CN111419182A - Nonlinear health analysis system - Google Patents

Abstract

The invention discloses a nonlinear health analysis system, comprising: a noise generator: generating white noise having a uniform spectral density over a range of frequencies; 4.9GHz microwave filter amplifier: a band-pass filter is arranged in the filter, and the filtering and frequency doubling functions of the filter are realized by utilizing a resonance circuit; obtaining 4.9GHz frequency, amplifying and transmitting to a modulator as a radio frequency signal source; a microwave amplifier: amplifying microwave signals in a high-frequency wave band; a microwave sensor: the microwave transmitting by the sensor is composed of a microwave amplifier and a microwave antenna, because the 4.9GHz microwave electromagnetic effect has strong penetrating power, the right ear spiral conical microwave antenna is used for receiving and inputting a differential amplifier and converting the differential amplifier into an electric signal, and then the electric signal is filtered by noise, amplified by integral and converted by A/D and then transmitted to a micro central processing unit and a remote control unit by digital codes.

Description

Nonlinear health analysis system

Technical Field

The invention relates to the technical field of nonlinear health analysis systems, in particular to a nonlinear health analysis system.

Background

Deep sleep is the part of sleep, deep sleep is also called "golden sleep", only account for 25% of whole sleep time, deep sleep can alleviate people's fatigue of one day, it is very good to promote human metabolism, if want to reach better sleep effect, just need detect human brain wave, the rethread of detecting promotes sleep equipment and promotes sleep, but the equipment of promoting sleep on the present market can only promote sleep according to the data of settlement, can't detect human brain wave in real time, and the data of the equipment of promoting sleep of adjusting according to real-time data.

Disclosure of Invention

The present invention is directed to a non-linear health analysis system to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a non-linear health analysis system comprising:

a noise generator: generating white noise having a uniform spectral density over a range of frequencies;

4.9GHz microwave filter amplifier: a band-pass filter is arranged in the modulator, the filtering and frequency doubling functions of the modulator are realized by utilizing a resonant circuit, and the obtained 4.9GHz frequency is amplified and then is transmitted to the modulator to be used as a radio frequency signal source;

the modulator: the low-frequency 240Hz modulation is used, the resonance frequency for inducing organs is 1.8 Hz-8.2 Hz, the microwave 4.9GHz carrier wave is secondarily modulated by a control pulse signal, the radio frequency of a carried baseband signal is output to a microwave amplifier, the original baseband signal modulated in the microwave carrier frequency can be demodulated in a microwave receiver, and the baseband signal modulates the microwave in an amplitude modulation mode;

low frequency 240Hz oscillator circuit: the circuit is an oscillating oscillator of 240Hz sine wave signals and is used as a signal source for modulating microwave frequency carrier waves;

a microwave amplifier: amplifying microwave signals in a high-frequency wave band;

a microwave sensor: the microwave transmitter consists of a microwave amplifier and a microwave antenna, wherein the microwave transmitted by a sensor is received and input into a differential amplifier by using a right-ear spiral conical microwave antenna and converted into an electric signal, and then the electric signal is filtered by noise, amplified by integral and converted by A/D (analog/digital) and then transmitted to a micro central processing unit and a remote control unit by using digital codes;

a microwave receiving amplifier: adopting a differential fully integrated low-noise amplifier at a microwave frequency band of 4.9GHz to obtain the performance of differential low-noise amplification which is the same as that of single-ended low-noise amplification, wherein a band-pass filter of a noise filtering structure and a duplexer of a micro-strip structure are connected with a low-pass filter in series at an output port of the band-pass filter, and then integral amplification and A/D conversion are transmitted;

an integrating amplifier: the device is used for waveform transformation, elimination of offset voltage of an amplifying circuit and integral compensation in feedback control;

a main vibration crystal: the frequency is stabilized by a single-phase inverted multivibrator 12MHz crystal;

human body information code database: the database is connected with the encryption and decryption unit, the output of the encryption and decryption unit is connected with the micro central processing unit and the telemetering control two-way communication, the resonance of different brain cells can be effectively induced by utilizing microwave and nonlinear low frequency through the head of an earphone, and after the resonance of biological energy waves in various organs, tissues and cells of a human body, the current energy state of the cells of various organs can be presented to the functional state or the pathological state of the human body through a 3D image;

a micro central processing unit: the device comprises an arithmetic unit, a controller and a register, wherein the arithmetic and logic operation is carried out, the induced resonance brain wave frequency spectrum is controlled, the microwave emission is modulated, the microwave is input into a micro central processing unit after the microwave receiving and demodulating is carried out and compared with a human body information code database, the micro processing unit analyzes and decodes the data and then presents the real-time function states of organs and the whole body, the unit also outputs the data in two paths, one path is used for a modulator, control pulses are transmitted to carry out multi-task modulation on 4.9GHz microwaves, the brain cells are induced to resonate to generate biological feedback information, the other path is used for external biological resonance bridge detection and bidirectional control, and a non-magnetic resonance cup provided with a laser;

and (3) telemetry control: the sleep promoting instrument is used for remotely controlling the sleep promoting instrument.

Preferably, the electrical circuit of the noise generator uses a stable white noise diode as a noise source.

Preferably, the microwave amplifier adopts a transistor or a field effect transistor.

Preferably, the remote measurement control integrates data acquisition, transmission and storage functions by matching a mouse with a PC screen.

Preferably, the telemetering control is provided with a mobile phone and an APP which are used as a whole for integrating data acquisition, transmission and storage functions.

Compared with the prior art, the invention has the beneficial effects that:

the invention can well realize the detection of brain waves, thereby conveniently adjusting the data of the sleep promoting equipment, and well achieving the effect of deep sleep.

Drawings

FIG. 1 is a schematic structural diagram of a non-linear health analysis system according to the present invention;

FIG. 2 is a schematic diagram of signal modulation according to the present invention;

FIG. 3 is a schematic diagram of the micro central processing unit and telemetry control architecture of the present invention;

FIG. 4 is a schematic diagram of brain wave resonance biofeedback according to the present invention;

FIG. 5 is a schematic diagram of a twice modulated microwave signal according to the present invention;

FIG. 6 is a circuit diagram of a master oscillator crystal according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a non-linear health analysis system comprising:

a noise generator: generating white noise having a uniform spectral density over a range of frequencies;

4.9GHz microwave filter amplifier: a band-pass filter is arranged in the modulator, the filtering and frequency doubling functions of the modulator are realized by utilizing a resonant circuit, and the obtained 4.9GHz frequency is amplified and then is transmitted to the modulator to be used as a radio frequency signal source;

the modulator: the low-frequency 240Hz modulation is used, the resonance frequency for inducing organs is 1.8 Hz-8.2 Hz, the microwave 4.9GHz carrier wave is secondarily modulated by a control pulse signal, the radio frequency of a carried baseband signal is output to a microwave amplifier, the original baseband signal modulated in the microwave carrier frequency can be demodulated in a microwave receiver, and the baseband signal modulates the microwave in an amplitude modulation mode;

low frequency 240Hz oscillator circuit: the circuit is an oscillating oscillator of 240Hz sine wave signals and is used as a signal source for modulating microwave frequency carrier waves;

a microwave amplifier: amplifying microwave signals in a high-frequency wave band;

a microwave sensor: the microwave transmitting device consists of a microwave amplifier and a microwave antenna, wherein the microwave transmitted by a sensor has stronger penetrating power by adopting a 4.9GHz microwave electromagnetic effect, and the right-ear spiral conical microwave antenna is used for receiving and inputting a differential amplifier, converting the differential amplifier into an electric signal, filtering noise, carrying out integral amplification and A/D conversion, and then transmitting the electric signal to a micro central processing unit and a remote control unit by using digital codes;

a microwave receiving amplifier: and a differential fully integrated low noise amplifier is adopted in the microwave 4.9GHz frequency band. The differential low-noise amplification has the same performance as single-end low-noise amplification, has immunity to common-mode signal interference, and is suitable for being used as a front-end amplifier of a microwave receiving system, wherein a band-pass filter with a noise filtering structure and a duplexer with a micro-strip structure are connected in series with a low-pass filter at an output port of the band-pass filter in order to reduce the influence of clutter response on an integral amplifier, and then integral amplification and A/D conversion are transmitted;

an integrating amplifier: the device is used for waveform transformation, elimination of offset voltage of an amplifying circuit and integral compensation in feedback control;

a main vibration crystal: the frequency is stabilized by a single-phase inverted multivibrator 12MHz crystal;

human body information code database: the database is connected with the encryption and decryption unit, the output of the encryption and decryption unit is connected with the micro central processing unit and the telemetering control two-way communication, the resonance of different brain cells can be effectively induced by utilizing microwave and nonlinear low frequency through the head of an earphone, and after the resonance of biological energy waves in various organs, tissues and cells of a human body, the current energy state of the cells of various organs can be presented to the functional state or the pathological state of the human body through a 3D image;

a micro central processing unit: the device comprises an arithmetic unit, a controller and a register, wherein the arithmetic and logic operation is carried out, the induced resonance brain wave frequency spectrum is controlled, the microwave emission is modulated, the microwave is input into a micro central processing unit after the microwave receiving and demodulating is carried out and compared with a human body information code database, the micro processing unit analyzes and decodes the data and then presents the real-time function states of organs and the whole body, the unit also outputs the data in two paths, one path is used for a modulator, control pulses are transmitted to carry out multi-task modulation on 4.9GHz microwaves, the brain cells are induced to resonate to generate biological feedback information, the other path is used for external biological resonance bridge detection and bidirectional control, and a non-magnetic resonance cup provided with a laser;

and (3) telemetry control: the sleep promoting instrument is used for remotely controlling the sleep promoting instrument.

Specifically, the electrical circuit of the noise generator uses a stable white noise diode as a noise source.

Specifically, the microwave amplifier uses a transistor or a field effect transistor.

Specifically, the telemetering control has a mobile phone and an APP as a whole which integrates data acquisition, transmission and storage functions.

The working principle is as follows: the nonlinear health analysis system is controlled by a micro central processing unit, stimulated by pulses with preset brain cell specified resonance frequency, transmitted by a microwave modulator through a microwave sensor, induced by a tester (patient) to obtain resonance brain wave frequency, subjected to microwave receiving, filtering, amplification and processing, subjected to A/D (analog/digital) conversion, input into the micro central processing unit, compared with a human body information code database, analyzed by the micro central processing unit, and interpreted to present real-time functional states of organs and the whole body.

And (4) displaying direct-view data on a screen according to different disease trends, and diagnosing, evaluating and detecting the health state of the human body. The database provides analysis, and the method can be used for preventing and treating diseases, and can be used for tracking the health degree of the human body and treating diseases.

Under the action of a micro-nuclear magnetic resonance and a microwave magnetic field, a human body transmits a 4.9GHz carrier wave with the resonance frequency of 1.8 Hz-8.2 Hz modulation through organ liquid to excite and generate a resonance phenomenon, and the process is the micro-nuclear magnetic resonance. The diffusion of liquid water molecules is random motion in three-dimensional space, and the cell resonance phenomenon in the environment belongs to the non-linear physical phenomenon of surface plasmon (electromagnetic surface wave) resonance, which is the theoretical basis of the device. The core of the device is an 8-bit singlechip with 32KB programming Flash and matched with other accessories to form a human body information code database, a micro central processing unit and a remote measurement control system.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A non-linear health analysis system, comprising:

a noise generator: generating white noise having a uniform spectral density over a range of frequencies;

4.9GHz microwave filter amplifier: a band-pass filter is arranged in the modulator, the filtering and frequency doubling functions of the modulator are realized by utilizing a resonant circuit, and the obtained 4.9GHz frequency is amplified and then is transmitted to the modulator to be used as a radio frequency signal source;

the modulator: the low-frequency 240Hz modulation is used, the resonance frequency for inducing organs is 1.8 Hz-8.2 Hz, the microwave 4.9GHz carrier wave is secondarily modulated by a control pulse signal, the radio frequency of a carried baseband signal is output to a microwave amplifier, the original baseband signal modulated in the microwave carrier frequency can be demodulated in a microwave receiver, and the baseband signal modulates the microwave in an amplitude modulation mode;

low frequency 240Hz oscillator circuit: the circuit is an oscillating oscillator of 240Hz sine wave signals and is used as a signal source for modulating microwave frequency carrier waves;

a microwave amplifier: amplifying microwave signals in a high-frequency wave band;

a microwave sensor: the microwave transmitter consists of a microwave amplifier and a microwave antenna, wherein the microwave transmitted by a sensor is received and input into a differential amplifier by using a right-ear spiral conical microwave antenna and converted into an electric signal, and then the electric signal is filtered by noise, amplified by integral and converted by A/D (analog/digital) and then transmitted to a micro central processing unit and a remote control unit by using digital codes;

a microwave receiving amplifier: adopting a differential fully integrated low-noise amplifier at a microwave frequency band of 4.9GHz to obtain the performance of differential low-noise amplification which is the same as that of single-ended low-noise amplification, wherein a band-pass filter of a noise filtering structure and a duplexer of a micro-strip structure are connected with a low-pass filter in series at an output port of the band-pass filter, and then integral amplification and A/D conversion are transmitted;

an integrating amplifier: the device is used for waveform transformation, elimination of offset voltage of an amplifying circuit and integral compensation in feedback control;

a main vibration crystal: the frequency is stabilized by a single-phase inverted multivibrator 12MHz crystal;

human body information code database: the database is connected with the encryption and decryption unit, the output of the encryption and decryption unit is connected with the micro central processing unit and the telemetering control two-way communication, the resonance of different brain cells can be effectively induced by utilizing microwave and nonlinear low frequency through the head of an earphone, and after the resonance of biological energy waves in various organs, tissues and cells of a human body, the current energy state of the cells of various organs can be presented to the functional state or the pathological state of the human body through a 3D image;

a micro central processing unit: the device comprises an arithmetic unit, a controller and a register, wherein the arithmetic and logic operation is carried out, the induced resonance brain wave frequency spectrum is controlled, the microwave emission is modulated, the microwave is input into a micro central processing unit after the microwave receiving and demodulating is carried out and compared with a human body information code database, the micro processing unit analyzes and decodes the data and then presents the real-time function states of organs and the whole body, the unit also outputs the data in two paths, one path is used for a modulator, control pulses are transmitted to carry out multi-task modulation on 4.9GHz microwaves, the brain cells are induced to resonate to generate biological feedback information, the other path is used for external biological resonance bridge detection and bidirectional control, and a non-magnetic resonance cup provided with a laser;

and (3) telemetry control: the sleep promoting instrument is used for remotely controlling the sleep promoting instrument.

2. The nonlinear health analysis system of claim 1, wherein: the electric circuit of the noise generator adopts a stable white noise diode as a noise source.

3. The nonlinear health analysis system of claim 1, wherein: the microwave amplifier adopts a transistor or a field effect transistor.

4. The nonlinear health analysis system of claim 1, wherein: the remote measurement control integrates data acquisition, transmission and storage functions by matching a mouse with a PC screen.

5. The nonlinear health analysis system of claim 1, wherein: the telemetering control has a mobile phone and an APP as a whole which integrates data acquisition, transmission and storage functions.

Images