FI89225B - Telecommunication system and method for monitoring the connection with the telecommunication system - Google Patents

Description

1 89225

Communication system and method for controlling a connection in a communication system

The invention relates to a data transmission system in which terminal equipment suitable for both voice and data services can be interconnected in accordance with the CCITT V.110 recommendation or via a rate-matched full-duplex connection or partial connection associated with V.24 interfaces, respectively, and a method for controlling such a connection.

10 In such a system, the terminals may include, for example, a handset connected to a network terminal or integrated in a data terminal for telephone conversation, and a data terminal adapted for a V.110 rate-matched full-duplex connection by a terminal adapter.

15 Such terminals suitable for both data and voice services are, for example, facsimile Group 3 terminal or personal computer communication program, which is adapted by a terminal adapter to, for example, XSDN's V.110 speed-adapted 64kbit / s UDI network service or GSM PLMN's 20 9.6 / 4.8 / 2.4 kbit / s UDI network service. The terminal can be full-duplex or half-duplex, and has a standardized or non-standardized session session policy for managing and using voice / data services, corresponding to OSI layers 4-7. The network terminal is thus, for example, MT2 of ISDN NT or GSM PLMN. 25 Facsimile Group 3 terminals have so far not had a V.24 connection, but have always used a modem connection and a 2-wire connection (modem connection via the telephone network, for example). Since the same transmission link has then been able to transmit both the signaling and the speech of the baseband modem 30, the terminals have been able to switch from, for example, data service to voice service according to their current OSI layers 4-7 service management policy (e.g. CCITT T.30 or T.4). that the transmission network used must have known or reacted to a change in the service mode by changing the configuration of the transmission connection in some way.

However, data transmission systems using V.110 transmission links have the weakness that the terminal equipment has a handset for voice service, but the V.110 speed-5 adapted transmission path does not transmit voice. However, using the voice service during a connection is, for example, part of the normal functions of fax group 3. Similarly, for example, receiving an incoming data call on a personal computer requires answering the call first so that the end user can start the correct application.

The ISDN and GSM PLMN subscriber signals will include an In-Call Modification procedure, which allows the voice connection to be switched to a V.110 rate-matched data connection and vice versa an unlimited number of times, if necessary, by replacing PCM encoding with UDI encoding and vice versa.

However, it has not been defined how the transmission network could react to the handover of modem terminals in ISO layers 4-7 and, as a result, take the necessary measures to adapt the network to the new service, for example by initiating an IN-Call-Modification procedure to change the V.110 rate-matched partial connection. as a voice connection.

25 In general, the problem is that an application using a V.110 sub-connection, such as the Fax service and its associated adapter devices, signals significant events for call control (service change, baud rate change, call termination). However, for example, in the GSM system mobile phone, call control is the function of the network terminal.

It is an object of the invention to enable the comprehensive utilization of combined voice / data terminals in transmission systems using rate-matched sub-connections associated with V.24 interfaces.

3,69225 This is achieved by a method according to claim 1 and a communication system according to claim 12.

The invention is based on the main principle that the functions related to the OSI layers of the terminals 4..7 are matched to the V.24 status transmitted in the frames by a terminal adapter.

As stated earlier, because the transmission capabilities of the GSM system require reconfiguration of the traffic channel in a service change (voice - data) or transmission rate change, the GSM system includes a service-specific terminal adapter and a network adapter that monitor application signaling between terminals to initiate actions. Reconfiguration of the 15 traffic channels of the GSM system is achieved.

The invention allows the application parts belonging to the service to handle events significant for call control with V.24 statuses at the end-to-end of the connection. Such a handshake establishes a signaling connection between said adapters and enables procedures to prevent service failure due to an inappropriate state of the V.110 sub-connection. For example, in the case of the GSM system, there are thus three signaling protocols: (1) GSM call control according to GSM 04.08 on signaling-25 channel Dm, (2) application protocol between terminals, for example fax application protocol T.30 / T.4, and (3) a handshake between the service-related terminal adapter and the Network Adapter with V.24 statuses.

When the speed matching of V.24 statuses is taken care of by V.110 channel 30, the network terminal can easily monitor the status of V.24 statuses and take call control measures as required by the defined handshake protocol, e.g. on the GSM signal system Dm signaling channel. Such a solution achieves e.g. the advantage that, for example, the terminal adapter associated with the fax-35 service can be implemented independently by another manufacturer 4 69225, so that the terminal adapter's communication with the network terminal is based on a fixed V-24 interface protocol and not on a specific hardware or software interface.

Furthermore, the invention enables as far as possible automatic connection management so that the reliability of connection transactions can be increased (e.g. by ensuring disconnection always from the direction of the subscriber device) and to facilitate operation without the user having to take any additional steps to configure the connection beyond normal terminal use. in the case that the connection has a V.110 partial connection.

The network terminal may implement call control signaling, channel configuration, and other automatic matching in response to at least some predetermined V.24 status.

The invention makes it possible to connect a voice / data terminal to a V.110 connection or a similar connection without requiring special functions other than the normal In-Call Modification procedure for network subscriber signaling.

The invention increases the functions of the terminal adapter and the network adapter, but provides the advantage of better support of the service functions and is based on standardized signaling.

In a preferred embodiment of the invention, the connection adapter means always perform a handshake procedure via the sub-connection with each other after the synchronization of the connection related to the establishment of the partial connection, giving the sub-connection a predetermined V.24 status which is kept the same throughout the data connection.

The connection adapter means monitors the communication between the terminals and, upon detecting the transmission of the termination message, performs a second handshake procedure via the sub-connection with the V24 statuses to obtain a second predetermined V.24 status for the sub-connection 35, resulting in 5 89225 disconnections.

Furthermore, the connection adapter means preferably monitor the communication between the terminals and, upon detecting the transmission of the service exchange message, perform a third handshake procedure via the sub-connection 5 with the V.24 statuses, giving the sub-connection a third predetermined V.24 status initiating the In-call modification procedure. The sub-connection is returned from the speech mode to the data mode by an in-call modification procedure initiated by the terminal, followed by the synchronization of the partial connection and said first handshake procedure to restore said first V.24 status to the sub-connection.

Furthermore, the connection adapter means preferably monitors the data transmission between the terminals and detects the transmission rate change message and performs a handshake procedure with V.24 statuses, as a result of which the Network Adapter initiates a GSM-04.08 or equivalent Channel-mode-modify procedure and pre-signals the connection. ka-20 hub speed change is underway. After the Channel-mode-modify procedure is successfully completed at the network terminal, the connection adapter means performs a new handshake procedure to return the V.24 statuses to the first predetermined state, indicating that both sub-25 parties are ready to continue communicating at the new channel rate. This procedure can speed up speed switching, which can be important in some applications (such as fax service).

The invention will now be described in more detail by means of exemplary embodiments with reference to the accompanying drawings, in which Figures 1A and 1B show systems according to the invention. . systems in which the terminals are interconnected via a v.110 connection only and a V.110 connection and 35 a transit network, respectively, and Figures 2-8 are signaling diagrams illustrating the initiation of a terminal session, the termination of a terminal session and the service mode and changing the baud rate. In the case of a V.110 connection used in the GSM PLMN system (digital 5 mobile telephone system).

In the system according to the invention, the terminals may include, for example, a handset 4 connected to the network terminal 3 or integrated in the data terminal 10 for telephone conversation as shown in Figures 1A and 1B, and a terminal adapter 2 to a V.24 interface and a network terminal 3 to a V.110 rate-matched full-duplex 1. The V.10 connection described in this context is a digital transmission channel originally developed for ISDN (Integrated 15 Services Data Network) technology, which adapts to the V.24 interface and also offers the possibility to transmit V.24 statuses (control signals). . However, it is possible to apply the invention to other transmission channels which are V.110-like and capable of transmitting V.24 statuses. This is the case, for example, with CCITT Recommendation V.120 under development.

The CCITT Recommendation for a V. 110 Speed Adapted Connection is set forth in CCITT Blue Book: V.110.

The CCITT recommendation for the V.24 interface is presented in CCITT Blue Book: V.24. In the following description, V. 24 statuses refer to control signals of the V.24 interface, e.g., CT105, CT106, CT107, CT108.2, and CT109. Without limiting the generality, the description presents only one possible example of the use of said statuses according to the present invention. It will be clear to a person skilled in the art that by using these and other V.24 interface statuses, the object of the invention can also be realized in another way, so that the parties to the connection can monitor each other's status and maintain the coordination necessary for the service. Some of said status signals may also be reserved for local handshake, for example by setting a predetermined status between the network terminal and the terminal adapter after the V.110 connection has been synchronized. Such a local handshake limits the possibilities for status handshakes over the network, because some of the statuses cannot be transmitted transparently between the connection adapter devices.

It will further be apparent to one skilled in the art that the handshake procedures set forth below can be varied within wide limits without departing from the principle of the invention. In any case, the handshake procedures must be designed in such a way that they are unambiguous and the signaling state belonging to one handshake procedure must not inadvertently lead to the initiation of another procedure. For example, the disconnection procedure must be defined in such a way that it does not enter status settings that could be interpreted by the network terminal as a service change request.

According to Fig. 1B, the terminals can be connected to each other only via a V.110 rate-adapted network, i.e. e.g. ISDN or GSM PLMN.

Alternatively, according to Figure 1A, the terminals can be connected to each other via the transport network 7 (PSTN) in addition to the V.110 connection, whereby there is a Network Adapter 6 between the V.110 connection and the transit network. 25 There are several possibilities for transit networks, eg: from GSM PLMN to PSTN: to GSM PLMN, modem as network adapter 6, - from GSM PLMN to PSTN terminal equipment, modem as network adapter, 30 - from ISDN via PSTN to ISDN, modem as network adapter 6, - ISDN: from the PSTN to the terminal equipment, a modem as a network adapter 6, from a GSM PLMN via ISDN to a GSM PLMN, a mere adaptation of the synchronization and user data speeds as a network 35 adapter 6.

Suitable for data and voice services and are, for example, facsimile Group 3 terminal or personal computer communication program, which is adapted with 5 terminal adapters, eg ISDN V.110 speed-adapted 64kbit / s UD1 network service or GSM PLMN 9.6 / 4.8 / 2.4 kbit / s UDI network service. The terminal may be full-dup-lex or half-duplex, and has a standardized or non-standardized session session policy corresponding to OSI layers 4-7 for managing and using voice / data services. The network terminal is thus, for example, ISDNrn NT or GSM PLMNrn MT2. Such service procedures for OSI layers 4-7 include, for example, CCITT Recommendations T.4 and T.30, which can be found in CCITT Blue Book: T.4 and CCITT Blue Book: T.30.

The invention is described below by taking, for example, a system in which the handshake of the CCITT T.30 of the Fax Group 3 terminals is adapted to the GSM PLMN using the PSTN as a transit network 7 and a modem-based network adapter 6.

The subsystems of the fax service of the GSM PLMN are a mobile phone and a Network Adapter to the PSTN, as shown in Figure 2. The mobile phone consists of a Fax terminal (Fax-TE), a Fax terminal adapter (Fax-TA) and a network terminal part (TAF / MT2). The fax terminal is a normal PSTN terminal. The network terminal includes 25 TAF adapters providing radio functions, signaling functions, mobility functions and V.24 interface. The fax terminal adapter is a GSM 03.45 compliant adapter. The network adapter for the PSTN includes a speed adapter (RA) and a fax network adapter (Fax-IWU). Fax-TA and Fax-IWF are 30 half-duplexes for a 2-wire connection, but full-duplexes for a GSM PLMN. Call control for the transparent fax services of the GSM PLMN is defined in Recommendation GSM 03.45. The names of the devices and functions used in this connection are also in accordance with the GSM standard.

35 The call control of the GSM PLMN's transparent fax services 9 89225 in Recommendation GSM 03.45 vaguely defines how the half-duplex fax service is adapted to a full-duplex PLMN connection, and leaves completely open how the Fax terminal adapter and the Fax network adapter 5 should coordinate their joint operation. This can lead to errors when the hardware is based on assumptions about the state and readiness of the adapter means at the other end of the rate-matched sub-connection.

The problem is new because fax group 3 terminal-10 devices have so far not had a V.24 interface, but have always used a 2-wire interface.

The invention solves the problems presented by the use of a handshake, which give the terminal adapter and the network adapter to be sufficiently aware of the other party's 15 operational mode.

The invention makes it possible for a standard telecopier terminal or a GSM facsimile device to be connected to a GSM PLMN connection without the GSM PLMN traffic channel subscriber signaling (according to GSM 04.08) having special functions related to the facsimile service.

Likewise, the invention enables the possibility, which is essentially part of the facsimile service, to convert the service into a telephone service and back so that the functions of the facsimile terminal are adapted to the normal In-Call Modification procedure of the GSM PLMN.

The invention increases the functions of Fax-TA and Fax-IWU, but has the advantage of better support for the features included in the service.

The invention complements the standardized call control of ETSI / GSM transparent facsimile services in its various phases as follows.

Start of the final session

The following describes the initiation of a terminal session in accordance with the invention with reference to Figure 2.

Initially, a connection is established between the terminals 35 and in connection with it the V110 connection 10 y 9225 of the GSM PLMN is synchronized in a manner fully standardized by the BTS1 / GSM.

After synchronization, at least some of the V.24 statuses are transparently transmitted between the terminal adapter and the Network Adapter. In the following, without limiting the frequency, it is assumed that the statuses CT106, CT107 and CT109 are transferred from the network adapter to the terminal adapter. Correspondingly, it is assumed that the statuses CT105 and CT108.2 are transferred from the terminal adapter to the network adapter.

The mobile phone establishes a connection 10 After synchronization The network adapter FAX-IWU notifies by sending a V.110 connection in V.110 frames to the terminal adapter FAX-TA V.24 the statuses CT109 OFFtoON and CT106 OFFtoON that it has sent a ring tone (CNG) and received a response tone (CED) ).

15 The FAX-TA terminal adapter acknowledges the statuses CT109 and CT106 by setting CT105 OFF. In addition, when the status CT108.2 of the terminal is ON, a predetermined V.24 status is established for the connection, which indicates to the terminal adapter and the network adapter that the terminal session has started and the terminal adapter FAX-TA and the network adapter FAX-IWU can start carrier handset GSM 03.45 as defined.

The terminal adapter and the network adapter keep the V.24 statuses the same throughout the terminal session, unless the application signaling between the terminals 25 gives rise to new actions relevant to the V.110 sub-connection. In order to detect such application signals, the terminal adapter FAX-TA and the network adapter FAX-IWU monitor the communication between the terminals in accordance with the GSM 03.45 standard.

30 The PSTN terminal connects

After synchronization, the FAX-IWU of the Network Adapter informs the FAX-TA V.24 of the statuses CT109 OFFtoON and CT106 OFFtoON by sending V.110 via V.110 in the frames to indicate that it has received 35 ring tones (CNG) and started a response tone (CED). 11 89225.

The FAX-TA terminal adapter acknowledges the statuses CT109 and CT106 by setting CT105 OFF. In addition, when the state CT108.2 of the terminal is ON, a predetermined V.24 status is established for the connection, which indicates to the terminal adapter and the network adapter that the terminal session has started and the terminal adapter and the Network Adapter can start carrier handshake as defined in GSM 03.45.

10 The terminal adapter and the network adapter shall keep the V.24 status the same throughout the terminal session, unless the application signaling between the terminals gives rise to new actions relevant to the V.110 sub-connection. In order to detect such application signals, the terminal adapter FAX-TA and the network adapter FAX-IWU monitor the communication between the terminals in accordance with the GSM 03.45 standard.

End of terminal session 1a disconnection

The termination of the terminal session and the disconnection according to the invention will now be described with reference to Figures 3 and 4. The terminal adapter FAX-TA and the network adapter FAX-IWU monitor the terminal session and generate a V.24 status for the PLMN connection, according to which the network terminal can take GSM PLN to disconnect.

Mobile Phone Ends Session: Figure 3 illustrates how a mobile phone (FAX-TE) terminates a terminal session. The FAX-ΤΕ terminal terminates the terminal session by sending an end message T.30: DCN, which is detected and forwarded by the FAX-TA communication monitor. The FAX-IWU of the Network Adapter also detects 30 termination messages and forwards them. FAX-TA sends V.24 statuses CT105 ONtoOFF and CT108.2 ONtoOFF. After terminating the transmission to the PSTN, the FAX-IWU acknowledges by sending the V. 24 statuses CT106 ONtoOFF, CT107 ONtoOFF and CT109 ONtoOFF. Both adapters go to sleep. In this case, the network terminal 35 TAF / MT2 can, in the normal way, generate a call 12 l »9225 if the end user has not started the call from the user.

The PSTN terminal ends the Session:

Figure 4 illustrates how a terminal (not shown) connected to a public switched telephone network (PSTN) terminates a terminal session (generally the case where the termination message comes from the direction of the transmission network). The PSTN terminates the terminal session by sending an end message T.30: DCN. The network adapter FAX-IWU detects the termination message and forwards it, and after terminating 10 it still sends the V.24 statuses CT106 ONtoOFF, CT107 ONtoOFF and CT109 ONtoOFF. The terminal adapter FAX-TA also detects the termination message, and acknowledges with the V.24 statuses CT105 ONtoOFF and CT108.2 ONNtoOFF. The FAX-TA terminal adapter and the FAX-IWU network adapter go into sleep mode. In this case, the network terminal 15 TAF-MT2 can generate call disconnection in the normal way if the end user has not started disconnecting the call from the user interface with the MM1 command.

Changing the service type during a call Figures 5 and 6 illustrate changing the service type during a terminal session. The T.30 defines an optional Voice Request function that allows each end user to shake hands between the terminals during a terminal session to request the other to switch to a telephone conversation and then return to the datapa-25 service. The terminal adapter FAX-TA and the network adapter FAX-IWU monitor the terminal session and, upon detecting a change of service type, generate a V.24 status for the PLMN connection so that, if necessary, the network terminal TAF-MT2 can start the In-Call Modification procedure in this V.24 based on status:

Mobile phone requests service change:

Figure 5 illustrates a handover requested by a mobile telephone (FAX-TE). The FAX-TE requests a Voice Request by sending a PRI-Q in the normal way. Lop-35 users have 10 + 5 seconds to start a voice connection.

13 o9225 The FAX-TA terminal adapter monitors the handshake between the terminals and forwards it when it detects a service change message. The network adapter FAX-IWU also detects the service change message and, after forwarding it, transmits the V.24-5 statuses CT107 ONtoOFF and CT109 ONtoOFF. In this case, the terminal adapter FAX-TA generates CT105 ONtoOFF for the V.110 connection and the network adapter FAX-IWU acknowledges with the V.24 status CT106 ONtoOFF and both go into sleep mode to wait for the return to data mode. In addition, when it detects a service change message, the FAX-TA maintains the V.24 status in the CT108.2 ON state, in contrast to when it detects a termination message. Without limiting generality, this example assumes that the network terminal TAF responds to the resulting V.24 status by initiating a normal In-call-modification procedure if it has not already been initiated by the end user via the user interface. In-Call Modification also starts the Network Adapter FAX-IWU leaving the line.

When end users want to return to the terminal session, the other end user generates 20 In-Call Modification procedures through the user interface. The In-Call Modification procedure initiates the synchronization of the V.110 connection and the connection of the Network Adapter FAX-IWU back to the line. The FAX-IWU network adapter returns to the terminal session and acknowledges CT107 OFFtoON and CT109 OFFtoON. The FAX-25 TA terminal adapter also returns to the terminal session and changes the CT105 to OFF, to which the FAX-TA Network Adapter acknowledges the CT106 OFF.

Now the terminal adapter FAX-TA and the network adapter FAX-IWU know each other again in data mode and are ready to carry the carrier.

30 The PSTN requests a service change;

Figure 6 illustrates a service change requested by a terminal (not shown) connected to the public telephone network PSTN (generally the case where the service change request comes from the direction of the transmission network). When the PSTN terminal requests a service change, the handshake is different for the network terminal and the terminal adapter, but similar for the V.24 status as above.

In Figure 6, the PSTN subscriber initiates the Voice Request function by sending a PIN / PIP acknowledgment in a normal manner to the MPS / EOM / EOP message sent by the MS. The MS responds by sending a PRI-Q message. End users have 10 + 5 seconds to start a voice connection.

If the MS is fully integrated. The MMI command in the Voice Request can directly trigger the In-Call Modification process-10 major.

If the Fax-TA is a separate device, the Fax-TA detects the PIN / PIP and the PRI-Q that acknowledges it. In this case, the Fax-TA keeps the V.24 status in the CT108.2 ON state and sends the V.24 status CT105 ONtoOFF. In this case, the Fax IWU enters Voice 15 Request mode and acknowledges with the V.24 statuses CT106 ONtoOFF, CT107 ONtoOFF and CT109 ONtoOFF.

Without limiting the generality, this example assumes that the network terminal TAF responds to the resulting V.24 status by inverting the normal In-Call Modification -20 procedure. In-Call Modification causes the IWU / Fax-IWU to leave the line.

The return to the fax mode is performed in the same way as in the case of Fig. 5.

Transmission rate switching Figures 7 and 8 illustrate a possible operation according to the invention in connection with a channel transmission rate switching. In Figure 7, the PSTN-side FAX terminal (not shown) initiates the exchange rate of the page. In Fig. 8, the transmission rate change is initiated by the Fax-TE terminal of the mobile telephone Fax-30.

The terminals may be able to negotiate the transmission rate they use on the connection and possibly change it during the session, for example to improve the perceived poor connection quality. For example, in the fax service, the terminals can negotiate and re-negotiate the c 9225 Telia page baud rate. Such a change of transmission rate requires a reconfiguration of the V.110 sub-connection, for which a Channel-mode-modify procedure is defined in the GSM PLMN.

5 In the GSM PLMN, the channel speed change is done only by the mobile station, so the FAX-IWU network adapter controls the operation. To detect the speed change commands of the terminals, the FAX-IWU network adapter monitors the communication between the terminals.

10 When it detects a communication between devices on a terminal with a speed change, the FAX-IWU of the network adapter sets the V.24 status to CT107 ONtoOFF. The FAX-TA terminal adapter acknowledges by setting the CT105 ONtoOFF. Thus, the system is placed in a fourth predetermined V.24 status state 15 as an indication that both the terminal adapter FAX-TA and the network adapter FAX-IWU can expect a change in the channel rate matches.

The network adapter FAX-IWU initiates the change of the channel speed via call control signaling as specified in the standard 20 GSM 04.08. When the network terminal TAF-MT2 receives the rate matching control from the call control of the mobile phone MS, it configures the V.110 rate matches and activates the terminal adapter to return the status signal CT105 to the normal state OFFtoON. Such control between the network terminal and the terminal adapter can be implemented, for example, by a local V.24 status handshake mentioned above. The FAX-IWU detects changes to the CT105 status and acknowledges by changing the CT107 to OFF. This is an indication that both adapters have completed the 30 V.110 connection reconfiguration steps and the channel can be returned to the terminals. When a handshake occurs between adapters with V.24 statuses, the channel is restored more quickly than by waiting for call control from the ends of the Channel-mode-modify procedure via call control. This is important in synchronous applications such as 16,39225

Fax service with no flow control available.

In summary, in connection with GSM PLMN, the invention is particularly characterized by: - Fax-TA and Fax-IWU generate a full-duplex V.24 status for PLMN connection for PLMN connection 5 in connection establishment phase 5 after connection synchronization, - Fax-TA and Fax-IWU generates a predetermined full-duplex V.24 status for the PLMN connection in response to the termination message, thus, 10 - Fax-TA and Fax-IWU generate a full-duplex V for the PLMN connection after the Voice Request initiated during the fax session. .24 so that Fax-TA and Fax-IWU enter Voice Request mode to wait for a return to fax format, and the TAF can generate 15 In-Call Modification procedures if necessary, - Fax-TA and Fax-IWU generate In-Call Modification after the procedure, a full-duplex V.24 status for the PLMN connection so that Fax-TA and Fax-IWU return to Voice Request mode in 20 fax formats as defined by CCITT: T.30, - Fax-IWU and Fax-TA shaking hands with y - Fax-TA and Fax-IWU shake the normal full-duplex V.24 status after reconfiguring the V.110 channel rate 25 and subsequently synchronizing the V.110 connection.

In general, from the point of view of a V.110 connection, the invention can be said to be particularly characterized by: - the terminal adapter and the network adapter generate a full-duplex V.24 status after the V.110 connection is synchronized in the connection establishment phase, - the terminal adapter and the network adapter generate a V.110 connection after the terminal session, a full-duplex V.24 status so that the terminal adapter can, if necessary, generate a disconnection, - when the terminals interrupt the terminal session and switch to voice service, the terminal adapter and the Network Adapter generate a full-duplex V for the V.110 connection. .24 so that the terminal adapter and the network adapter go into stand-by mode to wait for a return to the terminal session, and that the terminal adapter can generate an In-Call Modification procedure if necessary, - after the In-Call Modification procedure, the terminal adapter and the network adapter generate a V.110 connection full-10 duplex V.24 status so that the terminal adapter and network adapter return from stand by mode to the terminal session.

The figures and the description are intended only to illustrate the present invention. The details of the method and the data transmission system according to the invention may vary within the scope of the appended claims.

Claims (20)

A method for checking the connection between terminal devices (1) in a telecommunications system, wherein said connection contains at least one according to CCITT V. 110 recommendation or corresponding speed-adjusted sub-connection (5) in connection with V.24 interface, characterized in that: on said sub-connection, V.24 status is used for handshaking of such connection operations in the connection between the terminal devices (1), which are relevant to said sub-connection (5). 2. A method according to claim 1, characterized in that the V.24 status of said sub-connection is set in the manner required by the standstill signal. 3. A method according to claim 1 or 2, characterized in that said connection operations, in the connection between the terminal devices relevant to said sub-connection (5), correspond to at least the minimum of OSI layers 4-7. Method according to claims 1, 2 or 3, characterized in that messages sent by the terminal devices (1) are observed in the OSI layers 4-7 and for the sub-connection (5) the corresponding V.24 status is generated, where a message which is relevant to the sub-connection is detected. Method according to any of the preceding claims, characterized in that at each end of said subconnection (5) there are connecting adapters (2, 6) for converting terminal device signals to said speed-adapted subconnection, whereby the connecting adapters always after the initial connection of the partial connection, a V.24 status between themselves performs a first handshake procedure, with which for the partial connection a first predetermined V.24 status is obtained which 24 # 9225 is maintained throughout the data connection. Method according to any one of the preceding claims, characterized in that at each end of said sub-connection (5) there are connecting adapter means (2, 6) for converting terminal device signals to said speed-adapted sub-connection, whereby the connecting adapter means observes the telecommunications between the terminal devices (1) and when they detect the transmission of a final message, they carry out a second handshaking procedure between the two V.24 states, with which a second predetermined V.24 status is obtained for the sub-connection causing the connection to be broken . Method according to any of the preceding claims, characterized in that at each end of said sub-connection (5) there are connecting adapter means (2, 6) for converting terminal device signals to said speed-adapted sub-connection, at the connection adapters, the telecommunications between the terminal devices (1) observe and when they detect a service exchange notification, they perform a third handshaking procedure via the subconnection among themselves with V.24 status, with which a third predetermined V.24 status is obtained for the subconnection. resulting in an Incall modification procedure as standard. 25 8. A method according to claim 5, characterized in that the subconnection (5) is returned from call state to data state with an Incall modification procedure initiated by the second terminal device, followed by a new synchronization of the subconnect and said first handshake procedure, with which said first V.24 status of the sub-connection is formed. Method according to any of the preceding claims, characterized in that at each end of said sub-connection (5) there are connecting adapter means (2, 6) for converting terminal device signals to said speed-adapted sub-connection. whereby the connection adapters observe the telecommunications between the terminal devices (1) and when they detect a message which means a change in speed between the terminal devices, they perform a fourth handshaking procedure via the sub-connection between themselves with V.24 status. , with which for the sub-connection a fourth predetermined V.24 status is obtained, leading to a Channel mode-modify procedure as standard. 10. A method as claimed in claim 9, characterized in that after the new configuration of the speed-adjusted V.110 channel under the fourth V.24 status has ceased, the connection adapters (FAX-TA, FAX-IWU) perform via the sub-connection. In accordance with V.24 status, a fifth handshaking procedure, with which the sub-connection is returned, said first V.24 status, which results in the return of the communication channel at the disposal of the terminal devices. 11. Telecommunication system, in which between the terminal devices (1) a connection may be formed which contains at least one according to CCITT V.110 recommendation or the corresponding speed-adapted sub-connection (5) in connection with V.24 interface , said subconnection at each end having connection adapter means (2, 6) for converting terminal device signals to said speed-adjusted subconnection, characterized in that the connecting adapter means (2, 6) of said subconnection use V.24 status for handcuffs from one end to another in the connection between the terminal devices (1), which are relevant to said sub-connection (5). 12. A system according to claim 11, characterized in that the connection matching means (2, 6) observe the data communication between the terminal devices to detect such connection operations in the connection between the terminal devices (1) which are relevant to the connection devices. the V.110 speed-adapted sub-connection (5) and uses V.24 status for handshaking at least any such connection operation. 13. A system according to claim 11 or 12, characterized in that the connection adaptation means (2, 6) comprise means for performing the first predetermined V.24 status handshake procedure between the connection adaptation means to obtain a first predetermined V .24 status of said sub-connection in response to the initial synchronization of the sub-connection. 14. A system according to claim 11, 12 or 13, characterized in that the connection adaptation means (2, 6), which respond to the discovery of the service type message of exchange in the telecommunications between the terminal devices, carry out the second predetermined handshaking procedure of V.24 status. between the connection fitting means to form a second predetermined V.24 status of the sub-connection. 15. A system according to any one of claims 11-14, characterized in that the connection matching means (2, 6) perform the third predetermined V.24 status handshake procedure between the connection matching means in order to obtain a third predetermined V.24 status for the sub-connection. , in response to the discovery of the final message in the telecommunications between the terminal devices. System according to claim 13, characterized in that the connection matching means (2, 6) perform said first handshaking procedure of V.24 status to form said first V.24 status of the sub-connection, which is responsive to an In-call modification. procedure initiated by the nigonder terminal device (1) in call connection mode. 17. A system according to any one of claims 12-16, 27 89225 characterized in that one of the connecting means comprises a terminal adapter means (2) which includes a network terminal means (3) for providing speed adjustment and signaling functions, and that between the terminal devices (1) a connection is formed via the terminal adapter means (2) and the network terminal means (3) s, that the sub-connection (5) is speed-adjusted with the network terminal means (3) and that the network terminal means (3) observes said V.24 status with the speed-adjusted connection (5) and realizes call control signaling, channel configuration or any other automatic adaptation in response to at least nigon predetermined V.24 status. 18. A system according to claim 17, characterized in that the network terminal means (3), which detects said second predetermined V.24 status on said speed-adjusted sub-connection (5), performs a call control signaling for an In-Call Modification procedure. 19. A system according to claim 17, characterized in that the network terminal means (3), which detects said third predetermined V.24 status on said speed-adjusted sub-connection (5), performs a call control signaling for a call procedure. 20. A system as claimed in claims 11-19, characterized in that the terminal devices 25 (1) are facsimile devices which exchange messages between CCITTs T.4 or T.30 and the corresponding OSI layers 4, 5, 6 and / or 7.