CN113081005A - Disease diagnosis and analysis system for animal dogs - Google Patents

The invention discloses a disease diagnosis and analysis system for animal dogs, which comprises a noise generator, a 4GHz microwave filter amplifier, a modulator, a low-frequency 240Hz oscillator circuit, a microwave amplifier, a microwave sensor, a microwave receiving/amplifier, an integrating amplifier, an A/D (analog/digital) converter, a master oscillator crystal, an information code database for animal dogs and a micro central processing unit. The application can well realize the detection of the electric wave of the animal dog, and conveniently and non-invasively perform early warning analysis on the disease of the animal dog, so that the prevention and treatment effects on the disease of the animal dog are well achieved; the collected data is compared with health reference data prestored in an information code database for the animal dog to form a network for monitoring physiological signals, whether the animal dog is in a normal physiological state or not is comprehensively judged, and an accurate conclusion is given, so that a convenient, rapid and noninvasive health monitoring mode is provided.

Disease diagnosis and analysis system for animal dogs

Technical Field

The invention relates to the technical field of medical diagnosis, in particular to a disease diagnosis and analysis system for animal dogs.

Background

According to internationally recognized quantum entropy logic theory: any material object with biological or non-biological properties, when absorbing environmental information, will have an increased level of structural organization, i.e. become more complex and stable; any biological or non-biological object, upon loss of information, reduces its structural organisational level and thus becomes less stable and less organised, for biological objects, the loss of structural organisation, i.e. information, means a worsening of the adaptation behaviour, a constant progression of the disease and finally the death of the organism; there is information noise around any corrupted objects that lose information. The more the destruction of a biological object is, the more its condition is, and the higher the information noise level around the object is. Therefore, by measuring the noise level of information around a biological object, the destruction speed of the object can be determined. If we measure the frequency characteristics of the noise background, we can know which tissues in the organism are most damaged and changed because each tissue in the organism has its specific radiation spectrum, which is distinguishable from other tissues.

Animal dogs are also organisms and also have the above characteristics and laws. At present, when animal dogs are diagnosed with body diseases, a plurality of people are required to cooperate, sometimes even anesthesia is required in advance to smoothly diagnose the diseases, time and labor are wasted, and the body and mind of the animal dogs are damaged to a certain extent.

Disclosure of Invention

In order to solve the defects of the prior art and urgently need a noninvasive mobile health disease diagnosis mode for animals, the embodiment of the invention provides a noninvasive mobile health disease diagnosis and analysis system for animals, in particular a disease diagnosis and analysis system for animal dogs.

The technical scheme of the embodiment of the invention is as follows:

the embodiment of the invention provides a disease diagnosis and analysis system for animal dogs, which comprises a noise generator, a 4GHz microwave filter amplifier, a low-frequency 240Hz oscillator circuit, a modulator, a microwave amplifier, a microwave sensor, a microwave receiving/amplifier, an integrating amplifier, an A/D (analog/digital) converter, a master oscillator crystal, an information code database for animal dogs and a micro central processing unit.

The noise generator generates white noise having a uniform spectral density over a frequency range.

The 4GHz microwave filter amplifier is internally provided with a band-pass filter, and the filtering and frequency doubling functions of the 4GHz microwave filter amplifier are realized by utilizing a resonance circuit, so that a microwave 4GHz carrier signal is obtained, amplified and then transmitted to the modulator to be used as a radio frequency signal source.

The low-frequency 240Hz oscillator circuit adopts an oscillator for modulating signals at low frequency 240Hz as a signal source for modulating microwave carrier frequency waves.

The modulator is used for modulating by using low frequency 240Hz, inducing the resonance frequency of animal and dog organs to control pulse signals to jointly modulate microwave 4GHz carrier waves to obtain a first modulated microwave signal, and outputting the radio frequency of the first modulated microwave signal to the microwave amplifier.

And the microwave amplifier amplifies the microwave signal of the first modulated microwave signal through a high-frequency wave band to obtain a second modulated microwave signal.

The microwave sensor comprises a microwave emitter and a microwave antenna, wherein the microwave emitter emits microwaves, and the microwave antenna receives and inputs microwaves to the microwave receiving/amplifier and converts the microwaves into electric signals.

The microwave receiving/amplifier comprises a differential 60dB amplifier and noise filtering, wherein microwave received by a microwave antenna is input into the differential 60dB amplifier and converted into an electric signal, then the electric signal is subjected to noise filtering, and then is transmitted to an integrating amplifier and A/D conversion, and then is transmitted to a micro central processing unit and a remote control unit by using numbers.

The integral amplifier is used for waveform transformation, elimination of offset voltage of the amplifying circuit and integral compensation in feedback control.

The main oscillation crystal is frequency stabilized by a single-phase-inversion multivibrator 12MHz crystal.

The information code database for the animal dogs contains information for inducing the brain wave resonance of the animals and clinical information of different diseases, and the database is connected with the encryption and decryption unit, and is connected with the micro central processing unit for bidirectional communication.

The micro central processing unit comprises an arithmetic unit, a controller and a register, performs arithmetic and logic operation, controls and induces the brain wave frequency spectrum of the resonant animal, modulates the microwave emission, inputs the modulated microwave into the micro central processing unit to be compared with the information code database for the animal dog after the microwave receiving and demodulation, analyzes the modulated microwave, and displays the real-time function states of organs and the whole body after the interpretation. The micro central processing unit is also output in two paths, one path is sent to the modulator, control pulses are transmitted to carry out 4GHz microwave multi-task modulation to induce brain cell resonance to generate biofeedback 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 diode is used for testing.

Furthermore, the electric circuit of the noise generator adopts a stable white noise diode as a noise source.

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

Further, the microwave sensor is an earphone type sensor.

Further, the microwave antenna is a right-ear spiral cone-shaped microwave antenna.

The embodiment of the invention achieves the following beneficial effects:

the embodiment of the invention can well realize the detection of the electric wave of the animal dog and conveniently and non-invasively carry out early warning analysis on the disease of the animal dog, thereby well achieving the effects of preventing and treating the disease of the animal dog. The collected data is compared with health reference data prestored in an information code database for the animal dog to form a network for monitoring physiological signals, whether the animal dog is in a normal physiological state or not is comprehensively judged, and an accurate conclusion is given, so that a convenient, rapid and noninvasive health monitoring mode is provided.

Drawings

FIG. 1 is a schematic diagram of the disease diagnosis and analysis system for animal dogs.

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

FIG. 3 is a schematic diagram of a modulated microwave signal according to the present invention.

FIG. 4 is a schematic diagram of animal dog brain wave resonance biofeedback.

FIG. 5 is a circuit diagram of a master oscillator crystal according to the present invention.

Detailed Description

In order to facilitate those skilled in the art to understand the present invention, 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.

In the description of the present application, it is to be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

The present embodiment is directed to a disease diagnosis and analysis system for animal dogs, and the application range thereof is not limited to animal dogs, but is also applicable to detection of other animals.

The working principle is as follows: the disease diagnosis and analysis system for animal dog is controlled by micro central processor, and is excited by preset resonance frequency pulse of brain cell of detected person, and is transmitted by microwave modulator and microwave sensor, and the resonance brain wave frequency induced by tested animal dog is undergone the processes of microwave receiving, filtering, amplification and treatment, and then is undergone the processes of A/D conversion, and inputted into micro central processor and compared with information code data base for animal dog, and the micro central processor can be used for making nonlinear analysis, and the data can be processed so as to display real-time functional state of organ and whole body of animal dog. Among them, the a/D conversion is analog/digital conversion.

The diffusion of liquid water molecules is random motion in a three-dimensional space, the cell resonance phenomenon in the environment belongs to nonlinearity, and the physical phenomenon of electromagnetic surface wave resonance is the theoretical basis of the application. Under the action of a microwave magnetic field, the animal dog transmits 4GHz carrier waves with resonance frequency modulated by low Hertz through organ liquid to excite and generate resonance phenomenon. After the resonance of the biological energy waves in each organ, tissue and cell of the animal dog, the current energy state of each organ cell presents the functional state or pathological state of the animal dog organ.

And (3) displaying direct-view data on a PC screen or a mobile phone according to different disease trends, and diagnosing, evaluating and detecting various health states of the animal dog. The information code database for the animal dog provides analysis and comparison, early warning and diagnosis are made, treatment measures are made, and disease tracking and disease treatment of the animal dog are well done.

As shown in figures 1-2, the invention provides a disease diagnosis and analysis system for animal dogs, which comprises a noise generator, a 4GHz microwave filter amplifier, a low-frequency 240Hz oscillator circuit, a modulator, a microwave amplifier, a microwave sensor, a microwave receiving/amplifier, an integrating amplifier, a master oscillator crystal, an information code database for animal dogs and a micro central processing unit.

The noise generator generates white noise with uniform spectral density in a frequency range, and a stable white noise diode is adopted as a noise source in an electric circuit of the noise generator.

The 4GHz microwave filter amplifier is internally provided with a band-pass filter, and the filtering and frequency doubling functions of the 4GHz microwave filter amplifier are realized by utilizing a resonance circuit, so that the 4GHz frequency is obtained and then is amplified and then is transmitted to the modulator to be used as a radio frequency signal source.

The modulator is used for modulating by using low frequency 240Hz, inducing the resonance frequency of animal dog organs to control pulse signals to jointly modulate microwave 4GHz carrier waves to obtain a first modulated microwave signal, and outputting the radio frequency of the first modulated microwave signal to the microwave amplifier. The amplitude modulation mode is adopted to modulate the microwave.

The low-frequency 240Hz oscillator circuit is an oscillator of 240Hz sine wave signal and is used as a signal source for modulating microwave carrier frequency wave.

And the microwave amplifier is used for amplifying the microwave signal of the first modulated microwave signal through a high-frequency wave band to obtain a second modulated microwave signal. The microwave amplifier may employ a transistor or a field effect transistor.

The microwave sensor comprises a microwave emitter and a microwave antenna, wherein the microwave emitter emits microwaves, and the microwave antenna receives and inputs microwaves to the microwave receiving/amplifier and converts the microwaves into electric signals. The microwave sensor is an earphone sensor, namely an earphone built-in sensor; the microwave antenna is a right-ear helical cone microwave antenna.

The microwave receiving/amplifier comprises a differential 60dB amplifier and noise filtering, wherein microwave received by a microwave antenna is input into the differential 60dB amplifier and converted into an electric signal, then the electric signal is subjected to noise filtering, and then is transmitted to an integrating amplifier and A/D conversion, and then is transmitted to a micro central processing unit and a remote control unit by using numbers. In the embodiment, a differential fully integrated low noise amplifier is adopted in a microwave 4GHz frequency band to obtain the differential low noise amplification with the same performance as single-ended low noise amplification, wherein a band-pass filter with a noise filtering structure and a duplexer with a micro-strip structure are connected with a low-pass filter in series at an output port of the band-pass filter to carry out noise filtering, and then an integrating amplifier and A/D conversion are carried out.

And the integral amplifier is used for waveform conversion, elimination of offset voltage of the amplifying circuit and integral compensation in feedback control.

The main oscillation crystal is frequency stabilized by a single-phase inverted multivibrator 12MHz crystal.

The information code database for the animal dog contains clinical information for inducing animal brain wave resonance information and different diseases, 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 for bidirectional communication, the head is emitted by the earphone sensor by utilizing microwave and nonlinear low frequency, the resonance of different brain cells can be effectively induced, and after the resonance of biological energy waves in organs, tissues and cells of the animal dog, the current energy state of each organ cell can be presented to the functional state or the pathological state of the animal dog through anatomical images.

The micro central processing unit comprises an arithmetic unit, a controller and a register, and is used for performing arithmetic and logic operation, controlling and inducing the brain wave frequency spectrum of the resonant animal, modulating microwave emission, inputting the modulated microwave into the micro central processing unit to be compared with the information code database for the animal dog after microwave receiving and demodulation, analyzing the modulated microwave, and displaying the real-time function states of organs and the whole body after interpretation by the microprocessor. The micro central processing unit is also divided into two paths for output, one path is sent to the modulator, control pulses are transmitted to carry out 4GHz microwave multi-task modulation to induce brain cell resonance to generate biofeedback 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 diode is used for testing. The non-magnetic resonance cup can acquire corresponding frequency by the same-frequency resonance principle.

The disease diagnosis and analysis system for the animal dog integrates the functions of data acquisition, transmission and storage by matching a mouse with a PC screen; or the mobile phone and the APP can be integrated with data acquisition, transmission and storage functions.

In this embodiment, the S-terminal line and the N-terminal line refer to north and south pole circuit lines of the micro magnetic field. The P-end USB line is connected with a PC computer through a USB line to transmit data.

As shown in fig. 3, white noise of the noise generator is converted into a microwave 4GHz carrier signal by a 4GHz microwave filter amplifier, a low-frequency 240Hz modulation signal and the microwave 4GHz carrier signal are modulated by a modulator to obtain a first modulated microwave signal, the first modulated microwave signal is modulated by the microwave amplifier to obtain a second modulated microwave signal, the second modulated microwave signal is transmitted to the brain of a subject to induce resonance of different brain cells through an earphone sensor of the subject, and biological energy waves in organs, tissues and cells of an animal dog resonate.

As shown in fig. 4, since the frequency of the biological energy wave in healthy organs, tissues and cells is in a fixed range, the detected frequency is compared with the information code database for the animal dog, and the current energy state of each organ cell presents the functional state or pathological state of the animal dog organ through the anatomical image on a computer or a mobile phone.

As shown in fig. 5, U1 is a micro cpu, and the seventh and eighth pins are connected to a crystal oscillator circuit.

The above-described embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.