WO2020145670A2

WO2020145670A2 - Apparatus and method for wirelessly transmitting and receiving bioelectric signals

Info

Publication number: WO2020145670A2
Application number: PCT/KR2020/000354
Authority: WO
Inventors: 이정용
Original assignee: 이정용
Priority date: 2019-01-08
Filing date: 2020-01-08
Publication date: 2020-07-16
Also published as: WO2020145806A1; KR20200086234A

Description

Device and method for wireless transmission and reception of bioelectric signals

The technical field of the present invention relates to a wireless transmitting and receiving apparatus and method of a bioelectrical signal.

The method of transmitting/receiving a wired electrical signal through a wire is an EEG measuring instrument, an electrocardiogram, and an electronic chip implanted in the brain, which detects a command from the brain to tap the body. A technique has been developed that attaches a band that can send electrical signals to the body and sends electrical signals directly to nerve cells in a body part with the same principle as electromagnetic induction to move the body part according to the command of the brain.

In the present invention, it is a technical field of the present invention to send and receive a biosignal to a biomechanical device that transmits and receives a bioelectrical signal to a biomechanical device.

The background technology of the present invention is a modulation technology such as amplitude modulation or amplification technology as a background technology of the present invention.

Technical problem of the present invention is to provide a device for transmitting and receiving a bioelectrical signal wirelessly rather than wired.

It is a problem to be solved by the present invention to provide a non-biomechanical device for transmitting and receiving bioelectrical signals and a device for outputting a biosignal by the mechanical device.

The technical solution of the present invention is that the electric signal of the heart among the bioelectric signals can be detected wirelessly even outside 3m.

When a carrier wave is interacted with a signal wave such as a transistor modulator or a ring modulator such as amplitude modulation (AM), the modulated wave is generated.

It is said that if a sinusoidal wave of about 5 times the same frequency as a biosignal is put in a signal wave generated from bioelectricity, the biowave signal can be wirelessly transmitted and received by amplifying the signal wave.

Electroencephalography also attaches the electrode to the scalp, so that the electromagnetic wave induces the signal wave to appear as a flow of electrons rather than the flow of ions in bioelectricity, so that the signal wave can be amplified and displayed on the display.

It is intended to provide a device for receiving a bioelectric signal and outputting a biosignal by the mechanical device.

Create a mechanical device with almost the same structure that can transmit and receive at almost the same frequency as the bioelectrical signal, and output a signal wave received from this mechanical device to display auditory signals, visual signals, and other biological signals, such as display speakers, which are each output means. Printing through is a technical solution.

The effect of the present invention is that a mechanical device receives a bioelectrical signal and outputs a bio-signal by the mechanical device. It has the effect of printing.

1 is a circuit diagram of a ring modulator.

2 is a conceptual diagram of the present invention.

3 is another conceptual diagram of the present invention.

4 is another block diagram of the present invention.

Transmitting and receiving a bioelectrical signal from a living body

Create a mechanical device with a structure almost identical to that of a living body or a part of a living body capable of transmitting and receiving at substantially the same frequency as a biological electrical signal, and outputting a signal wave received from the mechanical device to output auditory and visual signals and other biological signals, respectively. As a means to output through display speakers, etc.

In the output means, the visual signal of the bioelectrical signal is the same as the bioelectrical signal and can transmit and receive at the same frequency. It is occupied, but it has been determined exactly which part of the retina has input. This is called a retinal region restoration or visual map corresponding to a field of view. In response to a visual map, the display is formed so that the pixels of the display look like a scene in front of the eyes, so that a visual signal of a bioelectrical signal is output.

Also

In the output unit audible signal in the living body electric signal and of the density of the sound waves degree when the transmission ear the acoustic signature of the machine of the substantially identical structure that can transmit and receive at approximately the same frequency and the bioelectrical signal to the end of the sound wave eardrum cheongsogol cochlea After that, it outputs the signal wave through the nerve cells to the primary auditory cortex and outputs it to the speaker.

1 is a circuit diagram of a ring modulator showing that a modulated signal is generated by interaction of a modulated signal, that is, a signal wave with a carrier wave.

2 is a conceptual diagram of the present invention, there is no alternative to modulating the bioelectrical signal by irradiating a carrier wave directly to the living body in order to wirelessly transmit and receive the bioelectrical signal between the living bodies.

When a carrier wave interacts with a signal wave such as a ring modulator,

When a carrier wave interacts with a signal wave generated from bioelectricity, a modulated wave is generated using the same principle.

When the carrier wave interacts with the outside of the living body, it is affected by the signal wave of the living body, and thus a modulated wave is generated like a ring modulator.

Then, it is inevitable by experiment to know how much the frequency of the carrier should be. About irradiating this carrier to a living body and making it into a modulating wave, receiving a modulating wave, demodulating it into a signal wave, amplifying the signal wave, and outputting the signal wave

An alternative is to irradiate a sinusoidal wave having a frequency substantially equal to the biosignal and amplify the signal wave to wirelessly transmit and receive the bioelectrical signal or to insert a sinusoidal wave approximately 5 times the frequency of the biosignal.

In this

The repeater receiving the received amplified signal wave transmits to another living body, and may further include wireless transmission/reception between living bodies.

3 is another conceptual diagram of the present invention

Transmitting and receiving a bioelectrical signal from a living body

Create a mechanical device with a structure almost identical to that of a living body or a part of a living body capable of transmitting and receiving at substantially the same frequency as a biological electrical signal, and outputting a signal wave received from the mechanical device to output auditory and visual signals and other biological signals, respectively. As a conceptual diagram showing output through a display speaker as a means

The mechanical device includes any one or more of the brain, ears, eyes, arms, legs, hands, feet, and wings, which are the main organs of the human body or other animals, and the output means include any one or more of the display and speakers. It includes storage means for storing bioelectrical signals.

The visual signal of the bioelectrical signal in the output means occupies the largest area among the multiple visual relational orders in the primary visual age of the brain of a mechanical device having an almost identical structure capable of transmitting and receiving at substantially the same frequency as the bioelectrical signal, but some parts of the retina It is determined exactly where the input is from. This is called a retinal region restoration or a visual map corresponding to a field of view. In response to the visual map, the display is formed so that the pixel of the display looks like a scene in front of the eyes, so that the visual signal of the bioelectrical signal is output. Includes

Instead of making a machine with a structure that is almost the same as that of a living body or part of a living body capable of transmitting and receiving at almost the same frequency as the living electrical signal.

It is possible to transmit and receive data from a computer in the same way as a mechanical device with almost the same structure that can transmit and receive at almost the same frequency as a bioelectrical signal.

The audio and visual signals and other bio signals are processed by processing the signals transmitted and received from the computer so that they are output in the same way as those output from signal waves received from a machine having a structure that is capable of transmitting and receiving at substantially the same frequency as the bioelectric signals. It further includes a wireless transmission/reception device for bioelectric signals output through a display speaker, which is an output means.

4 is another block diagram of the present invention

Also

Create a mechanical device with a structure almost identical to that of a living body or a part of a living body capable of transmitting and receiving at substantially the same frequency as a biological electrical signal, and outputting a signal wave received from the mechanical device to output auditory and visual signals and other biological signals, respectively. In a wireless transmission/reception device for a bioelectrical signal characterized in that it is output through a display speaker, which is a means, a wirelessly transmitting/receiving a bioelectrical signal further comprising a device for manually or automatically matching frequencies during wireless transmission and reception with a living body. It is a method and a device.

The industrial applicability of the present invention is a mechanical device for receiving radio waves of the brain waves.

By making a mechanical device of almost the same structure capable of transmitting and receiving at almost the same frequency as the bioelectrical signal, the brainwaves of a specific person are wirelessly received according to the frequency, and the visual information and auditory information of the specific person are displayed in real time through the device through a TV display or speaker. You can also print and save.

Claims

A method for wirelessly transmitting and receiving a bioelectrical signal by irradiating a sinusoidal wave having a frequency substantially equal to the biological signal, and amplifying the signal wave to transmit and receive the bioelectrical signal.
A method of wirelessly transmitting and receiving a bioelectric signal according to claim 1, characterized in that a sinusoidal wave of about 5 times the frequency substantially equal to the biosignal is inserted.
A method for wirelessly transmitting and receiving a bioelectrical signal, characterized in that the amplified signal wave received in claim 2 is transmitted from the repeater to another living body to enable wireless transmission and reception between the living bodies.
Create a mechanical device with a structure almost identical to that of a living body or a part of a living body capable of transmitting and receiving at substantially the same frequency as a biological electrical signal, and outputting a signal wave received from the mechanical device to output auditory and visual signals and other biological signals, respectively. A wireless transmitting and receiving device for a bioelectrical signal, characterized in that it is output through a display speaker, which is a means.
The mechanical device of claim 4, the main body of the human body or other animals such as the brain and ears, eyes, arms, legs, hands, feet, one or more of the wings, characterized in that the wireless transmission and reception device for a bioelectrical signal.
The output means of claim 4 includes any one or more of a display, a speaker, and a wireless transmission/reception device for a bioelectrical signal, comprising a storage means for storing the transmitted and received bioelectrical signals.
In the output means of claim 4, the visual signal of the bioelectrical signal occupies the largest area among a number of visual relational orders in the primary visual order of the brain of a mechanical device having an almost identical structure capable of transmitting and receiving at substantially the same frequency as the bioelectrical signal. It is precisely determined from which part of the retina the site has been input. This is called a retinal region restoration or a visual map corresponding to a field of view. It is characterized in that a pixel of a display is formed to look like a scene in front of a real eye in response to a visual map, so that a visual signal of a bioelectrical signal is output. The output device of a wireless transmission/reception device for bioelectric signals.
The acoustic signature of the bioelectrical signal in 4 of the output means is a bioelectrical signal with substantially the acoustic signature of the substantially identical structure that can transmit and receive at the same frequency mechanical devices when the end becomes a transmission ear to sound waves around the ear of the density of the sound wave An output device of a wireless transmission/reception device for a bioelectrical signal, characterized in that it outputs a signal wave that is transmitted to the primary auditory cortex through a nerve cell through the tibialis cochlea and output to a speaker.
Create a mechanical device with a structure almost identical to that of a living body or a part of a living body capable of transmitting and receiving at substantially the same frequency as a biological electrical signal, and outputting a signal wave received from the mechanical device to output auditory and visual signals and other biological signals, respectively. A method of wirelessly transmitting and receiving a bioelectrical signal, characterized in that it is output through a display speaker, which is a means.
The method of claim 9, wherein the mechanical device includes one or more of the brain, ears, eyes, arms, legs, hands, feet, and wings, which are main organs of the human body or other animals.
10. The method of claim 9, wherein the output means includes one or more of a display and a speaker, and storage means for storing the transmitted and received bioelectric signals.
In the output means of claim 9, the visual signal of the bioelectrical signal occupies the largest area among a number of visual relational orders in the primary visual order of the brain of a mechanical device having an almost identical structure capable of transmitting and receiving at substantially the same frequency as the bioelectrical signal. It is precisely determined from which part of the retina the site has been input. This is called a retinal region restoration or a visual map corresponding to a field of view. It is characterized in that a pixel of a display is formed to look like a scene in front of a real eye in response to a visual map, so that a visual signal of a bioelectrical signal is output. Method for outputting a wireless transmission/reception device for bioelectric signals.
The acoustic signature of the bioelectrical signal 9 term output means is a bioelectrical signal with substantially the acoustic signature of the substantially identical structure that can transmit and receive at the same frequency mechanical devices when the end becomes a transmission ear to sound waves around the ear of the density of the sound wave A method of outputting a wireless electrical signal transmitting/receiving device, characterized in that it outputs a signal wave that is transmitted to the primary auditory cortex through a nerve cell through the tibialis cochlea and output to a speaker.
Create a mechanical device with almost the same structure that can transmit and receive at almost the same frequency as the bioelectrical signal, and output a signal wave received from this mechanical device to display auditory signals, visual signals, and other biological signals, such as display speakers, which are each output means. In the wireless transmission/reception device of the bioelectrical signal characterized in that it outputs, the wireless transmission/reception device of the bioelectrical signal further comprising a device for manually or automatically matching the frequency during wireless transmission and reception with the living body.
Create a mechanical device with a structure almost identical to that of a living body or a part of a living body capable of transmitting and receiving at substantially the same frequency as a biological electrical signal, and outputting a signal wave received from the mechanical device to output auditory and visual signals and other biological signals, respectively. In the method of wirelessly transmitting and receiving a bioelectrical signal characterized in that it is output through a display speaker, which is a means, a bioelectrical device further comprising a device for manually or automatically matching frequencies during wireless transmission and reception with a living body. How to send and receive signals wirelessly.
The method of claim 4

Instead of making a machine with almost the same structure that can transmit and receive at almost the same frequency as the bioelectric signal

It is possible to transmit and receive data from a computer in the same way as a mechanical device with almost the same structure that can transmit and receive at almost the same frequency as a bioelectrical signal.

The audio and visual signals and other bio signals are processed by processing the signals transmitted and received from the computer so that they are output in the same way as those output from signal waves received from a machine having a structure that is capable of transmitting and receiving at substantially the same frequency as the bioelectric signals. A wireless transmitting and receiving device for a bioelectrical signal, characterized in that it is output through a display speaker or the like, which is an output means.
Instead of making a machine with almost the same structure that can transmit and receive at almost the same frequency as the bioelectric signal

It is possible to transmit and receive data from a computer in the same way as a mechanical device with almost the same structure that can transmit and receive at almost the same frequency as a bioelectrical signal.

The audio and visual signals and other bio signals are processed by processing the signals transmitted and received from the computer so that they are output in the same way as those output from signal waves received from a machine having a structure that is capable of transmitting and receiving at substantially the same frequency as the bioelectric signals. A wireless transmitting and receiving device for a bioelectrical signal, characterized in that it is output through a display speaker or the like, which is an output means.
The method of claim 9

Instead of making a machine with almost the same structure that can transmit and receive at almost the same frequency as the bioelectric signal

It is possible to transmit and receive data from a computer in the same way as a mechanical device with almost the same structure that can transmit and receive at almost the same frequency as a bioelectrical signal.

The audio and visual signals and other bio signals are processed by processing the signals transmitted and received from the computer so that they are output in the same way as those output from signal waves received from a machine having a structure that is capable of transmitting and receiving at substantially the same frequency as the bioelectric signals. Wireless outputting and receiving method of a bio-electrical signal, characterized in that output through a display speaker, such as an output means.
The method of claim 9

Instead of making a machine with almost the same structure that can transmit and receive at almost the same frequency as the bioelectric signal

It is possible to transmit and receive data from a computer in the same way as a mechanical device with almost the same structure that can transmit and receive at almost the same frequency as a bioelectrical signal.

The audio and visual signals and other bio signals are processed by processing the signals transmitted and received from the computer so that they are output in the same way as those output from signal waves received from a machine having a structure that is capable of transmitting and receiving at substantially the same frequency as the bioelectric signals. In the wireless transmission/reception device of the bioelectrical signal characterized in that it is output through a display speaker, which is an output means of the wireless communication device with the living body, a device for manually or automatically matching the frequency is further included. Method for wirelessly transmitting and receiving bioelectrical signals.