KR20040036489A - Machine for hypnosis - Google Patents

Abstract

PURPOSE: A hypnosis inducing apparatus is provided to induce a hypnotic subject to a more deep hypnosis state according to his or her hypnosis state, control sound and LED so as to recover the hypnotic subject from the hypnosis state and exert a desired effect on the hypnotic subject by measuring the hypnosis state and outputting proper hypnosis suggestive words. CONSTITUTION: The apparatus comprises: a data storage part(230) storing hypnosis suggestive words or sound; a keypad part(220) for allowing a hypnotic subject to view a display liquid crystal(210) and select a hypnosis menu; a controller performing a hypnosis command corresponding to the selection of the hypnotic subject and performing hypnosis steps; a speaker(120) outputting data of the data storage portion(230) to the ear of the hypnotic subject by the controller part; an LED part(110) flickering regularly or irregularly by the controller; a first sensor part(130) collecting bio information of the hypnotic subject through the forehead of the hypnotic subject; a second sensor part(140) collecting bio information of the hypnotic subject through the glans of the hypnotic subject; an amplification part amplifying a bio signal of data of the sensor parts(130,140) having collected the bio information of the hypnotic subject; a display part(210) analyzing a digital code of each channel and outputting a visualized data; and an interface part(240) inputting and outputting the data of analysis of the digital code of each channel to/from an external device.

Description

Hypnotic induction device {Machine for hypnosis}

The present invention outputs the sound having a hypnotic message (voice) or hypnotic effect through the speaker of the earphone or headphone so that the subject can reach the hypnosis, and at the same time, the hypnosis is induced inside the structure of the opaque glasses-type headset 100 structure. Optimum light is led to the hypnotic by reaching the hypnosis by flashing the LED 130 in a regular or irregular manner, and at the same time to the top 130 of the structure of the opaque spectacle headset 100 and the head of the subject 140 By attaching a sensor that can measure biometric information, it enables to measure biometric information (eg, EEG, pulse, body temperature, electrocardiogram, electrocardiogram) in real time, and especially the activity of left and right brain and alpha wave, beta wave, theta wave through EEG measurement. , Hypnotic hypnotic speech (voice) or sound composed in stages according to the classification of the distribution ratio such as delta waves, and the state of the subject's hypnosis according to the pulse and body temperature And an apparatus in which the LEDs 130 are implemented in the order in which the LEDs 130 are programmed step by step.

In the conventional hypnosis, there is a separate hypnotic operator, and since the subject performs one-sided hypnosis induced by the hypnotic operator's suggestion, the subject's condition is measured only by the hypnotic operator's experience. Not only was it difficult to distinguish exactly what was being done, but subjects who performed self hypnosis did not know their exact state and did not reach the proper state of hypnosis by performing hypnosis.

In addition, the hypnotic recording tape and the video tape did not measure the subject's condition, and since the hypnosis was performed only unilaterally, the hypnotic therapy was not performed.

In addition, the conventional EEG learner is composed only of unilateral regular sound of the learning device and the LED that is only lighted irregularly, it was impossible to systematically learn by ignoring the subject state of the EEG learner and unilaterally performing the learning function.

According to the brain pylon, since 1929, when German physiologist Hans Berger recorded the world's first human brain wave, electroencephalography has been used to diagnose epilepsy and other central nervous system diseases. EEG, which is a bioelectrical signal that can be measured from the epidermis, is analyzed and classified according to frequency, and many studies are underway.

In general, the human brain emits conscious beta waves (14 -30 Hz), which occur during daily activities according to frequency, and alpha waves (8-13 Hz) and deep rest states that occur during relaxation or relaxation. Theta waves (4-7Hz) generated by the delta wave (0-3Hz) unconscious level of coma or deep sleep. In particular, the brain waves in the alpha wave state have been known as brain waves that occur when meditating, during creative brain activity, or when a sports player concentrates. In particular, Dr. Gray Walter of the UK in the 1940's published the frequence-following effect that human light waves can be induced into alpha waves and theta waves through light signals. Numerous inventions and studies have been conducted on devices for regulating brain waves to make waves.

Dr. Norman Shealy experimented with light to relieve stress, anxiety, depression and pain, and to increase memory, and presented the theory that color affects neurochemical backbones.

EEG is measured on the human scalp, a wavelength with a potential difference of tens of microvolts and a frequency below 30 Hz, a physical value that reflects the human state of consciousness.

There are four types of brain waves: alpha waves, beta waves, theta waves, and delta waves. Beta waves are brain waves with frequencies above 13 Hz, which are usually related to daily activities when the five senses of humans function.

Alpha waves are brain waves with a frequency of 8–13 Hz, related to relaxed creative states and appear in deep meditation or deep hypnosis.

Theta waves are brain waves with a frequency of 4-8 Hz and are often found in adolescents with learning disabilities. Delta waves are brain waves with a frequency of 0.5-4 Hz and appear in very deep sleep.

There are two methods of reading an EEG: reading in the time domain and reading in the frequency domain. Reading brain waves in the time domain requires much experience and skill, and it is difficult to distinguish minute differences. Current widely used frequency analysis methods require processing the measured signals to make it easier to read the subject's condition in real time.

Conventional electroencephalography apparatus mainly uses a cup electrode attached to the scalp of the subject using a paste, and has a separate built-in card in the EEG analysis computer to input and analyze the measured multiple channel EEG signals. shall.

The present invention, in order to solve the above problems, by measuring the change in the biometric information by a sensor for measuring the bio-signal attached to the spectacle-type headset 100, pre-programmed (set according to the degree of brain wave and body temperature, pulse, muscle relaxation) According to the order that is), the next stage of the hypnotic message or sound and the LED 110 is to be configured to be carried out automatically.

Therefore, the sound and LED 110 are controlled to induce a deeper hypnotic state or wake up from the hypnotic state according to the subject's hypnotic state, and also measure the hypnotic state and output an appropriate hypnotic message to the subject through the headphone or earphone 120. To achieve the desired effect.

100 of the representative diagram is a device in which the function of the hypnotic device configured by the present invention is implemented, the speaker unit 110 and the LED unit 120 are configured to induce hypnosis, the hypnotic induction unit and the subject's hypnotic state to know the hypnotic state. Glasses type headset 100 consisting of a sensor 1 (130), a sensor 2 (140) to collect the

200 of the representative diagram is a device for performing the function of the hypnotic device configured according to the present invention as a part for giving a command to the spectacle-type headset 100 and displaying a user interface capable of selecting and performing hypnosis for a desired use (210). And a set-top box having an interface capable of performing hypnosis by receiving input from the keypad 220 and determining a degree of hypnosis performance by data input through a sensor and a storage medium storing hypnotic data. 200)

300 of the representative diagram is a wire connecting the glasses-type headset 100 and the set-top box 200

400 in the representative view is a storage device in which a hypnotic message (voice) or hypnotic sound is stored so that a subject can reach hypnosis.

In order to achieve the object of the present invention, the data storage unit 400 is stored hypnotic message or sound according to the present invention; A keypad unit 220 through which a subject can select a hypnotic menu; A controller 231 for performing a hypnotic command corresponding to a subject's selection; A wire part 300 to which hypnotic data and data input / output from each sensor are transmitted; A speaker unit 120 for outputting data of the data storage unit 400 to the subject's ear by the controller 231; LED unit 110 that is regularly or irregularly flashed by the controller 231; Sensor unit 1 (130) for collecting the biological information of the subject through the forehead of the subject; Sensor unit 2 (140) for collecting the biological information of the subject through the head of the subject biometric information; An amplifying unit 232 for amplifying a biosignal of the data of the sensor units 1130 and 2140 that collects the subject's biometric information; A display unit 210 outputting visualized data by analyzing the digital codes of the amplified multiple channels of the biological signals; And an external interface 240 capable of inputting and outputting the amplified biosignals to and from an external device by analyzing the digital codes of the respective channels.

Hereinafter, the reference numerals and detailed descriptions refer to the accompanying drawings.

1 is a conventional concentration learner body and glasses

2 is a perspective view of a headset and a set-top box of the present invention

100. Headset body

110. LED 120 that can blink by program. Hypnotic message or sound output speaker 130. Biosignal measuring sensor in contact with subject's forehead

140. A biosignal measuring sensor in contact with the head of the subject

200. Main Body with Coat Roller (Set-Top Box)

210. A display unit for displaying messages and vital biographies so that the subject can select a hypnotic menu.

220. Directional and Select Keys for Subjects to Select Hypnotic Menus

230. A storage device inserting portion into which an external data storage device 400 can be inserted.

240. Interface unit that can interface with external devices

300. Wires

400. Storage device containing hypnotic data

3 is a procedure of operation of the controller 231 of the set-top box 200 by the selection of the subject.

4 is a flow chart of a program of the controller 231 of the set-top box 200.

According to the present invention, hypnosis, which has been previously selected according to a subject's biosignal, is performed. This is to grasp the hypnotic state of the subject, which could not be solved by the existing hypnotic recording tape, video tape, booklet or software. Find out the difference between hypnosis and hypnosis susceptibility to ensure that the most appropriate hypnosis is administered.

This is because hypnosis science is more systematic and quantitative method by measuring the biological signal of the subject as data and using it as basic data in the subject's hypnosis procedure. It will also have the effect of developing.

Claims (8)

A device for automatically adjusting the hypnosis method according to which time the bio information of the subject's body reaches as the hypnotic subject selects and executes the hypnotic program desired by the hypnotic subject; The hypnotic induction device, A detachable data storage unit 230 storing a hypnotic reminder sentence or sound constituting the hypnotic induction device; A keypad unit 220 for a subject constituting the hypnotic induction device to select and display a hypnotic menu on the display liquid crystal 210; A controller 231 for performing a hypnotic command corresponding to a subject selected by a subject constituting the hypnotic induction device and performing a hypnotic step by step; A speaker unit 120 for outputting data from the data storage unit 230 to a subject's ear by a controller unit 231 constituting the hypnotic induction device; LED unit 110 that is flashing at regular or irregular by the controller 231 constituting the hypnotic induction device; Sensor unit 1 (130) for collecting the biological information of the subject constituting the hypnotic induction device through the forehead of the subject; Sensor unit 2 (140) for collecting the biological information of the subject constituting the hypnotic induction device through the head of the subject; An amplifying unit 232 for amplifying a biosignal of data of the sensor unit 1130 and 2140 which collects the biometric information of the subject constituting the hypnotic induction device; A display unit 210 for outputting visualized data by analyzing the digital codes of the channels calculated by the analog / digital conversion unit constituting the hypnotic induction device; A hypnotic induction device comprising: an interface unit 240 capable of inputting / outputting data from the digital code of each channel calculated by the analog / digital conversion unit constituting the hypnotic induction device with an external device. The controller 231 operates according to the digital code of each channel calculated by the analog / digital conversion unit constituting the hypnotic induction device and transfers data from the data storage unit 230 to the eyes and ears of the subject. In claim 1, the data storage unit 230 is a removable storage medium, CD, memory card, floppy disk, cassette tape, etc. Non-removable ROM (ROM), hard disk, etc. can be stored hypnotic induction message or sound can be stored Hypnotic induction apparatus characterized by having a medium The hypnotic induction apparatus according to claim 1, wherein the hypnotic subject has a controller 231 for selecting and outputting a hypnotic message and a sound executed by a hypnotic induction program. The hypnotic induction apparatus of claim 1, wherein the controller 231 is configured to allow the LED unit 110 to blink regularly or irregularly. Hypnosis according to claim 1 having a sensor unit 1 (110) for collecting the biometric information of the subject through the forehead of the subject through the sensor located on the opaque spectacles structure configured by the present invention Induction device The method according to claim 1, characterized in that it has a sensor unit 2 (140) for collecting the biometric information of the subject through the head of the subject through the sensor located in the speaker fixed portion connected to the opaque spectacle structure configured by the present invention Hypnotic induction device The method according to claim 1, wherein the information collected through the sensor 1 unit 130 and the sensor 2 unit 140 according to the present invention is analyzed to determine the next step according to the biometric information (electroencephalogram, pulse rate, electrocardiogram, electromyogram, body temperature). Hypnotic induction apparatus characterized in that it has a controller (231) having a function to perform hypnosis or to perform the hypnosis program of the previous step again.