FR2987542A1 - Method for managing access to virtual communication space in e.g. social networking website from cellphone, involves providing access to virtual communication space if presence of mobile terminal in geographic area is verified - Google Patents

Abstract

The method involves associating a specific geographical area (15) with a virtual communication space (14), and transmitting an access request to the virtual communication space by a mobile terminal (12) through a communication network. The presence of the mobile terminal in the geographical area is tested, and access to the virtual communication space is provided if the presence of the mobile terminal in the geographic area is verified. The presence of the terminal is determined if a communication is established between the terminal and another communication network that covers the area. Independent claims are also included for the following: (1) a management server for managing access to a virtual communication space from a mobile terminal (2) a computer program product comprising a set of instructions for managing access to the virtual communication space from the mobile terminal.

Description

A method of managing access of a terminal to a virtual communication space, computer program product and associated management server. FIELD OF THE INVENTION The technical field of the invention is that of virtual communication spaces. More particularly, the invention relates to a system and method for managing access to such virtual communication spaces. 2. Prior Art Nowadays, the new virtual communication spaces offered by so-called social networks (or "social networks") are growing in popularity. Here we mean by "social network" a communication structure connecting members (individuals (individuals) or organizations or companies (legal persons)) who are linked to each other by at least one specific type of relationship. The relationship between members, for example, depends on common interests, common values, common ideas, exchanges (financial, commercial, political, and the like), common friends, relatives, common dislikes, business relationships or joint work, Internet links, medical problems, or commuting. There are several different types of social network set up on the internet. The most popular consumer social networks are Facebook, MySpace and Linkedln (registered trademarks). They provide their members with a multitude of means to interact with each other, including real-time text messaging or audio ("chat" or IM (for "Instant Messaging")), email (or email or "E-mail"), video, file sharing, discussion forums (or groups), receipt of promotional offers, or the provision of online information (or "blogs"), or generally speaking, access to a service.

Corporate social networks are intended to provide teams, internal or external, a collaborative space based on social interaction between individuals, which promotes professional exchange, group work and access to information.

Generally, the known social networks set up on the Internet are universal in the sense that they are accessible by any individual wherever he is. As soon as a user has an Internet connection, he can access the entrance portal of a social network. The entry into the social network is then conditioned by the provision by the user of identification and / or authentication data (identifier, password, ...). Once in, the user can communicate with a community of individuals. Nowadays, social networks offer virtual communication spaces that bring together individuals without geographical constraints. Access to a network by a cable connected to a terminal or using a mobile phone does not take into account where the terminal or the telephone is located. As a result, the known social networks have the disadvantage of not guaranteeing to the user, before having access to it, that the members with whom he will communicate in the virtual communication space, are physically located in the neighborhood of the user. These known social networks are therefore not well adapted to the case of a user who is physically located in a given place and who wishes to access a virtual communication space to communicate only with individuals who are physically in that particular place, in the goal for example to actually meet one or more of these individuals in this same place. 3. Objectives of the invention The invention, in at least one particular embodiment, has the particular objective of overcoming the disadvantage described above. More specifically, in at least one embodiment of the invention, an objective is to provide a technique for managing access to a virtual communication space. Such a technique aims in particular to guarantee the user that the individuals with whom he will communicate in the virtual communication space, are physically located in the neighborhood where he is currently.

Another objective of at least one embodiment of the invention is to provide such a technique which systematically allows the constitution of communities of individuals located in the same geographical area. Finally, in at least one embodiment of the invention, another objective is to provide such a technique that is simple to implement and inexpensive. 4. DESCRIPTION OF THE INVENTION In a particular embodiment of the invention, there is provided a method of managing access to a virtual communication space by a mobile terminal communicating through a first communication network. The method comprises a prior step of associating a determined geographical area with said virtual communication space, a step of transmission by the mobile terminal of a request for access to the communication space through the first network of communication, a step of testing the presence of the terminal in said geographical area, and a step of authorizing access to the communication space if the presence of the terminal in the geographical area is verified. Thus, it is proposed a geo-localized virtual communication space, that is to say a virtual communication space that is only accessible from a predetermined geographical area. Indeed, it is proposed to associate a predetermined geographical area with a virtual communication space, and to condition the access to this virtual communication space by detecting the presence of the terminal, and therefore the user of this terminal , in the predetermined geographical area.

Thus, and unlike the virtual communication spaces described above in connection with the prior art and for which access is allowed to all users whose terminal is connected to the Internet, the invention proposes to not allow the access to the virtual communication space only to users present in the predetermined geographical area. Users outside the predetermined geographical area are prohibited anyway access to the virtual communication space. In this way, the access management technique according to the invention makes it possible to guarantee to the user, before access to the virtual communication space, that the individuals with whom he will communicate (in this virtual communication space) physically present with him in the predetermined geographical area. According to a particular embodiment, the determined geographical area is covered by a second communication network, the terminal being present if a communication between the mobile terminal and said second communication network is established. In this way, a second communication network covering the geographic area associated with the virtual communication space is used to detect the presence of the terminal. According to a particular embodiment, the test of the presence of the terminal is carried out by transmitting the GPS coordinates of the terminal to a management server of the first virtual communication space, said server verifying that the GPS coordinates correspond to a location in the first geographical area. In this way, the location of the terminal is performed by the latter and without using the resources of a ground network. According to a particular embodiment, in the absence of the terminal in the geographical area, access to the communication space is limited to a portion of the functionalities offered by the communication space. In this way, even if the terminal is not detected in the given geographical area, it still has access to certain services offered by the virtual communication space. According to an improvement, the terminal has access to only part of the resources to which it would have access if the terminal was detected. In this way, the terminal can prepare actions that it can finalize when its presence in the geographical area associated with the virtual communication space will be detected. According to a particular embodiment, access to the communication space is granted on presentation of a secret code introduced at the mobile terminal, said code being associated with said communication space. In this way, access to the virtual communication space is secure and limited to a certain number of users. According to a particular embodiment, a plurality of geographical areas are associated with as many virtual communication spaces and are nested in each other thus forming a hierarchy. Access to the terminal in a communication space associated with a given geographical area allows access to the virtual communication spaces associated with the geographical areas that contain the given geographical area. In this way, the user who has access to a reduced virtual communication space, can also access a larger space whose associated geographical area includes that of the reduced space. According to one particular embodiment, several virtual communication spaces are associated with the zone where the mobile terminal is located. A user of this terminal introduces his profile consisting of his preferences and access to different virtual communication spaces is made according to the profile. In this way, the user accesses virtual communication spaces that correspond to his preferences. According to a particular embodiment, a list of users whose terminals are detected in the determined geographical area is determined and proposed to the user to establish a communication with at least one of said terminals listed. In this way, the user can communicate with other users who are in the same geographical area as him. The present invention also relates to a management server for managing the access of a mobile terminal communicating with a virtual communication space 30 through a first communication network. This server comprises means for associating a determined geographical area with said virtual communication space, means for receiving a request for access to the communication space transmitted by this mobile terminal through the first communication network means for determining the presence of said terminal in the geographical area, and means for granting access to the communication space if the presence of the terminal in the geographical area is verified. The invention also relates to a computer program product comprising program instructions for executing the method. 5. List of Figures Other features and advantages of the invention will appear more clearly on reading the following description of a particular embodiment, given as a simple illustrative and non-limiting example, and the accompanying drawings. Among others: Other features and advantages of the invention will appear on reading the following description, given by way of indicative and nonlimiting example, and the appended drawings, in which: FIG. 1 presents a first example of a system implementing a management server according to a first embodiment of the invention; FIG. 2 presents the main steps of an access management algorithm implemented by the management server of FIG. 1, according to one embodiment; FIG. 3 shows another example of a system implementing a management server according to another embodiment of the invention; - Figure 4 shows the steps of an access management algorithm implemented by a management server, according to a particular embodiment; FIG. 5 shows the simplified structure of a management server according to a particular embodiment of the invention; and FIG. 6 shows an example of an architecture of virtual communication spaces associated with nested geographic areas, according to a particular embodiment. 6. DESCRIPTION OF AN EMBODIMENT OF THE INVENTION The general principle of the invention rests on the implementation of conditioned access for a mobile terminal to a virtual communication space associated with a predetermined geographical area. More specifically, the invention proposes to allow access to a virtual communication space, when the mobile terminal (and therefore the user who is supposed to be next to his terminal) is located in this predetermined geographical area. Access to the virtual communication space is managed by a server itself controlled by an operator subsequently called "site manager". The management server that serves as a secure access portal can be positioned inside or outside the predetermined geographical area. The terminal's access to the management server can be done either via a public communication network (for example the Internet) or via a private communication network. The virtual communication space designates a site accessible to the users of the terminals through a communication network and delivering one or more services. FIG. 1 shows a system implementing a management server and a user terminal according to a first embodiment of the invention. The system 1 illustrated in FIG. 1 comprises a management server 11 and at least one mobile terminal 12 belonging to a user 13. The mobile terminal 12 designates any mobile electronic device capable of communicating with a wired or wireless communication network. such as a laptop, cell phone, smartphone, etc. In this first example, the mobile terminal 12 accesses the management server 11 via, for example, the Internet (not shown). It is assumed that the web address of the management server 11 is known to the user. For example, this web address could be communicated to him by SMS or email, or by means of an advertisement. A function of the management server consists in controlling the access according to the position of a mobile terminal that requests access to a virtual communication space 14. A geographical reference zone 15 is associated with this virtual space. The geographical reference zone 15 is delimited, for example, by the perimeter of a hotel or school, or the area covered by an airport, or the area of a ski resort. A site administrator configures the management server 11 to define the conditions of access to the virtual communication space 14. The management server receives the geolocation information of mobile terminals 12 and authorizes or not access according to said information . FIG. 1 shows a set of individuals G1 which are physically located in the reference geographical area 15, and who have access to the virtual communication space 14. The management server 11 comprises a storage module (not shown) in which information associating the virtual communication space 14 and the characteristics of the geographical reference area 15 are stored. In another particular embodiment, the management server 11 may cooperate with a remote central server which manages a table containing a plurality of pairs of information each associating a virtual communication space and a predetermined geographical area. In the example illustrated in FIG. 1, the management server 11 comprises or cooperates with a radiocommunication module 16 which is able to implement a communication technology belonging to the group comprising: o the "Bluetooth" technology; o Wi-Fi technology; o RFID technology; o Near Field Communication (NFC) technology for "near field communication"; o Infrared technology. In the following description, it is assumed that the radiocommunication module 16 implements the Wi-Fi technology. The radiocommunication module 16 is configured to send and receive signals in a predefined coverage area 17. In an advantageous example, the Wi-Fi coverage area 17 is merged with the geographic reference area 15. The fiture 2 presents the main steps of an exemplary access management algorithm according to a particular embodiment of the invention. 'invention. It is assumed that the terminal 12 is a portable computer comprising means enabling it to access the Internet network using an Ethernet cable, and means enabling it to communicate by radio over a local Wi-Fi network. Initially, the user 13 and his terminal are located outside the geographical reference zone 15. The user 13, who has knowledge of the web address of the management server 11, connects his terminal 12 to a cable and asks access to the management server 11, via the Internet network. Once connected to the management server 11, in the step E21, the user requests access to the virtual communication space 14. The terminal 12 transmits to the management server 11 an access request message via the network Internet, which contains an identifier of the terminal 12 (for example, the IP address of the terminal 12). The transmitted message may also contain the characteristics of the terminal's Wi-Fi equipment. The management server 11 receives the access request message from the terminal 12. In the step E22, the server 11 then determines the location means for verifying the presence of the terminal in the determined geographical area 15, in accordance with FIG. The management server 11 uses the radiocommunication module 16 to transmit (step E23), in the coverage area 17 and to the terminal 12 (using for example the IP address). terminal 12), a communication message and waiting for a response (step E24). If the terminal is outside the coverage area 17, it can not answer and the server infers that it is not in the Wi-Fi coverage area and therefore can not access the virtual communication space 14 (step E25). If, on the other hand, the terminal responds by using the Wi-Fi network, the server considers that it is in the geographical reference zone 15 and can, according to a simple embodiment, have access to the virtual communication network 14 (step E26 ). At time t1, a dialogue is established between the management server 11 and the terminal through the communication module 16 and the terminal displays a message indicating that the communication is established through this second means of communication, the local network Wi-Fi in this case. If the message does not appear, the user deduces that it is not in the Wi-Fi coverage area 17 and can then move his terminal. The user can thus search for a position for his terminal in the coverage area, which is shown diagrammatically in FIG. 1 by the arrow 18 and thus have access to the virtual communication space 14. Once the terminal 12 is considered to be present in the geographical reference zone 15, the terminal 12 receives the access confirmation request message sent by the management server 11. For example, the access confirmation request message may be of the type: Would you like to access the virtual communication area of this hotel? ". The user enters an agreement command, for example by selecting the "YES" icon on the menu displayed on his terminal 12. The terminal then transmits to the management server 11 an access confirmation response. If the virtual communication space covers a messaging application between several users present in the same geographical area, then the management server determines the list of users whose terminals are located in the reference geographical area 15. The list is then transmitted and displayed at the terminal 12 for the user to take cognizance of it. The user can then select from the list one or more other users and ask the management server to establish a communication with at least one of said terminals listed. Thus, the user can directly contact one or more users of the user group G1 located in the virtual communication space 14. According to a particular embodiment, when the user requests access to the space of virtual communication 14 but that its presence is not detected by the management server 11 managing said space, it still has access to only part of the resources to which it would have access by the management server if the terminal was detected in the reference geographical area 15. For example, the user who is at his home, requests access to the site of a certain airport, that of Nantes in France for example, to order a plane ticket. The airport management server does not detect the user because he is at home. Therefore, it accepts the booking of the ticket as well as the payment but it does not trigger the delivery of the ticket to a ticket office. When the user arrives at the airport and requests to communicate with the same server, his physical presence is detected in the area of the airport and the ticket issuing request is taken into account. The management server then informs the user of the availability of the ticket at a counter. Figure 3 illustrates another embodiment in which the determined geographical area consists of a plurality of nested areas. In the example illustrated in FIG. 3, the management server 31 has the function of managing access to different levels N1, N2, N3 and N4 of virtual communication spaces. For example, the first level N1 comprises the virtual communication spaces 361. Each of the virtual communication spaces of the first level N1 is configured to group, for example, the customers of the same hotel in a given city. For example, the virtual communication space 364 can group all the individuals located in the same three-star hotel in Nantes.

For example, the second level N2 comprises the virtual communication spaces 362. Each of the virtual communication spaces of the second level N2 is configured to group, for example, all the customers of the hotels of the same category in a given city. For example, the virtual communication space 362 can group all the individuals of all three-star hotels in Nantes. For example, the third level N3 includes the virtual communication space 363a and 363b. The virtual communication space 363a is configured to group, for example, all the hotel guests of a given city. For example, the virtual communication space 363a can group all the individuals of all the hotels (1, 2, 3, 4 and 5 stars) of Nantes. For example, the fourth level N4 includes the virtual communication space 364. The virtual communication space 47 is configured to group, for example, all the hotel customers of a given city and all the users (who are connected to the management server and which satisfy the geolocation access conditions according to the present invention) geolocated in this given city. For example, the virtual communication space 364 can include all the individuals and inhabitants of a city such as the city of Nantes in France.

In this exemplary embodiment, the management server 31 comprises a storage module in which a list ordered according to the levels and containing pairs of information is stored. Each pair of information associates a virtual communication space and reference location information defining a geographical area. For example, the list associated with the level N1 contains a pair of information that associates the virtual communication space 361 and location information defining the geographical area 351, the list associated with the level N2 contains a pair of information that associates the area. virtual communication space 362 and location information defining the geographical area 352, the list associated with the level N3 contains a pair of information that associates the virtual communication space 363a or 363b and location information defining the geographical area 353. etc. For the sake of simplification of the description, reference will be made in the remainder of this document to describing the particular case where the reference location information is GPS coordinates (abbreviated "Global Positioning System" in English) transmitted by the terminals. different users. An alternative is to use the geographical cell identifiers of the GSM network (abbreviated "Global System Mobile" in English). In this case, the terminal 32 is configured to determine, for a current geographical position, current cell identifiers, for example, by implementing the conventional cell identification technique, called Cell-ID. This Cell-ID technique is well known to those skilled in the art and therefore not described in detail. Thus, in this other embodiment, the management server could detect the presence of the terminal 32 in the geographical zone 34, by checking whether at least one of the current cell identifiers is part of the reference cell identifiers defining the geographical zone 34. In this embodiment, the management server 31 is located outside the geographical zone 34 and is at least responsible for access to the virtual communication spaces 361, 362, 363a, 363b to 364. In another embodiment, realization, the management server 31 can cooperate with a remote service provider server which is in charge of implementing the virtual communication spaces 361, 362, 363a, 363b to 364. This feature makes it possible to simplify the management server structure 31. The management server cooperates in particular with a mail server for connecting the users present in a certain geographical area. According to another particular embodiment, the management server 11 has access to the profile of the user stored in the storage means. The profile data makes it possible to facilitate access to the virtual communication space by taking into account, for example, the language of the user, or his means of payment if the access is paying. Profile data is also used to filter virtual spaces that may be of interest to the user. If, for example, 5 virtual spaces are associated with the geographical area where the user is located, filtering by the profile makes it possible to offer access to only 2, for example the messaging and the movie ads which are displayed in neighborhood cinemas. If the user has not yet created a profile, he may be invited to do so by the management server 11 by filling out a form. Another way to establish a profile is to analyze the requests for use of the terminal and to deduce the habits and preferences of the user.

Fiture 4 presents the main steps of an access management algorithm implemented by the management server 31, according to one particular embodiment of the invention and in the context illustrated in FIG. 3. The mobile terminal 12 has a GSM radio module and a satellite location module (or GPS module) capable of obtaining absolute location information. It is assumed that the user 33 is in the geographic area 48. The user 33, who has knowledge of the web address of the management server 31, uses his terminal 32 to access the management server 31, via the network Internet and the GSM network. Once the communication with the server 31 is established, the user 33 requests access to a virtual communication space. The management server 31 receives (step E41) the access request message from the terminal 32 and transmits (step E42) to the terminal 32 a GPS coordinate supply request message. This message can be, for example, of the type: "Allow the transmission of the GPS coordinates of your current geographical position? ". If the user clicks on the "NO" icon, then the terminal 32 transmits no GPS coordinates to the management server 31 and the access management algorithm terminates (step E44). Access to all the services offered by the virtual communication space is then not authorized by the management server 31. If the user clicks on the "YES" icon, then the terminal 32 uses its module. GPS location 321 to obtain the GPS coordinates for the current geographical position of the terminal 32. The terminal 32 then transmits to the management server 31 a response containing the current GPS coordinates.

The management server 31 receives (step E43) the response from the terminal from which it extracts the current GPS coordinates. Then, the management server 31 analyzes (step E45) the current GPS coordinates. For example, such an analysis may include checking whether the current GPS coordinates correspond to reference GPS coordinates corresponding to predetermined geographical areas. As indicated above, in this exemplary embodiment the set of reference GPS coordinates is stored in the storage module of the management server 31. This set of reference GPS coordinates are stored in a remote storage server accessible by the management server 31.

In the example of FIG. 4, after analysis of the current GPS coordinates, the management server 31 detects (step E46) that the terminal 32 is located in a geographical zone 354 and authorizes (step E47) the access of the terminal 32 to the virtual communication space 364 associated with this geographical zone. The user 33 can then communicate with the individuals G31 in the virtual communication space 364. If the management server 31 determines that the terminal 32 is not located in any predetermined geographical zone, the management server 31 prohibits access from the terminal 32 to any virtual communication space. (step E49). Advantageously, the management server 31 transmits (step E48) to the terminal 32 a message indicating to the user that he can access higher level virtual communication spaces (also hereinafter called second virtual communication spaces). As illustrated in FIG. 3, the user, who has been authorized to access the virtual communication space 364, can also access the virtual communication spaces 361, 362, 363a.

Advantageously, the message contains information on the number of individual (s) present in each of the virtual communication spaces 361, 362, 363a, 363b or 364, or in more detail, the list of individuals identified by the IP address of their terminals.

Advantageously, the user can at any time change the virtual communication space. Thus, the user can at any time expand or refine the group of individuals with whom he communicates. Advantageously, for each of the virtual communication spaces to which the user can access, the user is informed of the presence of friends from different social networks to which the user belongs. For example, the user can communicate with his friends of social networks in the virtual communication space 364. A "friend" is considered as an individual who has been recognized and identified as "friend" by the user. Advantageously, for each of the virtual communication spaces to which the user can access, the user is informed of the number of individuals whose expectations correspond to his own. According to a particular embodiment, once access to the virtual communication space 14 has been authorized, the management server 11 transmits to the mobile terminal 12 an input request message for an identifier and a word password. In this way, access to the virtual communication space 14 is limited to the users holding the code and not to all the users handling the terminal 12. This code, which is specific to the virtual communication space, makes it possible to limit access to this space to authorized users. This limitation is useful when access to the virtual communication space requires subscription to a free or paid subscription. Access conditioned by the proper presentation of an identifier and a password may be limited to a certain level of the virtual communication space. The characteristics specific to the access of a user who has subscribed a subscription are stored in the storage module which contains the information associating the virtual communication space 14 and the characteristics of the reference geographical area 15. These characteristics can at any moment, be checked and updated by the management server. In another exemplary embodiment, the access identifier is an alphanumeric code or a two-dimensional bar code (or matrix code, or QR code). The mobile terminal 12 has an optical means for reading bar codes. Such an access identifier may be affixed to the counter of the reception of the hotel that borrows the user. Upon arrival at the hotel, the user approaches his terminal barcode so that the terminal reads the information related to access to the virtual communication space associated with the hotel and automatically launches the application for Access to the management server 11. A variant consists in that the user manually enter an alphanumeric code written on the counter of the hotel. Another variant is that the person at the reception of the hotel gives the user a code and / or an identifier allowing him to have access to the virtual communication space.

The user will have to enter this information on his terminal when he validates the access. Then, the terminal constructs an access request message containing the alphanumeric code entered, then transmits it to the management server to request access.

Figure 5 shows the simplified structure of a management server according to a particular embodiment of the invention. The management server 51 comprises a microcontroller 52 (denoted "1.1c") which cooperates with a random access memory 53, or RAM, and a ROM 54, or ROM. The microcontroller 52 is capable of executing instructions upon powering up the management server 51 from the ROM 54. After turning on the power, the microcontroller 52 is able to execute instructions from the RAM 53 relating to a computer program (possibly downloadable from a network), once these instructions loaded from the ROM 54 or external memory (not shown in this figure). Such a computer program, if it is executed by the microcontroller 52, causes the execution of all or part of the steps of an access management algorithm described above in relation with FIG. 2 or FIG. In the illustrated example, the management server 51 further comprises storage means 55 in which pairs of information each associating a geographical area and at least one virtual communication space are stored. In another exemplary embodiment, it is proposed to detect the presence of the terminal in a predetermined geographical area by implementing a radio communication link (for example, WiFi, Bluetooth, NFC, etc.) managed by the server of management and which is only accessible in the predetermined geographical area. Thus, if the terminal can communicate with the management server (which is positioned in the predetermined geographical area) via such a radio link, then the server believes that the terminal is in the predetermined geographical area. FIG. 6 shows an exemplary architecture comprising four virtual communication spaces 601, 602, 603 and 604. Each of the spaces is associated with one or more geographical areas. As illustrated in FIG. 6, the geographic areas associated with the virtual communication spaces 601, 602, 603 and 604 are nested within each other. The geographical zone associated with the virtual communication space 601 is embedded in the geographical zone associated with the virtual communication space 602. The geographical zone associated with the virtual communication space 602 is embedded in the geographical zone associated with the virtual communication space 602. The geographical area associated with the virtual communication area 603 is embedded in the geographical area associated with the virtual communication space 604. For example, the virtual communication space 601 can group all the individuals ( group G31) which are connected to the management server and which are physically present in the same hotel as the user, in a given city.

For example, the virtual communication space 602 can group all the individuals (group G32a or G32b) that are connected to the management server and that are physically present in hotels of the same standing in the given city. For example, the virtual communication space 603 can group all the individuals (group G33) who are connected to the management server and who are physically present in the various hotels of the given city (regardless of standing). For example, the virtual communication space 604 can group all the individuals (group G34) that are connected to the management server and that are physically present in the given city. It can be seen that each geographical area 15 is associated with a virtual communication space and is nested in an area associated with a higher level virtual communication space. According to the embodiment illustrated in FIG. 6, when the user is present in the geographical zone associated with the virtual communication space 601a (or 60 lb), the management server 11 not only authorizes the user to access ( via its terminal) to the virtual communication space 601a (or 601b), but also to access the higher level virtual communication spaces 602a, 602b, 603 and 604 (i.e. the space or spaces ) virtual communication (s) in which (s) nested the virtual communication space 601a (or 601b)). On the other hand, when the user is not present in the geographical zone (or one of the zones) associated with the virtual communication space 601a (or 601b), the management server prohibits the user from accessing to the virtual communication space 601a (or 60 lb), although the user has been authorized to access the virtual communication spaces 602a, 602b, 603 and 604, for example, via the access via another space virtual communication of the same level as the virtual communication space 601a (or 601b). Thus, the management server establishes a hierarchy of geographic areas, when the user is present in an area, he can access the virtual communication spaces associated with the geographical areas that contain the area where it is located.

Claims (11)

REVENDICATIONS1. A method of managing access to a virtual communication space (14) by a mobile terminal (12) communicating through a first communication network, characterized in that the method comprises a prior step of associating a geographical area (15) determined with said virtual communication space (14) and the following steps: - transmitting (E21) by the mobile terminal (12) a request for access to the virtual communication space (14) through the first communication network; - testing the presence of the terminal in said geographical area (15); - Access to the virtual communication space (14) if the presence of the terminal (12) in the geographical area (15) is verified. 15 2. Management method according to claim 1, characterized in that the determined geographical area (15) is covered by a second communication network (17), the terminal being present if a communication between the mobile terminal and said second communication network. is established. 20 3. Management method according to claim 1, characterized in that the test of the presence of the terminal is carried out by transmitting the GPS coordinates of the terminal to a management server (11,31) of the first virtual communication space, said server verifying that the GPS coordinates 25 correspond to a location in the first geographic area (15). 4. Management method according to any one of the preceding claims, characterized in that, in the absence of the terminal (12) in the geographical area, access to the communication space is limited to a part 30 of the features offered by the communication space. 5. Management method according to claim 4, characterized in that the terminal has access to only part of the resources to which it would have access if the terminal was detected. 6. Management method according to any one of the preceding claims, characterized in that the access to the communication space is granted on presentation of a secret code introduced at the mobile terminal (12), said code being associated auditing communication space. 7. Management method according to any one of the preceding claims, characterized in that it comprises a plurality of geographical areas (15) each associated with a virtual communication space and nested in each other, access to the terminal (12) in a communication space associated with a given geographical area allows access to the virtual communication spaces associated with the geographical areas that contain the given geographical area. 8. Management method according to any one of the preceding claims, characterized in that several virtual communication spaces (14) are associated with the area where the mobile terminal (12) is located, and in that it comprises a step introducing a profile consisting of the preferences of a user of said mobile terminal (12), the access to the different virtual communication spaces being effected according to the profile. 9. Management method according to any one of the preceding claims, characterized in that it comprises a step of determining a list of users whose terminals are detected in the determined geographical area and a settlement proposal stage communication with at least one of the said terminals listed. A management server (11, 31) for managing the access of a mobile terminal (12) communicating with a virtual communication space (14) through a first communication network, characterized in that the server comprises: means for associating a determined geographical area (15) with said virtual communication space (14); means for receiving a request for access to the communication space transmitted by the mobile terminal (12) through the first communication network; - means for determining the presence of said terminal (12) in said geographical area (15); - Means for granting access to the communication space if the presence of the terminal (12) in the geographical area (15) is verified. 15 11. Computer program product downloadable from a communications network and / or stored on a computer-readable medium and / or executable by a central unit, characterized in that it comprises program instructions for the implementation of at least one step of the method of managing access to a virtual communication space (14) according to any one of claims 1 to 9.