FR3079377A1 - LIFI COMMUNICATION METHOD AND LIFIABLE COMMUNICATION SYSTEM - Google Patents

Abstract

In synthesis, the invention relates to a method (10) of light communication for converting an audio signal into a light signal which is generated by a light source (112) of a light communication module (110) of a light system. communication (100) to establish a one-way communication of LIFI type. Complementarily, the invention also relates to the detection of a light signal by a photodetector (116) of the communication system (100), said detected light signal carrying a modulated information. The conversion of said detected light signal into an audio signal makes it possible to establish bidirectional type LIFI communication. The invention then addresses a communication system (100) implementing such a method (10) and several of its specific applications.

Description

"LIFI communication method and LIFI communication system"

Technical area

The technical context of the present invention is communication methods making it possible to chat remotely in environments where it is generally not possible to chat. More particularly, the invention relates to a communication method, a communication system and various equipment incorporating such a communication system.

State of the art

There are a number of environments in which it can be difficult or even impossible to communicate, that is, allowing two or more individuals to chat. By way of nonlimiting examples, such places include in particular aquatic environments, very noisy environments such as for example in airports near runways and planes, in extraction mines, in particular galleries in depth, proximity to mining equipment, on certain sites, such as for example construction, renovation or maintenance of railway tracks. Another particularly advantageous use of the present invention is that of exploration in deep waters as well as that of underwater mining.

In the state of the art, numerous devices are known which allow remote communication. Most of them use radio wave transmitters and receivers to modulate the audio signal to be transmitted between the transmitter and the receiver. The disadvantage of such devices is that they are sometimes unsuitable for professional practice, some of them sometimes requiring restricting or prohibiting radio broadcasts. In addition, radio equipment often requires the establishment of a consequent infrastructure to guarantee the good propagation of radio waves necessary for the establishment of a communication.

Another drawback of these known devices is their cost, their electrical consumption.

The object of the present invention is to propose a new communication method in order to respond at least in large part to the preceding problems and also to lead to other advantages.

Another object of the invention is to reduce facilitate communication between two users in environments where it is generally difficult to communicate.

Another object of the invention is to provide a low cost communication system.

Statement of the invention

According to a first aspect of the invention, at least one of the aforementioned objectives is achieved with a light communication method comprising (i) a step of acquiring a sound signal via a microphone of a communication system, (ii) a step of encoding the sound signal into a digital signal for controlling at least one light source, the encoding step being carried out by an electronic card for controlling the communication system, (iii ) a step of controlling the at least one light source in order to emit at least one light signal, the amplitude of which is modulated as a function of the digital control signal.

The steps of acquiring the sound signal, encoding and controlling the at least one light source together form an upward communication cycle of the light communication process in accordance with the first aspect of the invention. The upward communication cycle thus makes it possible to transmit to the attention of a compatible receptive telecommunications system a voice recording of the user of the light communication method in accordance with the first aspect of the invention.

The communication method according to the first aspect of the invention thus makes it easier to communicate in environments where oral communication is made difficult between two or more individuals, such as for example in noisy aquatic environments or industrial sites. Indeed, the communication method in accordance with the first aspect of the invention makes it possible to transform the recorded sound signal into a light signal representative of said sound signal - by modulating said light signal - and in order to be

-3 easily emitted and transported over long distances without the need for additional infrastructure.

By upward communication is meant the ability to transmit at least one audio signal in order to allow a user implementing the method according to the first aspect of the invention to - at least - transmit a voice recording by telecommunications by visible light. In other words, the communication method according to the first aspect of the invention makes it possible to transmit unidirectionally and by a visible light telecommunication method a voice recording of the user implementing said method.

The light communication method according to the first aspect of the invention advantageously comprises at least one of the improvements below, the technical characteristics forming these improvements can be taken alone or in combination:

- the light communication method according to the first aspect of the invention further comprises: (i) a step of receiving the light signal by a photodetector of the communication system, (ii) a step of demodulating the light signal into a digital signal decoded, the demodulation step being carried out by the electronic control card of the communication system, (iii) a step of generating a sound signal via a loudspeaker of the communication system. The steps of receiving the light signal, of demodulating and of generating the sound signal together form a downward communication cycle of the light communication process in accordance with the first aspect of the invention. The downward communication cycle thus makes it possible to receive from a transmitting and compatible telecommunications system a voice recording in order to make it audible to the user of the light communication process. The invention conforms to its first aspect and thus advantageously addresses a two-way communication method making it possible both to transmit via a telecommunication method by visible light a voice recording of the user implementing said method - during the upward communication cycle - and receive by the same method of telecommunication by visible light an audio recording

-4converted into an audible signal by said user - during the downlink communication cycle;

the light communication method according to the first aspect of the invention comprises a step of selecting a direction of communication of the light signal emitted by the at least one light source. This step thus makes it possible to orient the communication system in a particular direction in order to establish one-way or two-way communication with another compatible communication system;

according to a first alternative embodiment, the communication system implementing the light communication method according to the first aspect of the invention comprises a single light source, and the light communication method comprises a step of orienting the light source in the chosen communication direction. In this alternative embodiment, the light source of the communication system is advantageously articulated so that it can be oriented in the chosen direction;

according to a second variant embodiment, the communication system implementing the light communication method according to the first aspect of the invention comprises a plurality of light sources, and the light communication method comprises a step of selecting a sub- assembly of the plurality of light sources of said communication system, said subset of light sources being that oriented in the chosen communication direction. In this second variant embodiment, the communication system comprises a plurality of light sources each oriented in a different communication direction. Thus, the step of selecting the direction of communication returns to a step of selecting the subset of light sources corresponding to the direction of communication chosen in order to drive said subset so as to emit a light signal;

the light communication method according to the first aspect of the invention further comprises a step of geolocation of at least one receiver of another in order

-5to select the subset of light sources or to orient the light source in the chosen direction. This step cleverly makes it possible to automatically determine the light source or sources which must be configured to emit a light signal in order to enter into light communication with the at least one other receiver detected by the geolocation step. The geolocation step is ensured by any triangulation means, such as for example by GPS signals or by other telecommunication means, in particular in spaces where the GPS signals are ineffective;

- the light communication method according to the first aspect of the invention further comprises a step of adjusting a microphone acquisition volume - the light communication method according to the first aspect of the invention further comprises a step of adjustment of speaker audio volume.

According to a second aspect of the invention, there is proposed a communication system comprising means configured to implement all the steps of the light communication method according to the first aspect of the invention or according to any of its improvements.

In particular, the means comprise of the communication system comprise (i) a light communication module making it possible to transmit a digital signal, said light communication module comprising an electronic control card and at least one light source configured to emit at least one signal light modulated as a function of the digital signal encoded by said electronic control card, (ii) a microphone connected to the electronic control card of the light communication module, (iii) a loudspeaker connected to the electronic control card of the communication module light communication.

Thus, the communication system makes it possible to establish at least one-way communication using an optical transmission via the at least one light source for emitting the light signal representative of an audio signal recorded by the microphone. .

The communication system according to the second aspect of the invention advantageously comprises at least one of the improvements below, the technical characteristics forming these improvements can be taken alone or in combination:

~ Each light source of the light communication module comprises at least one light-emitting diode. In the case where the light source or sources comprises a plurality of light-emitting diodes, then the light-emitting diodes of the same light source are advantageously all located in the same plane in order to emit in a substantially identical emission direction. In general, the light-emitting diodes of the same light source are advantageously all configured to emit a light signal in a substantially identical direction of emission;

The light-emitting diodes forming the light source or sources are preferably configured to be able to emit a light signal whose wavelength is located in the spectrum visible to the human eye, that is to say advantageously between 450 nm and 700 nm. Preferably, an emission spectrum of the light source (s) has maximum energy in the wavelengths corresponding to red and / or green radiation in order to limit the impact of light emissions on underwater flora and fauna. Optionally or additionally, the emission spectrum of the light source (s) can also extend in the infrared or near-infrared range. Alternatively, the emission spectrum of the light source (s) is exclusively or mainly located in the infrared range. This advantageous configuration makes it possible to reduce the nuisance of the light communication module - when it is operating - on underwater flora and fauna;

The light signal generated by the light source or sources is modulated in amplitude and / or in frequency as a function of the digital signal encoded by the electronic control card;

The light communication module is advantageously a LIFI module configured to transmit and / or receive a digital signal coded according to a

-7communication says LIFI, English acronym for Light-Fidelity. The LiFi communication protocol is notably described in the IEEE 802.15.7 standard which addresses the communication protocols by visible light, objects of the present invention;

~ According to a first alternative embodiment of the communication system according to the second aspect of the invention, the microphone and / or the speaker are connected to the electronic control card of the light communication module via a link wired. According to a second alternative embodiment, the microphone and / or the speaker are connected to the electronic control card of the light communication module by means of a wireless link, for example of the bluetooth type;

The communication system in accordance with the second aspect of the invention comprises at least one source of electrical energy, and preferably a battery on board said communication system in order to power the light communication module and / or the microphone and / or the speaker;

- the light communication module and / or the microphone and / or the loudspeaker are housed in one or more waterproof boxes. According to a first alternative embodiment, they are all housed in the same sealed housing. According to a second alternative embodiment, they are all housed individually in sealed boxes. According to other alternative embodiments, the different means of the communication system are grouped in part in at least two sealed cases, according to any of the possible combinations of association;

- The means of the communication system according to the second aspect of the invention comprise at least one photodetector electrically connected to the electronic control card of the light communication module in order to demodulate a light signal received by said at least one photodetector. In the case where the communication system comprises a source of electrical energy, the at least one photodetector is advantageously electrically connected to said source of electrical energy in order to be able to operate independently.

Defined generally through the process according to the first aspect on the one hand, and through the communication system according to the second aspect on the other hand, the invention

- 8 addresses all the structural configurations of the communication system according to the second aspect of the invention or according to any one of its improvements. More particularly and without limitation, certain specific applications of the communication system are defined specifically below.

According to a third aspect of the invention, there is provided a flashlight comprising a housing housing (i) a light source, (ii) a battery and (iii) a communication system according to the second aspect of the invention or according to any of its enhancements.

The flashlight according to the third aspect of the invention advantageously comprises at least one of the improvements below, the technical characteristics forming these improvements can be taken alone or in combination:

according to a first alternative embodiment, the flashlight is of the type of a flashlight usable on dry land, such as for example on mining extraction sites, noisy industrial sites or on airport areas. According to a second alternative embodiment, the flashlight is of the type of an underwater flashlight, and it then in particular comprises sealing means;

at least one light source of the light communication module of the communication system is formed by the light source of the flashlight. In other words, it is the light source of the flashlight which is modulated by the electronic control card in order to transport the digital signal encoded by said electronic control card, in accordance with the invention;

when the communication system according to the second aspect of the invention comprises at least one photodetector, said at least one photodetector of said communication system is housed on the housing of said flashlight. This advantageous configuration makes it possible to establish two-way communication with the flashlight in accordance with the third aspect of the invention. In other words, the flashlight according to the third aspect of the invention forms an optical walkie-talkie making it possible to transmit - for example between two flashlights according to the invention - the digital signal encoded by the electronic control card. This advantageous configuration allows communication over very long distances, without further

-9infrastructure. A flashlight user can speak in front of their microphone so that it can record their voice. Subsequently, the electronic control card converts the audio signal thus recorded into an encoded digital signal in order to be able to control the light source of the flashlight - which forms the light source of the light communication module. The flashlight then emits a modulated light signal that carries the encoded audio information to the other flashlight. At the level of the other flashlight, the photodetector detects the modulated light signal and transforms it into a digital signal which is then transmitted to the electronic control card of said other flashlight. The electronic control card demodulates the digital signal and controls the loudspeaker of the other flashlight according to the demodulated signal: the loudspeaker then generates an audible signal which corresponds to that which had been recorded by the first flashlight;

when the communication system according to the second aspect of the invention comprises at least one photodetector, said at least one photodetector of the communication system is located near the at least one light source of the light communication module. This advantageous configuration makes it possible to optimize the detection of a light signal coming from another communication system, in particular in the establishment of a communication between two users as described above;

when the communication system according to the second aspect of the invention comprises at least one photodetector, in a direction of propagation of the light rays emitted by the at least one light source of the light communication module, said at least one photodetector of the communication system communication is located in front of the at least one light source of said light communication module. This advantageous configuration makes it possible to optimize the detection of a light signal coming from another communication system, in particular in the establishment of a communication between two users as described above;

when the communication system according to the second aspect of the invention comprises at least one photodetector, a solid angle of detection of said at least one photodetector of the communication system at least partially overlaps a

- 10 solid angle of emission of the at least one light source from the light communication module. This advantageous configuration makes it possible to optimize the detection of a light signal coming from another communication system, in particular in the establishment of a communication between two users as described above.

According to a fourth aspect of the invention, there is provided diving equipment comprising (i) a diving suit, (ii) a diving mask and (iii) a communication system according to the second aspect of the invention or according to any of its enhancements.

The diving equipment according to the fourth aspect of the invention advantageously comprises at least one of the improvements below, the technical characteristics forming these improvements can be taken alone or in combination:

- the light communication module of the communication system is fixedly attached to the diving mask;

- According to a first embodiment, when the communication system according to the second aspect of the invention comprises at least one photodetector, said at least one photodetector of the communication system is fixedly attached to the diving mask;

- In the first embodiment, the loudspeaker and / or the microphone of the communication system are fixedly attached to the diving mask. According to a first variant embodiment, the speaker and / or the microphone of the communication system are housed inside the diving mask. According to a second alternative embodiment, the speaker and / or the microphone of the communication system are housed outside the diving mask;

- According to a second embodiment, when the communication system according to the second aspect of the invention comprises at least one photodetector, said at least one photodetector of said communication system is fixedly attached to the diving suit. According to an advantageous improvement of this second mode of

- 11 embodiment, the diving suit comprises a plurality of photodetectors distributed over the surface of said diving suit;

in particular, in the second embodiment, the photodetectors are advantageously distributed at a dorsal surface of the diving suit and / or at the sleeves of said diving suit and / or at a plastron of said diving suit and / or at the level of a hood of said diving suit. This advantageous configuration makes it possible to improve the detection of a light signal reaching the plunger, without limiting its detection to a single particular detection direction;

the diving suit includes a wired electrical communication with the light communication module of the communication system;

the diving equipment according to the fourth aspect of the invention further comprises an aquatic flashlight, a light source of which is formed by at least one light source from the light communication module of the communication system. When the communication system according to the second aspect of the invention comprises at least one photodetector, the aquatic flashlight comprises at least one photodetector of the communication system;

the diving equipment according to the fourth aspect of the invention comprises a diving belt, said diving belt supporting the light communication module of the communication system. When the communication system according to the second aspect of the invention comprises at least one photodetector, the diving belt advantageously comprises one or more photodetectors of the communication system distributed along said diving belt;

the diving equipment according to the fourth aspect of the invention comprises a protective cover for diving tanks, said protective cover covering at least partially one or more of said diving tanks. When the communication system according to the second aspect of the invention comprises at least one photodetector, the protective cover advantageously comprises one or more

- 12 photodetectors of the communication system distributed over the surface of said protective cover.

Various embodiments of the invention are provided, integrating according to all of their possible combinations the different optional characteristics set out here.

Description of the figures

Other characteristics and advantages of the invention will become apparent from the following description on the one hand, and from several exemplary embodiments given by way of non-limiting indication with reference to the appended schematic drawings on the other hand, in which :

- FIGURE 1 illustrates an exemplary embodiment of the light communication method according to the first aspect of the invention;

- FIGURE 2 illustrates a communication system in accordance with the second aspect of the invention;

- FIGURE 3 illustrates diving equipment according to the fourth aspect of the invention and the type of diving mask;

- FIGURE 4 illustrates diving equipment according to the fourth aspect of the invention and the type of cover for diving tanks;

- FIGURES 5A and 5B illustrate front and back views of diving equipment in accordance with the fourth aspect of the invention and of the type of diving vest;

- FIGURE 6 illustrates diving equipment according to the fourth aspect of the invention and the type of a diving belt;

- FIGURE 7 illustrates diving equipment according to the fourth aspect of the invention and the type of a diving lamp;

- FIGURE 8 illustrates a protective helmet incorporating a communication system in accordance with the second aspect of the invention;

- FIGURE 9 illustrates a flashlight according to the invention.

- 13 Of course, the characteristics, the variants and the various embodiments of the invention can be associated with one another, according to various combinations, insofar as they are not incompatible or mutually exclusive of each other. One can in particular imagine variants of the invention comprising only a selection of characteristics described below in isolation from the other characteristics described, if this selection of characteristics is sufficient to confer a technical advantage or to differentiate the invention from in the prior art.

In particular, all the variants and all the embodiments described can be combined with one another if nothing is technically opposed to this combination.

In the figures, the elements common to several figures keep the same reference.

Detailed description of the invention

With reference to FIGURES 1 and 2, an exemplary embodiment of the method 1 of light communication in accordance with the first aspect of the invention is described, said method 1 being implemented by a communication system 100. In the example illustrated on the FIGURE 1, the method 1 comprises (i) an upward communication cycle 10 making it possible to emit an ascending light signal carrying information previously generated by said light communication method 1, and (ii) a downward communication cycle 20 allowing to receive a light signal.

More particularly, the upward communication cycle 10 includes:

- A step 11 of acquiring a sound signal by means of a microphone 114 of the communication system 100 as illustrated in FIGURE 2 for example;

A step 12 of encoding the sound signal into a digital signal for controlling at least one light source 112a, 112b, 112c of a light communication module 110 of the communication system 100 as illustrated in FIGURE 2 by example, the encoding step 12 being carried out by an electronic control card 111 of said communication system 100;

A step 14 for controlling the at least one light source 112a, 112b, 112c in order to emit at least one light signal, the amplitude of which is modulated as a function of the digital control signal. The at least one light source 112a, 112b, 112c is controlled by the electronic control card 111.

The upward communication cycle 10 implements light communication which converts an audio signal recorded by the microphone 114 of the communication system 100 into a light signal generated by the at least one light source 112a, 112b, 112c.

The upward communication cycle 10 optionally includes a step 13 for selecting the light source or sources 112a, 112b, 112c which are controlled by the electronic control card 111 of the communication system 100. In the example illustrated in FIGURE 2, the light communication module 110 of the communication system 100 includes 3 light sources 112a, 112b, 112c. Obviously, the number of light sources 112a, 112b, 112c is not limiting, and the communication system 100 according to the second aspect of the invention can advantageously include one or more light sources 112a, 112b, 112c.

In the case where the communication module 110 comprises several light sources 112a, 112b, 112c, they are advantageously oriented according to a plurality of different directions of communication from each other, so that a solid angle of emission of a first light source 112a is distinct or only partially covers a solid emission angle of a second light source 112b or of a third light source 112c, the solid emission angle being formed by all of the light rays emitted by a light source 112a, 112, 112c.

The microphone 114 of the communication system 100 and the light sources 112a, 112b, 112c of the light communication module 110 are connected to the electronic control card 111 by wire links 113. Thus, when the microphone 114 records an audio signal, said audio signal is transmitted to the electronic control card 111 which converts it into a digital signal which is in turn transmitted to the light sources 112a, 112b, 112c in order to drive them selectively or collectively. More specifically, the digital signal generated by the

The electronic control card 111 is encoded so as to generate, at the level of the corresponding light sources 112a, 112b, 112c, a modulated light signal. The modulation of the light signal generated is advantageously carried out according to the LIFI communication protocol as described above, and more particularly still according to a modulation of the amplitude of said light signal, as a function of the encoded digital signal.

As mentioned above, the light communication method 1 in accordance with the first aspect of the invention also includes the downlink communication cycle 20 which includes the following steps:

A step 21 of receiving the light signal by a photodetector 116 of the communication system 100;

A step 22 of demodulating the light signal into a decoded digital signal, the demodulation step being carried out by the electronic control card 111 of the communication system 100;

A step 23 of generating an audio signal via a speaker 115 of the communication system 100.

The downlink communication cycle 20 also implements light communication which converts a light signal detected by the photodetector 116 of the communication system 100 into a digital signal which is interpreted by the electronic control card 111 of said communication system 100.

In the example illustrated in FIGURE 2, the communication system 100 comprises a single photodetector 116. According to an advantageous variant of the invention according to its second aspect, the communication system 100 comprises one of a plurality of photodetectors 116, preferably oriented along a plurality of detection directions different from each other, so that a solid detection angle of a first photodetector 116 is distinct or only partially covers a solid detection angle of a second photodetector 116, the angle detection solid being formed by all of the light rays which can be detected a photodetector 116.

The loudspeaker 115 and the photodetector 116 of the communication system 100 are connected to the electronic control card 111 by wire links 113. Thus, when the photodetector 116 detects a light signal, said light signal is converted by said photodetector 116 into an electrical signal which is transmitted to the electronic control card 111. The electronic control card 111 decodes the signal generated by the photodetector 116 and in turn transmits an electrical signal to the speaker 115. The speaker 115 emits then an audible signal for a user and which depends on the light signal detected by the photodetector 116. The demodulation by the electronic control card 111 of the light signal detected by the photodetector 116 is advantageously carried out according to the LIFI communication protocol as described above.

As mentioned above, the communication system 100 according to the second aspect of the invention is intended to be integrated into one or more portable devices 200, 300, 400, 500, 600, 700, 800 in order to allow their user to communicate more easily using said integrated communication system. In FIGURES 3 to 9, several examples of such portable equipment 200, 300, 400, 500, 600, 700, 800 will now be described in order to detail certain particularly interesting applications of said communication system 100 according to the second aspect of the invention .

In particular, FIGURES 3 to 7 illustrate portable equipment 200, 300, 400, 500, 600, 700, 800 intended for use in aquatic environments, and more specifically for scuba diving:

- FIGURE 3 illustrates a diving mask 200;

- FIGURE 4 illustrates a cover 300 for diving tanks;

- FIGURE 5 illustrates a diving vest 400;

- FIGURE 6 illustrates a diving belt 500; and - FIGURE 7 illustrates a diving lamp 600.

In the context of the present invention, each of the diving equipment illustrated in FIGURES 3 to 7 can be used alone or in combination with each other. In particular,

- 17 it is particularly clever to use in combination the diving mask 200 as illustrated in FIGURE 3 in combination with the cover 300 for diving bottles illustrated in FIGURE4. Another example of particularly clever combinations of the diving equipment illustrated in FIGURES 3 to 7 is to associate the diving lamp 600 illustrated in FIGURE 7 with the diving vest illustrated in FIGURE 5 and possibly with the diving mask illustrated in FIGURE 3.

Referring to FIGURE 3, the diving mask 200 comprises (i) a peripheral frame 220 provided with a visor 230, (ii) a flexible skirt - not visible in FIGURE 3 - fixed to the peripheral frame 220, said flexible skirt forming, with the peripheral frame 220 and the visor 230, a vision chamber for the user of said diving mask 200, (iii) a communication system 100 comprising a light communication module 110 making it possible to transmit and / or send a digital signal, said light communication module 110 comprising an electronic control card 111 and at least one light source 112 configured to emit a light signal modulated as a function of the digital signal encoded by said electronic control card 111.

In the example illustrated in FIGURE 3, the light communication module 110 advantageously comprises several light sources 112 and several photodetectors 116 in order to respectively emit a light signal in several directions around the diving mask 200 and detect light signals from multiple directions around the diving mask 200, as described above. Optionally, the light communication module 110 comprises a single light source 112 and / or a single photodetector 116.

The 200 diving mask allows both the user to keep their eyes open while underwater and to breathe without having to lift their head out of the water. For this purpose, the diving mask 200 illustrated in FIGURE 3 advantageously comprises a breathing tube 210. By breathing tube 210, the invention addresses in particular, but not exclusively, a tuba having a distal end open relative to the frame device 220 or a flexible tube connected to a source of compressed air - such as for example one or more diving cylinders - carried by the user of the diving mask 200.

- 18 The peripheral frame 220 of the diving mask 200 also includes an intermediate partition which separates the vision chamber from a breathing chamber 240. The breathing chamber 240 is located below the vision chamber: it extends to the level of the mouth and / or nostrils of the user equipped with the diving mask 200. This advantageous configuration thus makes it possible to accommodate the mouth and the nose of the user in the breathing chamber 240, while the eyes of the user are housed in the vision room.

The breathing tube 210 is in fluid communication with the breathing chamber 240 of the diving mask 200. For this purpose, the peripheral frame 220 advantageously houses at least one fluid conduit which extends from one end of the breathing tube 210 in engagement with said peripheral frame 220, up to an opening in said peripheral frame 220 situated at the level of the breathing chamber 240.

The diving mask 10 illustrated in FIGURE 3 may also include a microphone 114 in order to allow the recording of the voice of the user of said diving mask 200. The microphone is advantageously placed at the level of the breathing chamber zone 240. More particularly, the microphone 114 is located close to, or even facing, the mouth of the user wearing the diving mask 200. The microphone 114 is advantageously fixed to the visor 230 or to the peripheral frame 220 of the diving mask 200 It is preferably located inside the breathing chamber 240 so as not to get wet when the diving mask 200 is immersed.

Advantageously, the diving mask 200 also includes an electrical connection interface so that it can be associated with the diving cover 300 and / or with the diving vest 400 and / or with the diving belt 500 and / or with the diving lamp 600.

With reference to FIGURE 4, the cover 300 for diving tank 320 includes:

- One or two temporary attachment means 330, such as for example straps in order to be able to temporarily secure the cover 300 to the diving tank 320;

- a harness 310 allowing the user to carry the diving bottle 320 by means of the cover 300;

A communication surface 340 which at least partially embeds the light communication module 110 of the communication system 100.

More particularly, the communication surface advantageously comprises several light sources 112 and several photodetectors 116 in order to respectively emit a light signal in several directions around the cover 300 and detect light signals coming from multiple directions around said cover 300, as described previously. Optionally, the light communication module 110 on board the cover 300 comprises a single light source 112 and / or a single photodetector 116.

Optionally, the diving cover 300 also includes the electronic control card 111 in order to control the light source (s) 112 and / or the photodetector (s) 116 and / or the microphone 114 and / or the speaker (s) 115 of the communication 100.

Advantageously, the cover 300 also includes an electrical connection interface so that it can be associated with the diving mask 200 and / or with the diving vest 400 and / or with the diving belt 500 and / or with the flashlight. diving 600.

With reference to FIGURES 5A and 5B, the diving vest 400 comprises a plastron 410 held by a belt, in order to allow its user to wear it. At a lower part of the diving jacket 400, said diving jacket comprises the light communication module 110 of the communication system 100. More particularly, the lower part of the diving jacket 400 advantageously comprises several light sources 112 and several photodetectors 116 in order to respectively emit a light signal in several directions around the diving jacket 400 and detect light signals coming from multiple directions around said diving jacket 400, as described above. Optionally, the light communication module 110 on board the vest 400 comprises a single light source 112 and / or a single photodetector 116.

The diving vest 400 also includes the electronic control card 111 at its dorsal part, as visible in FIGURE 5B, in order to control the light source (s) 112 and / or the photodetector (s) 116 and / or the microphone 114 and / or the speaker (s) 115 of the communication system 100. The electronic control card 111 is advantageously

-20fixed integrally to the diving vest 400 by removable attachment means. The diving vest 400 also advantageously comprises a battery in order to supply electricity to the communication system 100. The electronic control card 111 and / or the battery are preferably housed in waterproof cases.

Advantageously, the diving vest 400 also includes an electrical connection interface 117 so that it can be associated with the diving mask 200 and / or with the diving cover 300 and / or with the diving belt 500 and / or with the diving lamp 600.

Referring to FIGURE 6, the diving belt 500, 510 comprises the light communication module 110 of the communication system 100. More particularly, the diving belt 500 advantageously comprises several light sources 112 and several photodetectors 116 in order to respectively emit a light signal in several directions around the diving belt 500 and detecting light signals from multiple directions around said diving belt 500, as described above. Optionally, the light communication module 110 on board the diving belt 500 comprises a single light source 112 and / or a single photodetector 116.

The diving belt 500 also includes the electronic control card 111 in order to control the light source (s) 112 and / or the photodetector (s) 116 and / or the microphone 114 and / or the speaker (s) 115 of the communication system 100. The electronic control card 111 is advantageously fixed integrally to the diving belt 500 by removable attachment means. The diving belt 500 also advantageously comprises a battery in order to supply electricity to the communication system 100. The electronic control card 111 and / or the battery are preferably housed in waterproof cases.

Advantageously, the diving belt 500 also includes an electrical connection interface so that it can be associated with the diving mask 200 and / or with the diving cover 300 and / or with the diving vest 400 and / or with the diving lamp 600.

With reference to FIGURE 7, the diving lamp 600 comprises a glove 610 which houses the light communication module 110 of the communication system 100. In this case, the light communication module 110 of the communication system also includes an optic so

-21 to form a light beam from the light signal generated by the light source 112 of said light communication module 110. The optics of the flashlight makes it possible to project the light beam in a particular direction of communication.

The diving lamp 600 also advantageously houses a battery in order to supply electricity to the communication system 100 and / or its light communication module 110. The diving lamp 600 advantageously comprises an electrical connection 113 in order to allow its integration and connection. with the other components of the communication system 100.

In particular, the diving lamp 600 also includes an electrical connection interface so that it can be associated with the diving mask 200 and / or with the diving cover 300 and / or with the diving vest 400 and / or with the belt diving 500.

Thus, the diving equipment illustrated in FIGURES 3 to 7 make it possible, alone or in combination, to generate light communication by transforming an audio signal recorded by a microphone 114, for example integrated on diving mask 200, into a light signal via the source. light 112 of the light communication module 110 integrated on any of the diving equipment described. This advantageous configuration enables one-way LIFI communication to be established.

Preferably, the communication system 100 integrated on one or more of the diving equipment described in FIGURES 3 to 7 comprises at least one photodetector. This advantageous configuration makes it possible to detect a LIFI light signal and to convert it into an audio signal which is made audible to the user of the communication system 100 via the speaker or speakers housed for example in the diving mask 200 It is thus possible to establish a two-way LIFI type communication.

With reference to FIGURES 8 and 9 there is shown portable equipment 200, 300, 400, 500, 600, 700, 800 intended for use in noisy industrial environments, such as for example near airports, on sites of mining or on construction sites:

- FIGURE 8 illustrates a protective helmet 700; and

FIG. 9 illustrates a torch 800.

In the context of the present invention, the portable equipment illustrated in FIGURES 8 and 9 can be used alone or in combination with each other.

Referring to FIGURE 8, the protective helmet 700 comprises the light communication module 110 of the communication system 100. More particularly, several light sources 112 and several photodetectors 116 are distributed all around the protective helmet 700 in order to respectively emit a light signal in several directions around the protective helmet 700 and detecting light signals coming from multiple directions around said protective helmet 700, as described above. Optionally, the light communication module 110 on board the protective helmet 700 comprises a single light source 112 and / or a single photodetector 116, preferably located in the frontal position, above a visor of said protective helmet 700.

Advantageously, the protective helmet 700 also includes the electronic control card 111 in order to control the light source or sources 112 and / or the photodetector (s) 116 and / or the microphone and / or the speaker (s) (not shown in FIGURE 8) of the communication system 100. The electronic control card 111 is advantageously housed in a wall of the protective helmet 700. The protective helmet 700 also advantageously comprises a battery in order to supply electricity to the communication system 100.

Protective headphones 700 may also include speakers in the form of headphones located on side walls.

Advantageously, the protective helmet 700 also advantageously comprises an electrical connection interface so that it can be associated with the flashlight 800 illustrated in FIGURE 9.

As shown in FIGURE 9, the flashlight 800 comprises a light source forming the light source 112 of the light communication module 110 of the communication system 110, a battery for electrically supplying the communication module

-23 light 110 and / or the communication system 100. The light source of the flashlight 800 advantageously comprises an optic in order to form a light beam from the light signal generated by the light source 112 of said light communication module 110. The optics of the torch 800 makes it possible to project the light beam in a particular direction of communication.

The torch 800 advantageously comprises an electrical connection 113 and an electrical connection interface 117 in order to allow its integration and connection with the other components of the communication system 100, and in particular with the protective helmet.

Thus, the torch 800 makes it possible to generate a light communication and, in collaboration with the protective helmet 700, to transform an audio signal recorded by a microphone, for example integrated on said protective helmet 700, into a luminous signal via the source light 112 of the flashlight. This advantageous configuration enables one-way LIFI communication to be established.

Preferably, the flashlight comprises a photodetector not shown in the FIGURE

9. This advantageous configuration makes it possible, via the flashlight 800, to detect a LIFI light signal and to convert it into an audio signal which is made audible to the user of the communication system 100 via the speaker or speakers housed. for example in the 700 protective helmet. It is thus possible to establish a two-way LIFI type communication.

In summary, the invention relates to a light communication method 10 for converting an audio signal into a light signal which is generated by a light source 112 of a light communication module 110 of a communication system 100 in order to establish one-way LIFI communication. In addition, the invention also relates to the detection of a light signal by a photodetector 116 of the communication system 100, said detected light signal carrying modulated information. The conversion of said detected light signal into an audio signal makes it possible to establish a two-way LIFI communication. The invention then addresses - not

-24limitative - a communication system and its applications in the fields of scuba diving and mining.

Of course, the invention is not limited to the examples which have just been described and numerous modifications can be made to these examples without departing from the scope of the invention.

5 In particular, the different characteristics, forms, variants and embodiments of the invention can be associated with each other in various combinations insofar as they are not incompatible or mutually exclusive of each other. In particular, all the variants and embodiments described above can be combined with one another.

Claims (15)

1. Method (1) of light communication comprising the following steps: - A step (11) of acquiring a sound signal by means of a microphone (114) of a communication system (100); A step (12) of encoding the sound signal into a digital signal for controlling at least one light source (112), the step (12) of encoding being carried out by an electronic control card (111) of the communication system (100); - A step (14) for controlling the at least one light source (112) in order to emit at least one light signal, the amplitude of which is modulated as a function of the digital control signal. 2. A method (1) of light communication according to the preceding claim, wherein said method (1) comprises the following steps: - a step (21) of receiving the light signal by a photodetector (116) of the communication system (100); - A step (22) of demodulating the light signal into a decoded digital signal, the step (22) of demodulation being carried out by the electronic control card (111) of the communication system (100); - a step of generating a sound signal by means of a speaker (115) of the communication system (100). 3- A method (1) of light communication according to any one of the preceding claims and comprising a step (13) of selecting a direction of communication of the light signal emitted by the at least one light source (112). 4. Communication system (100) comprising means configured to implement all the steps of the method (1) of light communication according to any one of the preceding claims, said means comprising: - a light communication module (110) for transmitting a digital signal, said light communication module (110) comprising an electronic control card (111) and at least one light source (112) configured to emit at least one light signal modulated as a function of the digital signal encoded by said electronic control card (111); - a microphone (114) connected to the electronic control card (111) of the light communication module (110); - a loudspeaker (115) connected to the electronic control card (111) of the light communication module (110). 5. Communication system (100) according to the preceding claim, wherein the means of said communication system (100) comprise at least one photodetector (116) electrically connected to the electronic control card (111) of the light communication module (110 ) in order to demodulate a light signal received by said at least one photodetector (116). 6. Flashlight (600, 800) comprising a housing housing: - a light source forming at least one light source (112) of the light communication module (110) of the communication system (100); - a battery ; - a communication system (100) according to any one of claims 4 or 5. 7- Flashlight (600, 800) according to the preceding claim taken in combination with the communication system (100) according to claim 5, wherein a solid angle of detection of the at least one photodetector (116) of the communication system (100) at least partially overlaps a solid emission angle of the at least one light source (112) of the light communication module (110). 8. Diving equipment including: - a wetsuit ; - a diving mask (200); - a communication system (100) according to any one of claims 4 or 5. 9. Diving equipment according to claim 8, wherein the light communication module (110) of the communication system (100) is fixedly attached to the diving mask (200). 10. Diving equipment according to the preceding claim taken in combination with the communication system (100) according to claim 5, wherein the at least one photodetector (112) and / or the speaker (115) and / or the microphone (114) of the communication system (100) are fixedly attached to the diving mask (200). 11. Diving equipment according to any one of claims 8 to 10 taken in combination with the communication system (100) according to claim 5, wherein in which the at least one photodetector (116) of said communication system (100 ) is securely attached to the wetsuit (200). 12. Diving equipment according to any one of claims 8 to 11, said diving equipment further comprising a flashlight (600) aquatic of which a light source is formed by at least one light source (112) of the module communication system (110) of the communication system (100). 13- Diving equipment according to the preceding claim taken in combination with the communication system (100) according to claim 5, wherein the aquatic flashlight (600) comprises at least one photodetector (116) of the communication system (100 ). 14. Diving equipment according to any one of claims 8 to 13 and comprising a diving belt (500), said diving belt (500) supporting the light communication module (110) of the communication system (100). 15. Diving equipment according to the preceding claim taken in combination with the communication system (100) according to claim 5, wherein the diving belt (500) comprises one or more photodetectors (116) of the communication system (100) distributed along said diving belt (500).