could do it.

Concentration level LED emission color 0-50 Red 51-60 yellow 61-70 light green 71-80 green 81-90 blue 91-100 purple

As described above, the lighting device emits light in different colors in stages according to the user's concentration level, so that the user can self-check his or her concentration level through the emission color of the lighting device.

Meanwhile, when a plurality of LEDs for each color are installed in the electric toy vehicle, the control unit 250 generates the control signal in Table 1 and at the same time as the control signal in Table 2 according to the user's concentration value. You could do it.

Accordingly, as the user concentrates more, as the concentration value calculated by the analysis unit 230 increases, the electric toy vehicle not only runs at a higher speed, but also the LED installed in the electric toy vehicle is stepped up according to the increase in the speed of the electric toy vehicle. It emits a different color.

As described above, the device control device 200 according to the present invention can control the electronic device 20 based on brain wave data, and the communication unit 210 of the device control device 200 controls the output of the electric motor. Control information on the electronic device 20, such as information and LED lighting control information of the lighting device, is transmitted to the user terminal 300 (S435).

Accordingly, the user terminal 300 stores control information for each time slot on the electronic device 20 received from the device control device 200 as history information of the user's brain fitness.

As described above, the user's EEG typically changes according to the execution of the user's brain fitness, and the changed EEG data is transmitted from the EEG measuring device 100 to the device control device 200 (S440), and the device control device The communication unit 210 of 200 transmits the EEG data received from the EEG measurement device 100 to the user terminal 300 (S445).

Meanwhile, in the above-described step S445 in implementing the present invention, the user terminal 300 may directly receive the EEG data from the EEG measuring device 100.

The user terminal 300 secondaryly analyzes the degree of activation of the user's frontal lobe based on the user's changed EEG data received from the EEG measurement device 100 (S450).

In addition, the user terminal 300 analyzes the difference by comparing the activation state of the frontal lobe before the execution of brain fitness in step S415 and the activation state of the frontal lobe after execution of brain fitness in step S450 (S455).

Specifically, the application program installed in the user terminal 300 may compare the activation state of the frontal lobe before and after brain fitness is executed through changes in the signal strength of the α wave and the signal strength of the β wave.

In addition, the user terminal 300 generates an analysis report on the improvement of the degree of activation of the frontal lobe according to the execution of the user's brain fitness based on the comparison analysis result of the frontal lobe activation state in step S455 described above, and outputs it through the screen of the user terminal It is done (S460).

In addition, in implementing the present invention, the user terminal 300 transmits the analysis report generated in step S460 described above to an external server so that the administrator of the external server can check the improvement status of the degree of frontal lobe activation according to the user's brain fitness. You could do it.

The terms used in the present invention are only used to describe specific embodiments and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance.

In the above, preferred embodiments and applications of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments and application examples described above, and the present invention is not departing from the gist of the present invention claimed in the claims. Various modifications may be possible by those of ordinary skill in the art to which they belong, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

20: electronic device, 100: electroencephalogram,
200: device control device, 300: user terminal.

Claims (3)

In the method of analyzing the degree of activation of the frontal lobe through brain fitness for Neuro Feedback training,
(a) first analyzing, by the user terminal, a degree of activation of a user's frontal lobe based on signal strengths of α and β waves in the user's EEG data;
(b) The user terminal receives time-based control information for the electronic device received from a device control device that generates a control signal for the electronic device based on the user's EEG data for Neuro Feedback training. Storing as history information of a user's brain fitness;
(c) secondly analyzing, by the user terminal, a degree of activation of the frontal lobe of the user based on signal strengths of α and β waves in the user's EEG data changed according to the execution of the brain fitness;
(d) The user terminal determines the degree of activation of the frontal lobe according to the primary analysis before executing the brain fitness and the degree of activation of the frontal lobe according to the secondary analysis after executing the brain fitness, α waves and β waves in the user's EEG data. Comparing and analyzing through the change of the signal strength of;
(e) generating, by the user terminal, an analysis report on the degree of improvement of the frontal lobe activation after executing the brain fitness from the degree of frontal lobe activation before the brain fitness execution;
(f) outputting, by the user terminal, an analysis report on the degree of improvement of frontal lobe activation after executing the brain fitness through the screen of the user terminal; And
(g) transmitting, by the user terminal, an analysis report on the degree of improvement in frontal lobe activation after executing the brain fitness to an external server
Frontal lobe activation analysis method comprising a.
delete A recording medium on which a program for executing each step of the method in claim 1 is recorded.

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