KR102038997B1 - Eeg convergence-feedback system - Google Patents

Abstract

An EEG fusion feedback system according to an embodiment of the present invention comprises a management server for transmitting and receiving information with an external specialized institution server and stores the user's EEG-related information and prescription reference information from the specialized institution server; Send information to and from the management server, measure the brainwaves of the user, and generate the brainwave data contents calculated based on the fusion brainwaves and the fusion brainwaves based on the information stored in the management server and the measured brainwaves of the user. A feedback device configured to feedback to a user; And an output unit configured to output the fusion brain wave and brain wave data contents generated by the feedback device to a user.

Description

EEG fusion feedback system {EEG CONVERGENCE-FEEDBACK SYSTEM}

The present invention relates to a system for achieving brain development by using brain wave fusion feedback to effectively increase the neuroplasticity of the brain.

Specifically, as a result of reading the EEG information of the brain and each part of the brain (frontal lobe, parietal lobe, temporal lobe, occipital lobe) in the EEG device, the doctor can effectively develop the neuroplasticity of the brain according to the patient's symptoms. If it is determined that the action is necessary, it is extracted from the brain waves measured at the whole brain or each part, and the brain wave is fed and fed back to the brain wave by feeding the brain wave convergence feedback. The present invention relates to a device and a method for developing a brain by optimizing the brain by determining a reference brain wave, intensively watching, listening to, and operating feedback sounds and images.

EEG is a vibration that is generated by the interaction between groups in a neurological group, which is a functional unit, and the characteristics of EEG vibration are the wavelengths measured by the energy generated from the frontal, parietal, temporal, and occipital lobes of a person. Thus has a potential difference (phase angle) of tens of microvolts.

The brain waves are classified according to their frequency. Specifically, the delta wave having a frequency of 0.1-3.99 Hz, theta wave having 4-7.99 Hz, the alpha wave of 8-12.99 Hz, and the 13-30 Hz It is classified into beta (β) wave and gamma (γ) wave of 30Hz to 80Hz. The brainwaves thus classified are different in function and can infer various functional states of the brain as bio signals representing human awakening, mental activity and consciousness. Can be.

The prior art is a method of inducing sleep by stimulating the brain wave and the brain wave to the alpha wave state or a technique for activating the brain by measuring the brain wave in real time in the frontal lobe of a part of the brain to play the brain wave game, and recently The trend is to develop robots and toys.

There are brain development devices that receive a small amount of information from the frontal lobe of one part of the brain and feed it back. However, patients with various symptoms have limitations in applying only a small amount of brain wave information from one side, and the effects are insignificant.

In addition, in the case of general neurofeedback treatment, users visit the medical institution twice or three times a week for several months or years. Since it is difficult to frequently visit the medical institution such as office workers or students, the neurofeedback treatment cannot be properly received. There is a problem.

Meanwhile, Korean Patent Publication No. 10-2012-0113572 discloses a method for generating learning content evaluation information using EEG information and user feedback based on the e-learning system, but does not include the technical gist of the present invention.

EEG fusion feedback system according to an embodiment of the present invention is to solve the above-mentioned problems, the entire or each part of the brain (frontal lobe, parietal lobe, By extracting the optimized EEG information of the temporal lobe and occipital lobe, and providing the EEG optimization data that can be fed back immediately, the brain's neuroplasticity (through repeated experience and repetitive training) reorganizes the glial cells of the brain, so that attention, concentration, memory, The first object of the present invention is to provide an EEG fusion feedback system that enhances brain functions such as self-regulation ability and emotional stability.

In addition, to achieve the above objectives by extracting the optimized brain waves extracted from each part of the brain in real time measured by fusion and feedback of the brain waves (FP1, FPz, FP2), it is possible to apply the current state and will of the patient (user), The second object is to efficiently change the brain function through this.

On the other hand, the general neurofeedback device has a disadvantage in that when the user's brain waves are measured in real time while the user is moving or doing activities, abnormal wavelengths protrude in large quantities at the same time, thereby failing to provide normal feedback. Had been a factor in denying neurofeedback.

Accordingly, an object of the present invention is to provide feedback by generating optimized EEG data extracted from the whole brain and repeatedly supplying EEG data stably optimized during driving, walking, exercise, and activity, and the on / off of the real-time measuring device. It is possible to stop the real-time EEG measurement function by enabling the On / Off setting, and through this, the third object is to stably receive optimized EEG information from the whole brain so that feedback can be provided during the activity.

An EEG fusion feedback system according to an embodiment of the present invention comprises a management server for transmitting and receiving information with an external specialized institution server and stores the user's EEG-related information and prescription reference information from the specialized institution server; Sending and transmitting information to the management server, measuring the brain waves of the user, and generates the EEG data contents calculated on the basis of the information stored in the management server and the measured brain waves of the user and the fusion brain waves A feedback device configured to feedback to the user afterwards; And an output unit configured to output the fusion brain wave and brain wave data contents generated by the feedback device to a user.

The management server, an EEG DB storage unit for storing the total EEG information of the user measured by the specialized institution; A storage-optimizing EEG DB for providing the entire EEG information to generate and store an optimized EEG waveform in a normal range for each region; A prescription reference DB storage unit for storing the treatment criteria and the treatment history set by the expert of the expert based on the disease and symptom of the user; And it is preferable to include; and a feedback electroencephalography storage unit for storing the prescription programs for the treatment of the user.

The feedback device is a portable feedback device that can be easily mounted by a user, and the portable feedback device includes: a frame configured to be mounted on the head of the user; An EEG detector configured to detect the EEG of the user in real time; A first feedback unit disposed at one side of the frame and combining first and second brain wave information, which is the whole brain wave information of the user, with second brain wave information detected by the brain wave sensor to generate first fusion brain wave information, and outputting the same to the user ; And a second feedback unit disposed on the other side of the frame and outputting second fusion brain wave information to the user. And the second fusion EEG information includes EEG information stored in the process of generating and outputting the first fusion EEG information to the user. The first feedback unit and the second feedback unit may be selectively operated. desirable.

The feedback device is a multi-channel EEG fusion feedback device, the multi-channel EEG feedback device, the multi-channel EEG sensor configured to detect the user's brain waves in real time in contact with the user's scalp; And multi-channel fusion feedback information formed by accommodating the multi-channel EEG sensor and combining the primary EEG information, which is the entire EEG information of the user, and the multi-channel secondary EEG information detected by the multi-channel EEG sensor, to generate the multi-channel fusion feedback information. It is preferable to include a; multi-channel EEG fusion feedback terminal output to the user.

The multi-channel secondary brain wave information may be stored and then output to the specialized institution and other feedback devices.

EEG fusion feedback system according to an embodiment of the present invention has an effect that can efficiently develop brain neural plasticity using EEG feedback by supplying the optimal EEG data to the feedback EEG.

On the other hand, in order to provide the whole brain information, attaching a large number of EEG electrodes (more than 21 pins), and the neurofeedback while measuring the real-time brainwaves, there was an inconvenience that can not be moved for a long time and restricted by activity, neurofeedback treatment method The long-term repeat treatment of 20-40 minutes per month for several months to several years, the electrode is attached to the frontal lobe (FP1, FPz, FP2) or only a few electrodes less than 8 pins in order to save time to attach the electrode Only EEG information is fed back.

In order to solve this problem, it was very necessary to allow the patient or user to give feedback while performing activities such as walking, exercising, and driving.

Now, you do not have to come to the hospital every time to give feedback, but by inputting the doctor-prescribed program into the present invention as a medicine, it is possible to provide a large amount of healthy brain wave information to the patient, and every time hospitals such as office workers or students Difficult to visit the user has the effect of improving the efficiency of treatment without the need to visit the hospital directly.

On the other hand, because the real-time measurement in front of the device during the feedback during the long-term treatment for a few minutes without moving was a big pain for the patients, there was a difficult part to activate without solving this problem, according to the present invention, The effect is that you can give feedback during various activities such as driving.

Specifically, when the on / off switch of the real-time measuring device is turned off, the driving of the real-time measuring device is stopped, and the brain wave information stored in the data storage unit is continuously supplied with EEG information from the EEG supply unit 402 to be used for continuous feedback. It becomes possible.

1 is an overall schematic diagram of an EEG feedback system according to an embodiment of the present invention.
Figure 2 is a perspective view of a portable feedback device of the EEG fusion feedback system according to an embodiment of the present invention.
3 is a view for explaining the contents of the transmission and reception of the portable feedback device of FIG.
4 is a block diagram illustrating a specific function of a first feedback unit of the portable feedback device of FIG. 2.
5 is a block diagram illustrating a specific function of a second feedback unit of the portable feedback device of FIG. 2.
6 is a diagram illustrating a multi-channel EEG feedback apparatus of the EEG feedback system according to an embodiment of the present invention.
FIG. 7 is a block diagram illustrating a specific function of the multi-channel EEG fusion feedback device of FIG. 6.
FIG. 8 is a flowchart illustrating a process of fusion feedback EEG generation in a portable feedback device of an EEG fusion feedback system according to an embodiment of the present invention.
FIG. 9 is a flowchart illustrating a fusion feedback EEG generation process of a multi-channel EEG fusion feedback device of an EEG fusion feedback system according to an embodiment of the present invention.
10 is a flowchart illustrating a process of the brain function program in a time series in the EEG feedback system according to an embodiment of the present invention.
11 is a diagram showing a feedback moving picture according to the present invention.

With reference to the accompanying drawings will be described with respect to the neuroplastic brain development apparatus and method using the EEG fusion feedback according to an embodiment of the present invention.

1 is an overall schematic diagram of a neural plastic brain development apparatus using EEG feedback according to an embodiment of the present invention.

In order to use EEG information of brain cerebral cortex as feedback EEG, many or few EEG sensing can be performed according to international standardization 10-20 law. Electrodes (19 active electrodes, 2 reference electrodes) are used, the application range (32 pins or more) may vary slightly for each EEG in the hospital, but the present invention will be described based on EEG information below. Do it.

Cortical area Electrode symbol Part Name Frontal pole Fp1. Fp2 Left and right frontal play Fronral lobe F3, F4 Left and right frontal tofu Central lobe C3, C4 Left and right Parital lobe P3, P4 Left and Right Two Governments Occiptal lobe O1, O2 Left and right larynx Frontal lobe (anterior) F7, F8 Left and right temporal heads Temporal lobe T3 (T7), T4 (T8) Left, right medial temporal region Temporal lobe (posterior) T5 (P7), T6 (P8) Left right rear part Frontal zero Fz Medium tofu Central zero Cz Polite center Parietal zero pz Political Government Ear lobe A1, A2 Left and Right Earballs

EEG feedback system according to an embodiment of the present invention is largely composed of a management server 200, feedback devices (400, 500) and the output unit 600, as shown in FIG.

First, in the medical institution 100 for brain neural plasticity development using EEG fusion feedback to measure the EEG in the region as shown in the table to provide EEG data to the management server (100).

In addition, the medical institution, etc. provides the patient and user EEG feedback prescription to the management server (100).

Amplify the frequency and amplitude of the EEG in the state where various frequencies are mixed and vibrate, and then segment or extract only the EEG by removing the noise through the signal filtering process, identify the EEG for each channel after analog-to-digital conversion The encoding process is performed to generate feedback EEG and store it.

That is, the management server 200 transmits and receives information with an external specialized institution 100 server, and stores a user's EEG-related information and prescription reference information from the specialized institution server.

The management server 200 is largely composed of the EEG DB storage unit 201, storage unit optimized EEG DB 202, prescription reference DB storage unit 203 and feedback EEG generation storage unit 204.

The EEG DB storage unit 201 classifies and stores the whole brain EEG information measured in the arousal state (frontal lobe, parietal lobe, temporal lobe, occipital lobe, etc.), and selectively selects the site where the brain function (EEG) occurrence of the subject is reduced or overactive Intensive feedback therapy and neuroplasticity are stored to increase the rate.

The storage unit optimizes the EEG DB 202 stores the EEG in which the EEG waveform in the normal range for each region is optimized through a pass filter by pre-processing the EEG.

Prescription criteria DB storage unit 203 is based on the patient's disease and symptoms based on the EEG fusion rate (%) as a reference, subjects brain function is lowered, brain function is overactive, there is a specific disease, etc. Prescription reference values to be treated are set, and the prescribed data are stored, such as year, month, number of treatments, treatment time, treatment period, and feedback program list.

The feedback electroencephalography storage stores data for each prescription date for programs of various characteristics to be treated by the subject. Ex) ① Neural plasticity feedback program, ② Alpha (α): betaβ ratio program, ③ Left and right brain balance program, etc. are stored differently according to the prescription of the specialist according to the subject.

The feedback device transmits and receives information with the management server 200, measures the brainwave of the user, generates a fusion brainwave based on the information stored in the management server 200 and the measured user's brainwave, and further based on the fusion brainwave Generates EEG data contents and feeds back to the user.

The feedback device may be a portable feedback device 400 configured to be easily mounted by a user, or may be a multi-channel EEG feedback device 500. First, referring to FIGS. 400 will be described in more detail.

The portable feedback device 400 that can be applied to the EEG feedback system according to an embodiment of the present invention includes a frame 440, an EEG detector 430, and a first feedback unit 410 as shown in FIG. 2. And a second feedback unit 420, and in particular, the first feedback unit 410 and the second feedback unit 420 are configured to selectively operate by a user's manipulation.

Frame 410 is configured to be mounted on the user's head, the brain wave detector 430 is mounted to the frame 410, and performs the function of detecting the brain wave of the user in real time.

In particular, the EEG detector 430 measures the EEG coming from the scalp (FP1, FPz, FP2) in real time as shown in Figures 2 and 3 to send through the transmitter or to receive the optimized EEG to the scalp of the user Perform the function of passing.

The first feedback unit 410 is disposed on one side of the frame and combines the first brain wave information, which is the total brain wave information of the user, with the second brain wave information detected by the brain wave detector, to generate the first fusion brain wave information, and outputs it to the user. It performs the function.

In the case of the first feedback unit 410, as illustrated in FIG. 4, the EEG data storage unit 411 of the portable feedback device 400 is downloaded and stored in the data generated by the management server 200.

EEG currently measured in real time in the scalp (FP1, FPz, FP2) EEG detection unit 430, On / Off determination unit 451, amplification unit 452, analog-to-digital conversion unit 453, for each channel After passing through the encoder 454, it is supplied to the fusion brain wave supply unit 413.

Thereafter, the real-time encoded scalp (FP1, FPz, FP2) EEG information stored in the data storage unit 411 to the EEG ratio (%) of the specialist or expert prescription (412) channel fusion EEG supplier 413 After fusion in the EEG data is supplied to the content 414.

Digital feedback program (3d, video, sound, SMS text, music, graphics, EEG control, beats, etc.) to the EEG fusion feedback terminal 400 according to the EEG reference value provided from the prescription reference (database) storage unit EEG data content 414 to provide an external mobile phone, PC, notebook, PDA, program.

Providing digital video programs and feedback signals generated by EEG data contents 414 through external computers, laptops, smartphones, Facebook, dedicated PDA terminals, etc. The EEG is transmitted to the output unit 600 and the EEG is supplied to the scalp through the EEG receiving unit 430.

In addition, the first feedback unit 410 of the portable feedback device 400 is OTG gender for connecting to the microUSB connection line and the smart phone to display the program information on the monitor screen of the feedback terminal 400 and the external PC, wireless ( Bluetooth, etc.) can be selected and transmitted.

The second feedback unit 420 is disposed on the other side of the frame 440, and outputs second fusion brainwave information to the user. Here, the second fusion brainwave information is the first feedback unit 410. 1 EEG information stored in the process of generating and outputting the fusion EEG information is stored.

That is, unlike the first feedback unit 410 described above, the second feedback unit 420 does not perform the function of detecting the brain wave of the user in real time, and outputs the second fusion brain wave information, which is pre-stored fusion brain wave information, to the user. do.

A detailed function of the second feedback unit 420 will be described with reference to FIG. 5. The optimized brain wave supply unit 422 receives the second fusion brain wave information stored in the storage unit 421, and passes through the feedback supply unit 423. EEG data contents 425 for digitally programming the EEG information (3d, video, sound, SMS text, music, graphics, EEG control, beat, etc.) to provide an external mobile phone, PC, laptop, PDA, program.

Meanwhile, as described above, the first feedback unit 410 and the second feedback unit 420 are selectively operated by the user's on / off operation. When the user is in a static state, the brain wave of the user is stable. It is preferable to operate the first feedback unit 410, and when the user is in a dynamic state such as walking, the brain wave of the user is unstable, so it is preferable to operate the second feedback unit 420.

In particular, the process of generating and storing the fusion feedback EEG in the above-described first feedback unit 410 will be further described with reference to FIG. 8. First, primary EEG information which is the total EEG information of the user stored in the management server 100 will be described. And, the brain wave detection unit 430 obtains the second brain wave information, which is the user's brain wave information measured in real time (S1100) is performed.

Thereafter, a step (S1200) of generating fusion EEG information combining primary EEG information and secondary EEG information is performed, and generating fusion feedback EEG by fusing fusion EEG information and EEG feedback information measured in real time ( S1300) is performed.

Based on the fusion feedback EEG, the EEG data content may be directly provided to the user, and the operation may be performed in the storage unit 410 (S1400).

On the other hand, the portable feedback device 400 of the feedback device has the advantage that the user can easily carry, but since there is a limit to receive EEG information only on one side of the user's brain, it receives the EEG information of various areas in real time There is a drawback to not doing it.

In order to compensate for this problem, a multi-channel EEG feedback device may be used as the feedback device.

As shown in FIG. 6, the multi-channel EEG feedback apparatus includes an EEG sensor 300 and a multi-channel EEG feedback terminal 500.

The EEG detecting unit 300 is composed of a plurality of electrodes that can measure the various parts of the user's brain in real time in contact with the user's scalp.

 The multi-channel EEG fusion feedback terminal 500 has a connector for accommodating the multi-channel EEG sensor 300, the primary EEG information that is the user's total EEG information, and the multi-channel 2 EEG detection unit detected Combines EEG information to generate multi-channel fusion feedback information and outputs it to the user.

In particular, since the multi-channel EEG feedback terminal 500 requires the amplifier 500, the analog-to-digital converter 560, and the encoder 570 by the number of electrodes, that is, the number of channels, the portable feedback device ( 400) the volume is increased.

Since the internal structure of the multi-channel EEG feedback terminal 500 is similar to the other contents other than the transmission and reception of the multi-channel information with the first feedback unit 410 of the portable feedback device 400 described above, a detailed description thereof will be omitted. do.

In addition, the process of generating and storing the fusion feedback EEG in the above-mentioned multi-channel EEG convergence feedback terminal 500 will be described further with reference to FIG. 9. First, the primary EEG information of the user stored in the management server 100 is first order. Acquiring the EEG information and the second multi-channel EEG information which is the EEG information of the user measured in real time by the EEG detecting unit 300 (S2100) is performed.

Subsequently, a step of generating multi-channel fusion EEG information combining primary EEG information and secondary EEG information is performed (S2200), and multi-channel fusion feedback by fusion of multi-channel fusion EEG information and EEG feedback information measured in real time. Generating brain waves (S2300) is performed.

Based on the multi-channel fusion feedback EEG, the EEG data content may be directly provided to the user, and the step S2400 of storing the EEG data content is performed.

In addition, the multi-channel fusion feedback EEG stored in the storage unit 510 may be stored in the storage unit 410 of the portable feedback device described above, specifically, through the second feedback unit 420 of the portable feedback device 400. It is also possible to allow the user to receive multi-channel fusion feedback EEG.

In addition, in the above-described process of fusing the brain waves in the portable feedback device 400 and the multi-channel EEG convergence feedback terminal 500, not only fusing their own real-time measured brain waves and their entire brain waves, It is also possible to fuse real-time measured brain waves with whole brain waves from third parties.

This is applied when the user has a serious specific disease, which means that the convergence feedback proceeds using the primary EEG information of the family or the third party, not the EEG.

Patients with the following diseases should be helped to improve neuroplasticity through fusion neurofeedback, neuroplastic fusion feedback, and fusion EEG functional games with primary EEG information supported by fusion of brain waves of a third party other than myself. It is subject.

① Those who have a characteristic finding of a neurodeficiency seizure

② Those who have a characteristic finding of seizure of modernity

③ Those who have a characteristic finding of psychomotor seizures (temporal lobe epilepsy)

④ Characteristics of Autonomic Seizures (Temporal Lobe Epilepsy)

⑤ Received opinions of generalizure

⑥ Relaxation, muscle tone, atonic seizure

⑦ excessive extreme waves (cycles less than 80msec period, 1 / 12sec duration, end, sharp and sharp brain waves emerged a lot.

⑧ Excessive wave (wave width (period) is 80 ~ 200msec, a large amount of emergence).

⑨ Students who were characterized by lennox-Gastaut syndrome (convulsions, poor development, impulse control disorder, behavioral disorder).

자 Patients who are distracted by hyperactivity (ADHD), bipolar disorder, schizophrenia, dementia, anger control disorder, disability, and other diseases and are sitting for a long time and are difficult to treat.

자 Those who have been diagnosed as needing a third-party EEG feedback due to excessively low brain function (impairedness, inactive patients, their will, motivation, etc.)

Hereinafter, the process of the brain function program in the EEG fusion feedback system according to an embodiment of the present invention will be described with reference to FIG. 10.

First, the user wears the portable feedback device 400 or the multi-channel EEG feedback terminal 500 (S3110) and confirms and authenticates the user's registration information (S3120).

Thereafter, accessing the central server storing the user's information (S3130) and checking and downloading the user's prescription from the central server (S3140) are performed.

Here, the prescription of the user is information issued by a medical institution, and the user or a third person's total EEG information, region-specific EEG information, prescription reference value, specific fusion method, information such as fusion rate is described.

Thereafter, the portable feedback device 400 or the multi-channel EEG convergence feedback terminal 500 acquires optimal EEG information and real-time EEG information (S3150), and selects which EEG to receive feedback from the user (S3210). ) Is performed.

In this case, when the user selects to receive feedback using the fusion of optimal EEG information and real-time EEG information, the step of setting the EEG fusion rate is performed (S3220), and then calculating the optimized EEG information parameter based on the prescription reference value. Step S3230 is performed.

On the other hand, when the user selects to receive feedback using only optimal EEG information, the optimization EEG information parameter calculation step S3230 is performed immediately without performing the EEG fusion rate setting step S3220.

After calculating the optimized EEG information parameter (S3230), a step of comparing the set condition and the prescription reference value (S3240) is performed. Is performed.

Thereafter, the target achievement rate recording notification step (S3260) according to the progress of the fusion EEG feedback is performed, followed by the step of selecting whether to end the program (S3270).

The embodiments described in the present specification and the accompanying drawings are merely illustrative of some of the technical ideas included in the present invention. Therefore, since the embodiments disclosed in the present specification are not intended to limit the technical spirit of the present invention but to explain, it is obvious that the scope of the technical spirit of the present invention is not limited by these embodiments. Modifications and specific embodiments that can be easily inferred by those skilled in the art within the scope of the technical idea included in the specification and drawings of the present invention are included in the scope of the present invention. It should be interpreted.

Claims (5)

A management server that transmits and receives information with an external specialized institution server and stores user's EEG-related information and prescription reference information from the specialized institution server; And
Send and receive information to and from the management server, measure the brainwaves of the user, generate the brainwave data content calculated based on the fusion brainwaves and fusion brainwaves based on the information stored in the management server and the measured brainwaves of the user and then the user A feedback device configured to feed back to the user;
Including,
The management server is an EEG DB storage unit for storing the total EEG information of the user measured by the specialized institution, and the standard of treatment and the treatment criteria stored by the expert of the professional institution based on the disease and symptoms of the user set DB storage unit,
The feedback device includes a portable feedback device that can be easily mounted by a user,
The portable feedback device,
A frame formed to be mounted on the head of the user;
An EEG detector configured to detect the EEG of the user in real time;
Disposed on one side of the frame and combining the first EEG information, which is the entire EEG information of the user, received from the EEG DB storage unit, and the second EEG information detected by the EEG detector to generate first fusion EEG information; 1 feedback unit; And
A second feedback unit disposed on the other side of the frame and outputting second pre-stored second fusion brain wave information to the user, wherein the second fusion brain wave information is generated by the user using the first feedback unit; Information; And
An output unit configured to output the EEG data contents generated based on the first fusion EEG information or the second fusion EEG information to the user;
Including,
The first feedback unit and the second feedback unit selectively operate;
The first fusion EEG information is fused based on the EEG of the user stored in the EEG DB storage unit and the EEG of the user detected in real time by the EEG detection unit based on the EEG fusion rate stored in the prescription reference DB storage unit EEG fusion feedback system generated by.
The method of claim 1, wherein the management server,
A storage-optimizing EEG DB for processing the whole EEG information to generate and store an optimized EEG waveform in a normal range for each region; And
A feedback electroencephalography storage unit for storing prescription programs for treatment of the user;
EEG feedback system further comprising a.
delete According to claim 2, The feedback device further comprises a multi-channel EEG feedback device, The multi-channel EEG feedback device,
A multi-channel EEG sensor configured to detect the EEG of the user in real time in contact with the scalp of the user; And
It is formed to accommodate the multi-channel EEG detection unit, generates multi-channel fusion feedback information by combining the first EEG information that is the total EEG information of the user and the multi-channel secondary EEG information detected by the multi-channel EEG sensor to generate the multi-channel fusion feedback information A multi-channel EEG fusion feedback terminal outputting to the;
EEG feedback system comprising a.
The method of claim 4, wherein
An EEG fusion feedback system implemented to store the multi-channel secondary EEG information and to output it in the specialized institution and other feedback devices.

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