IT201800003174A1 - METHOD OF MONITORING THE ELECTROMAGNETIC POLLUTION OF A GEOGRAPHICAL AREA AND ALARM SYSTEM - Google Patents

Description

Description of the invention entitled:

"METHOD OF MONITORING THE ELECTROMA-GNETIC POLLUTION OF A GEOGRAPHICAL AREA AND ALARM SYSTEM"

Description

Field of technique

The present invention operates in the context of monitoring and safety systems designed to avoid the exposure of people to environmental risks. In more detail, the risk in question is linked to electromagnetic pollution.

Known art

Since the beginning of the century, industrial, civil and service applications of electromagnetic field sources have undergone enormous development, affecting every aspect of working and domestic life and relationships between people. The number and types of sources have grown beyond all expectations and, recently, the development of the telecommunications sector has produced a significant increase in the sources of electromagnetic pollution.

The main classes of environmental sources of electromagnetic fields can be distinguished by frequency bands according to a terminology ("low frequencies", "intermediate frequencies" and "high frequencies") which has entered the common language and has also had some recognition in the 'scope of the European project COST-244-bis.

Another type of classification of sources depends on whether the emission of electromagnetic fields is an accidental consequence of the operation of the source, or functional to it.

Historically, concerns about the possible harmful effects caused by exposure to electromagnetic fields date back to the early 1980s.

The mechanisms of interaction between an electromagnetic field and matter obviously also occur in the human body in the form of a series of biological effects, some of which can determine a health effect and therefore damage to health.

It should be emphasized that the interaction mechanisms and therefore the biological effects are highly dependent on the frequency of the electromagnetic field and, of course, on its intensity.

As for electromagnetic fields at extremely low frequencies, their fundamental action on biological systems consists in the induction of electric charges and currents that are disposed of by the body's normal self-regulation processes without the person realizing it.

However, if these fields induce electrical currents in the body that significantly exceed the background level in the body, there is a possibility of negative health consequences.

Many epidemiological studies on humans have considered possible connections between exposure to electromagnetic fields and an increased risk of cancer. At present, these studies do not provide sufficient information for an appropriate assessment of the risk of cancer in humans as a result of exposure. An analysis of these works by the US National Academy of Sciences in 1996 suggested that residence near power lines was associated with an increased risk of childhood leukemia.

In June 1998, the NIEHS (National Institute of Environmental Health Sciences) convened an international working group for a critical review of the research results, in which using the criteria established by the International Agency for Research on Cancer (International Agency for Research on Cancer, IARC) concluded that electromagnetic fields should be considered as a "possible human carcinogen".

The sources that use radio frequencies and microwaves are numerous and affect work environments, domestic ones and the external environment. The sites of radio and television repeaters, not to mention those of the telecommunications sector, have arisen without precise programming and the consequences have certainly not been positive. The managers have tried to occupy all the dominant positions, without particular considerations for the environmental impact, for urban planning and environmental protection regulations, for the protection of the population from electromagnetic fields.

At present, the intention of the anti-pollution measures seems almost exclusively to reduce CO2 emissions due to heating systems, industries and vehicular traffic. Although there are reliable instruments for measuring the intensity and frequency of an electromagnetic field in a given area and legal limits have also been established for the tolerability of the presence of such fields, nothing seems to have been done to make citizens aware of the presence of these waves and the consequent risks.

The purpose of the present invention is, therefore, to describe an instrumentation and a method to allow the citizen to know the electromagnetic pollution to which he is exposed at any time of the day and in every geographical area and therefore to be able to reset or at least reduce his exposure.

The invention represents the evolution and expansion of a study, already conducted by the inventors as part of a research and development project, aimed at monitoring the electromagnetic fields produced by Radio Base Stations (SRB) aimed at developing a geo portal through which citizens, selecting the area of their interest, can consult the position of the sources of radio frequency electromagnetic fields and the results of monitoring.

Description of the invention

According to the present invention, a method of monitoring the electromagnetic pollution of a geographical area is described which effectively solves the above problems.

This patent application for industrial invention also includes an alarm system that warns the user of exceeding the pre-established safety threshold for exposure to an electromagnetic field and which therefore allows citizens to consciously reduce their exposure. Advantageously, the method makes use of a specific software which, in addition to allowing the carrying out of the method described below, is able to elaborate a scale of danger of the electromagnetic fields starting from the frequency and intensity data of the same. Said software is also able to provide the numerical value, and therefore the danger index for exposure to electromagnetic fields, of each geolocation point within the monitored geographical area.

The method object of the patent consists of at least the following steps:

- subdivision of the territory to be monitored into delimited geographical areas. The extension of these areas is advantageously dependent on the measurement range of fixed stations that will be positioned on the territory;

- installation of at least one fixed measuring station in each geographical area; preferably in a central point of that area, in order to detect the necessary measurements equally effectively throughout the area;

- sending data relating to the electromagnetic fields detected (frequency and intensity) to a dedicated server and saving the data in the relative memory; - graphic processing by said software to illustrate, on a special web platform accessible to the public, the distribution of electromagnetic fields present in each geographical area, highlighting their danger;

- acquisition of the exact position, in the monitored area, of at least one user through an electronic device equipped with a geolocation sensor and connected to the internet;

- query of the dedicated server on whether or not a pre-established safety threshold value is exceeded with regard to the detected value of the danger of the electromagnetic field detected in the user's geolocation point;

in the event that said query was successful (exceeding the threshold limit), the method advantageously provides for the activation of an alarm at least on the user's electronic device;

if the query, on the other hand, has a negative outcome (the value is below the safety limit), the method by providing a new step of acquiring the position of the user who, presumably, has moved in the meantime, and then a new question.

Advantageously, the method of monitoring the electromagnetic pollution of a geographical area can also include a local verification step in which at least one operator goes to any point of the area to be monitored equipped with portable detection instruments equipped with a geolocation sensor. . After having sent to the server the exact point where he carries out the check, he detects the intensity and frequency of the electromagnetic field and sends it to the server.

At this point the dedicated software compares the data just detected with the one present in the memory related to the same geographical point.

In case of correspondence or substantial correspondence of the two values, the verification is satisfied. In the event that the difference between the two values exceeds a tolerance threshold, the method advantageously provides for the replacement of the fixed control unit operating in the geographical area where the difference was detected.

Furthermore, by means of special instrumentation, the method can be advantageously customized from user to user. Each user, in fact, can set his own preferred threshold value (for example the threshold value can be established by local laws on the subject), or through a pre-established procedure to be carried out on his own electronic device, or through an adjustment command that is present on a signaling device.

Said signaling device is a tool that can be advantageously installed both at home and in the car, or in any other place where the user expects to spend most of his time.

Thanks to the geolocation sensor and the internet connection it is equipped with, the signaling device indicates on its display the value detected at all times.

When this value exceeds the preset or user-preferred safety threshold, the signaling device is equipped with appropriate acoustic and / or light alarm means which, advantageously, come into operation to indicate excessive exposure to the waves to the user.

In an even more advantageous embodiment of the present invention, the electronic device and / or the signaling device are able to emit an acoustic signal, different from that of the alarm, when the detected electromagnetic field value is zero.

The advantages offered by the present invention are evident in the light of the description set out up to now and will be even clearer thanks to the attached figures and the related detailed description.

Description of the figures

The invention will be described below in at least one preferred embodiment for explanatory and non-limiting purposes with the aid of the attached figures, in which:

- FIGURE 1 shows the flow chart underlying the method object of the patent in its version considered the best embodiment.

- FIGURE 2 illustrates a possible screen presented on the electronic device 22 of the user 20 via the web platform 150 in which the geographic positioning, in the displayed area, of the fixed control units 30 and the positioning 400 of the user 20 can be seen. the territory is interfaced with the mapping of electromagnetic fields whose danger (given by the combination of frequency and intensity) is illustrated by a color scale. - FIGURE 3 shows an example of a signaling device 50 installed in the passenger compartment of a vehicle 60, which shows the display 51, the power button 52, the adjustment control 53 and the geolocation sensor 54 is schematised.

- FIGURE 4 represents a block diagram of the components necessary for the realization of the present invention. In the upper part of the diagram the fixed control units 30 and the operators 500 are shown who, with their portable detection devices 520, equipped with a geolocation sensor 521, send data to the server 300. The latter is connected to a memory 320 and uses of a software indicated by the reference number 600. The lower portion of the drawing represents what is visible to the public, that is the web platform 150 with which users 20 interact with their electronic devices 22 geolocated, or with signaling devices 50 which can be installed both in buildings 40 and in vehicles 60.

Detailed description of the invention

The present invention will now be illustrated purely by way of example but not limiting or binding, by resorting to the figures which illustrate some embodiments relating to the present inventive concept.

With reference to FIG. 4 shows the operating diagram of the devices which interact in carrying out the present invention.

In a preparatory phase of the service offered to the user 20, the area to be monitored is completely monitored by a plurality of fixed control units 30 which send data relating to the frequencies and intensity of the electromagnetic fields detected point by point.

The detections of said fixed control units 30 are periodically checked by at least one operator 520 equipped with a portable detection instrument 520, equipped with a geolocation sensor 521.

All these detected data, together with the precise positioning of the surveys, are sent to a dedicated server 300 which saves them in memory 320.

On the server 300 is installed and operates a software 600 suitably configured for the present invention which re-elaborates the frequency and intensity of the magnetic field detected in each geographical point in terms of the danger of exposure to said field for the health of a human being. . The software 600 also associates the value of the hazard to each geographical point of the monitored area and makes this information intelligible to the public via a freely accessible web platform 150.

Preferably, on said web platform 150 it will be possible to view the map of a preferred area, which is subject to monitoring, view the location of the fixed control units 30 and also see the positioning 400 of the connected user 20. Overlapping the geographical or road map around the 400 position of user 20, there will be a colored diagram in which each color indicates a hazard index according to a known legend.

The user 20 who wishes to know the value of the danger of the electromagnetic field present in the exact point where he is, can use his electronic device 22 if it is connected to the internet and geolocated. In the preferred embodiment, moreover, the user 20 also makes use of at least one signaling device 50 such as the one schematically depicted in FIG. 3.

The signaling device 50 constantly shows on a display 51 the hazard index detected in the exact point where the device itself is located. Said signaling device 50, in fact, is equipped with a geolocation sensor 54 which constantly transmits its position to the dedicated server 300.

Furthermore, this instrument comprises in its preferred version, an on-off button 52 and an adjustment command 53 thanks to which the user 20 can modify at will the threshold value beyond which to activate the alarm, thus obtaining a personalized service.

In this way, the user 20 who undertakes a journey can, first of all, consult the web platform 150 to plan the healthiest route possible. Later, during the trip, he can monitor that he is actually not passing through electromagnetic fields that are potentially harmful to his health. Possibly, the electronic device 22 and / or the signaling device 50 of the user 20 may be able to emit an acoustic signal, different from that of the alarm when the detected electromagnetic field value is null.

The signaling device 50 can also be installed in the house 40 or in the workplace to verify that no sources of electromagnetic fields are installed nearby which could "pollute" one's private environment.

In summary, the method underlying the present invention and which falls within the scope of the patent, in its most complete version, consists of the following stages:

- 100 subdivision of the territory to be monitored in delimited geographical areas; - installation 102 of at least one fixed metering unit 30 in each geographic area;

- local verification 103 in which at least one operator 500 goes to any point of the territory to be monitored equipped with portable detection instrumentation 520, equipped with a geolocation sensor 521, and verifies the correspondence between the value relating to the intensity of the magnetic field detected by said portable detection instrumentation 520 and the value detected by the fixed control unit 30 installed in that determined geographical area. If the test 103 gives a negative result N, the method provides for a new installation step 102 of the malfunctioning fixed control unit 30 which is replaced. If, on the other hand, the test 103 gives a positive result Y, the method continues with a step of

- sending 104 of the data relating to the electromagnetic fields detected to a dedicated server 300 and saving in the relative memory 320;

- processing 106 by the dedicated software 600 designed to illustrate, on a special web platform 150, the distribution of electromagnetic fields present in each geographical area, highlighting the danger to humans;

- acquisition of the position 108 of at least one user 20 by means of its electronic device 22 or its signaling device 50 equipped with a geolocation sensor;

- custom setting 109, by user 20, of a preferred safety threshold value on which to base the following step

- query 110 of the dedicated server 300 on the exceeding of the predetermined safety threshold value by the value of the electromagnetic field hazard detected in the user's geolocation point 20. In the event that said query 110 has a positive result Y, the method provides a step for activating an alarm 112. In the event that the interrogation 110 has a negative result N, the method provides for a new step for acquiring the position 108 of the user 20 and therefore a new interrogation 110.

Finally, it is clear that modifications, additions or variants that are obvious for a person skilled in the art can be made to the invention described so far, without thereby departing from the scope of protection that is provided by the attached claims.

Claims (10)

Claims 1. Method of monitoring the electromagnetic pollution of a geographical area, characterized by the fact of understanding the steps of: - subdivision (100) of the territory to be monitored into delimited geographical areas; - installation (102) of at least one fixed measuring station (30) in each geographical area; - sending (104) the data relating to the electromagnetic fields detected to a dedicated server (300) and saving in the relative memory (320); - processing (106) by a dedicated software (600) designed to illustrate, on a special web platform (150), the distribution of electromagnetic fields present in each geographical area, highlighting the danger to human health; - acquisition of the position (108) of at least one user (20) by means of an electronic device (22) equipped with a geolocation sensor; - query (110) of the dedicated server (300) on the exceeding of a predetermined safety threshold value by the danger value of the electromagnetic field detected in the user's geolocation point (20); in the event that said query (110) had a positive outcome (Y), said method providing for the activation of an alarm (112); in the event that said query (110) has a negative outcome (N), said method provides for a new step to acquire the position (108) of the user (20). 2. Method for monitoring the electromagnetic pollution of a geographical area, according to the preceding claim 1, characterized in that it also comprises a local verification step (103) in which at least one operator (500) goes to any point of the territory to be monitored equipped with portable detection instrumentation (520) equipped with a geolocation sensor (521) and verifies the correspondence between the value relating to the intensity of the magnetic field detected by said portable detection instrument (520) and the value detected by the fixed control unit (30) installed in that specific geographical area; if said check (103) gives a positive result (Y), said method foresees a new sending step (104); if said check (103) gives a negative result (N), said method foresees a new installation phase (102) of the fixed control unit (30) operating in that specific geographical area. 3. Method of monitoring the electromagnetic pollution of a geographic area, according to any one of the preceding claims 1 or 2, characterized by the fact of comprising a customized setting step (109), by a user (20), of a preferred safety threshold value on which to base said interrogation step (110). 4. Computer program (600) which, when operating on an electronic device, carries out the method of at least one of the preceding claims. 5. Alarm system, designed to signal the presence of an electromagnetic field exceeding the safety limits for people's health, characterized by the fact that it includes: - a plurality of fixed control units (30) for detecting an electromagnetic field, designed to be installed in correspondence with a predetermined geographical area in order to determine the frequencies and intensity of the magnetic field present in all said geographical area; - a dedicated server (300), able to receive the data detected by said plurality of fixed control units (30) and to save them in a suitable memory (320) together with the geolocation data of said fixed control units (30); said data being processed through special software (600) designed to indicate, on a territorial map shown on a dedicated web platform (150), the location of electromagnetic fields with an indication of their danger to human health; - at least one electronic device (22) equipped with a geolocation sensor and connected to the internet, in possession of a user (20), able to send to said dedicated server (300), a signal requesting the signaling of the electromagnetic field value detected at least in the geographical area in which said electronic device (22) is geolocated; said electronic device (22) being equipped with signaling means, by means of an acoustic and / or luminous alarm, able to activate if the value of the electromagnetic field detected in the geolocation point of the electronic device (22) exceeds a value preset threshold. 6. Alarm system, according to the previous claim, characterized in that it comprises at least one signaling device (50), equipped with a geolocation sensor (54) and connected to the internet, able to send a signal for signaling the electromagnetic field value detected in the geographical area in which said signaling device (50) is geolocated; said signaling device (50) being equipped with at least one display (51) adapted to report the value detected at any instant; said signaling device (50) being also equipped with signaling means, by means of an acoustic and / or luminous alarm, able to come into operation in the event that the value of the electromagnetic field detected in the geolocation point of the signaling device (50) exceed a preset threshold value. 7. Alarm system, according to the previous claim 6, characterized in that said signaling device (50) is installed in a building (40). 8. Alarm system, according to the previous claim 6, characterized by the fact that said signaling device (50) is installed inside a vehicle (60). 9. Alarm system, according to the previous claims 5-8, characterized in that said user (20) can choose a preferred safety threshold value and set it through his own electronic device (22) or through a suitable adjustment command ( 53) present on the signaling device (50). 10. Alarm system, according to the previous claims 5-9, characterized in that said electronic device (22) and / or said signaling device (50) are able to emit an acoustic signal, different from that of the alarm, when the detected electromagnetic field value is zero.