FR3001855A1 - Method for processing data in radio communication network, involves implementing services of radio communication established on network with radio operator user terminal for call number indicated in database for terminal via sub-network - Google Patents

Abstract

The method involves releasing operation of replacement in a database (4) of an identifier of a sub-network (R1) associated with a call number of a radio operator user terminal (MS) by another identifier of another sub-network (R2) by a home location register (HLR) (3) following reception of set of relative data by the HLR. Services of radio communication established on a network (10) with the radio operator user terminal are implemented for the call number indicated in the database for the radio operator user terminal via the latter sub-network associated with the call number in the database. An independent claim is also included for a computer program comprising instructions for performing a method for processing in a radio communication network.

Description

The present invention relates to a method of processing in a radio communication network comprising: at least two distinct radiocommunication subnetworks; radio terminals users of the network; network supervision equipment, comprising a database storing, for each user terminal, a call number of the user terminal associated with an identifier of the user terminal and with an identifier of a single first subnet from among the two sub-networks. networks; wherein radio services established over the network with a user radio terminal are implemented for the call number indicated in the database for said user radio terminal, via said first associated subnet in the audit database. call number. Such a method is in particular implemented by a telecommunication network operator having his own network supervision equipment, also called home location register (HLR), and whose communication services can be delivered. via multiple subnets managed by separate technical operators. Considering such a network r having two distinct subnets, for example ri, r2, a subscriber user radio terminal of the network is provided with a SIM card storing the IMSI number identifying the terminal in the network. This IMSI number, and the terminal's call number, has previously been associated in the HLR with only one of the two subnetworks, for example r1, which means that all the radiocommunication services provided by the network operator must be rendered via the ri subnet. In a step 100, such a terminal, when seeking to connect to the network, performs a radio scan. By this scanning, it detects, for example, the presence of several base stations around it, for example the base station bs1 of the sub-network r1, the base station bs2 of the sub-network r2 and the base station bs3 of a network r3. The terminal then classifies them by the decreasing order of intensity of the radio signal received from the base station: bs3, bs2, bs1. In a step 1 (1), it first selects the base station corresponding to the strongest radio intensity, here station bs3, and implements a signaling exchange with the base station b3 in which it emits first a connection request to the network r3 by indicating its IMSI number. In a step 2 2 (1), the base station bs3 receives this request, it first determines by the value of a given field of the IMSI number of the terminal that the latter is not authorized to communicate on the network r3 and responds to the terminal by sending a message indicating the failure of its connection attempt. Following this failure, the terminal selects in a step 1 (2) then the base station corresponding to the strongest radio intensity after bs3, here the station bs2 and implements a signaling exchange with the base station b2 in which it issues a connection request to the network r2 by indicating its IMSI number. In a step 2 (2), the base station bs2 receives this request, it determines by the value of the determined field of the IMSI number of the terminal that the latter is authorized to communicate on the network r2 (indeed, the IMSI number indicates that the terminal is subscribed to the network which comprises the subnetwork r1 and r2). The base station bs2 then relays, via signaling exchanges through the network r2, the connection request to the network r2 to the HLR. In a step 3 (2), the HLR receives this connection request to the subnet r2. It identifies in the database the subnet associated with the IMSI identifier of the terminal, here the subnet r1 and not the subnet r2. As a result, the HLR refuses the required connection and a message indicating the failure of this connection attempt is sent to the terminal.

Following this failure, the terminal selects, in a step 1 (3), the base station corresponding to the strongest radio intensity after bs2, here the station bs1 and implements a signaling exchange with the station. base b1 in which it sends a connection request to the network r1 by indicating its IMSI number. In a step 102 (3), the base station bs1 receives this request, determined by the value of the determined field of the IMSI number of the terminal that the latter is authorized to communicate on the network r1 (indeed, the IMSI number indicates that the terminal is subscribed to the network that includes the subnetwork r1 and r2). The base station bs1 then relays, via signaling exchanges through the network r1, the connection request to the network r1 to the HLR. In a step 3 (3), the HLR receives this connection request to the subnet r1. It identifies in the database the subnet associated with the IMSI identifier of the terminal, here the subnet r1. Therefore, the HLR accepts the required connection and a message indicating the success of the connection to the network r is transmitted by the subnet r1 to the terminal. In a step 4, communication services are provided to the radio terminal via the subnet r 1.

Thus the radiocommunication services provided by such a network could be improved by taking advantage of the existence of the two sub-networks. Indeed, the radio coverage provided to a user terminal is rigidly delimited. In case of loss of radio coverage of the subnet ri associated with it, the user no longer has access to these services. The present invention aims at proposing a solution making it possible to improve the radiocommunication services provided in such a network. For this purpose, according to a first aspect, the invention proposes a method of treatment of the aforementioned type characterized in that it comprises the following steps: - transmission of a set of data relating to said radio terminal to the equipment of supervision; following reception of said data set by said supervision equipment, triggering by said supervision equipment, of a replacement operation in the database of at least the identifier of the first sub-network associated with the number of calling the user radio terminal by an identifier of the second sub-network; and wherein radio services set up on the network with said user radio terminal are then implemented for said call number indicated in the database for said user radio terminal, via said second associated subnet in the base station. data to said call number. Such a method makes it possible to improve the radiocommunication services provided by such a network, by optimizing the radio coverage offered to the radio user terminals. In embodiments, the processing method according to the invention also comprises one or more of the following features: - before the replacement operation, the radiocommunication services established on the network with the user radio terminal are implemented to the specified call number, via said first subnet excluding the second subnet; and, after the replacement operation, the radiocommunication services established on the network with said user radio terminal are implemented for said indicated call number, via said second subnet excluding the first subnetwork; said identifier of the user terminal stored in the database is an IMSI number, which is also stored in the user radio terminal; - The transmission of the data set to the supervision equipment is performed on the network ar said radio terminal; it comprises: a step of prior selection by a user of the user radio terminal of a subnetwork change request function; a step of detection by said user radio terminal of said selection, said set of data; being transmitted by said user radio terminal via said first subnet and to the supervision equipment and indicating said network change request; and, the replacement operation comprises replacing the identifier of the first sub-network with the identifier of the second sub-network, the identifier of the user radio terminal not being replaced; said data set comprises an IP message, a call to a voice server of the supervision equipment, an SMS message or a USSD message; - The supervisory equipment transmits, after said replacement operation to the user radio terminal, via the second sub-network, a message confirming a change of sub-network; the user radio terminal stores a first identifier of said user radio terminal associated with the first subnet and a second identifier of said user radio terminal associated with the second subnet, said first identifier being the identifier of the terminal stored in the database; associating with the call number of said user radio terminal before the replacement operation; wherein said transmitted data set includes a network connection request, via the second subnet, to the supervision equipment and indicates said second user radio terminal identifier; and, the replacement operation comprises, in addition to replacing the identifier of the first sub-network with the identifier of the second sub-network, replacing the first identifier of the user radio terminal with the second identifier of the user radio terminal; following the reception of said data set by said supervision equipment and prior to said triggering step, the supervision equipment determines at least one of a busy rate, a transmission delay, a transmission rate of at least the second subnet, and wherein the triggering step is performed by said supervisory equipment according to said determination.

According to a second aspect, the present invention proposes a computer program to be installed in a radio user terminal of a radio communication network comprising at least two distinct radio sub-networks, radio users terminals of the network and a supervision equipment of the radio network. network, comprising a database storing, for each user terminal, a call number of the user terminal associated with an identifier of the user terminal and with an identifier of a single first subnetwork of the two subnets, such as radio services established on the network with a user radio terminal are implemented for the call number indicated in the database for said user radio terminal, via said first subnet associated in the database at said number d call; said program comprising instructions for implementing the steps, belonging to the user radio terminal, of a method according to the first aspect of the invention during execution of the program by means of processing said user radio terminal. According to a third aspect, the present invention proposes a computer program to be installed in a network supervision equipment of a radio network comprising at least two distinct radio subnetworks, radio users terminals of the network and said radio equipment. network supervision which comprises a database storing, for each user terminal, a call number of the user terminal associated with an identifier of the user terminal and with an identifier of a single first subnetwork among the two subnets, such as radio services established by the network with a user radio terminal are implemented for the call number indicated in the database for said user radio terminal, via said associated first subnet in the audit database. call number ; said program comprising instructions for carrying out the steps, pertaining to the supervision equipment, of a method according to the first aspect of the invention during execution of the program by processing means of said supervision equipment. These features and advantages of the invention will appear on reading the description which follows, given solely by way of example, and with reference to the appended drawings, in which: FIG. 1 represents a radio communication network in a embodiment of the invention; FIG. 2 represents a logic diagram of steps implemented in a network in one embodiment of the invention; FIG. 3 represents a logic diagram of steps implemented in one embodiment of the invention. With reference to FIG. 1, a network 10 in one embodiment of the invention comprises a supervision equipment 3, called HLR 3 (in English "Home Location Register"), associated with a database 4. HLR 3 supervises two R-1 and R2 radio sub-networks, each comprising MSC (Mobile Services Switching Center) type switches, Base Transceiver Station (BTS) base stations, and base station controllers type BSC (in English "Base station controller"). An MSC switch manages, thanks to the information provided by the HLR, in particular extracted from the database 4, the switching of calls in progress between BSCs or to another MSC. A BTS contains all the transceivers called TRX connected to the cell and whose function is to transmit and receive information on the radio channel by providing a physical interface between the user terminal and the BSC.

A BSC controls the BTS attached to it. In Figure 1, only some of these elements have been shown. The BTS, BSC, MSC of the subnet i, with i = 1 to 2, are denoted BTSi, BSCi and MSCi. The network 10 further comprises a plurality of user radios terminals, of which only one, referenced MS, is represented in FIG. 2.

Each radio terminal comprises a SIM card, in which an IMSI number (in English "International Mobile Subscriber Identity") is stored identifying the subscriber, and therefore the radio terminal, in the network 10. The HLR 3 is associated with a base of data 4. The database 4 associated with it is the central database of the mobile network operator 10, and includes information relating to any subscriber authorized to use this network. In order for the data to be consistent across the network, it is used as a reference for other local databases, the "VLRs" used in MSC, BSC and BTS equipment. On the one hand, it contains information characterizing the user himself: International Mobile Subscriber Identity (IMSI), the user's identifier and who is also registered on the SIM card (two separate terminals necessarily have two distinct IMSI numbers); the IMEI defining the Mobile Station used, usually the user's mobile phone; MSISDN (Mobile International Subscriber ISDN Number), indicating the international call number through which the user is reachable. It is generally unique for the same IMSI (except special case, ex: Fax No.); the services subscribed by the subscriber, call forwarding status, etc. It also contains the information indicating the last known position (location) of this user: the MSRN (Mobile Station Roaming Number) address. designating the subscriber on a foreign network; the addresses of the MSC and VLR concerned to have at any time the approximate position of the mobile subscriber (only the VLR in question knows a more precise position). It should be noted that the supervision equipment equivalent to the HLR in the UMTS and LIE networks is the HSS (Home Subscriber Server) which is an over-all of the HLR integrating the new core network protocols (Diameter and SIP) specific to 3G + networks. 4G and IMS.

The HLR is essential to identify and locate the subscribers of the mobile operator and thus to receive their calls and to transmit them incoming calls. In the case of a network 10, the database 4 matches in particular the number of a subscriber's call, its identifier IMSI and further the identifier of the subnet assigned to this subscriber. This mapping indicates that it is the user terminal's active data by which the user can be reached. For example, it is considered that for the terminal MS, the subnet R1 has been assigned to it. Such correspondence in the database 4 means that it is the resources of the subnetwork R1, and not those of the network R2, which are used to implement communications originating or destined for the terminal as identified by this IMSI number. . The operation is for example the following, during any attempt to connect the terminal MS, with reference to Figure 2 and similarly to what takes place in the prior art. Such a connection request takes place for example following a loss of radio coverage on the subnet on which the terminal MS was connected, or after an outage of the terminal etc. In a step 100, the terminal MS, when seeking to connect to the network, performs a radio scan. By this scanning, it detects for example the presence of several base stations around it, for example the base station BS1 of the subnet Ri, the base station B52 of the subnet R2 and the base station B53 of an R3 network. The terminal MS then classifies them by the decreasing order of intensity of the radio signal received from the base station: B53, B52, BS1. In a step 101 1, it first selects the base station corresponding to the strongest radio intensity, here station B53, and implements a signaling exchange with the base station B53 in which it first transmits a request for connection to the network R3 by indicating its IMSI number. In a step 102 1, the base station BS3 receives this request, it firstly determines by the value of a given field of the IMSI number of the terminal that the latter is not authorized to communicate on the network R3 and responds to the terminal by sending him a message indicating the failure of his connection attempt.

Following this failure, the terminal selects in a step 101_2 then the base station corresponding to the strongest radio intensity after B53, here the station BS 2 and implements a signaling exchange with the base station B52 in which it sends a connection request to the network R2 by indicating its IMSI number. In a step 102 2, the base station BS 2 receives this request, it determines by the value of the determined field of the IMSI number of the terminal that the latter is authorized to communicate on the network R2 (indeed, the IMSI number indicates that the terminal is subscribed to the network which comprises the subnetwork R1 and R2). The base station B52 then relays to the HLR, via signaling exchanges through the network R2, the connection request to the network R2. In a step 103 2, the HLR 3 receives this connection request to the subnet R2. It identifies in the database 4 the subnet associated with the IMSI identifier of the terminal here the sub-network R1 and not the network R2. Therefore, the HLR 3 refuses the required connection and a message indicating the failure of this connection attempt is sent to the terminal MS. Following this failure, the terminal MS selects in a step 101_3 then the base station corresponding to the strongest radio intensity after B52, here the station BS1 and implements a signaling exchange with the base station BS1 in which it sends a connection request to the network R1 by indicating its IMSI number. In a step 102 3, the base station BS1 receives this request, determined by the value of the determined field of the IMSI number of the terminal that the latter is authorized to communicate on the network R1 (indeed, the IMSI number indicates that the terminal is network subscriber 10 which includes subnets R1 and R2). The base station BS1 then relays to the destination of the HLR 3, via signaling exchanges through the network R1, the connection request to the network R1. In a step 103 3, the HLR 3 receives this connection request to the subnetwork R1. It identifies, in the database 4, the subnet associated with the IMSI identifier of the terminal, here the subnetwork R1. Consequently, the HLR 3 accepts the required connection and a message indicating the success of the network connection 10 (for example of the "MAP Update Location Acknowledge" type) is transmitted by the subnet R1 to the terminal. In a step 104, communications services are provided to the radio terminal via the subnet R1.

Thus at this stage, all the radiocommunication services with as transmitter or recipient the radio terminal as identified by its IMSI number are implemented only with the subnet R1, without using the subnet R2. According to the invention, a method 200, comprising the following steps, is implemented, with reference to FIG. 3. In a step 201, the user of the radio terminal MS transmits a set of data intended for the HLR 3. transmission to the HLR 3 of the data set by the user of the MS radio terminal is performed as appropriate via the MS radio terminal and via the network or not. In a step 202, the HLR 3 receives this set of data, then triggers a replacement operation in the database 4 of at least the identifier of the first subnetwork R1, associated with the call number of the user radio terminal. , by an identifier of the second subnet R2.

In a step 203, radiocommunication services established on the network with the user radio terminal MS are then implemented for said call number indicated in the database for the user terminal MS, via said second subnet R2 to present associated in the database to said call number. Several embodiments are described below. These embodiments are combinable with each other. Other embodiments of the invention than those specifically described below, are furthermore possible. It is considered that the initial configuration of the terminal MS is that described above before the implementation of the method 200: the database 4 comprises the call number of the terminal MS in correspondence with the identifier of the subnetwork R1 and the IMSI MS identifying the terminal MS in the network 10. First embodiment In a first embodiment, the subnetwork change is initiated by a user of the radio terminal MS.

A function of the terminal MS, for example accessible by the selection of a key on the screen or the keyboard of the terminal MS, allows the user to specifically choose his subnet from a list indicating the different subnets, here R1, R2, network 10 or at least allows to change the subnetwork connection among the subnets R1, R2, even if the information relating to the identification of the current subnetwork connection is not accessible to him .

The data set sent from the terminal MS and mentioned above in step 201 includes a network change request indicating, if appropriate, the IMSI number MS of the terminal. The corresponding request can be received by the HLR in various forms.

Indeed, for example, a software application running on the terminal MS may have the effect of sending a request via the subnet R1 and then via the Internet, indicating at least one desired change of sub-network and possibly indicating an identifier of the desired subnet. Or, the selection of the function by the user may have the effect of calling a voice server, which detects the change required by the user according to the words spoken by the latter and which determines the commands to put in another embodiment, the request takes the form of an SMS or a USSD message.

The HLR 3, receiving the request to change the subnet of the terminal MS, regardless of the form taken, accepts or refuses to implement the subnet change associated with the terminal MS. If the HLR 3 refuses the change, it sends information to the terminal MS informing it that the required change can not be taken into account, for example by SMS or instant message. If it accepts, the HLR 3 modifies in the database 4, the subnetwork identifier R1 by the identifier of the subnet R2 with respect to the associated subnet in the base to the terminal identified by its IMSI MS. The HLR 3 sends information to the terminal MS informing it that the required change has been implemented, for example by SMS or instant message. The communication services with the terminal MS are then done via the subnet R2. The HLR 3 may, in one embodiment, verify before accepting or denying the change, that the subnetwork, here R2, intended to replace the subnetwork R1 (R2 being indicated in the request or being implicit as in the present case or only two subnetworks exist, or being selected by the HLR when more than one alternative sub-network is possible) is able to offer a nominal quality of service. To do this, for example, it collects information indicating the occupation of the links of the network R2, the performance of the links of the network R1, in particular in terms of transmission delay, available speed, radio coverage. In one embodiment, it collects similar information for the network R1. Then, based at least on the information collected for R1, and optionally based on a comparison between the latter and the information collected for R2, the HLR 3, receiving the change request from the terminal MS, regardless of the form taken, accepts or refuses to implement the subnet change associated with the terminal MS. Thus, in one embodiment, the change request is transmitted to the HLR 3 from the terminal MS via the subnetwork R1. In another embodiment, the subnetwork change request is carried out by the user of the terminal MS. destination for example a server connected to the HLR, but by technical means other than those accessible by the MS terminal, for example via an internet connection from a computer etc. for example with the customer relations site called "selfcare". Second Embodiment In one embodiment of the invention, the process implemented by the network 10 as indicated by the method 200 during a connection attempt is modified as follows. When the HLR 3 receives a connection request from a terminal via the network, according to a decreasing radio signal intensity order, it checks before accepting or refusing the change that the requested connection subnetwork , R2 in step 103 2, and R-1 in step iO3_3 is able to provide a nominal quality of service. For this purpose, for example in the step 103 2, it collects information indicating the occupation of the links of the subnet R2, the performance of the links of the network R2, notably in terms of transmission delay, available throughput, radio coverage. In one embodiment, it collects similar information for the subnet Ri, which is registered as a home network for the terminal MS in the database 4. Then, based at least on information collected for R2, and optionally based on a comparison between the latter and the information collected for R2, for example, in a step similar to step 103 2, if the quality of service (other than radio, the quality of radio service is taken upstream account in this case) of the subnet R2 as indicated by the collected information is greater than that of the registered subnet R1 -, the HLR 3, in response to the connection request via R2 of the terminal MS, modifies the active subnet associated with the IMSI of the terminal MS and its call number in the database 4 and accepts the connection via R2.

Similarly, in a step of the type of step 103 3, if the quality of service (other than radio, the quality of radio service is taken into account upstream in this case) R1 subnetwork is bad -, the HLR 3, in response to the connection request via R1 of the terminal MS, can replace the active subnet R1 associated with the IMSI of the terminal MS and its call number in the database 4, by the subnet R2.

This embodiment of the invention therefore provides a dynamic setting of the home subnet, based on the measurement of the quality of service. Third Embodiment This embodiment of the invention solves the current problem that, when the terminal MS no longer has radio coverage of the subnetwork R1, it can not change the subnet. In this embodiment, the user terminal MS has a SIM card storing two IMSI identifiers: IMSII and IMSI2 for the subscriber. The identifier IMSII is used to identify the subscriber on the subnet R1 while the identifier IMSI2 is used to identify the subscriber on the subnet R2. The SIM card comprises a software application, for example an applet, in order to select the IMSI2 as the IMSI identifier to be used in exchanges with the network 10 when the terminal MS loses the radio coverage of the subnet R1 to which it was connected, and to select the IMSII as the IMSI identifier to be used in the exchanges with the network 10 when the terminal MS loses the radio coverage of the subnet R2 to which it was connected. In the database 4 associated with the HLR, these two IMSI identifiers are stored, in the following way: IMSI 1 in association with the identifier of the subnet R1 while IMSI2 is stored in association with the identifier of the subnetwork R2. But at any time, only one of these identifiers is recognized as "active" by the network 10, i.e. is associated with the call number of the terminal MS. The communication services to the terminal number of the terminal MS are then transmitted via the subnet associated with it at the time of the implementation of the service, in the database 4. Suppose that the terminal MS was previously connected to the network 10 by the sub-network R1, the IMSII identifier having been previously selected by the SIM card and that it just lost the radio coverage of the network 10. The SIM card is then adapted to select the associated IM5I2 to the R2 subnet. The connection search process as detailed previously with reference to FIG. 2 is then implemented with respect to the network R2 and, if appropriate, the network R3, in particular the steps 101 2, 102 2, the terminal indicating, in its connection request, the identifier IM5I2.

Following step 102 2, in a step 103 2bis, the HLR 3 receives this connection request to the subnet R2 indicating the identifier IM5I2 II identifies in the database 4 the subnet associated with the identifier IM5I2 of the terminal, ie the subnet R2. Therefore, the HLR 3 accepts the required connection and a message indicating the implementation of the connection is sent to the terminal MS. The terminal MS can then generate radiocommunication services via the subnet R2. In one embodiment, the client having a single call number, a routing of communications to the terminal MS will be further performed so that they are transmitted to the terminal via the network R2. This routing includes updating, in the database 4, the association between the call number and the data type IMSI and subnet identifier, replacing the association between the number of call of the terminal MS and IMSI1 and the identifier of the subnet R1, by the association between the call number of the terminal MS and IM5I2 and the identifier of the subnet R2, indicating that the subnet "active" is good R2. If such a routing was not carried out, the terminal MS would find the network coverage via the subnet R2 but in particular the calls to the terminal MS would end up on the voicemail of the terminal MS on the subnet R1, since the IMSI1 identifier associated with the call number is indicated as "out of coverage". The invention thus makes it possible to customize the network radio coverage 10 by the user of the terminal MS, to optimize the coverage in terms of quality of service, and not only in terms of radio quality, or to extend the coverage. coverage on multiple subnets.

In one embodiment, all or some of the steps indicated above and pertaining to a radio terminal are implemented following the execution, on computing means of said radio terminal, of corresponding software instructions. Likewise, in one embodiment, all or some of the steps indicated above and pertaining to an HLR are implemented following the execution, on calculation means of said HLR, of corresponding software instructions. In the examples described above, two subnetworks R1, R2 were considered. In other embodiments, the number of subnets of the network 10 is strictly greater than 2.35

Claims (11)

CLAIMS 1. A processing method in a radio communication network (10) comprising: at least two distinct radiocommunication subnetworks (R1, R2); user radio terminals (MS) of the network; network supervision equipment (3), comprising a database (4) storing, for each user terminal, a call number of the user terminal associated with an identifier of the user terminal and an identifier of a single first sub. -network among the two subnetworks; wherein radio services established over the network with a user radio terminal are implemented for the call number indicated in the database for said user radio terminal, via said first associated subnet in the audit database. call number ; said method being characterized in that it comprises the following steps: sending a set of data relating to said radio terminal to the supervision equipment; following reception of said data set by said supervision equipment, triggering by said supervision equipment, of a replacement operation in the database of at least the identifier of the first subnet associated with the call number the user radio terminal by an identifier of the second sub-network; and according to which radio services established on the network with said user radio terminal are then implemented for said call number indicated in the database for said user radio terminal, via said second subnet associated in the database of data to said call number. 2. A processing method according to claim 1, wherein, before the replacement operation, the radiocommunication services established on the network (10) with the user radio terminal (MS) are implemented for the call number. indicated via said first sub-network (R-1) excluding the second sub-network (R2); and according to which, after the replacement operation, the radio services established on the network with said user radio terminal are implemented for said indicated call number, via said second sub-network excluding the first sub-network. réseau.35 3. A processing method according to claim 1 or 2, wherein said identifier of the user terminal (MS) stored in the database (4) is an IMSI number, which is also stored in the user radio terminal. 4. A processing method according to any one of the preceding claims, wherein the transmission of the data set to the supervision equipment (3) is performed on the network (10) by said radio terminal ( MS). 5. A processing method according to claim 4, comprising: a step of preliminary selection, by a user of the user radio terminal (MS), of a subnetwork change request function, a detection step by said user radio terminal of said selection, said data set being transmitted by said user radio terminal via said first sub-network (R1) and to the supervision equipment and indicating said network change request; and wherein the replacement operation comprises replacing the identifier of the first subnet with the identifier of the second subnet (R2), the identifier of the user radio terminal not being replaced. The processing method according to claim 5, wherein said data set comprises an IP message, a call to a voice server of the supervisory equipment, an SMS message or a USSD message. 7. A processing method according to claim 5 or 6, wherein the supervision equipment (3) transmits, after said replacement operation to the user radio terminal (MS), via the second sub-network (R2), a message confirming a subnet change. 8. A processing method according to any one of claims 2 to 7, wherein the user radio terminal (MS) stores a first identifier of said user radio terminal associated with the first sub-network (R1) and a second identifier of said radio terminal. user associated with the second sub-network (R2), said first identifier being the identifier of the terminal stored in the database (4) in association with the call number of said user radio terminal before the replacement operation; said transmitted data set comprises a connection request to the network, via the second sub-network (R2), to the supervision equipment (3) and indicates said second identifier of the user radio terminal; and according to which, the replacement operation comprises, in addition to replacing the identifier of the first sub-network (R1) by the identifier of the second sub-network (R2), replacing the first identifier of the user radio terminal with the second identifier of the user radio terminal. 9. A processing method according to any one of the preceding claims, according to which, following the reception of said data set by said supervision equipment (3) and prior to said triggering step, the supervision equipment determines at least one of a busy rate, a transmission delay, a transmission rate of at least the second subnet (R2), and wherein the triggering step is performed by said supervisory equipment based on of said determination. 10. Computer program to be installed in a radio user terminal (MS) of a radio network (10) comprising at least two separate radio subnetworks (R1, R2), radio user terminals (MS) of the network and a network monitoring equipment (3), comprising a database (4) storing, for each user terminal, a call number of the user terminal associated with an identifier of the user terminal and with an identifier of a single first subnetwork among the two subnetworks, such as radiocommunication services established on the network with a user radio terminal are implemented for the call number indicated in the database for said user radio terminal, via said first user radio terminal. associated subnet in the database at said call number; said program comprising instructions for carrying out the steps, belonging to the user radio terminal, of a method according to any one of the preceding claims during execution of the program by means of processing said user radio terminal. 11. Computer program for installing in a supervision equipment (3) of a radio network (10) comprising at least two distinct radio subnetworks (R1, R2), radio user terminals (MS) of the network and said network supervision equipment which comprises a database (4) storing, for each user terminal, a call number of the user terminal associated with an identifier of the user terminal and with an identifier of a single first subnet among the two sub-networks, such as radiocommunication services established by the network with a user radio terminal are implemented for the call number indicated in the database for said user radio terminal, via said first subnetwork associated in the database with said call number; said program comprising instructions for carrying out the steps, belonging to the supervision equipment, of a method according to any one of claims 1 to 9 during execution of the program by means of processing said supervision equipment .10