WO2012099488A1 - Method and device for establishing wireless communication on the basis of non-contact electromagnetic therapy devices - Google Patents

Abstract

The invention relates to methods for linking users of mobile non-contact electromagnetic therapy devices that are used for stimulating the human body with a weak, low-frequency, modulated electromagnetic field in order to treat various diseases and enhance the defenses of the body. The technical result of the invention is a solution that makes it possible to create a network of physiotherapy devices that can be controlled remotely by the manufacturer without causing high wireless communication costs to the user; a further technical result is the independence of the network and its freedom from control by a communications provider. The claimed technical result is achieved in that each non-contact electromagnetic therapy device is provided with a receiving and transmitting device which functions at the communication frequencies of a provider network and, with the aid of this receiving and transmitting device, information is exchanged by the sending of informational text messages from the devices to a coordinating centre and vice versa.

Description

 METHOD FOR ORGANIZING WIRELESS COMMUNICATION ON THE BASIS OF ELECTROMAGNETIC NON-CONTACT THERAPY DEVICES AND DEVICE FOR ITS

IMPLEMENTATION

DESCRIPTION

The invention relates to methods for organizing communication between users of portable devices of electromagnetic non-contact therapy, which

used to stimulate the human body with a weak low-frequency

modulated electromagnetic field for the treatment of various diseases, increase the body's defenses.

The prior art methods for constructing communication systems with portable portable devices of users, functioning as sensors of indicators of the functional systems of the body [1].

 Medical telemetry systems are also known [2]. The transceivers integrated into such a network allow receiving telemetric medical parameters wirelessly (a bracelet with a transceiver sensor is fixed on the subscriber’s arm). If the temperature, pressure, and pulse are exceeded, the device can send an alarming CMC message with the measured parameters to a mobile phone. It is also known a device for remote medical monitoring of human health and therapeutic effects (patent RU33320U), containing a network computer with a program for automatic processing of medical data,

a medical unit connected to the patient, including a treatment unit and a physiological parameters registration unit containing analog-digital

a converter and random access memory for storing information, a program control unit including a read-only memory with treatment programs, a communication unit for receiving and transmitting medical data via wired and wireless communication networks, characterized in that the read-only memory is detachable in the form of a matrix storage elements with one-time individual treatment programs and their codes, while between the analog-to-digital converter and random access memory for storing information, a medical data encoder is located, and an automatic block is inserted into the communication unit

disconnect remote access.

 A device is also known according to the patent US6442433 for remote medical monitoring of the state of human health and therapeutic effect, which takes physiological parameters and transmits them through wireless communication networks.

 All of these well-known solutions and the like are based on the formation of a coordinating center for receiving and processing information received wirelessly from patients in the form of certain indicators.

 Feedback from patients to the center is possible only using mobile communications and the Internet. Most often, a patient needs to either call or go to the center’s website to contact the center for services or advice.

 Meanwhile, user needs are not limited to diagnostics.

 And these solutions do not allow you to remotely influence the patient.

 Among medical systems based on devices that affect the patient and at the same time controlled from outside, wireless transmitters are known

pacemakers. For example, the Medtronic pacemaker is known [3].

A Medtronic pacemaker can be implanted into the heart using a catheter, after which the device is secured to the organ via miniature claws. It allows the doctor to receive information about the work of the heart on a smartphone and

control the operation of a pacemaker.

 The disadvantage of this solution is that the patient’s state of health is controlled from outside by another person, and if desired, an attacker can use this technology to damage the patient’s health remotely.

Physiotherapeutic devices that do not adversely affect human health are safer from this point of view.

A device for generating a magnetic field with a duplicated system and anti-jamming device (DE 4238745 patent). The device is intended for magnetic therapy with a strong local magnetic field, and then distributed over the surface with a weak magnetic field. In the description there is the property of the mattress to create a strong concentrated magnetic field for a short time and a weak uniform field for a long time. Coils are controlled by current generators. A strong concentrated magnetic field creates disturbances in energy-information homeostasis, which is dangerous for cancer.

 A device for electromagnetic non-contact therapy (patent RU 2132707), containing a current generator and a control device, bedspread, in the upper

the fabric layer of which has a shielding mesh, a second antenna is made of copper wire, characterized in that an electric pulse generator in the frequency range 0.2 - 10.0 Hz, a modulator, a matching device and a modulation frequency indicator are inserted into it, while the current generator is made in the form of an audio frequency generator, the output of which is connected through a matching device with an antenna made in the form of a spiral, the control device is connected to an indicator and to an electric pulse generator in the frequency range 0.2 - 10.0 Hz, the last the first of which is connected through a modulator to an audio frequency generator.

Known "METHOD FOR LOW FREQUENCY ELECTROMAGNETIC THERAPY AND A DEVICE FOR ITS IMPLEMENTATION" (patent RU 2164424). The method of electromagnetic therapy, including exposure to a pulsed electromagnetic field with a strength of 0.1 V / m ² , characterized in that it affects the biological active points and biologically active zones of the human body, with a repetition rate of packets of radio pulses of OD - 100 Hz and a discrete of 0.01 Hz and carrier frequency

the electromagnetic field is in the range from 10 to 15 kHz. A device for electromagnetic therapy, comprising an antenna device and a power source, characterized in that a control keyboard, a liquid crystal display, an antenna matching device, a stabilizer, the input of which is connected to a power source, a microprocessor controller, outputs connected to a control keyboard, and a liquid crystal display are inserted into it to display

parameters of the treatment program and to the device matching with the antenna device, the output of which is connected to the antenna, while microprocessor the controller is configured to store up to 1000 treatment programs in memory, in each program up to 20 frequencies with operating times of 1-4000 s, and

generate pulses with a repetition rate of OD - 100 Hz, modulated by a frequency of 10 - 15 kHz. A computer and a unit for interfacing with a computer connected to the controller may be introduced into the device.

 All described physiotherapeutic devices have no connection with their manufacturer and are not able to access the network wirelessly.

 The closest analogue is a non-contact electromagnetic therapy device (patent RU90991U), configured to display on the display the parameters of the treatment program and containing: an electric pulse generator in the frequency range from 0.1 to 100 Hz and / or from 0.1 to 10 kHz, an antenna device for transmitting pulses at these frequencies and a matching device with this antenna, a stabilizer, the input of which is connected to a power source, a microprocessor controller connected to the matching device with outputs a device whose output is connected to an antenna for transmitting pulses at the above frequencies, while the microprocessor controller is configured to store treatment programs containing a set of frequencies in memory and generate pulses with a repetition rate of 0.1-100 Hz and / or 0.1 -10 kHz

characterized in that the device is located inside the housing of a mobile phone, or PDA, or communicator, or i-Phone, or a smartphone containing a board

(microcircuit), a battery and a liquid crystal display, a control keyboard, and a microprocessor controller, the outputs are connected to a control keyboard and a liquid crystal display of a mobile phone, or PDA, or a communicator, or i-Phone, or a smartphone, as a power source supplied to the stabilizer input the battery of a mobile phone or PDA, or communicator, or i-Phone, or smartphone is used.

This device, since it is installed in a mobile device, can have access to the network wirelessly. However, to communicate with the device manufacturer, you must use either the cellular services to access the Internet, or access it via Wi-Fi, Wi ax, which is also costly for the user with the services of a physiotherapy device, which is additionally forced pay for communication services with the manufacturer of the physiotherapeutic device.

In addition, any network of physiotherapeutic devices created within the framework (under the auspices) of a telecom operator will always be dependent on the telecom operator and can be controlled by it, which also reduces network security and allows an attacker to harm users of physiotherapeutic devices.

The solutions that form the network of physiotherapeutic devices controlled remotely by their manufacturer bypassing the costs of wireless communication by the user are not known from the prior art.

The technical result of this invention is a solution that allows you to form a network of physiotherapeutic devices controlled remotely by their manufacturer, bypassing the high cost of wireless communication from

user also the technical result is independence and

network uncontrollability on the part of the telecom operator.

The claimed technical result is achieved due to the fact that the method of organizing wireless communication based on devices of electromagnetic non-contact therapy, characterized by using a network of a communication operator for transmission

wirelessly information from electromagnetic non-contact therapy devices to the coordinating center and vice versa, characterized in that a transceiver device operating at the communication frequencies of the operator’s network is inserted into each electromagnetic non-contact therapy device, and with its help, information is exchanged by sending information text messages from devices to and from the focal point. The exchange of information is preferably carried out in encoded form. Device,

operating at the communication frequencies of the operator’s network, they comprise a control chip from a cell phone, a transceiver at the operator’s communication frequencies, a SIM card or an R-UIM card.

A device for organizing wireless communication based on electromagnetic contactless therapy devices that implements a method containing a microprocessor controller, a matching device, an antenna with the possibility of issuing sinusoidal (harmonic) signals, a battery, a liquid crystal display and a control keyboard or touch display, moreover, the electromagnetic device

contactless therapy is configured to display the parameters of an ongoing treatment program, characterized in that it contains a transceiver operating on the communication frequencies of the operator’s network, which contains a control chip from a cell phone, a transceiver on the communication frequencies of the operator, a SIM card or an R-UIM card. In addition, the device can be configured to output sinusoidal

(harmonic) signals with a frequency of 0.1 - 900000 Hz with a resolution of 0.01 Hz based on a frequency synthesizer (DDS), and contains a single-band signal shaper (SSB) with amplitude modulation with one side lower or upper band (SSB) of 0 , 1 V / m ² and a carrier harmonic frequency from 20 to 30 MHz, modulated by sinusoidal (harmonic) signals, and

a single-band signal shaper (SSB) is connected by its input to the output of the frequency synthesizer, and the microprocessor controller is connected by outputs to the frequency synthesizer to control the parameters of the modulating signals generated by the synthesizer.

 It should be noted that the type of electromagnetic field used in the prototype

RU90991U, in radio engineering is known as a private method of amplitude modulation and is defined as amplitude manipulation. The amplitude-manipulated signal is a packet of radio pulses.

 The spectrum of the radio pulse has a linear structure and has a wide range. When using this modulation method, the body experiences an additional electromagnetic load at the carrier frequency, which in itself does not carry any information for the body and at additional frequencies that differ from the target modulation frequency. The likelihood of resonance phenomena in organs and systems, on which the essence of this method of electromagnetic therapy is based, is sharply reduced, and in some cases generally equal to zero.

To eliminate this problem, it is preferable to use a better frequency exposure. Such an electromagnetic therapy device can be implemented by analogy with how the device in the prototype RU90991U works. with the exception that instead of amplitude modulation distributing the spectrum of signals in the form of a packet of radio pulses, it is preferable to use modules of a digital frequency synthesizer and an SSB signal shaper in the claimed solution, with which it is possible to obtain a signal from the amplitude-modulated signal

suppressed carrier and one side strip using known methods

(phase or filter method) and devices such as SSB driver.

The amplitude and phase spectrum of the signal with amplitude modulation of a harmonic carrier with a harmonic signal Ω generated by a digital frequency synthesizer (DDS) is shown in FIG. 1.

 This can be done due to the fact that the carrier and modulating frequency signals are supplied to the balanced mixers of the SSB signal shaper each with a phase shift of 45 degrees. At the same time, at the output of the mixers, a single-band signal with suppressed carrier and an undesirable side band is obtained. The choice of the necessary band (upper or lower) is carried out by switching the branches of the phase shifters. In this case, the signal spectrum has the form shown in Fig.2.

The absence of a carrier frequency signal in the SSB signal, as well as one of the sidebands, makes it possible to use all the power of the transmitting equipment to transmit only the useful signal. The energy gain given by the transition from AM (as in decision RU2164424) to SSB (as in the claimed solution) is 4 times in power or 2 times in voltage. This is explained as follows.

Amplitude of the modulating signal for AM modulation imod = Um cos 2nFt, where Um is the signal amplitude; F is the oscillation frequency; t is time. Oscillations of the carrier (modulated) frequency change according to the law U = Um (t) cos2nfH t, (1)

where Um is the amplitude value; tn is the value of the carrier frequency.

In the process AM, the amplitude of the carrier frequency changes according to the law

Um (t) = Um0 + AUmcos2nFt, (2)

where UmO is the amplitude of the unmodulated oscillation; AUm = Ka.m itmod (here Ka.m is the transmission coefficient of the modulation device).

Substituting Um (t) from expression (2) into formula (1), we obtain

U = UmO [cos2nfHt + m / 2cos2n (fH - F) t + m / 2cos2n (fH + F) t], (3)

where m = AUm / UmO is the amplitude modulation coefficient. If the amplitude of UmO is unknown, then the modulation coefficient

m = (Umax - Umin) / (Umax + Umin).

 It can be seen from (3) that only two sidebands carry information: UmO * m / 2cos2ji (fH - F) t and Um0 * m / 2cos27t (fH + F) t. With a modulation coefficient of m = 1, the total

the amplitude of the two sidebands is equal to the amplitude of the carrier, i.e. amplitude

the modulated signal is 2 times more than the informational components of its spectrum.

 With single-band modulation with one sideband, useful information is not lost, since the lower and upper sidebands are absolutely identical, and the carrier frequency does not carry information. In this case, the amplitude of one sideband differs from the amplitude of the modulated signal by 4 times.

 Thus, the advantage of the signal according to the claimed invention is higher than in the prototype 4 times in power and 2 times in voltage, because power versus amplitude is quadratic.

 The impact of the device is based on resonance phenomena, and not on forcing organs to perform functions not inherent to them. That is why it is impossible to overdose or cause an exacerbation of the disease with devices of electromagnetic therapy. If the introduced frequency causes resonance, then the body needs it and there is a therapeutic effect. If there is no resonance, then there is no curative effect. And as a consequence of this, it is impossible to harm this device.

 However, due to the narrowing of the spectrum band of the emitted electromagnetic field (in comparison with the prototype), it is possible to increase the signal-to-noise ratio. An additional electromagnetic load on the body is removed and, most importantly, the probability of resonance phenomena in the organs and systems of the body increases sharply, i.e. the rendered physiotherapeutic effect increases.

In FIG. 3 shows an example of a block diagram of a device that implements a method, where 1 is a transceiver operating on the communication frequencies of the operator’s network, which consists of a SIM card or R-UIM card - 2, a control chip from a cell phone - 3, a receiver - transmitting device - 4 at the operator's communication frequencies; 5 - microcontroller of a physiotherapeutic device, b - battery, 7 - control keyboard, 8 - step-up voltage converter, 9 - display, 10 - frequency generator with direct digital synthesis (DDS), configured to output sinusoidal (harmonic) signals with an OD frequency of 900,000 Hz with a resolution of 0.01 Hz, 11 is a single-band signal shaper (SSB) with

amplitude modulation with one side lower or upper band (SSB) with a voltage of OD V / m ² and a carrier harmonic frequency of 20 to 30 MHz, 12 - matching device, 13 - emitting antenna, 14 - block for converting the amplitude-modulated signal into a signal with suppressed carrier and one side strip using known methods (phase or filter method) and devices such as SSB shaper, 15 - the body of the physiotherapeutic device. In FIG. 4 shows a diagram of the implementation of the method, where 16 is the telecom operator, 17 is the server of the coordinating center, 18 is a transceiver at the frequency of the telecom operator, 19 is a transceiving antenna operating in the frequency range of the telecom operator, 20 is the coordinating center.

The invention can be implemented as follows.

The method of organizing a wireless communication system is carried out using any electromagnetic non-contact therapy devices (15), into each of which a transceiver device (1) is inserted, operating at the communication frequencies of the operator’s network (16).

 A device for organizing a wireless communication system can be performed on the basis of electromagnetic contactless therapy devices.

 The microprocessor controller (5) of the device is connected to a control keyboard (7) and an LCD display (9). If the display is touch-sensitive, then there is no need for a keyboard.

 The microprocessor controller (5) is connected by outputs to the control keyboard (7) and the liquid crystal display (9) to display the parameters of the treatment program being performed.

 Also, the microprocessor controller (5) is connected to the matching device (12). The matching device is connected to the antenna device (13).

When working on amplitude-modulated signals, the microprocessor controller (5), executing a given program, generates radio pulse packets (usually in the range from OD to 100 Hz and / or from OD to 10 kHz) with filling the sound frequency. These packets of radio pulses are immediately fed to the matching device (12) and through it to the antenna device (13). At the same time, the parameters of the running program of the microprocessor controller (5) are displayed on the liquid crystal display indicator (9).

 When devices with signals with a suppressed carrier and one sideband are operating using known methods (phase or filter method) and devices such as SSB driver, block (14) is present in device (15). Then, the microprocessor controller, executing a given program, activates the modules of the digital frequency synthesizer (10) and the SSB signal shaper (11), with which it is possible to obtain a signal from the amplitude-modulated signal with

suppressed carrier and one side strip using known methods

(phase or filter method) and devices such as SSB driver in the frequency ranges made with the possibility of issuing sinusoidal (harmonic) signals with a frequency of 0.1 - 900000 Hz with a resolution of 0.01 Hz with filling the sound frequency. These signals are supplied to the matching device (12) and through it to the antenna device (13).

 At the end of the program, the signal will automatically stop.

The physiotherapeutic effect is not based on forcing organs to perform functions that are not inherent to them. That is why it is impossible to overdose or cause an exacerbation of the disease with devices of electromagnetic therapy. And as a consequence of this, it is impossible to harm this device.

 The device of low-frequency electromagnetic therapy (15) works as follows.

 A person using the control keyboard (7) (if any) turns on the device and dials a treatment program. If the display (9) of the device is touch-sensitive, then commands are entered through it.

 A program may consist of one or more frequencies. For each frequency, a time is set, for example, in the range from 1 to 4000 s. Microprocessor

the controller (5) remembers the entered program. The number of programs that the microprocessor controller (5) remembers and stores depends on the memory on the memory size of the microprocessor device or additional memory, which may contain a device (15) for electromagnetic exposure. After that, the user takes the device (15) for electromagnetic exposure and

applies it to a biologically active zone. The treatment program runs automatically.

 As a device, the details of which can be used as an electromagnetic therapy device, you can use, for example, the portable device "DETA" [4], developed on the basis of a combination of modern world experience in the field of human exposure to specific frequencies according to the methods of Dr. Clauss (Hanau) , Dr. Neske (Frankfurt) and Dr. Voll (Plochingen), C. Silling, O. Collmer, Paul - Schmidt and the method of exposure to weak electromagnetic fields.

 Clinical trials of this device proving it

effectiveness in the treatment of various diseases are presented on the site [5].

The remaining parts, a digital frequency synthesizer (10) and an SSB signal shaper (11) are built into its housing (15).

 In addition, a transceiver (1) must be integrated in the device (15), operating at the communication frequencies of the operator’s network (16). This device (1) can be made up of consists of a SIM card or an R-UIM card (2), a control chip from a cell phone (3), a transceiver (4), and possibly an antenna operating at the operator’s communication frequencies (16).

 Thus, when working with the device (15), the user can choose for himself a new treatment program that is not installed in the device. Treatment programs can be expressed as a list of diseases or symptoms.

 For example, on the display, a user from the list of programs available for download from the manufacturer selects what he wants and makes a note about the desire to purchase it.

At the command of the microcontroller (5), the signal for the application of the treatment program with the desired set of frequencies comes in the form of a text message, preferably

encoded onto the microcircuit (3), then to the transceiver (4), and from it in the form of, for example, a CMC message is sent through the operator (16) (see Fig. 4) to the coordinating center (20), where by reception through the antenna (19) and the transceiver (18), the data is transmitted to the server (17) and processed, decrypted if required. By the determined user number from which the CMC comes, the server (17) from the database of users who bought the device (15) identifies it, checks its account, deducts from the account

a certain amount for the services to purchase the ordered treatment program, then sends it back to the user to his number corresponding to his SIM card or R-UIM card (2). Data with the program in the form of a text message, preferably encrypted, is sent in the form of a CMC to the microcircuit (3), from where it is transmitted to the microcontroller (5), where it is decrypted and processed into a program frequency set.

 As a result, the user on the display screen (9) will see the available treatment program that he has ordered and can use. The user can replenish his account to order services for downloading programs from the manufacturer periodically, for example, through a bank, in cash, by other payment systems via the Internet. At the same time, statistics on user orders, their

preferences.

 A device manufacturer (15), depending on the preferences of a particular

the user, according to the programs ordered by him (determining the symptoms) with a possible list of diseases, forms a package of frequencies intended for the treatment of the entire list of these diseases, and independently without initiative from the user can send it to the device (15) of the user with a recommendation to use the package of treatment programs. The user can accept or decline the offer.

 This way provides a remote impact on the user

(patient) without the possible intervention of third parties, the telecom operator, and with the full consent of the user (patient) to use the service.

Preferably, the manufacturer of physiotherapy devices himself from the telecom operator acquires a SIM card or R-UIM card for each device, and the manufacturer also replenishes the bills for the SIM card or R-UIM card and draws up his

organization or other discretionary individuals who are not consumers of physiotherapy devices. This will provide the user with a physiotherapy device in a fully operational form without the need to know and think. on providing a link between him and the manufacturer of physiotherapy devices. Information exchange from electromagnetic non-contact therapy devices to the coordinating center and vice versa is carried out by sending informational text messages.

Information sources:

 1. http://www.wireless-e.ru/articles/technologies/2006_2_53.php

 2. http://www.avers-servis.ru/projects/

 3.http: //www.3dnews.ru/news/medtronic-razrabotala-kroshechniy-besprovodnoy- kardiostimulyator

 4.http: //www.deta7.ru/pract_deta

 5. http://www.detaplus.ru/ru/documents/clinical_acts.php

Claims

FORMULA

1. A method for organizing wireless communication based on electromagnetic contactless therapy devices, characterized by using a network of a communication operator to transmit information from devices wirelessly

 electromagnetic contactless therapy in the coordinating center and vice versa, characterized in that a transceiver device operating at the communication frequencies of the operator’s network is inserted into each electromagnetic contactless therapy device, and with its help exchange

 information by sending informational text messages from devices to the focal point and vice versa.

 2. The method according to p. 1 characterized in that the exchange of information is carried out

 preferably encoded.

 3. The method according to p. 2 or p. 3, characterized in that the device operating at the communication frequencies of the operator’s network is performed comprising a control chip from a cell phone, a transceiver at the operator’s communication frequencies, a SIM card or R-UIM card .

 4. A device for organizing a wireless communication system based on electromagnetic contactless therapy devices that implements a method containing a microprocessor controller, matching device, an antenna with

 the possibility of issuing sinusoidal (harmonic) signals, a battery, a liquid crystal display and a control keyboard or touch screen, and the electromagnetic contactless therapy device is configured to display on the display the parameters of the treatment program, characterized in that it contains a transceiver operating on network communication frequencies the operator, which contains a control chip from a cell phone, a transceiver at the operator's communication frequencies, SIM-car y or R-UIM-card.

5. The device according to claim 4, characterized in that it is capable of generating sinusoidal (harmonic) signals with a frequency of 0.1 - 900000 Hz with a resolution of 0.01 Hz based on a frequency synthesizer (DDS), and contains a single-band signal generator (SSB) with amplitude modulation with one side lower or upper band (SSB) of 0.1 V / m ² and a carrier harmonic frequency of 20 to 30 MHz, modulated by sinusoidal (harmonic) signals, and a single-band signal generator (SSB ) is connected by its input to the output of the frequency synthesizer, and the microprocessor controller outputs are connected to the frequency synthesizer to control the parameters generated by the synthesizer

modulating signals.