FR2676930A1 - Method and optimised equipment for treatment by means of a pulsed, directed, interactive and compatible electromagnetic field - Google Patents

Abstract

Method and equipment for controlled, directed and interactive electromagnetic stimulation, comprising a control and command block (1), an output unit or block (2), a logic and signalling unit or block (3), a power unit or block (4) comprising a means for controlling the charging of the batteries; the equipment additionally comprises a computer with a complementary monitoring system; interfaces render complementary treatment equipment compatible. The invention applies to a large number of scientific disciplines, and in particular medicine, surgery, and botany.

Description

Optimized process and equipment for treatment by pulsed, directed, interactive and compatible electromagnetic field.

The invention relates to an optimized process and equipment for treatment by pulsed, directed, interactive and compatible electromagnetic field, making it possible to cause on-demand enzymatic activation or a mutation of the molecular chains.

It is already known that the use of a pulsed electromagnetic field modifies the enzymatic activity (see studies by KRIBOV, TARAKANOVA), (see
NOVICKI et al.), But no attempt to control and direct this activity has been successful. It is already known that the use of a pulsed electromagnetic field causes mutation (see GOODMAN) and the change of molecular chains, for example by transforming into long discs the long fibrous chains of calcium carbonates suspended in water ( cf KRONENBERG), but no attempt to master and direct this activity has been successful. Methods of implementing pulsed electromagnetic fields by induction are already known. These techniques use electrodes of shapes adapted to the parts of the subjects to be treated, for example for reduction of fractures, or electrodes of shape treating whole subjects, for example antennas overhanging the body, to treat rheumatism.

These techniques have many drawbacks: on the one hand, they are too specific to a given application or, on the contrary, too global, exposing subjects to insufficiently selective radiation which can be dangerous or inappropriate, on the other hand, they lack precision and are not able to adapt to rapid changes in the subject, they do not have, for example the selectivity of a direct modulated electrical excitation of the acupuncture points by appropriate electrodes. The only attempt to define a methodology and a general equipment has consisted to date in implementing equipment able to produce all frequencies, intensities and periodicity, but this attempt requires a very wide scientific knowledge and a very large number of adjustments. This results in a very high risk of handling errors and almost impossible to adjust, during processing, the essential settings. The invention proposes to overcome the drawbacks and inadequacies of traditional methods and equipment.

The invention proposes to secure the use of pulsed electromagnetic fields by using pulsed electromagnetic fields preventing serious handling errors.

This ability has become all the more essential as the unlimited number of settings reinforces the need to find solutions to the following two dilemmas: magnetic fields to vitalize subjects such as weakened or sick people are incompatible with magnetic fields capable of weakening subjects such as viruses or microbes and the vitalization or weakening of the subjects are not linear but eminently random and evolving.

The invention proposes to broaden the fields of application of directed pulsed electromagnetic fields by making it possible to seek synergies with the simultaneous use of other treatments or other equipment. These combinations of methods or equipment not only increase the number and variety of adjustments to be made, but pose new problems of joint work by scientists from different disciplines and new problems of compatibility and optimization of associated equipment.

The invention also proposes to promote the personalization of the treatments by allowing the subject receiving said treatments, to actively participate in the control of the equipment, multiple sensors placed on the subject and in the subject's environment, in fact allowing the improvement of the settings in real or deferred time, thus giving access, no longer to static settings, but to dynamic settings favorable to an improvement of safety and efficiency on scientific applications still unexplored to date, which will thus implement fields electromagnetic pulsed, directed and interactive.

The invention finally proposes to optimize the flexibility of adaptation of the new methodologies and new equipment by retaining the principle of specialized sub-assemblies provided with multiple interfaces allowing researchers to pursue or initiate research in the most diverse disciplines, despite the fact that their materials could have been purchased without worrying about compatibility with a process which they were unaware of during purchases; the new equipment thus being qualified as compatible with equipment external to that of the invention.

The invention is described in the following text, with reference to the accompanying drawings given by way of nonlimiting examples, showing: - fig.1, a general electronic circuit according to the invention; - fig.2, modular blocks constituting integrated or couplable subsets, of the circuit of fig.1.

The process and the equipment optimized for treatment by pulsed, directed, interactive and compatible electromagnetic field use an electromagnetic field to treat objects, plants or living beings. The equipment generating the electromagnetic field comprises means for generating, pulsing and directing this field with precision; it implements ten steps respectively divisible into several phases as follows: - step 1: at least three phases of preparation of the subject to be treated; - step 2: at least four phases of preparation of the subject's environment; - step 3: at least four phases of equipment preparation; - step 4: at least seven phases of protection of the subject during treatment; - step 5: at least five phases of preparation of the ambient environment; - step 6: at least five phases of equipment activation; - step 7: at least six phases of application of the treatment; - step 8: at least two phases of deactivation of the equipment; - step 9: at least four phases of verification of the characteristics of the subject being treated; - step 10: at least four phases of modification of the treatment during its course, mainly if the treatment is carried out in several repetitive sessions; - step 11: at least three phases of prolongation of the treatment without working the stimulator.

The electromagnetic processing equipment according to fig. 1 and 2 is subdivided into four main sub-assemblies such as: a control unit referenced block 1, an output unit referenced block 2, a logic and signaling unit referenced block 3 , a power unit referenced block 4 comprising a means for controlling the charge of the accumulators. The equipment also includes a computer equipped with appropriate software and an expert system for direct or indirect control of the said process and associated materials and equipment widening the fields of application of the initial treatments.

The control unit or block 1 is constituted by: - a microcontroller (IC4) for command and control constituted by a microprocessor comprising:
a multiplexed port (PO 0.7), receiving the data lines from the EPROM (IC6);
a port (P1) connected to a switch (DIP SW1) for selecting
frequencies;
The cut-off lines INTO and INT1 carry alarm signals from the logic control unit. In the event of an irregular operation: for example a damaged or absent applicator, a low battery level or an abnormal position of the DIP switch, the device would react by interrupting the operation in progress. in addition a detector of local variations of the geomagnetic field, in particular the variations generated by eruptions and other solar phenomena. Said detector cooperates with an automatic calibration means of the field used by the stimulator at the average level of the place. The variations of the local field are automatically compensated to maintain stable the stimulation field; - an address bus and a data bus - a locking means (IC5) generating the address bits directed to the input addresses of the EPROM (IC6), the other bits (A8-A12) of addressing are directed to the port (P2 0.4) of the microcontroller; - a reprogrammable EPROM (IC6) and its programming means, containing the program allow the microcontroller (IC4) to control the stimulation process. These processes can be modified according to the stimulation needs, in particular by means of the expert system; - specialized interfaces with multiple combinations to connect any scientific device to be used simultaneously with stimulation equipment;
The equipment comprises an output unit or block 2 which includes in particular: a transistor TM1, inverters INV1A, INV2B, INV3C, INV4D, "ZENER" type diodes DI, D2, D3, a capacitor C3, a resistor R3, a applicator L1.A train of rectangular pulses is directed from pin 10 of IC4 to the gate of transistor TM1, after having been inverted on inverters INV1A-INV4D. The frequency is selected by the switch
DIP SW1. The L1 applicator is connected to a VDD = 12V accumulator. When the impulse appears at the door of TM1, the applicator begins to charge and the current flows through the applicator Li until the end of the impulses or the saturation of the applicator (coil). When the pulse is finished TM1 goes to the high resistance level and the current stops flowing through the L1 applicator. The residual current goes to a high voltage until the ZENER D1-D3 diodes stop it.
C3 and the resistor R3 filter the desired frequencies on the applicator.

The logic and signaling unit, block 3, includes four LEDs
LED1-LED4, transistors T1-T5, a resistor R9 and an alarm BZ1.

The signaling is at the same time luminous, LED1-LED4 and audible BZ1.

It is carried out as follows: - the green LED1, indicates that the operation of the device is correct; - the yellow LED2 indicates, for a period of 20 seconds, simultaneously with the BZ1 horn, that the battery level is low and that it should be recharged. This operation can be made automatic by adding a battery charger connected to the mains, which avoids interrupting the treatment; - the red LED3 indicates that the applicator is missing or damaged; - the orange LED4 indicates that the combination of the DIP switch is not correctly connected. LED1-LED4 are powered by transistors T1
T4. The transistors are connected to pins 14-17 of the microcontroller. Resistor R9 limits the current supplied to the diodes. The horn BZ1 is controlled by a signal from the 11th pin of the microcontroller, connected to the base of transistor T5.

The output unit, block 2, is directly supplied by the accumulator.

It supplies the other parts of the device through a voltage stabilizer 1C7, block 4, comprising additional filtering by means of capacitors C4-C5.

 The equipment further comprises a power unit, block 4, consisting of an accumulator and a means of controlling it. It measures the voltage of resistors R4-R8, at the output of a voltage comparator IC1. When the output voltage of ICI is low, the INT1 switch of the microcontroller initiates a procedure for signaling and stopping the process.

The position of the L1 applicator is checked. When it is absent, the output of the INV6F inverter generates a logic zero which interrupts the microcontroller.

 The specific treatment by pulsed and directed electromagnetic field implements isolated, simultaneous, or optional phases, classified according to the steps as follows: step 1: phase 1 referenced ET1-1 concerning the diagnosis of the subject's health or condition before treatment; for example for humans or animals. Such treatment is not recommended when wearing a pacemaker or during menstruation. It is forbidden in case of pregnancy or intense bleeding. Special precautions must be taken in case of cancer, overfunction of the thyroid gland, presence of metal in the body such as projectile fragments or implants, prolonged exposure to X-rays or other ionizing radiation.

For plants, the presence of a disease should be detected before stimulation, as stimulation can increase the harm.

 . step 1: phase 2 referenced ET1-2 concerning the choice of treatment to apply to the subject. For example, for humans and animals, the data obtained in phase ET1-1 are stored in a computer and the treatment is recommended by an expert system taking into account the following data: age, sex, kind of injury or illness , location of injury, special requests from phase 1.

For example for plants, treatment is recommended by an expert system taking into account the following data: variety of plant, variety of disease; . step 1: phase 3 referenced ET1-3 concerning the situation of the subject. For example for humans or animals; a patient is on or under the applicator for overall treatment. The applicator or applicators are positioned on the patient in the event of local treatment or differently depending on the body parts. Special clothing, a special headgear, or even special glasses must be used in the event of special protection to be taken.

This phase requires that the orientation of the magnetic field created by the stimulator is not contrary to the geomagnetic field of the place so as not to disturb the treatment.

A plant must be placed under or on the applicator in a suitable dish, the orientation of the magnetic field created must respect the geomagnetic field and be inspired by it. The sprinkling water must not carry unexpected mineral overloads; - stage 2: phase 1 referenced ET2-1 concerning the measurement of the ambient geomagnetic field for a double exploitation: determine the level of the intensity of the magnetic field to be created by taking into consideration the level of the ambient geomagnetic field measurement, and supply to the system expert to assess the necessary data on the ambient geomagnetic field and on the electromagnetic field to be created, in order to control the applicator (s) and additional equipment according to the cumulative magnetic effect selected.

 The equipment includes these measurement means and the means taking into account the information received and the objectives to be achieved.

- step 2: phase 2 referenced ET2-2 concerning the sidelining of the subject outside the areas and harmful conditions such as areas close to high voltage sources and generators, areas with geomagnetic anomalies, proximity to television sets or powerful electric machines, areas with high noise or light levels, especially artificial light; - step 2: phase 3 referenced ET2-3 concerning the preparation of the optimized temperature conditions. This must be stabilized between 18 and 230, otherwise special precautions must be taken.

- step 2: phase 4 referenced ET2-4 concerning the preparation of material conditions other than the optimized temperature for the subject. For example for humans and animals, the patient must be supplied with sufficient minerals, especially calcium, proteins, vitamins and water.

The plants to be stimulated must have the correct humidity or water must be added if necessary before stimulation. Essential minerals must be present in the substrate of plants.

- step 3: phase 1 referenced ET3-1 concerning the choice of the most appropriate operating mode. It can be obtained by choosing an appropriate combination of connections, by giving an order to the operator table, or directly by the expert system; - step 3: phase 2 referenced ET3-2 concerning the choice of the energy level of the pulsed and directed electromagnetic field. As stimulation is not permitted below a certain level of battery charge, this charge is constantly checked; - step 3: phase 3 referenced ET3-3 concerning the choice of the means of application of the pulsed and directed electromagnetic field. The electromagnetic characteristics of the applicator field are within an appropriate range. Any other applicator cannot be attached or connected to the generator; - step 3: phase 4 referenced ET3-4 concerning the verification of the energy level reached by the pulsed and directed electromagnetic field created; - step 4: phase 1 referenced ET4-1 concerning the protection of the subject against the dangerous frequencies used by the equipment; - step 4: phase 2 referenced ET4-2 concerning the controlled maintenance of the intensity of the pulsed and directed electromagnetic field; - step 4: phase 3 referenced ET4-3 concerning the maintenance control of the duration of exposure of the subject to the aforementioned electromagnetic field; - step 4: phase 4 referenced ET4-4 concerning the instantaneous control of stimulation in full compliance with legal safety standards; - step 4: phase 5 referenced ET4-5 concerning the effective separation of dangerous or unoptimized voltages; - step 4: phase 6 referenced ET4-6 concerning the specific location of the subject in relation to the equipment or equipment in relation to the subject.

For humans and animals, the field is applied directly to the damaged parts and those linked to the damaged parts, and indirectly to the acupuncture points concerned.

For plants, the application of the field is direct by placing the plants on or under the applicator, or indirect by stimulating the substrate or the nutrient medium.

- step 4: phase 7 referenced ET4-7 concerning the locking of the selected parameters, at least during a session, to avoid accidental manipulations or involuntary adjustments; - step 5: phase 1 referenced ET5-1 concerning the protection of each operator against cumulative overexposure to electromagnetic fields by limiting their intervention time to equipment settings.

Only the operator turns on the stimulator. The intervention of the microcontroller makes it possible to be able to use the stimulator without the operator; - step 5: phase 2 referenced ET5-2 concerning the exclusion of all metals and incompatible materials, outside the electromagnetic field. For example, protection of metal parts, engines and electronics, computer and software, expert system as well as various ancillary equipment for treatment such as: - automatic massage device for vital points of the arch of the foot; - medical laser scanning system; - hydrotherapy device causing relaxing water bubbles or pressurized water jets; - electrical stimulators of the cerebral cortex; - electrical stimulators for acupuncture points; - recording and reprographic devices; - video cameras, thermal cameras; - cameras detecting the aura of living subjects; - blood pressure analyzers; - apparatus for checking respiratory behavior; - measurement sensors etc ...

- step 5: phase 3 referenced ET5-3 concerning the protection of other equipment against the high voltages generated by the processing equipment; - step 5: phase 4 referenced ET5-4 concerning the last verification of people contraindications according to phase ET1-1 which may inadvertently carry metallic objects or other incompatible and dangerous equipment on themselves; - step 5: phase 5 referenced ET5-5 concerning the preventive measures capable of preventing the aforementioned people from coming into dangerous contact with the equipment and the environment of the equipment, for example a floor fitted with weighing detectors detecting the intrusion of people or animals during, before or after stimulation; a network of mirrors or volumetric intrusion sensors; photocells and other common safety equipment; automatic closing of the doors for an adjustable predetermined time, etc.

- step 6: phase 1 referenced ET6-1 concerning the verification and connection of an applicator and specific equipment appropriate to the generator; - step 6: phase 2 referenced ET6-2 concerning the choice of parameters recommended by the expert system by activating the appropriate commands, by selecting the operating mode on the control panel, by activating the programmed automatic control of the electronic processor; - step 6: phase 3 referenced ET6-3 concerning the duration of the treatment or phases of the treatment; - step 6: phase 4 referenced ET6-4 concerning the verification of the quality of the current and the level of availability of the current in the event of recourse to batteries; - step 7: phase 1 referenced ET7-1 concerning the generation of the processing frequency; - step 7: phase 2 referenced ET7-2 concerning the generation of the current in the applicator; - step 7: phase 3 referenced ET7-3 concerning the generation of information in the appropriate applicator; - step 7: phase 4 referenced ET7-4 concerning the generation of information on the battery charge level; - step 7: phase 5 referenced ET7-5 concerning the signaling that the right conditions for starting treatment are met; - step 7: phase 6 referenced ET7-6 concerning the control of the appropriate intensity of the magnetic field on the output of the stimulator; - step 8: phase 1 referenced ET8-1 concerning the automatic deactivation of the equipment in the event of non-operation or malfunction of phases 1 to 6 of step 7; - step 8: phase 2 referenced ET8-2 concerning voluntary and permanent deactivation; - step 9: phase 1 referenced ET9-1 concerning, for the respective treatment of a human or animal and a plant, the verification of the blood pressure on the one hand or the water content and absorption water on the other hand; - step 9: phase 2 referenced ET9-2 concerning, for the respective treatment of a human or animal and a plant, the verification of the maintenance of the constants and / or X-rays on the one hand, or the verification of the maintenance of the constants by thermal camera on the other hand; - step 10: phase 1 referenced ET10-1 concerning the cancellation of the choice of the previous processing; - step 10: phase 2 referenced ET10-2 concerning the implementation of a new choice of treatment according to step 6 phases 3, 4, 5 and according to step 7 phases 1 to 6.

For example by taking into account astral or meteorological phenomena such as diurnal, nocturnal biological rhythms, solar flares, lunar phases etc ...; - step 10: phase 3 referenced ET10-3 concerning the resumption of the same treatment for a new session without changing the parameters, the total duration is recommended by the expert system since step 1, phase 2; - step 10: phase 4 referenced ET10-4 concerning the resumption of treatment for new sessions, with progressively modified parameters, for example at the start of treatment, to adapt the subject to stimulation, and at the end of treatment, to readjust the subject to conditions other than those of treatment such as a replanting of young plans, the duration of the adaptation or rehabilitation period being recommended by the expert system.

- step 11: phase 1, referenced ET11-1 concerning the optional stopping of the stimulator before stopping the treatment, the treatment being able to continue on its own on the subject for a variable time, after stopping the stimulator ; - step 11: phase 2, referenced ET11-2 concerning the continuation of the control and work of the ancillary equipment after the abovementioned stopping of the stimulator; - step 11: phase 3, referenced ET11-3 concerning the intervention of the expert system to deduct from the overall operating time of the stimulator the aforementioned extension time of the treatment to better protect the subject and better optimize the treatment.

Block 1 is used for the following phases: ET3-1, ET3-2, ET3-3; ET4-1,
ET4-4, ET4-7; ET5-I; ET6-1, ET6-2, ET6-5; ET7; ET8-1, ET8-2; ET10-1, ET10-2;
Block 2 is used for the following phases: ET3-3; ET4-5, ET5-3; ET6-1,
ET6-5; ET7-2, ET7-3, ET7-4.

Block 3 is used for the following phases: ET3-1, ET3-3, ET3-3; ET4-1,
ET4-5; ET5-3; ET6-1, ET6-2, ET6-5; ET7-3, ET7-4, ET7-5; ET8-1.

Block 4 is used for the following phases: ET3-2; ET4-5; ET5-3; ET6-4,
ET6-5; ET7-2; ET8-1, ET8-2.

The ET1-3 phase requires that the orientation of the magnetic field created by the stimulator is not contrary to the geomagnetic field of the place so as not to disturb the treatment.

Phase ET2-1 implements an electromagnetic cumulative effect that is not very significant for long-term treatments and important for short-term treatments, the average ambient intensity of the electromagnetic field taking into account the variable ambient geomagnetic field according to the geographic areas of application. of treatment.

The invention relates to many scientific disciplines, and particularly medicine, surgery, botany ...

Claims (9)

CLAIMS: 1 - Optimized process and equipment for treatment by pulsed, directed, interactive and compatible electromagnetic field, characterized: * in that it includes equipment implementing an electromagnetic field for treating objects, plants or living beings; * in that the equipment generating the electromagnetic field includes means for pulsing and directing and controlling it with precision; * in that the treatment by pulsed and directed electromagnetic field implements ten stages respectively divisible into several phases as follows: - stage I: at least three phases of preparation of the subject to be treated; - step 2: at least four phases of preparation of the subject's environment; - step 3: at least four phases of equipment preparation; - step 4: at least seven phases of protection of the subject during treatment; - step 5: at least five phases of preparation of the ambient environment; - step 6: at least five phases of equipment activation; - step 7: at least six phases of application of the treatment; - step 8: at least two phases of deactivation of the equipment; - step 9: at least four phases of verification of the characteristics of the subject being treated; - step 10: at least four phases of modification of the treatment during its course, mainly if the treatment is carried out in several repetitive sessions; - step 11: at least three phases of prolongation of the treatment without working the stimulator; * in that the specific treatment by pulsed and directed electromagnetic field implements isolated, simultaneous, or optional phases, classified according to the steps as follows:. stage 1: stage 1 referenced ET1-1 concerning the diagnosis of the health or the state of the subject before the treatment; . step 1: phase 2 referenced ET1-2 concerning the choice of treatment to apply to the subject; . step 1: phase 3 referenced ET1-3 concerning the situation of the subject; . stage 2: phase 1 referenced ET2-1 concerning the measurement of the ambient geomagnetic field for a double exploitation: determine the level of the intensity of the magnetic field to create, by taking into consideration the level of the ambient geomagnetic field measurement, and supply to the system assess the necessary data on the ambient geomagnetic field and on the electromagnetic field to be created, in order to control the applicator (s) and additional equipment according to the cumulative magnetic effect selected; in that the average stimulation intensity is less than 42 teslas for prolonged treatments, and greater than 42 microteslas for short treatments, this average intensity takes into account the average geomagnetic field existing in Yugoslavia, it may vary slightly in the others geographic areas; - stage 2: phase 2 referenced ET2-2 concerning the setting aside of the subject outside the zones and harmful conditions; - step 2: phase 3 referenced ET2-3 concerning the preparation of the optimized temperature conditions; - step 2: phase 4 referenced ET2-4 concerning the preparation of material conditions other than the optimized temperature for the subject; - step 3: phase 1 referenced ET3-1 concerning the choice of the most appropriate operating mode; - step 3: phase 2 referenced ET3-2 concerning the choice of the energy level of the pulsed and directed electromagnetic field; - step 3: phase 3 referenced ET3-3 concerning the choice of the means of application of the pulsed and directed electromagnetic field; - step 3: phase 4 referenced ET3-4 concerning the verification of the energy level reached by the pulsed and directed electromagnetic field created; - step 4: phase 1 referenced ET4-1 concerning the protection of the subject against the dangerous frequencies used by the equipment; - step 4: phase 2 referenced ET4-2 concerning the controlled maintenance of the intensity of the pulsed and directed electromagnetic field; - step 4: phase 3 referenced ET4-3 concerning the controlled maintenance of the duration of exposure of the subject to the aforementioned electromagnetic field; - step 4: phase 4 referenced ET4-4 concerning the instantaneous control of stimulation in full compliance with legal safety standards; - step 4: phase 5 referenced ET4-5 concerning the effective separation of dangerous or unoptimized voltages; - step 4: phase 6 referenced ET4-6 concerning the specific location of the subject in relation to the equipment or equipment in relation to the subject; - step 4: phase 7 referenced ET4-7 concerning the locking of the selected parameters, at least during a session, to avoid accidental manipulations or involuntary adjustments; - step 5: phase 1 referenced ET5-1 concerning the protection of each operator against cumulative overexposure to electromagnetic fields by limiting their intervention time to equipment settings; - step 5: phase 2 referenced ET5-2 concerning the exclusion of all metals and incompatible materials, outside the electromagnetic field; - step 5: phase 3 referenced ET5-3 concerning the protection of other equipment against the high voltages generated by the processing equipment; - step 5: phase 4 referenced ET5-4 concerning the last verification of the contraindications of people according to phase ET1-1 which may inadvertently carry metallic objects or other incompatible and dangerous equipment on themselves; - step 5: phase 5 referenced ET5-5 concerning the preventive measures capable of preventing the aforementioned people from coming into dangerous contact with the equipment and the environment of the equipment; - step 6: phase 1 referenced ET6-1 concerning the verification and connection of an applicator and specific equipment appropriate to the generator; - step 6: phase 2 referenced ET6-2 concerning the choice of the parameters recommended by the expert system by activating the appropriate commands, by selecting the operating mode on the control panel, by activating the programmed automatic control of the electronic processor; - step 6: phase 3 referenced ET6-3 concerning the duration of the treatment or phases of the treatment; - step 6: phase 4 referenced ET6-4 concerning the verification of the quality of the current and the level of availability of the current in the event of recourse to batteries; - step 7: phase 1 referenced ET7-1 concerning the generation of the processing frequency; - step 7: phase 2 referenced ET7-2 concerning the generation of the current in the applicator; - step 7: phase 3 referenced ET7-3 concerning the generation of information in the appropriate applicator; - step 7: phase 4 referenced ET7-4 concerning the generation of information on the battery charge level; - step 7: phase 5 referenced ET7-5 concerning the signaling that the right conditions for starting treatment are met; - step 7: phase 6 referenced ET7-6 concerning the control of the appropriate intensity of the magnetic field on the output of the stimulator; - step 8: phase 1 referenced ET8-1 concerning the automatic deactivation of the equipment in the event of non-operation or malfunction of step 7 of phases 1 to 6; - step 8: phase 2 referenced ET8-2 concerning voluntary and permanent deactivation; - step 9: phase 1 referenced ET9-1 concerning the respective treatment of a human or animal and a plant, or the verification of the blood pressure on the one hand or the water content and absorption of water on the other hand; - step 9: phase 2 referenced ET9-2 concerning, for the respective treatment of a human or animal and a plant, the verification of the maintenance of the constants and / or X-rays on the one hand, or the verification of the maintenance of the constants by thermal camera on the other hand; - step 10: phase 1 referenced ET10-1 concerning the cancellation of the choice of the previous processing; - step 10: phase 2 referenced ET10-2 concerning the implementation of a new choice of treatment according to step 6 phases 3, 4, 5 and according to step 7 phases 1 to 6; - step 10: phase 3 referenced ET10-3 concerning the resumption of the same treatment for a new session without changing the parameters, the total duration is recommended by the expert system since step 1, phase 2; - step 10: phase 4 referenced ET10-4 concerning the resumption of treatment for new sessions, with progressively modified parameters, for example at the start of treatment, to adapt the subject to stimulation, and at the end of treatment, to readjust the subject to conditions other than those of treatment, the length of the adaptation or rehabilitation period being recommended by the expert system. - step 11: phase 1, referenced ET11-1 concerning the optional stopping of the stimulator before stopping the treatment, the treatment being able to continue on its own on the subject for a variable time, after stopping the stimulator ; - step 11: phase 2, referenced ET11-2 concerning the continuation of the control and work of the ancillary equipment after the abovementioned stopping of the stimulator; - step 11: phase 3, referenced ET11-3 concerning the intervention of the expert system to deduct from the overall operating time of the stimulator the aforementioned extension time of the treatment to better protect the subject and better optimize the treatment. 2 - Method and equipment according to claim 1, characterized in that it implements subjects whose behavior is measured by appropriate direct and / or additional sensors and equipment, in order to supply the control data to the expert system controlling the stimulator . 3 - Method and equipment according to claims 1 and 2, characterized: * in that the equipment according to the invention is subdivided into four main sub-assemblies such as: a control unit referenced block 1, an output unit referenced block 2 , a logic and signaling unit referenced block 3, a power unit referenced block 4 comprising a means for controlling the charge of the accumulators, in that the equipment further comprises an expert system of complementary piloting; * in that block 1 is used for the following phases: ET3-1, ET3-2, ET3-3; ET4-1, ET4-4, ET4-7; ET5-1; ET6-1, ET6-2, ET6-5; ET7; ET8-1, ET8-2; ET10-1, ET10-2; * in that block 2 is used for the following phases: ET3-3; ET4-5, ET5-3; ET6-1, ET6-5; ET7-2, ET7-3, ET7-4; * in that block 3 is used for the following phases: ET3-1, ET3-3, ET3-3; ET4-1, ET4-5; ET5-3; ET6-1, ET6-2, ET6-5; ET7-3, ET7-4, ET7-5; ET8-1; * in that block 4 is used for the following phases: ET3-2; ET4-5; ET5-3; ET6-4, ET6-5; ET7-2; ET8-1, ET8-2. 4 - Method and equipment according to claims 1, 2 and 3, characterized: * in that the phase ET1-3 requires that the orientation of the magnetic field created by the stimulator is not contrary to the geomagnetic field of the place so as not to disturb the treatment; * in that the phase ET2-1 implements average intensities of magnetic field lower than 42 microteslas for prolonged treatments and higher than 42 pteslas for short treatments, this average intensity taking into account the average geomagnetic field existing in Yugoslavia, this average intensity may vary slightly in other geographical areas. 5 - Method and equipment according to claims 1, 3 and 4, characterized in that the block (1) or control unit comprises: - a microcontroller (IC4) controlling and controlling a locking means (IC5) and an EPROM (IC6 ) by means of an address bus and a data bus; - the locking means (IC5) generating the addressing bits directed to the input addresses of the EPROM (IC6), the other addressing bits are directed to the microcontroller; the micro controller (IC4) is connected to a frequency selection switch (DIP SWI); - the EPROM (IC6) includes a programming means for adapting the stimulation program to the subject to be treated; - a computer equipped with software and an expert system participating in the stimulation programming; - specialized interfaces with multiple combinations to connect any scientific device to be used simultaneously with stimulation equipment; - a detector of local variations in the geomagnetic field, cooperating with an automatic field calibration means used by the stimulator at the average level of the place, in that the variations in the local field are automatically compensated to keep the stimulation field stable. 6 - Method and equipment according to the preceding claims, characterized in that the block (2) or output unit comprises in particular: a TMI transistor, inverters (INV1A, INV2B, INV3C, INV4D), "ZENER" type diodes (D1 , D2, D3), a capacitor (C3), a resistor (R3), an applicator (L1), in that a train of rectangular pulses is directed from the pin (10) of (IC4) towards the door of the transistor (TM1), after having been inverted on the inverters (INV1A-INV4D), in that the frequency is selected by the switch (DIP SW1), in that the applicator (L1) is connected to an accumulator ( VDD), in that when the pulse appears at the gate of (TM1), the applicator begins to charge and the current flows through the applicator (L1) until the end of the pulses or the saturation of the applicator, in that the capacitor (C3) and the resistor (R3) filter the desired frequencies on the applicator, in that the output unit is direct ement supplied by the accumulator, in that it supplies the other parts of the apparatus through the applicator (L1) until the end of the pulses or the saturation of the applicator. 7 - Method and equipment according to the preceding claims, characterized in that the logic and signaling unit, block (3), comprises four LED1-LED4 indicators, transistors T1-T5, a resistor (R9) and an alarm ( BZ1), in that the signaling is both luminous, LED1 LED4 and sound (BZ1), in that: - the green LED1 indicates that the operation of the device is correct; - the yellow LED2 indicates, for a period of 20 seconds, simultaneously with the horn (bu1), that the charge level of the accumulator is low and that it is advisable to recharge it, in that this operation is made automatic by adding a battery charger connected to the mains; - the red LED3 indicates that the applicator is missing or damaged; - the orange LED4 indicates that the combination of the DIP switch is not correctly connected, in that the LED1-LED4 are supplied by the transistors (T1-T4), in that the transistors are connected to the pins (14- 17) of the microcontroller, in that the horn (BZ1) is controlled by a signal from the 11th pin of the microcontroller, connected to the base of the transistor (T5). 8 - Method and equipment according to the preceding claims, characterized in that the power unit or block (4) consists of an accumulator, a voltage stabilizer and a charge control means, in that the control means measures the voltage of the resistors (R4-R8), at the output of a voltage comparator (HERE block 3), in that when the output voltage of (IC1) is low, the switch (INT1) of the microcontroller (IC4 ) initiates a procedure for signaling and stopping the process, in that the voltage stabilizer (IC7) includes additional filtering by means of capacitors (C4-C5).  9 - Method and equipment according to the preceding claims, characterized in that the expert system directly and indirectly controls the materials and equipment of said process as well as the associated materials and equipment.