KR20190074935A - Multi-Channel NEUROFEEDBACK GENERATING DEVICE AND Multi-Channel NEUROFEEDBACK GENERATING METHOD - Google Patents

Abstract

According to the present invention, an apparatus of generating a multi-channel neurofeedback comprises: a wearing unit which is worn on a body and includes a low frequency generation unit for generating a low frequency, a medium frequency generation unit for generating a medium frequency, and a high frequency generation unit for generating a high frequency; and a controller which is electrically connected to each of the low frequency generation unit, the medium frequency generation unit, and the high frequency generation unit, has an input unit for receiving a command of a user, selects at least one among the low frequency generation unit, the medium frequency generation unit, and the high frequency generation unit according to a command inputted to the input unit, and generates at least one electric field among the low frequency, the medium frequency, and the high frequency to generate negative feedback, positive feedback, or selective feedback in a brainwave of a wearer wearing the wearing unit.

Description

TECHNICAL FIELD [0001] The present invention relates to a multi-channel neurofeedback generator and a multi-channel neurofeedback generator,

The present invention relates to a multi-channel neurofeedback generating apparatus and a multi-channel neurofeedback generating method, and more particularly, to a multi-channel neurofeedback generating apparatus that generates multi-channel neurofeedback Device and a method for generating multi-channel neurofeedback.

As the disease becomes chronic or senescent, the brain becomes stuck to a chronic pathological system and deteriorates further. Recently, neurofeedback research has been actively conducted to solve such problems. Here, neurofeedback modulates brain waves to increase or inhibit the activity of nerve cells to change the central nervous system from the peripheral nervous system to change the physiological metabolic activities of the human cells to activate the immune system and promote pathological metabolism to eliminate the disease It is a unique mechanism of brain neurology.

Conventional biofeedback is a method of detecting and processing electrocardiogram or EEG signals generated in the body for feedback relaxation, relieving pain, improving health, and feeding back to the body. In particular, the electroencephalogram (EEG) biofeedback is a method of measuring the EEG of the patient and calculating the ratio of the alpha waves to the output of the EEG to the subject in real time. Here, the size of the alpha-wave spectrum is a major indicator of psychological relaxation, and has been widely used for enhancing concentration of athletes and students, insomnia, and learning disabilities. In addition, a method of increasing cAMP concentration and production of nitrogen monoxide in brain cells by irradiating light in a specific wavelength band to the body is used.

To reach the healing of the disease, the stimulus must be varied, and the intensity of the stimulus superimposed reaches the threshold, which can stimulate the hypothalamus, the pituitary gland, the pineal gland and the basal gang to secrete various hormones and neurotransmitters. However, as described above, since the conventional biofeedback device gives only very simple and weak feedbacks such as one or two bio-signals and light wave stimulation, it can not be used as a means for improving the concentration of the cerebral cortex and improving learning difficulties There was a limit. In addition, the transmission of nerve impulses in the brain cells is not synchronized with the stimulation when the simple stimulation is repeated according to the working rate. For this reason, the conventional biofeedback device is used for the improvement of the learning disorder or the training of the athlete It is used only as a device for physiotherapy of a medical device or a medical device, and can not be used in the field of clinical treatment.

On the other hand, EEG is an electrical signal generated when information is exchanged between brain cells. It is a potential fluctuation of nerve impulses spontaneously generated in the brain, and is also referred to as an electroencephalogram. Furthermore, EEG varies with mental health conditions such as arousal state, emotional state, excitement, and tension state, and disease state. In addition, EEG is classified into alpha waves, beta waves, theta waves, delta waves, and gamma waves based on frequency, and delta waves have frequencies of 0.1 Hz or more and less than 4 Hz, those of theta waves are more than 4 Hz and less than 8 Hz, 13 Hz to 30 Hz, and the gamma wave has a frequency of 30 Hz to 50 Hz (see FIG. 6). Specifically, the beta wave can be divided into an SMR wave having a frequency of 13 Hz or more and less than 16 Hz, a low beta wave having a frequency of 16 Hz or more and less than 20 Hz, and a high beta wave having a frequency of 20 Hz or more and less than 30 Hz.

KR 2004-0055504 A1

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the problems described above, and it is an object of the present invention to provide a controller, in which at least one of a low frequency generator, a middle frequency generator, and a high frequency generator is selected to generate at least one electric field of a low frequency, A negative feedback, a positive feedback, or a selective feedback is generated on the wearer's wearing the wearer's body, thereby multiplying the action potential of the neuron to the effector of the central nerve, thereby causing multiple neurofeedback, Channel neurofeedback apparatus and a method for generating multi-channel neurofeedback capable of generating a new immunity mechanism in the complex system of central nervous system, thereby eliminating chronically diseased cells and the like.

According to an aspect of the present invention, there is provided a neurofeedback generator comprising: a wear unit mounted on a body and including a low frequency generator for generating a low frequency, a medium frequency generator for generating a medium frequency, and a high frequency generator for generating a high frequency; And a low frequency generating unit, a middle frequency generating unit, and a high frequency generating unit. The input unit receives an instruction from a user. The low frequency generating unit, the middle frequency generating unit, and the high frequency generating unit At least one electric field of a low frequency, a medium frequency, and a high frequency is generated by selecting one or more of the electric waves, thereby generating negative feedback, positive feedback, or selective feedback to the wearer's wearer wearing the wearable unit.

The controller can generate negative feedback on the wearer's brain waves by alternately generating the low frequency and the medium frequency for a predetermined time.

The controller can generate the positive feedback to the wearer's brain wave by simultaneously generating the middle frequency and the high frequency for a predetermined time.

The controller can generate selective feedback to the wearer's brain waves by sequentially generating low frequency, medium frequency and high frequency for a predetermined time.

And a brain wave measuring device for measuring the brain waves of the wearer wearing the wearable unit.

The controller compares the measured EEG of the wearer with pre-stored normal EEG data to determine which of the negative feedback, plus feedback, and selective feedback is needed, and generates the corresponding feedback.

And a plurality of auxiliary units which are worn on the body and include a magnetic field generating unit for generating a magnetic field and a light irradiating unit for irradiating the light.

The plurality of sub-units include a first sub-unit which can be worn on the head, a second sub-unit which covers both auricles, a third sub-unit which is attachable to the pelvis and the base, and a fourth sub- And may include any one or more of them.

The first sub-unit or the second sub-unit may further include a sonic output unit extending to a user's ear to output sound waves.

The wearing unit can be worn on the abdomen of the wearer.

Frequency generating unit is positioned so as to correspond to the center of the wearer's belly, the middle-frequency generating unit is positioned on both sides of the high-frequency generating unit, and the low-frequency generating unit is disposed on both outer sides of the middle- Lt; / RTI >

Negative feedback is feedback that suppresses excessively frequent wave components compared to normal EEG, and positive feedback is feedback that enhances EEG components that are insufficient compared to normal EEG. Selective feedback suppresses excessive wave components compared to normal EEG, The deficient EEG may be augmenting feedback.

According to another aspect of the present invention, there is provided a method of generating multi-channel neuro feedback comprising: inputting a user command through an input unit; And at least one electromagnetic field of a low frequency, a medium frequency, and a high frequency is generated by selecting at least one of a low frequency generating unit, a middle frequency generating unit and a high frequency generating unit according to an inputted command, thereby generating negative feedback, And controlling so that positive feedback or selective feedback is generated.

According to the present invention, at least one electric field of a low frequency, a medium frequency and a high frequency is generated by selecting at least one of a low frequency generating unit, a middle frequency generating unit and a high frequency generating unit in the controller, so that a negative feedback , Plus feedback or selective feedback can be generated, which can multiply the action potential of neurons to the effector of the central nervous system, thereby causing multiple neurofeedback, thereby increasing the secretion of neurohormones and the complexity of the central nervous system New immune mechanisms can be created to remove chronic disease cells.

According to the present invention, an electric field is supplied to the abdomen and the waist through the wear unit, and a magnetic field and a light wave are supplied to the head, ear, pelvis, Multiple stimulation of dislocations can induce multiple neurofeedbacks, thereby increasing the secretion of neurohormones and creating a new immune mechanism in the central nervous system complex, thereby eliminating chronic disease cells.

Further, by supplying an electric field to the abdomen and the waist through the wear unit and supplying a magnetic field and a light wave to the head, ear, pelvis, leg, shoulder, etc. through the auxiliary unit, the patient's age condition, pathological severity, The width of operation for generating neurofeedback can be increased or decreased in several steps on each part of the body so that optimized feedback can be generated thereby to achieve an optimal therapeutic effect.

FIG. 1 is a diagram schematically showing the overall configuration of a multi-channel neurofeedback generator according to an embodiment of the present invention. Referring to FIG.
FIG. 2 is a view showing an inner appearance of a wearing unit in a multi-channel neurofeedback generating apparatus according to an embodiment of the present invention.
3 and 5 are views showing a first sub-unit in a multi-channel neurofeedback generator according to an embodiment of the present invention.
4 and 6 are diagrams illustrating a second subunit in a multi-channel neurofeedback generator according to an embodiment of the present invention.
7 is a flowchart illustrating a method of generating a multi-channel neuro feedback according to an exemplary embodiment of the present invention.
Figure 8 is a typical distinction of EEG according to frequency.
9 to 11 show the results of EEG measurements measured in Examples 1 to 3 (negative feedback occurrence).
FIGS. 12 and 13 show the results of EEG measurements measured in Examples 4 and 5 (generation of positive feedback).
14 and 15 show the EEG measurement results measured in Examples 6 and 7 (selective feedback generation).

Hereinafter, a multi-channel neural feedback generator according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a view schematically showing the overall configuration of a multi-channel neurofeedback generator according to an embodiment of the present invention, and FIG. 2 is an internal view of a wearable unit.

1, the apparatus for generating multi-channel neurofeedback according to an exemplary embodiment of the present invention includes a low frequency generator 110 for generating a low frequency, a medium frequency generator 120 for generating a medium frequency, And an input unit 210 for receiving a command of the user and electrically connected to the low frequency generating unit 110, the middle frequency generating unit 120, and the high frequency generating unit 130, And at least one of the low-frequency generating unit 110, the middle-frequency generating unit 120 and the high-frequency generating unit 130 is selected according to an instruction input to the input unit 210 so that at least one of a low-frequency, And the controller 200 controls the generation of the electromagnetic field so that negative feedback, plus feedback, or selective feedback is generated in the brain waves of the wearer wearing the wearable unit 100. [

The wearing unit 100 may be worn on the wearer's body, and may be worn on the wearer's abdomen according to an embodiment. 2, the wear unit 100 is in the shape of a bell that surrounds the abdomen of the wearer. The high frequency generator 130 is positioned to correspond to the center of the wearer's belly, and the high frequency generator 130 Frequency generating unit 110 may be located on both sides of the middle-frequency generating unit 120. The low-frequency generating unit 120 may be disposed on both sides of the middle-

On the other hand, the reason why the wearing unit 100 is in the form of a bag that wraps the abdomen of the wearer is that the nervous system such as the autonomic nerves of the vertebrae, liver, pancreas, stomach, More particularly, the present invention provides new neurofeedback to the central nervous system effector neurons and synapses by supplying physical information, electric field, and magnetic field to the most efficient body parts among a myriad of receptors scattered outside the body The purpose of this study was to prevent and heal painful post-traumatic disorders and chronic diseases. Neurofeedback was created by supplying electric fields and magnetic fields from receptors scattered outside the body. The most effective body parts were worn on the waist and abdomen The weir-wearing unit 100 may be made to wear on the abdomen.

2, the wearing unit 100 is provided with a low-frequency generating unit 110, a middle-frequency generating unit 120, a high-frequency generating unit 130, a germanium ceramic 140 for supplying a magnetic field, (150), and the like, and may further include an optical fiber (160) according to an embodiment. In addition, the wearing unit 100 of the present invention constructed as described above can supply an electric field, a magnetic field, and a light wave to a body part worn by a wearer, and the different frequencies are mixed and transmitted in each constitution , And thus they can be transmitted from the neuron receptor to the central effector, thereby increasing the secretion of neurohormones and creating a new immune mechanism in the complex system of the central nervous system, thereby eliminating chronic diseases.

The controller 200 may be electrically connected to the low frequency generator 110, the mid frequency generator 120, and the high frequency generator 130, respectively, as shown in FIG. In addition, the controller 200 may be provided with an input unit 210 for receiving a user's command. Here, the input unit 210 may be a keypad, a touch pad, a switch, or the like that can receive a command of a user according to an embodiment. However, this is an embodiment, and various types of electronic devices and devices and the like can be used as an input unit in the present invention as long as a user's command can be input.

The controller 200 selects at least one of the low frequency generating unit 110, the middle frequency generating unit 120 and the high frequency generating unit 130 according to the instruction input to the input unit 210 to select a low frequency, At least one electric field may be generated so that negative feedback, plus feedback, or selective feedback may be generated in the brain waves of the wearer wearing the wearable unit 100. In this case, negative feedback is feedback that suppresses excessively high frequency components compared with normal EEG, and positive feedback is feedback that enhances EEG components that are insufficient compared to normal EEG. Selective feedback suppresses excessive frequency components compared to normal EEG, The EEG component that is insufficient compared to the EEG may be feedback to enhance it.

In the present invention, the low frequency generated in the low frequency generating unit 110 may be a current of a frequency of 1 Hz to 1,000 Hz. Specifically, the low frequency may be a current having a frequency of 1 Hz to 500 Hz, 1 Hz to 200 Hz, 100 Hz to 500 Hz, 100 Hz to 200 Hz, or 150 Hz to 200 Hz.

The mid-frequency generated by the mid-frequency generator 120 may be a current having a frequency of more than 1,000 Hz and less than 100,000 Hz. Specifically, the mid-frequency may be a current having a frequency of 1,500 Hz to 100,000 Hz, 2,000 Hz to 50,000 Hz, 2,000 Hz to 10,000 Hz, 2,000 Hz to 5,000 Hz, or 2,500 Hz to 4,000 Hz.

Further, the high frequency generated by the high frequency generating unit 130 may be a current having a frequency exceeding 100,000 Hz. Specifically, the high frequency may be a frequency of 1 × 10 ⁵ Hz to 5 × 10 ⁹ Hz, 1 × 10 ⁶ Hz to 5 × 10 ⁹ Hz, 1 × 10 ⁷ Hz to 5 × 10 ⁹ Hz, 2 × 10 ⁷ Hz to 5 × 10 ⁹ Hz, it may be 2 × 10 ⁷ Hz to ^{3 × 10 9 Hz, 2.5 ×} 10 7 Hz to 2.5 × 10 ⁹ Hz, or 2.7 × 10 ⁷ Hz to the current 2.45 × 10 ⁹ Hz.

The controller 200 controls the low frequency generator 110 and the middle frequency generator 120 to generate negative feedback to the wearer's wearer wearing the wearer 100 according to an instruction input to the input unit 210. [ ) Alternately generate a low frequency and a medium frequency for a predetermined time so that negative feedback can be generated on the wearer's brain waves. More specifically, the controller 200 causes the low-frequency generating unit 110 and the middle-frequency generating unit 120 to generate low-frequency and medium-frequency waves one to five times alternately for 5 minutes to 20 minutes, thereby generating negative feedback . More specifically, the controller 200 causes the low-frequency generator 110 and the mid-frequency generator 120 to generate low-frequency and medium-frequency waves one to three times alternately for five to fifteen minutes, thereby generating negative feedback .

The controller 200 controls the middle frequency generating unit 120 and the high frequency generating unit 130 to generate the positive feedback to the wearer's wearing the wearable unit 100 according to the command input to the input unit 210. [ By generating the mid-frequency and the high-frequency simultaneously for a predetermined time, the positive feedback can be generated in the brain wave of the wearer. Specifically, the controller 200 causes the mid-frequency generator 120 and the high-frequency generator 130 to generate the mid-frequency and high-frequency waves one to three times alternately for 5 to 20 minutes so that positive feedback is generated in the brain waves of the wearer can do. More specifically, the controller 200 causes the mid-frequency generator 120 and the high-frequency generator 130 to generate the mid-frequency and the high-frequency alternately one to two times every 8 to 15 minutes, .

The controller 200 may further include a low frequency generating unit 110 and a middle frequency generating unit 120. The low frequency generating unit 110 may be configured to generate selective feedback to the wearer's wearing the wearable unit 100 according to a command input to the input unit 210. [ And the high frequency generator 130 sequentially generate the low frequency, the medium frequency, and the high frequency for a predetermined time, thereby generating selective feedback to the user's brain waves. Specifically, the controller 200 sequentially generates low, middle, and high frequencies one to three times each in the low frequency generation unit 110, the middle frequency generation unit 120, and the high frequency generation unit 130 Selective feedback can be generated in the wearer's brain waves. More specifically, the controller 200 sequentially sets the low frequency, the medium frequency, and the high frequency in the low frequency generation unit 110, the medium frequency generation unit 120, and the high frequency generation unit 130 in 1 minute to 8 minutes, or 3 minutes to 7 minutes, So that selective feedback can be generated in the brain waves of the wearer.

Meanwhile, the multi-channel neurofeedback apparatus according to the present invention may further include an electroencephalograph (not shown) for measuring a brain wave of a wearer wearing the wearable unit 100. In this case, the controller 200 compares the EEG measured by the EEG measurer with pre-stored normal EEG data to determine which of the negative feedback, plus feedback, and optional feedback is necessary, As shown in FIG. More specifically, according to the embodiment, the controller 200 extracts feature points from the wearer's EEG measured through the EEG, extracts feature points from the stored normal brain waves, compares the two feature points, , It is possible to judge which feedback is needed among the positive feedback and the selective feedback.

That is, when the user's EEG measured by the EEG detector is compared with pre-stored normal EEP data, the controller 200 controls the low frequency generator 110 and the mid-frequency generator 120, The low frequency and the medium frequency are alternately generated for a predetermined time so that negative feedback is generated on the wearer's brain wave and thus the excessive wave components are removed from the wearer's brain wave.

In addition, when the brain wave component measured by the brain wave measuring device is compared with pre-stored normal brain wave data, when the brain wave component that is insufficient compared to the normal brain wave is detected, the controller 200 controls the middle frequency generating part 120, The user can generate positive feedback on the brain waves of the wearer by simultaneously generating the middle frequency and the high frequency for a predetermined time in the controller 130 so that the brain wave component lacking in the brain waves of the wearer can be enhanced.

In addition, when the wearer's EEG measured by the EEG detector is compared with pre-stored normal EEG data, if the EEG component and the EEG component insufficient as compared with the normal EEG are detected in comparison with the normal EEG, The middle frequency generating unit 120 and the high frequency generating unit 130 sequentially generate low frequency, medium frequency and high frequency for a predetermined time period so that selective feedback is generated in the user's brain waves, Excessive components and the like can be removed, and the deficient EEG component can be enhanced.

Meanwhile, the multi-channel neurofeedback generator according to the present invention may further comprise a plurality of auxiliary units including a magnetic field generating unit for generating a magnetic field and a light irradiating unit for irradiating the light. Here, the magnetic field generating unit for generating a magnetic field may be composed of a germanium ceramic, a magnet, or the like according to an embodiment, and the light irradiating unit for irradiating the light may include an LED light wave generator or the like.

Specifically, the plurality of sub-units include a first sub-unit 300 in a form that can be worn on the head, a second sub-unit 400 in the form of covering both ear auricles, a third sub- And a fourth sub-unit that can be mounted on the second sub-unit. The reason why the plurality of auxiliary units are worn on the head, ear, shoulder, waist, etc. is that the head and ear regions pass through the trigeminal nerve, the facial nerve, the nervous and nerve nerve, and the shoulder and waist are the radial nerve, , The ulnar nerve and the diaphragm nerve, femoral nerve, obstruction and the sciatic nerve passes through the site.

3 to 6, the first and second sub-units 300 and 400 include germanium ceramics 310 and 410, magnets 320 and 420, and optical fibers 430 and 430, which generate a magnetic field. And the like. Although not shown, the third sub-unit and the fourth sub-unit may be configured to include the above-described configuration.

Specifically, the first sub-unit 300 or the second sub-unit 400 may further include sound wave output units 330 and 440 extending to the user's ear and outputting sound waves. More specifically, the first sub-unit 300 is composed of a germanium ceramic 310, a magnet 320 and a sonic output unit 330 (FIG. 5) for generating a magnetic field, and the second sub- A ceramic 410, a magnet 420, an optical fiber 430, and a sound wave output unit 440 (FIG. 6).

The sound output units 330 and 440 may output meditation music or white noise to help sleep.

As described above, the present invention supplies an electric field to the abdomen and the waist through the wearer unit, and supplies the magnetic field and light wave to the head, ear, pelvis, And thus can induce multiple neurofeedbacks, thereby increasing the secretion of neurohormones and creating a new immune mechanism in the complex system of central nervous system, thereby eliminating chronic diseases.

5 is a flowchart illustrating a method of generating a multi-channel neuro feedback according to an embodiment of the present invention. As shown in FIG. 5, a method for generating a multi-channel neuro feedback includes receiving a command of a user through an input unit; And at least one electromagnetic field of a low frequency, a medium frequency, and a high frequency is generated by selecting at least one of a low frequency generating unit, a middle frequency generating unit and a high frequency generating unit according to an inputted command, thereby generating negative feedback, So that positive feedback or selective feedback is generated.

Hereinafter, preferred embodiments of the present invention will be described in detail. It should be understood, however, that these examples are for illustrative purposes only and are not to be construed as limiting the scope of the present invention.

[ Example ]

Example  1. Minus feedback occurs

A 58-year-old woman (undergoing cardiac surgery and disk surgery twice, asthmatic nephritic hyperlipidemia, hypertensive diabetic gastric ulcer, frozen shoulder, headache, and rheumatoid arthritis) underwent a low frequency of 160 Hz to 180 Hz and a mid frequency of 2,500 Hz And the negative feedback was generated in the brain wave of the subject by processing twice. At this time, brain waves of the left and right brain of the subject before and after the treatment were measured using a measuring device (BrainTech, model name: Neuroharmony). The results are shown in FIG.

As shown in FIG. 7, the EEG before the processing was covered with the excitatory hand over the delta wave to the beta wave, but the EEG after the processing remarkably eliminated the abnormal excitatory handwriting.

Example  2 and 3.

Negative feedback was generated in the brain waves of the subject in the same manner as in Example 1, except that the frequency was changed and the subject was changed as shown in Table 1 below. At this time, the brain waves of the left and right brain of the subjects before and after the treatment were measured using Neuroharmony (manufactured by Brain Tech), and the results are shown in FIGS.

Subject Electromagnetic field processing EEG results Low frequency Medium frequency The number and time of each electric field Example 1 58 year old woman 160-180 Hz 2,500 Hz Two 10-minute alternating processes 7 Example 2 61 year old man 160-180 Hz 4,000 Hz Two 10-minute alternating processes 8 Example 3 18 year old male 160-180 Hz 3,000 Hz Two 10-minute alternating processes 9

As shown in FIGS. 8 and 9, the EEGs of the subjects were covered with excitatory handpieces from the delta wave to the beta wave. However, it can be confirmed that the excitatory handwaves were significantly removed after the EEG processing.

Example  4. Plus feedback generation

A 48-year-old male was treated with a frequency of 2,500 Hz and a high frequency of 2 × 10 ⁹ Hz for 10 minutes each for the subjects (mountaineer, mental shock and fatigue were high due to bad weather during climbing in the Himalayas) Of the brain. At this time, brain waves of the left and right brain of the subjects before and after the treatment were measured using Neuroharmony (manufactured by Brain Tech), and the results are shown in FIG.

As shown in FIG. 10, the EEG before the treatment was depressed EEG showing the exhaustion state, but it can be confirmed that the enhanced EEG was generated in the EEG after the treatment.

Example  5. Plus Feedback Generation

The positive feedback was generated in the EEG of the subject in the same manner as in Example 4, except that the 53-year-old female subjects were subjected to the treatment of the low frequency of 4,000 Hz and the high frequency of 2.7 × 10 ⁶ Hz once every 10 minutes. The measured left brain and right brain EEG results are shown in Fig.

As shown in FIG. 11, it was confirmed that the EEG before the treatment was a depressed EEG showing the depressed state, but enhanced EEG was generated in the EEG after the treatment.

Example  6. Optional feedback generation

A 54-year-old man (memory suddenly worsened) was treated with a low frequency of 160 Hz, a medium frequency of 4,000 Hz and a high frequency of 2 × 10 ⁹ Hz two times for 5 minutes each in order to generate selective feedback to the subject's brain waves. At this time, brain waves of the left and right brain of the subjects before and after the treatment were measured using Neuroharmony (BrainTech, Inc.), and the results are shown in FIG.

As shown in FIG. 12, in the left brain before the treatment, the function of the left brain was significantly lowered, but the function of the left brain was restored and the function of the right brain was improved in the treated brain EEG.

Example  7. Optional feedback generation

A 53-year-old female was selected for the EEG in the same manner as in Example 6, except that a low frequency of 160 Hz, a medium frequency of 4,000 Hz, and a high frequency of 2.45 × 10 ⁹ Hz were sequentially processed twice for 5 minutes each Feedback was generated. The measured left brain and right brain EEG results are shown in FIG.

As shown in FIG. 13, the right brain function was significantly lowered in the EEG before the treatment, but the function of the right brain was restored and the function of the left brain was improved in the EEG after the treatment.

100: Wear unit 110: Low frequency generator
120: Medium frequency generator 130: High frequency generator
140: Germanium Ceramic 150: Magnet
160: optical fiber 200: controller
210: input unit 300: first auxiliary unit
310: Germanium Ceramic 320: Magnet
400: second auxiliary unit 410: germanium ceramic
420: Magnet 430 Fiber

Claims (13)

A wearing unit which is worn on the body and includes a low frequency generating part generating a low frequency, a middle frequency generating part generating a medium frequency, and a high frequency generating part generating a high frequency; And
Frequency generating unit, the middle-frequency generating unit, and the high-frequency generating unit, the input unit is provided with an input unit for inputting a command from the user, and at least one of the low-frequency generating unit, And at least one electric field of a low frequency, a medium frequency, and a high frequency is generated so that a negative feedback, positive feedback, or selective feedback is generated in a brain wave of a wearer wearing the wearable unit. Device. The method according to claim 1,
Wherein the controller generates negative feedback on the brain waves of the wearer by alternately generating a low frequency and a medium frequency for a predetermined time. The method according to claim 1,
Wherein the controller generates positive feedback on the brain waves of the wearer by simultaneously generating the mid-frequency and the high-frequency for a predetermined period of time. The method according to claim 1,
Wherein the controller generates the low frequency, the medium frequency, and the high frequency sequentially for a preset time period, thereby generating selective feedback to the user's brain waves. The method according to claim 1,
And a brain wave measuring unit for measuring an EEG wave of a wearer wearing the wearable unit. The method of claim 5,
Wherein the controller compares the measured EEG of the wearer with pre-stored normal EEG data to determine whether any of the negative feedback, the positive feedback, and the optional feedback is necessary and controls the feedback to be generated. A neurofeedback generator. The method according to claim 1,
A multi-channel neural feedback generator, comprising: a plurality of subunits mounted on a body and including a magnetic field generator for generating a magnetic field and a light irradiator for irradiating light. The method of claim 7,
The plurality of sub-units include a first sub-unit in a form wearable on the head, a second sub-unit in the form of covering both ear aids, a third sub-unit mountable on the pelvis and the base, and a fourth sub-unit mountable on the shoulders and waist; Channel neurofeedback apparatus according to claim 1, The method of claim 8,
Wherein the first sub-unit or the second sub-unit further comprises a sonic output unit extending to a user's ear and outputting a sonic wave. The method according to claim 1,
Wherein the wearer is worn on the abdomen of the wearer. The method according to claim 1,
Frequency generating unit is positioned so as to correspond to the center of the wearer's belly, the middle-frequency generating unit is positioned on both sides of the high-frequency generating unit, and the low-frequency generating unit is disposed on both outer sides of the middle- Channel neural feedback generator. The method according to claim 1,
Negative feedback is feedback that suppresses excessively frequent wave components compared to normal EEG, and positive feedback is feedback that enhances EEG components that are insufficient compared to normal EEG. Selective feedback suppresses excessive wave components compared to normal EEG, Wherein the deficient EEG component is a feedback for enhancing the multi-channel neurofeedback. A method for generating a multi-channel neurofeedback using a multi-channel neurofeedback generator according to claim 1,
Receiving a command of a user through an input unit; And
And at least one electromagnetic field of a low frequency, a middle frequency, and a high frequency is generated by selecting at least one of a low frequency generator, a middle frequency generator and a high frequency generator according to an inputted command, so that negative feedback is applied to a brain wave of a wearer wearing a wearer, Feedback or selective feedback is generated. ≪ Desc / Clms Page number 19 >

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