CN108880578B - Schumann resonance harmonic wave communication system and communication transmission method - Google Patents

Abstract

The invention relates to the communication field, in particular to a Schumann resonance harmonic generation module, a radio wave frequency conversion method and a Schumann wave transmission method; the method mainly comprises the steps of encapsulating data, decapsulating the data through a Schumann resonance harmonic generation module on a physical layer, and converting bit information of a data frame into a first frequency of Schumann resonance harmonic; the generated Schumann wave is transmitted to a receiving end through the intermediate network equipment, and the Schumann wave is transmitted through the equipment of the receiving end; the invention realizes the effect of converting bit data information into Schumann resonance harmonic waves, so that radio waves are subjected to frequency conversion, the frequency of the radio waves is changed into Schumann waves which can make a human body feel joyful and relax and strengthen the physical constitution, the frequency of the radio waves is adjusted by using the Schumann resonance harmonic wave generation module, people can not hurt the body but can strengthen the physical constitution when using a mobile phone, and the influence of abnormal fluctuation of the Schumann waves of the earth on the health of the human body can be relieved.

Description

Schumann resonance harmonic wave communication system and communication transmission method

Technical Field

The invention relates to the field of communication, in particular to a Schumann resonance harmonic generation module, a radio wave frequency conversion method and a Schumann wave transmission method.

Background

The WIFI and Bluetooth technologies of 4G provide convenience for information transmission for modern life of human beings, and OTT services of various video and data services based on the open Internet of Internet companies accommodate massive data resources, and importantly, the technologies all use radio waves as carriers and basically propagate in a 2.4GHz frequency band. At present, more than forty hundred million Wi-Fi devices are in use around the world, families exceeding 1/4 use Wi-Fi, and whether the long-term radiation of mobile phones, towers, base stations and Wi-Fi can cause negative effects on health or not is a general concern. The international cancer research institute listed radio frequency electromagnetic field as a suspicious human carcinogen in 2011, and president Davis doctor of environmental health trust Foundation in USA indicated that brain cancer using a mobile phone before the age of 20 years is likely to be 5 times more prevalent than brain cancer after the age of 20 years.

In 1952, Wenferodeotto Shuman (Schumann) as a physicist of Germany states that the earth and the ionosphere can form a resonant cavity, in which a specific resonance frequency exists, which is mainly determined by the size of the earth and is excited by global lightning discharges, and every lightning produces global fluctuating energy, the basic frequency is 7.83Hz, the secondary frequency is 14.1Hz, the third frequency is 20.3Hz, and the highest wave frequency is 45Hz, and is collectively called Schumann resonance (Schumann resonance). Suumann resonance has a frequency spectrum in the ELF band, the basic frequency is about 8Hz, which is exactly the same as the frequency of the mammalian brain Liiman, and this part of the human brain is responsible for important functions of memory and survival, so when the human body is focused on eye closure, the alpha wave and theta wave of the brain are also nearly 8Hz, because the human body can exactly resonate with the Schumann wave between the heaven and earth when adjusted to the alpha state, some have then called schumann resonance as "brain waves of the earth".

Therefore, the schumann wave has the effect of realizing the balance of the human body, and a large number of products for relieving the pressure of the human body and enhancing the muscle performance by using the schumann wave exist in the prior art, but the schumann wave is not applied to the communication field with the most use of human beings, such as a mobile phone.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a schumann resonance harmonic generation module,

the invention is realized by the following steps:

a Schumann resonance harmonic generation module comprises at least one Schumann wave conversion module, wherein the Schumann wave conversion module generates or closes an adjustable Schumann wave; the system also comprises a data measuring unit which is used for measuring the generation of at least one bit of data and outputting a group of feedback control signals to the Schumann wave conversion module according to the preset conditions to realize the generation of the Schumann wave frequency.

Further, the schumann wave comprises a switchable first frequency.

Further, the first frequency corresponds to an alpha band of the brain wave.

Further, the first frequency is 7.83 Hz.

Further, the device comprises a frequency-voltage conversion circuit and a Schumann wave generation circuit; the frequency-voltage conversion circuit is respectively connected with the bit data generation end and the Schumann wave generation circuit, and the data measurement unit is connected with the frequency-voltage conversion circuit.

Further, the frequency-voltage conversion circuit comprises a frequency adaptation controller and a frequency-voltage conversion module. The Schumann wave generating circuit comprises a chopper circuit, a controller, an inverter circuit and an inductance coil, and the frequency-voltage conversion module is connected with the controller.

Furthermore, the controller is used for generating a pulse signal and is connected with the logic control end of the inverter circuit, wherein the output end of the inverter circuit is electrified with the inductance coil to generate Schumann waves.

The invention also provides a radio wave frequency conversion method, which is used for converting radio waves into Schumann waves and mainly comprises the steps of encapsulating data, decapsulating the data through a Schumann resonance harmonic generation module on a physical layer and converting bit information of a data frame into first frequency of Schumann resonance harmonics.

The invention also provides a method for transmitting the Schumann wave, which transmits the generated Schumann wave to a receiving end through the intermediate network equipment, and transmits the Schumann wave through the equipment of the receiving end.

Further, the intermediate network device includes any one of a wireless network card, a router and a light modem.

The beneficial effect of above-mentioned scheme:

the invention provides a Schumann resonance harmonic wave generation module which realizes the effect of converting bit data information into Schumann resonance harmonic waves by arranging a conversion circuit, so that radio waves are subjected to frequency conversion, and the frequency of the radio waves is changed into Schumann waves which can make a human body feel joyful, relax and strengthen the physical constitution.

According to the method for transmitting the Schumann waves, the frequency of the radio waves is adjusted by the Schumann resonance harmonic generation module, and the transmission of the Schumann waves is realized by the network system, so that people can not hurt the body but can build up the body when using a mobile phone, and the influence of abnormal fluctuation of the earth Schumann waves on the health of the people can be relieved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a Schumann resonance harmonic generation module of the present invention;

FIG. 2 is a flowchart of a radio wave frequency conversion method according to the present invention;

fig. 3 is a schematic diagram of a communication system in which schumann wave conversion occurs in accordance with the present invention.

Wherein: 110. a bit data generation terminal; 120. a chopper circuit; 130. an inverter circuit; 140. an inductor coil; 150. a controller; 160. and a frequency-voltage conversion module.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are some, but not all embodiments of the present disclosure.

The components of the embodiments of the present disclosure, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present disclosure, presented in the figures, is not intended to limit the scope of the claimed disclosure, but is merely representative of selected embodiments of the disclosure. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present disclosure, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present disclosure can be understood in specific instances by those of ordinary skill in the art.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Example one

The invention provides a schumann resonance harmonic generation module and a radio wave frequency conversion method, wherein the radio wave frequency conversion method is used for carrying out frequency conversion in the data transmission process, namely the radio wave frequency conversion method firstly comprises a sending layer and a receiving layer in the data transmission process, wherein the sending layer is used for sending communication data to the receiving layer, and the receiving layer is used for carrying out instruction implementation by processing the received communication data. And in the data transmission process, the encapsulation and transmission of data are involved.

Referring to fig. 2, first, data is encapsulated by a conventional data encapsulation method, and step S110, the encapsulated data is transmitted to a physical layer, signal conversion is performed according to a physical media type, and each bit in a digital frame in the digital signal is converted into a physical layer signal of a voltage, a light source, and a radio wave.

Step S120, the converted physical layer signal is sent to the physical layer of the receiving end through the intermediate network device.

Step S130, a schumann resonance harmonic generation module is disposed in the physical layer of the receiving end, and the encapsulated signal is converted by the schumann resonance harmonic generation module.

Step S140, the transferred data is transmitted to the receiving end through the intermediate network device.

In this embodiment, the term "converted data" means that the data received by the receiving end is uniformly converted into a single frequency of the schumann resonance harmonic, i.e., the first frequency in the present invention, and the first frequency in this embodiment is 7.83 Hz. However, in other embodiments, the frequency may be a second frequency, a third frequency, wherein the second frequency and the third frequency may be between 7.83Hz and 36 Hz.

Preferably, the second frequency is 7.83Hz to 25.7Hz, and the third frequency is 25.7Hz to 36 Hz.

In this embodiment, the schumann resonance harmonic generation module mainly includes a frequency-voltage conversion circuit and a schumann wave generation circuit.

In this embodiment, the frequency-voltage conversion circuit includes a frequency adaptation controller and a frequency-voltage conversion module, wherein a charge pump output resistor end of the frequency-voltage conversion module is connected with an adjustable resistor, a frequency level signal is input to the frequency adaptation controller, and the frequency adaptation controller adjusts the adjustable resistor.

In the embodiment, the adjustable resistor is a sliding contact type adjustable resistor; the frequency adaptation controller comprises a frequency gear stepping conversion module and a stepper, a frequency gear signal is input into the frequency gear stepping conversion module, is converted into a stepping control signal through the frequency gear stepping conversion module and is output to the stepper, and a stepper stepping control end is connected with a sliding contact of the adjustable resistor.

The frequency-voltage conversion circuit satisfies the following frequency-voltage conversion relation: in the above formula, Vcc is the voltage value of the dc power source connected to the dc power source terminal of the frequency-voltage conversion module, C1 is the capacitance value of the timing capacitor connected to the timing capacitor of the charge pump of the frequency-voltage conversion module, fout is the input frequency value of the frequency-voltage conversion module, Vo is the output voltage value of the frequency-voltage conversion module, R1 is the resistance value of the adjustable resistor connected to the output resistor terminal of the charge pump of the frequency-voltage conversion module, and K is the gain constant of the frequency-voltage conversion module.

In this embodiment, the frequency-voltage conversion module may be a chip, and the model and name of the specific chip are not limited.

The method for adjusting the frequency voltage in this embodiment mainly includes:

(1) establishing a corresponding relation between the frequency gear signal and the resistance value of the adjustable resistor according to the frequency-voltage conversion relation;

(2) inputting a frequency gear signal corresponding to the sensor;

(3) and (3) adjusting the resistance value of the adjustable resistor by the frequency adaptation controller according to the frequency gear signal and the corresponding relation obtained in the step (1).

The change in frequency can be set by a person, and in the present embodiment, it is preferable to set the frequency to 7.83 Hz.

Referring to fig. 1, the schumann wave generating circuit of the present embodiment includes a chopper circuit 120, an inverter circuit 130, a controller 150, and an inductor coil.

In this embodiment, the chopper circuit 120 is a dc chopper circuit, an input end of the chopper circuit 120 is connected to the power supply circuit, and an output end of the chopper circuit 120 is connected to a driving end of the inverter circuit 130. In this embodiment, the inverter circuit 130 is further provided with a logic control end, wherein the logic control end of the inverter circuit 130 is connected to the controller 150, the controller 150 is configured to generate a pulse signal and is further connected to the frequency-voltage conversion module, the control logic of the inverter circuit 130 is controlled by the pulse signal, the inverter circuit 130 is further provided with an output end, and the output end of the inverter circuit 130 is electrified with the inductance coil to generate a schumann wave with a specific frequency.

In this embodiment, the chopper circuit 120 is configured to adjust the power supply to a suitable voltage value for supplying power, and specifically, an input end of the chopper circuit 120 may be connected to the power supply, and an output end of the chopper circuit 120 may be connected to a driving end of the inverter circuit 130, so as to supply power to the driving end of the inverter circuit 130.

In this embodiment, the chopper circuit 120 may also supply power to the logic control terminal of the inverter circuit 130.

In this embodiment, the controller 150 may be a single chip, a digital signal processor, or an FPGA, as long as it can implement corresponding functions, and the specific signals and types thereof are not limited in this embodiment. The controller 150 in this embodiment is used for generating a pulse signal, and is connected to the logic control terminal of the inverter circuit 130.

The controller 150 generates two pulse signals, and both pulse signals can be used as logic control signals of the inverter circuit 130. The pulse signal in this embodiment is a pulse width modulation signal, and the power of the inverter circuit 130 can be controlled more accurately by using the pulse width modulation signal.

The inverter circuit 130 may be a half-bridge or a full-bridge configuration.

In this embodiment, the output end of the inverter circuit 130 is connected to the inductor 140 for providing electric energy to the inductor 140. When the inductor coil 140 is energized, it is subjected to an alternating voltage, and a magnetic field of schumann waves or its harmonics is generated around the pole coil.

The schumann resonance harmonic generation module provided in this embodiment mainly generates the schumann wave by changing the voltage of the frequency first and then by the changed voltage, and thus, data originally fixed at a certain frequency can be converted into the target frequency and the first frequency.

The first frequency in this embodiment is 7.83 Hz.

Example two

Referring to fig. 3, the second embodiment provides a communication system capable of performing schumann wave conversion generation, which mainly includes a schumann resonance harmonic generation module, a user terminal and a wide area network base station, wherein the schumann resonance harmonic generation module performs data transmission based on a local area network intermediate network device, transmits data of converted frequency to the user terminal, and embeds a program capable of operating a schumann wave first frequency, that is, 7.83Hz, on the user terminal, and interacts data through schumann waves.

The terminals in this embodiment are duplex terminals, and include a duplex terminal a and a duplex terminal B.

The intermediate network device in this embodiment includes any one of a wireless network card, a router, and a modem.

In the communication system provided by the embodiment, when the terminal transmits data at the schumann wave frequency, the duplex terminal does not generate electromagnetic waves harmful to human health any more, but becomes an instrument with both communication function and physical factor treatment function.

In the medical field, the frequency is usually 2-160Hz, the pulse frequency and the wave width can be adjusted in a larger range, and the device which inputs specific low-frequency pulse current into the body through the skin is called a low-frequency pulse therapeutic apparatus, is suitable for treating acute and chronic pain and can also be used for electric acupuncture and moxibustion and electric massage.

From the therapeutic effect, the low-frequency pulse therapeutic apparatus can cause the rhythmic contraction of muscles, promote nerve regeneration, recover the nerve conduction function, promote local blood circulation, prevent muscular atrophy, inhibit fibrosis, enhance muscle strength and the like.

Therefore, when a person holds the duplex terminal, the duplex terminal can receive the frequency of 7.8 Hz instantly, the effect of making and receiving calls is better, the interaction mode of the human body and the electromagnetic field environment can be changed immediately, the human body can be assisted to receive natural frequency signals instantly, and the body can be effectively adjusted to the optimal balance state.

Certainly, the age and the constitution of the user of the duplex terminal are different, the biological clock rule of the human body changes at any time, and meanwhile, the abnormal fluctuation of the earth schumann wave can generate different adaptation differences for different people.

In this embodiment, the operation of the communication system may include three modes, which are an alpha-brain wave mode, a schumann wave adaptive electric wave mode, and a schumann wave co-frequency resonance mode.

Wherein, the alpha brain wave mode is a mode with the frequency of 7.83Hz, and the Schumann resonance belongs to the range of the alpha brain wave and is beneficial to all people. Therefore, 7.83Hz is the basic frequency as the starting point, which is also called alpha brain wave mode, A mode for short, the applicable scene time is 22 points to 8 points on the next day, which is beneficial to people to sleep and recover physical strength after waking up, and reduces the disease attack probability of old people, therefore, the old people of 50-80 years old mainly keep in the A mode.

The Schumann wave adjusting electric wave mode is a mode with the frequency of 7.83 Hz-25.7 Hz, if the earth Schumann wave is continuously enhanced and increased, the earth Schumann wave actively adjusts the high frequency of the Schumann wave for the young and the middle-aged, therefore, the applicable scene time is 8 o 'clock to 11 o' clock in the morning and 14 o 'clock to 22 o' clock in the afternoon, the frequency is 7.83 Hz-25.7 Hz, the frequency value is corrected according to the earth Schumann wave average data in the last month, the B mode is called for short, and therefore, the middle-aged and the young of 35-50 years are mainly kept in the B mode.

The same-frequency resonance mode of the Schumann wave is based on the mode with the frequency of 7.83 Hz-36 Hz, and the same-frequency resonance with the Schumann wave of the earth is required actively when teenagers are in the vigorous constitution period. Therefore, the applicable scene time is 8 am to 11 am and 14 pm to 22 pm, the frequency value is corrected according to the average data of schumann waves in the last month, which is called as a C mode for short, and the juveniles and the young of 8 to 35 years are mainly kept in the C mode.

The communication system provided by the embodiment has the following advantages:

1. the Schumann wave band beneficial to human body is used for replacing radio waves with radiation effect on human body, so that the user can use the wireless electronic equipment in a safe environment.

2. The design target can be achieved by using the prior art, and the technical difficulty is small.

3. The loaded Schumann resonance harmonic circuit is designed in an embedded mode, the structure of the existing 4G wide area network hardware facility is not required to be changed, telecommunication operators do not need to invest again in equipment updating, and for billions of computers and mobile phone users, Schumann wave frequency bands are compatible through mobile phone system upgrading without paying.

4. The harm is changed into the benefit, and the duplex terminal not only does not generate electromagnetic waves which are harmful to human health, but also becomes an apparatus with the communication function and the physical factor treatment function.

5. By adjusting the frequency of the communication radio wave, the adverse effect of the abnormal fluctuation of the earth Schumann wave on the human body can be minimized.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A Schumann resonance harmonic wave communication system is characterized in that,

the system comprises a Schumann resonance harmonic generation module, wherein the Schumann resonance harmonic generation module comprises at least one Schumann wave conversion module, and the Schumann wave conversion module generates or closes the adjustable Schumann wave; the system also comprises a data measuring unit for measuring the generation of at least one bit of data and outputting a group of feedback control signals to the Schumann wave conversion module according to a preset condition to realize the generation of the Schumann wave frequency;

the system also comprises intermediate network equipment, at least one user terminal and a wide area network base station;

the Schumann resonance harmonic generation module is used for transmitting data based on intermediate network equipment and transmitting the data to the use terminal, a program capable of running Schumann waves is embedded in the use terminal, and the data are interacted through the Schumann waves;

encapsulating data in a using terminal, decapsulating the data by using an intermediate network device through the schumann resonance harmonic generation module, and converting bit information of a data frame into any one of a first frequency, a second frequency and a third frequency of the schumann resonance harmonic;

the Schumann wave is transmitted by the Schumann resonance harmonic generation module through the intermediate network equipment, and the intermediate network equipment transmits the data after frequency conversion to the use terminal;

and the wide area network base station is connected with the using terminal and interacts data through the Schumann wave.

2. A schumann harmonic communication system as claimed in claim 1, wherein the schumann wave includes a switchable first frequency.

3. A schumann harmonic communication system as claimed in claim 2 wherein the first frequency corresponds to the alpha band of brain waves.

4. A schumann harmonic communication system as claimed in claim 3 wherein the first frequency is 7.83 Hz.

5. The schumann resonance harmonic communication system according to claim 4, wherein the schumann resonance harmonic generation module further includes a frequency-voltage conversion circuit and a schumann wave generation circuit, the frequency-voltage conversion circuit is connected to the bit data generation terminal and the schumann wave generation circuit, respectively, and the data measurement unit is connected to the frequency-voltage conversion circuit.

6. The schumann resonance harmonic communication system according to claim 5, wherein the schumann wave generating circuit comprises a chopper circuit, a controller, an inverter circuit and an inductance coil, wherein the input end of the chopper circuit is connected with a power circuit, the output end of the chopper circuit is connected with the driving end of the inverter circuit, the inverter circuit is further provided with a logic control end, the logic control end of the inverter circuit is connected with the controller, the controller is used for generating a pulse signal, the control logic of the inverter circuit is regulated and controlled through the pulse signal, the inverter circuit is further provided with an output end, and the output end of the inverter circuit is electrified with the inductance coil to generate schumann waves with specific frequency; the frequency-voltage conversion circuit is connected with the controller.

7. A schumann harmonic communication system as claimed in claim 1, wherein the intermediate network device includes any one of a wireless network card, a router, and a light cat.

Images