RU2284669C2 - Method for synchronization of services and capabilities in network by means of single enumeration circuit - Google Patents

Abstract

FIELD: network control technologies.

SUBSTANCE: method for controlling network, to which communication device is connected, includes receiving (S13) information about possible connection from the network and estimating (S14) the connection service on basis of received information about possibility of connection. Invention also proposes appropriately realized communication device.

EFFECT: capabilities of network related to failures may be removed, because communication device is aware of appropriate possibilities of connection in network, etc.

4 cl, 4 dwg, 7 ex

Description

FIELD OF THE INVENTION

The present invention relates to a method for managing a network to which a communication device is connected, and to a correspondingly configured communication device.

State of the art

Mobile stations require a lot of information about the capabilities of the network used and the called or calling side. Usually, this information is available when transmitting signals (alarms) for call setup. However, this is not always the case. When information is lost, compatibility of service levels and media may not be achieved when a call is established, and the call fails. This problem is described in more detail below.

Mobile networks can support either a multi-numbering scheme or a single numbering scheme (CEN, SNS), or both (see 3GPP TS 29.007). Commercial networks started with a multi-numbering scheme at the beginning of the GSM era, but some operators later introduced a single numbering scheme contrary to the problems mentioned below (and resolved) with this scheme.

In the multi-numbering scheme, the user has a separate MSISDN (Mobile Station Digital Network with Integrated Services) number for each service that is used in a mobile completed call. Service information is stored for each MSISDN number in the home (reference) location register (DRM, HLR) or in the subscriber’s home server (DSA). This information is used when setting up a mobile completed call when ambiguous service information is received from the calling party in an incoming setup request. See 3GPP TS 29.007.

In a single numbering scheme, the user has only one common MSISDN for all services. When the ambiguous service information is not received from the calling party in the incoming installation request, the network sends the installation to the mobile station (MS) without determining the service. The MS should determine which service should be used in the call. There is a risk that the mobile network or the intermediate network (s) or the calling party do not support the service or channel configuration indicated by the MS (see 3GPP TS 27.001, version 4.1.0).

Thus, when the MS responds with a service definition (for example, a multi-slot / HSCSD channel configuration) that cannot be supported by the network, the call will fail. Therefore, for greater fidelity, the main 9.6 kbit / s service is always used to guarantee a successful call. However, 9.6 kbps is too slow for many applications.

Alternatively, the MS may respond at the same data rate. However, the MS does not know whether the VPI (Information Transmission Capability) (ITC) in the initial UDI / RDI call setup (unlimited digital information / limited digital information) or 3.1 kHz or speech. Accordingly, even if the data rate itself is correct, the call may not succeed, because the other side can use, for example, a modem and other protocol, for example, NTSI / OTSI.

Thus, in the end, the invention relates to the problem of fuzzy information of the service received in the incoming installation request. In such cases, the network sends the installation to the mobile station (MS) without defining a service. The MS should determine which service should be used in the call. However, there is a risk that the mobile network or the intermediate network (s) or the calling party does not support the service or channel configuration indicated by the MS.

The above are issues related to mobile terminated calls. However, the same problems also occur in cases created by mobile stations, as described below.

For example, when a user moves (roams) in a guest (visited) network, this user does not know the capabilities of the guest network and, therefore, is unable to configure the MS to create a successful data call in the home internal network (a well-educated user would make several attempts with various settings, but even these troubles can be avoided by the method proposed in this post). Therefore, in this case, the user can either try to use the service that he wants to use and hope that this service is supported, or he can establish a call to the main service with a data rate of, for example, 9.6 kbit / s.

Both approaches are disadvantageous, since in the first case the call may not succeed, and in the second case the capabilities of the MS cannot be fully utilized. Therefore, the present situation is not acceptable.

SUMMARY OF THE INVENTION

Thus, the problem underlying the invention relates to providing a mechanism by which a service supported by a network can be easily provided.

This problem is solved by the method of managing the network to which the communication device is connected, namely, that:

get information about connectivity from the network and

evaluate the connection service based on the received connectivity information.

In addition, the above problem is also solved by a communication device configured to connect to the network, and the communication device is configured to obtain information about the connectivity from the network and evaluate the connection service based on the received connectivity information.

Thus, according to the invention, the communication device obtains the necessary connectivity and can accordingly evaluate the connection service. This connection service is evaluated in relation to services available on the network, so that the requested connection service is changed or adapted accordingly. Therefore, the communication device will only establish connection services that are supported by the network.

In this way, network-related failures are eliminated because the communication device knows the necessary network connectivity, etc. Consequently, failures associated with VPI (information transfer capabilities) are also excluded.

The connectivity information may comprise network capability information and / or remote side capability information. Moreover, the connectivity information may contain information about the possibility of intermediate networks between the network to which the communication device is connected and the remote side.

Connectivity information can be obtained when initiating a call. Alternatively, connectivity information may be obtained at the end of a call. Also, information about the connection possibilities can be obtained during registration in the network, and the obtained information is stored in the communication device. In addition, connectivity information can be obtained during a configuration procedure in which a user or operator is involved in manually configuring a communication device using connectivity information.

In addition, connectivity information can be obtained from the network through the messaging service, and the obtained information can be stored in the communication device. The messaging service can be a short message service (UKS, SMS) or unstructured additional data (NDD, USSD).

In addition, the connection service requested by the user of the communication device can be obtained so that, at the evaluation stage, it is checked whether the connection service is supported by the network, and, if necessary, the requested service is modified according to the received connectivity information. So the communication device may not take into account the connection service requested by the user in the case when it is found that the network does not support this service.

To obtain information about the connectivity of the communication device, an installation message may be received including connection information from the network. That is, the network actively informs the communication device in the installation message about its capabilities.

In the evaluation step, the connection service can be determined according to the received connectivity information, and information about the found connection service can be generated. Information about the found connection service can be transmitted in a message to the remote side. Based on this information, the remote side and other necessary network controls can be informed about the supported connection service.

The communication device may be a mobile communication device, and the network may be a mobile communication network. Namely, the invention is most applicable to mobile networks, since in the particular case of a mobile station moving in a guest network, this mobile station is not aware of the capabilities of the guest network.

However, the communication device may also be a fixed communication device, and the network may be a fixed communication network. The invention also has advantages in this case, since here the fixed communication device can easily be connected to another fixed communication network (for example, after moving to a foreign country) without the need to reconfigure the communication device.

The invention further provides a method for managing a network and a connection between a communication device and a remote side, the method comprising:

determine information about the supported connection service generated by the communication device,

detect connection related information between the network control and the remote side, and

evaluate whether the detected information and the connection related information are consistent with each other.

Alternatively, the invention also provides a network control element that is configured to control the network and the connection between the communication device and the remote side, while the network control element is further configured to detect information about the supported connection service generated by the communication device, detecting information related to the connection between network control and the remote side and assess whether the detected information is consistent with each other and related to togetherness information.

Thanks to this measure, one can be sure whether the communication device connected to the network control element supports the feature of the invention, namely, the coordination of the connection service. If incorrect information is provided, it can be easily determined that the communication device does not support this feature, or that defective information is generated.

Information about the supported connection service generated by the communication device may not be taken into account if this information is not consistent. That is, when the communication device does not support the feature of the invention or generates defective information, this information is canceled and the call is established according to the prior art. Due to this measure, the method according to the invention is backward compatible since communication devices that do not generate information about a supported connection service are supported.

The network control element may fulfill the function of interaction or interworking (IWF) and may be located in the guest network or between the home network of the communication device and the guest network.

Brief Description of the Drawings

The present invention will be better understood with reference to the accompanying drawings, in which:

Figure 1 shows the structure of a network system to which embodiments of the invention are applicable,

Figure 2 is a flowchart of a call setup procedure according to a first embodiment,

3 shows a signaling flow in a call setup procedure according to a second embodiment, and

4 is a flowchart of a failure procedure according to a third embodiment.

Detailed Description of Preferred Embodiments

Further preferred embodiments of the invention are described in more detail with reference to the accompanying drawings.

Figure 1 shows a sketch of a network system to which the present invention is applicable. It is assumed that the mobile station (MS) moves in the guest network 1. The guest network is controlled by a mobile switching center (MSC), which, from the point of view of the MS, is a guest MSC (MCC). Another network 2 (which can be, but does not have to be, the home network of the MS) is connected via the interaction function (FI) to network 1. Note that instead of the CCMS, the CCMS (CCMS server), which in this case is the guest CCMS ( SCCC). PV can be built into the MCCS.

According to the options described below, the MS either actively collects information about the capabilities of the guest network with which it connects, etc. (and, if necessary, also about the home network and / or the remote side), or provided with such information.

Next, the procedure for obtaining information is described for the case in which the MS actively collects information as the first embodiment. That is, according to the first embodiment, the mobile station collects information about the capabilities of the network in which it moves and in which it is used, and about the remote side. This information is stored in the MS (in the mobile terminal (MT) itself or in the Subscriber Identity Module (MIA, SIM) for later use. Alternatively, information related to network capabilities can be configured in the MS, for example, manually by a user or automatically by an operator or a network.

The following describes some examples of how an MS can obtain information regarding network capabilities and so on.

When a user makes or receives MS calls, this MS collects information about the capabilities of the networks and the parties to the call (for example, servers at some addresses), observing what services and media are available on the network, and tracking the details of the call setup parameters. The MS stores information (for example, in the mobile terminal itself or in the MIA (Subscriber Identity Module) via the guest network (based on, for example, the country code in the mobile communication system and the mobile network code) and / or on the call side (based on identification, for example , MSISDN numbers or IP addresses of the calling party).

That is, the MS actively collects the requested information from the networks in question.

Alternatively, the capability and information about networks and call sides (eg, services) can be configured in the MS, for example, by a user or an operator.

In this case, the necessary information can be accessed through other ways (for example, the operator’s home page on the Internet, directories, etc.), so that the user (or even the operator) can configure the MS accordingly.

Alternatively, the network can provide information about the connectivity to the MS, for example, via SMS (UKS) or other available means of communication (for example, NDD or email), for example, when registering on the network, to automatically configure / store the MS itself.

That is, in this case, the MS receives the necessary information by some means of communication and is automatically configured according to this information.

Further, information regarding network capabilities and the like is described in more detail.

The information collected by the MS may contain, for example:

1) CS media supported by the mobile network. For example, in GSM:

- HSCSD / multi-slot configuration

- Channel coding TCH / F14.4

- data compression

- Channel coding ECSD (TCH / F28.8, TCH / F32, TCH / F43.2)

2) Connection elements supported by the mobile network:

- transparent

- Opaque

3) The ability to transmit information supported by the network or the call side:

- UDI / RDI

- 3.1 kHz

- Speech

4) Protocol support, for example:

- ITU-TV.120 protocol

- ITU-T V.110 protocol

- Frame Tunnel Mode (FTM)

5) Asynchronous / synchronous capability supported by the network:

- asynchronous

- synchronous

6) Multimedia

The above list is, of course, not exhaustive, and other additional information points may be added.

The abbreviations used above are briefly explained below: HSCSD-VSDCK (High-Speed Circuit Switched Data), RDI-OTsI (Limited Digital Information), TSN-KT (Traffic Channel), TSN / F-PSKT (Full-Speed Traffic Channel), UDI-NCI (Unlimited digital information).

The MS can use the stored information, for example, when it receives a call in a single numbering medium, and the intermediate network (s) cannot transmit unambiguous service information from the calling party to the MS.

In this case, the MS can, according to the current 3GPP specifications (see TS 29.007 and 27.001), determine which service is being used and send the service definition to the AIMS (Media Capability Information Element) (BCIE) to the network. According to the state of the art, the MS can only guess which service to use, see 3GPP TS 27.001 version 4.1.0. The requested media may not be supported by the guest network, which means that the call failed. Or, to be safe, the MS can request the main 9.6 kbit / s carrier, even though the network is capable of supporting FDCS media, which means that the user receives only a low-speed service, even when operating in a high-speed environment.

According to the present invention, however, the MS collects information about the capabilities of the networks and the parties to the call. Thus, the MS can meet the requirements of the service and media, which is consistent with the available capabilities of the working environment. For example, if the MS is normally configured for use in a network that supports FWCC, the user does not need to deal with the settings trying to find a supported configuration, but the MS will automatically lower the required level of service to coordinate the capabilities of the network over which it is moving (which does not necessarily support WFCC). In practice, the transition from a call to FDCA to a call to a non-FCCA is not ongoing work in networks that do not support FDCA, but refuse to call if a call to FCCA is requested (see 3GPP TS 27.001, version 4.1.0).

The above procedure is illustrated in the flowchart of FIG. 2. The procedure begins when a call arises.

At step S11, a service is obtained that is requested by the user. For example, it may be FVDC when it is normally supported by the MS, as described above.

At step S12, network capability information and the like are obtained. Note that during this stage, the MS can either actively request the network to send the necessary information to the MS or access memory in the MS in which this information is stored in advance.

Then, in step S13, the requested service is evaluated in relation to the received information about the capabilities of the network and / or the remote side. That is, it is checked whether the requested service is supported by the network, the intermediate network and / or the calling party. If necessary, the service changes accordingly. For example, if a high speed connection is not supported, the connection is changed for the corresponding low speed voice connection. Otherwise, (for example, in the example described above regarding the FACC), the MS may indicate to the user that the requested service is not supported, and offer to select another service. In the positive case, i.e. when the requested service is supported by the network, this service does not change at this stage. Information about the supported service is recorded in the EIVN (media capability information element) in step S14.

After that, the procedure ends and the normal connection continues.

Below are some examples for the above coordination of the requested services.

Example 1:

- MS supports multimedia. The MS first makes calls on the network in which it is currently moving, and finds that the network supports CS multimedia (synchronous media, multimedia signaling), TCH / F14.4 channel coding, and multi-slot configuration. (Alternatively, network capabilities over the network can be preconfigured in the MS (MT (mobile terminal) or MIA (subscriber identity module)).

- The MS accepts the call setup without indicating a service. The MS responds via an EIVN, requesting a 28.8 kbit / s multimedia call with a modem (for example, ITC = 3.1 kHz) and with a 2 * TCH / F14.4 channel configuration.

- If the called party did request a multimedia call, this call is set up as a multimedia call. If the called party requested a voice call, that call will be voice (see 3GPP TS 29/007, 24.008, 27.001).

Example 2:

- The MS just made a call to the access server on the internal network, which will return the call after verifying the identity. The MS finds out, either during the just created call to the access server, or during some preliminary call in the network, that the network supports TCH / F14.4, multi-slot opaque connection, NCI and V.120 protocol. (Alternatively, network capabilities for the network may be preconfigured in the MS (MT or MIA)).

- The server callback setup message does not contain a service definition. The MS responds via EIVN, requesting an opaque 28.8 kbit / s multi-slot call, NCI / V120 with 2 * TCH / F14.4 channel configuration.

Example 3:

- The MS previously accepted the calls in the network in which it is currently moving, and found that the network supports TCH / F14.4, a multi-slot opaque connection, ITC = 3.1 kHz (modem), but does not support the NCI. (Alternatively, network capabilities for the network can be pre-created in the MS (MT or MIA).

- The user makes a call in the home network, the default settings will be an opaque multi-slot connection of 56 kbit / s, NCI / V120, with a channel configuration of 3 * TCH / F14.4.

- MS changes the settings automatically to an opaque connection with an automatic transmission speed of 3.1 kHz (modem), with a channel configuration of 2 * TCH / F14.4 to match the capabilities of the guest network.

Example 4:

- The MS first makes calls to a server (one of the available servers that the user uses more or less constantly) and discovers that this server supports ITC = 3.1 kHz (for example, a modem), but does not support the NCI. (Alternatively, the server's capabilities for identification / address can be preconfigured in the MS (MT or MIA).

- The user makes a call to this server, the default settings will be, for example, an opaque multislot connection 56 kbit / s, NCI / V120, with the channel configuration 3 * TCH / F14.4.

- MS changes the settings automatically to an opaque connection with an automatic transmission speed of 3.1 kHz (modem), with a channel configuration of 2 * TCH / F14.4 to coordinate server capabilities.

The following describes in more detail examples for implementing the present embodiments.

Currently, the MS has information about the real names of the networks. The network is identified by its country code in the mobile network (KSTM, MCC) and the code of the mobile network (KSM, MNC). For example, KStm 244 and KSM 5 identify the network as the Finnish Radio Link operator network. This information may be expanded to contain (collected) network capability information.

Now, in the case of mobile-generated (MSS) calls, the MS accesses this information and compares the information about the network capabilities and the service requested by the user. MS changes the requested service, if necessary, to coordinate it with the capabilities of the network.

If information about network capabilities is not available, then the call is made according to the user request and the call result is saved for future use.

Preferably, there is an opportunity / mechanism for clearing the collected information (over the network or all at once), so if the network is updated so that new services are available, the MS will not refuse to use the requested service because it is not supported. Or, alternatively, it is preferable to disable this feature. If the feature is disabled, the information collected may or may not be included individually. It is also useful if the user can request from the MS about the capabilities of the networks, for example, read the collected information.

In the case of mobile-completed (MVSv) calls from the user, information is needed on how to receive MVSv calls in the OCC (the only numbering scheme), for example, fax, video, data. When an MSv call is received without EIVN parameters in the INSTALL message, the MS will view the remaining parameters from the collected information.

Thus, according to the first embodiment, the capability of network services and called parties is collected by the MS either during connected calls, or by receiving this information in a network-initiated feed. Information can also be configured in the MS by the user or operator. This information is stored in the MS and can be used to initiate or receive calls without information about the capabilities of the network that is available when placing a call.

The following describes a second embodiment in which information is sent to the MS when establishing a mobile completed call. Further, only differences from the first embodiment are mainly described. In particular, note that the same connectivity information (network capability information, remote side information, and the like) is the same.

According to a second embodiment, the mobile network indicates its relevant capabilities and available parts of the properties of the intermediate network (s) and the calling party for the MS through the signaling (signaling) of the installation. For example, if the MS supports multimedia and accepts a call setup that indicates "VPI = NDT, supports TCH / F32, opaque connection", the MS responds with a full 64 kbps VPI = NDT of multimedia EIVN.

This is described in more detail below.

It is again assumed that the MS is served by the CCMS (Mobile Switching Center) or SCMS (CCMS Server), which, from the point of view of the MS, is the guest CCMS or SCMS (in short as SCMS and SCCCMS).

The procedure to be performed is illustrated in the signal flow diagram shown in FIG. 3.

The procedure is performed when the MCCC or MCCMC receives an installation message (e.g., US (Initial Address Message)) from a central / external network without a sufficient service definition (step S21), and a single numbering scheme (CEN) is used.

At step S22, the MCCM sends a data call related to the capabilities of itself and the corresponding radio network (if it is known to the MCCM) and the VPI / TRM received from the calling party to the MS. Preferably, this information is sent in an existing message (similar to the INSTALL message). For example, this information can be included in the extension or spare field of an existing item (similar to CALL MANAGEMENT NETWORK OPPORTUNITIES), as described, for example, in 3GPP TS 24.008, subclasses 9.3.23.1 and 10.5.4.29. Due to this measure, past capabilities are guaranteed with mobile stations that do not support the proposed new feature, because in the case of, for example, sending an additional message, the MS that does not support the feature according to the invention may be confused.

However, of course, the use of other signaling messages and elements (for example, Classmark) is also possible when the feature described here is trusted for all MSs.

In step S23, the MS evaluates the received information. That is, the MS, taking the installation with the network capabilities and VPI / TRM information, derives from the network capabilities information, for example, can a multi-slot configuration and TCH / F14.4 or TSN / F28.8 or TCH / F43.2 be used in a guest network or the TCH / F32 channel, whether transparent (P) or non-transparent (NP) services, or both, are supported, and whether the calling party requests an SDI / OTZ (Unlimited digital information / limited digital information), 3.1 kHz or voice call .

At step S24, the MS responds by means of an EIVN (Media Capability Information Element) derived from the above information and the relative configuration of the MS itself.

This element (i.e., information related to the agreed services) is used by the MCCC and EF to set up a call. Optionally, the failure verification procedure may be performed (after sending the EIVN to the PV in step S25) in step S26, as will be described later. After that, the normal call procedure can continue without fail.

The following are some examples for evaluating information about network capabilities and the like.

Example 5:

- If the MS has just made a call to access the internal network server, which is called after verification of identification, and the incoming call indicates "VPI = NCI, TCH / F14.4 supported, multi-slot supported", the MS will establish an opaque call with the maximum data rate configuration with TCH / F14.4, supported by itself (for example, 2 * 14.4 = 28.8 kbit / s) and with the protocol of the NCI.

Example 6:

- MS supports multimedia. The MS receives a call setup that indicates "VPI = NCI, TCH / F32 supported, multi-slot." MS meets the full EIVN 64 kbit / s VPI = NTC multimedia.

Example 7

- MS supports multimedia. The MS receives a call setup that indicates "VPI = 3.1 kHz, TCH / F14.4 supported, multi-slot." MS meets the full EITN 28.8 kbit / s VPI = 3.1 kHz multimedia. (If it happens that the calling party requests any voice service, a standard return is made from 3.1 kHz to voice).

Further, as a third embodiment of the invention, it is described which actions are performed when the MS selects the wrong services due to a failure or because the actual MS does not support the feature of the invention. That is, according to the third embodiment, the failure verification procedure described above with reference to FIG. 3 is performed, step S26.

In particular, a network control element that performs the interaction function (FW) can use automatic detection of the data rate and automatic protocol detection in the interval between the FW and the calling party to eliminate the failure in the case when the MS indicates an incorrect fixed network data rate (FSSDP) or a protocol (for example, an FSSPD or a protocol different from that used by the caller). In the present embodiment, it is assumed that the MCCC and EF exist separately. In this case, it is necessary to direct the EIVN to the PV in step S25. However, as mentioned earlier, PV can be addressed directly, so transmission through the network is not required.

The procedure performed in such an unsuccessful case is illustrated in the flowchart of FIG. 4.

At step S31, the PV detects the value of the VPI of the called MS, that is, the value of the VPI is selected by the mobile station. In step S32, the PV detects a data rate and a protocol between the PV and the caller. At step S33, the PV checks whether the detected MS matches this VPI value with the detected data rate and protocol. If they are consistent, the PV determines that the MS can support the feature of the invention and the normal connection continues (step S34).

If, however, the values described above are not consistent, the PV determines that the called MS does not support the described coordination of services and network capabilities. That is, the MS can respond with a value of incorrect information transfer capability (VPI), i.e. a value other than the value specified by the caller.

In this case, the interaction function (PV) uses the value of the VPI received from the caller, i.e. does not take into account the VPI received from the called mobile station (step S35). The PV will then also adjust the appropriate parameters to match the changed value of the VPI, for example, if the VPI is changed from 3.1 kHz to the NCI, the modem type is not required.

Note that the procedure according to the third embodiment should not be performed in the PV, but can be performed in any form of a network control.

In addition, it may happen that the MS offers a service that is not consistent with the service used by the calling party. In this case, the FI will reject the call despite the fact that the MS correctly identified the service. However, with all the available information and the method described above in the embodiments, the probability of such a case is extremely small.

The above description and the accompanying drawings merely illustrate the present invention by way of examples. Thus, embodiments of the invention may vary within the scope of the appended claims.

For example, the above-mentioned embodiments have been described for the case where the mobile station moves in the guest network. However, the invention is not limited to this case. Namely, by applying the negotiation procedure of the invention, the network can be easily reconfigured. For example, new services and the like may be introduced. A communication device configured to perform a negotiation procedure can also easily use new services in its own home network without the need for manual configuration or the like.

In addition, the above embodiments have been described for an example in which a mobile communication network is used. Although the invention is most suitable for use in a mobile communication network, it can also be applied to a fixed communication network. For example, a landline phone moves from one location to a new one, and at the new location it connects to a new landline network that has other properties than the old network. This may be the case when another operator starts a new network. In this case, it is not necessary to manually configure the landline telephone for this network when the invention is applicable. In order to adapt the feature of the invention, it is necessary that the corresponding messages containing the requested information about the connectivity (network capabilities and the like) are sent over the fixed communication network (s).

Claims (34)

1. The method of managing the network to which the communication device is connected, which is that (S22) the connection device receives information about the connectivity from the network when receiving a call, and the installation message including connection connectivity information is received by the communication device from the network, wherein the connectivity information indicates a plurality of services supported by the network, and evaluate (S23) the connection service on the communication device based on the received connectivity information. 2. The method according to claim 1, characterized in that the information about the connectivity contains information about the capabilities of the network. 3. The method according to claim 1, characterized in that the information about the connectivity contains information about the capabilities of the remote side. 4. The method according to claim 1, characterized in that the information about the connectivity contains information about the capabilities of the intermediate networks between the network to which the communication device is connected and the remote side. 5. The method according to claim 1, characterized in that the step of obtaining information about the connectivity is performed when a call is initiated. 6. The method according to claim 1, characterized in that the step of obtaining information about the connectivity is performed during registration in the network, and the received information is stored in a communication device. 7. The method according to claim 1, characterized in that the step of obtaining information about the connectivity is carried out by means of a network sending information to the communication device through the message service, and the received information is stored in the communication device. 8. The method according to claim 1, characterized in that the step of obtaining information about the connectivity is performed at the configuration step, in which the user or operator is invited to manually configure the communication device using the connectivity information. 9. The method according to claim 5, characterized in that they additionally receive (S11) the connection service requested by the user, and at the same time, at step (S13), the checks verify whether the network connection service is supported and, if necessary, change the requested service according to the received connectivity information. 10. The method according to claim 1, characterized in that at the stage of evaluation, the connection service is determined according to the received connectivity information, and information about the determined connection service is generated. 11. The method according to claim 10, characterized in that information about the determined connection service is transmitted to the remote side in the message (S14). 12. The method according to claim 1, characterized in that it is performed in a communication device. 13. The method according to claim 1, characterized in that the communication device is a mobile communication device, and the network is a mobile communication network. 14. The method according to claim 1, characterized in that the communication device is a fixed communication device, and the network is a fixed communication network. 15. The method according to claim 1, characterized in that at the stage of receiving the communication device uses information about the connectivity to derive the requested service and the communication device responds to the installation message with the network unique information about the service that defines the displayed service. 16. A communication device configured to connect to a network, wherein the communication device is configured to receive information about connectivity from the network when a call is established and receive an installation message including connectivity information to obtain connectivity information, wherein connectivity information indicates a plurality of services supported by the network, and connectivity service estimates according to received connectivity information. 17. The communication device according to clause 16, wherein the information about the connectivity contains information about the capabilities of the network. 18. The communication device according to clause 16, wherein the information about the connectivity contains information about the possibility of the remote side. 19. The communication device according to clause 16, wherein the information about the connectivity contains information about the possibility of intermediate networks between the network with which the communication device is connected and the remote side. 20. The communication device according to clause 16, characterized in that it is configured to obtain connectivity when initiating a call. 21. The communication device according to clause 16, characterized in that it is configured to obtain connectivity from the network through the messaging service, and the received information is stored in the communication device. 22. The communication device according to clause 16, characterized in that it is configured to obtain connectivity when registering on the network and storing the received information. 23. The communication device according to clause 16, characterized in that it is configured to obtain connectivity by inviting a user or operator to manually configure the communication device using connectivity information. 24. The communication device according to claim 20, characterized in that it is further configured to receive the connection service requested by the user of this communication device, and during the evaluation of the connection service, with the ability to check whether the network supports the connection service and, if necessary, with the ability to change the requested service according to the received connectivity information. 25. The communication device according to clause 16, characterized in that it is configured to determine during the evaluation of the connection service according to the received information about the connectivity and generate information about the determined connection service. 26. The communication device according to clause 16, characterized in that it is configured to transmit information about the changed connection service to the remote side in the message. 27. The communication device according to clause 16, wherein the communication device is a mobile communication device, and the network is a mobile communication network. 28. The communication device according to clause 16, wherein the communication device is a stationary communication device, and the network is a stationary communication network. 29. The communication device according to clause 16, characterized in that it is configured to use information about the connectivity to display the requested service and reply to the installation message through a network with unique service information that identifies the displayed service. 30. A method for managing the network and the connection between the communication device and the remote side, the communication device being called via the remote side, which means that (S31) information about the supported connection service is detected in the network control element, the information being generated by the communication device, is detected ( S32) in the network control element, information related to the connection between the network control element implementing the method and the remote side, and evaluate (S33) whether they are consistent with each other bnaruzhennaya information and information relating to the connection. 31. The method according to item 30, wherein they do not take into account (S35) information about the supported connection service generated by the communication device in the case when both parts of the information are not agreed. 32. A network control element configured to control the network and the connection between the communication device and the calling party, the communication device being called by the calling party, in addition, the network control element is further configured to detect information about the supported connection service, the information being generated by the communication device, detecting information related to the connection between the network control and the caller, and evaluating whether the detected Naya information and information relating to the connection. 33. The network control element according to claim 32, characterized in that it is further configured to disregard information about the supported connection service generated by the communication device in case both parts of the information are not agreed. 34. The network control element according to claim 32, characterized in that it performs an interaction function (FI).

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