NO802495L - DIGITAL telecommunications system. - Google Patents

Description

More recent developments in remote messaging technology are moving in the direction of digital remote messaging systems, which for telephone subscriptions involve a conversion of the voice signals into digital signals already in the subscriber station, and where between the subscriber station and the communication center to which it is directly connected, a digital telephone connection can be set up via a uniform digital information channel with a bitrate of 64 kbit/s (per transmission direction), and where, moreover, outside ("outslot") this 64 kbit/s information channel can permanently consist of a stabilization connection for a so-called outslot signaling via an additional signal channel with a bitrate of

e.g. 8 kbit/s (per transmission direction), while in addition to such outslot signaling, so-called inslot signaling within the ("inslot") information channel can also be enabled (ISS'79, 773...780). In addition to speech, the 64 kbit/s unit channels of such a digital telecommunications system can also transmit texts, data and images via digital subscriber connections.

In such digital remote messaging systems, there is the possibility that certain participating stations do not technically belong to the transmission center to which the respective participating station is directly connected, but - via a permanently interconnected connection that proceeds via this transmission center - belongs to another transmission center. Such a network configuration can e.g. exist in a service-integrated digital telecommunications system, where the data subscriber stations are only indirectly connected to the associated data transmission center via permanently connected connections leading through telephone switching centers (telephone report 11 (1975) 3, 86...90), or also in the case of an external assistance station that is connected to its assistance transmission facility via a leased channel that runs over the public telecommunications network.

Such an only indirect connection of a participant station to the associated transmission center can lead to the fact that on part of the overall connection path only the uniform actual information channel with the bitrate of 64 kbit/s is available, and not any additional signal channel, so that directly and for indirectly connected participating stations, at least, the same communication possibilities and signaling procedures and corresponding average location conditions cannot be used without further ado. However, equal communication opportunities, signaling procedures and average site conditions are precisely what is required, especially when the participating stations are also otherwise the same.

The invention shows a way to take into account such situations and to enable uniform communication possibilities, signaling procedures and average location conditions in a remote communication system with 64 kbit/s unit channels: In a digital remote communication system with 64 kbit/s unit channels divided into one and one 56 kbit /s main channel and one and one 8 kbit/s auxiliary channel, according to the invention serve all the way through the subscriber connection lines in the relaying centers and on the intermediate transmission routes only the 56 kbit/s main channels alternatively for the transmission of PC or -modulated voice signals, to still image transmission or for fast data transmission from participant to participant, while the 8 kbit/s auxiliary channels are only available at all times for the transmission of the transmission technical signaling signs as well as for a slow data transfer from participant to participant as well as for the transfer of control information from participant to the participant and of remote effect and similar special service information, who continuously rounds the 8 kbit/s auxiliary channels for all participants connected to a participant communication center are read by this center, while signaling signs and special service information are output or interleaved by the relaying center in dependence on service indication signals added to the information transmitted in the 8 kbit/s auxiliary channels.

In an additional variant of the designated path, the digital telecommunication system with 64 kbit/s unit channels which are divided

in one and one 56 kbit/s main channel and one and one 8 kbit/s auxiliary channel, according to the invention characterized by the fact that only the 56 kbit/s main channels are used all the way on the subscriber connection lines in the relaying centers and on the intermediate transmission routes at all times to transmission of PC or -modulated speech signals and/or for fast fixed image formation or fast data transfer from participant to part-

takers, and the 8 kbit/s auxiliary channels are available to anyone for the transmission of broadcasting technical signaling characters as well as for a slow still image transmission resp. slow data transfer from participant to participant as well as for the transfer of participant to participant control information and/or remote control or similar special service information, during which the 8 kbit/s auxiliary channels for all participants connected to a participant communication center are read in this exchange, and signaling signs and special service information from the communication center are published or interleaved depending on service indication signals added to the information transmitted in the 8 kbit/s auxiliary channels.

The invention brings, in addition to the advantage of a reduced bitrate load on the participant connection lines, the further advantage that all participants of the remote messaging system, regardless of any different communication technical affiliation, can make use of the one or both subchannels' communication possibilities in the same uniform way, while participating stations for only one type of communication, e.g. phone call,

and subscriber stations for several types of communication, e.g. in addition to telephoning, especially slow still image transfer (remote copying, single image transfer), can agree with regard to their average site conditions, resp. unified subscriber stations can be operated by choice in one type of communication or in mixed communication. Furthermore, it is beneficial that a multiplication of participant single channels is possible at no extra cost for signaling signs and the other types of communication that are realized in the 8 kbit/s auxiliary channel, and that the selection keyboard on a participant station can also be used in a simple way to transmit data which is to be transferred (slowly) from participant to participant, and e.g. for ordering operations.

It should be pointed out here that (e.g. from NTZ 20 (1967)

11, 667...682) it is known that in a PCM transmission system with 64 kbit/s telephone channels it is possible to let 7 bits of each PCM word serve for speech signal coding and 1 bit as a signaling pulse. However, the problem regarding the transmission technical affiliation of participating stations and their communication options, particularly the possibility of mixed and/or special service communication, is not affected in that connection.

The invention will be explained in more detail under reference

to the drawing.

Fig. 1 shows an embodiment of a digital telecommunications system according to the invention.

Fig. 2 shows the connection technical details of the system.

Fig. 3 illustrates the location and involvement of the main and auxiliary channel. Fig. 1 shows schematically and to an extent that is necessary for the understanding of the invention, a digital telecommunications system with a digital transmission center Ovst, to which the associated participating stations are connected directly via a multiplexer/demultiplexer Muldex with a connected time multiplex line c or also, as is the case with the participant station Tin, is directly connected via its connection line Al.

In the case of digital distribution center Ovst, multiplex line c, multiplex/

demultiplexer Muldex, connection line Al and subscriber station Tin, it can e.g. concern a section of a public digital telephone network for voice and possibly also data, tariff and/or image communication. With an additional input/output on the Muldex multiplexer/demultiplexer, a subscriber station A is connected via a connecting line ab, which can be thought to belong to another transmission center NVSt - e.g. the relaying center in a digital telephone assistance system NA with an additional participant station ...N - which in turn is connected to the digital relaying center Ovst, however such that participating station A is only indirectly connected to the relaying center NVSt, namely via the multiplex line c and a connection which is permanently - or possibly only from time to time - connected through the digital dissemination center OVSt, as indicated in fig. 1.

Fig. 2 shows in the left part a more detailed design example of a participant station Tin. As can be seen from the figure, the participating station Tin can firstly display a digital telephone Fe with a selection keyboard, visible display, filter, analog/digital converter, transmission device OE which enables transmission and reception while separating the transmission directions as well as beat generation and synchronization, and control device ST, which terminates the exchange of signaling characters with the communication centre. The control device ST can in particular be realized with a microprocessor. However, the participating station may also include a terminal device EED for other services,

like for example. data or fast still image transfer or e.g. slow still image transfer, at the same time that this terminal device is connected via an adaptation connector ANP to a brush connector W, which is arranged at digital telephone Fe and possibly controlled by the control device ST. The brush coupling can e.g. exhibit a sub-channel multiplexer/demultiplexer which bundles the telephone digital signals coming from the digital telephone Fe, and e.g. telecopy digital signals coming from

a terminal device EED in the form of a remote copier, to a common bit stream flowing in the outgoing 64 kbit/s unit channel, and in whose frame telephone signal bits and remote copy signal bits appear at all times at fixed locations, resp. again distributes the telephone signal bits and remote copying signal bits contained in the arriving bit stream in the opposite direction of transmission to telephone Fe and terminal device EED,

which in the example is constituted by a remote copier.

It should be noted that there at a participating station as well

there may be several such terminal devices (EED) for different services, or that such a participating station may also only include such terminal devices for other services and not any digital telephone in addition. In addition, it should be pointed out that other participating stations in the digital remote reporting system in fig. 1, e.g. participant station A, can also be designed in a similar way.

For the transmission of information from and to all participating stations' ions Tin,...,A which are connected to the digital communication center OVSt in the digital remote messaging system in fig. 1,

will there on the connection lines Al,...,ab...de, on the multiplex section c and likewise also on the transmission sections which are not shown in more detail in fig. 1, and which connects the digital dissemination center OVSt with other dissemination centres,

could provide remote message unit channels with a bitrate of 64 kbit/s (per transmission direction), while each 64 kbit/s unit channel is, as indicated in fig. 3, can

be divided into a 56 kbit/s main channel ib and an 8 kbit/s auxiliary channel isob.

In this connection, the entire road now serves the participant connection lines, such as the participant connection line Al for participant station Tin (fig. 1 and 2) or the participant connection line ab for participant station A including subsequent multiplex line c (fig. 1) and connection line de (fig. 1 ) in the relaying centers, such as the digital relaying center OVSt (Fig. 1), as well as transmission lines between such relaying centers, only the 56 kbit/ main channels at all times (possibly alternatively) for the transmission of PC-modulated or, at higher voice quality, -modulated voice signals and/or a fast still image transfer resp. fast data transfer from participant to participant. For this purpose, the participating stations Tin... resp. A... N generally could be carried out for such an operation.

The 8-kbit/s auxiliary channels isob (Fig. 3), which lie in-front of the 64-kbit/s unit channels, but outside ("outband") the 56-kbit/s main channels, are not engaged by the aforementioned long-distance messaging services which are carried out in the 56-kbit/s main channels ib (Fig. 3). The 8-kbit/s inslot-outband auxiliary channels isob (Fig. 3), on the contrary, serve exclusively for other purposes, namely both for the transmission of the transmission technical signaling signs between participant stations and transmission centers (and vice versa) that control the setup and teardown of connections, to a slow still image transfer, such as remote copying or single image transfer made possible by means of a corresponding terminal device EED, to a slow data transfer from participant to participant, e.g. effected with the selection keyboard, and/or to a transfer of control information from participant to participant within the framework of so-called end-to-end signaling procedures, such as those where e.g. is needed for changing the type of communication in the case of mixed communication (e.g. switching from voice to data or still image transmission) as well as remote control and similar special service information. When it comes to such special service information, it can e.g. relate to remote control commands to be transmitted in the direction of the participant, e.g. for switching on and off electrical appliances

ter, shutdown commands, e.g. to block off a meter stand, or in the reverse direction of transmission about meter stand information or emergency calls. In this connection, service indication signals, e.g. generated with the selection keyboard, be inserted in front of or in some other way be added to the information that is transmitted in the 8-kbit/s auxiliary channels isob (fig. 3). In the participant communication stations, the 8-kbit/s auxiliary channels for all participants belonging to the relevant communication center are then continuously read, regardless of whether the participant in question is actually participating or not participating in a connection that leads on. In the communication centre, signaling characteristics and special service information are output or interleaved depending on the added service indication signals.

In fig. 2, with a view to this, it is suggested that in the transmission center VSt in a connection line AS which belongs to a participant connection line Al individually, there can be a receiving-side distributor connection V which via a storage register with subsequent decoders records such service indication signals and at all times depending on such a busy service indication signal sets a distributor, above which the respective associated signaling characters resp. special service information is faded out against an associated information drain (no longer shown in Fig. 2). Furthermore, in fig. 2 indicated that in the connection line AS there is a transmitter-side mixing connector M which contains an OR link, and with the help of which the special service information and signaling characters originating from different data sources, and which in the 8-kbit/s auxiliary channel are to be transmitted via the connection line Al towards the participant station Tin, is carried together with participant-participant control information and slow data from participant to participant, likewise transmitted in the 8-kbit/s auxiliary channel to the participant station Tin.

In conclusion, it should also be noted that, in contrast to the conditions illustrated in fig. 1, too

it is possible that instead of the multiplexer/demultiplexer Muldex and/or the digital transmission center OVSt there is only one and one data input device which is inserted into a multiplex line (see fig. 1), and which disconnects it from or to participant station A or the dissemination center NVSt floating bit stream

into resp. out of the bit stream on the multiplex line. Thus, an even stronger decoupling between the network -

in the example, the public network and assistance facility. Such data storage devices can e.g. is formed by data signal input devices such as those known from telcom report 2(1979) Special Issue "Digital Transmission" pp. 46-51, fig. 4 and 5, and is commercially available under the designation DSE 64K/2.

Claims (2)

1. Digital telecommunications system with 64 kbit/s unit channels divided into one and one 56 kbit/s main channel and one and one 8 kbit/s auxiliary channel, characterized in that there consistently on the subscriber connection lines (Al), in the transmission centers ( Vst) and on the intermediate transmission lines at all times only the 56 kbit/s main channels (ib) are used, possibly alternatively, for the transmission of PC or modulated voice signals, for still image transmission or for fast data transmission from participant to participant, while the 8 kbit/s auxiliary channels (isob) at all times only serve for both the transmission of transmission technical signaling characters and also for a slow data transfer from participant to participant, as well as for the transmission of participant-participant control information and of remote effect and similar special service information, during which the 8 kbit/s auxiliary channels for all participants (Tin... A) connected to a participant mediation center (Vst) are read with the relevant mediation center (O VSt), while signaling signs and special service information are output or interleaved by the relaying center in dependence on service indication signals added to the information transmitted in the 8 kbit/s auxiliary channels (isob). 2. Digital telecommunications system with 64 kbit/s unit channels divided into one and one 56 kbit/s main channel and an 8 kbit/s auxiliary channel, characterized in that there consistently on the subscriber connection lines (Al), in the relaying centers (Vst) and on the intermediate transmission sections at all times only the 56 kbit/s main channels (ib) are used for the transmission of PC or -modulated voice signals and/or for fast still image transmission or fast data transmission from participant to participant, and 8 kbit The /s auxiliary channels (isob) are available at all times both for the transmission of communication technical signaling signs and for a slow still image transmission resp. slow data transfer from participant to participant as well as for a transfer of participant-participant-control information and/or remote control and similar special service information, including the 8 kbit/s auxiliary channels (isob) for all participants connected to a participant communication center (Vst), is constantly read in this communication center (OVSt), and signaling signs and special service information from the communication center are output or interleaved depending on service indication signals added to the information transmitted in the 8 kbit/s auxiliary channels (isob).