DE3212031A1 - Universal network for correctly timed transfer of information segments, i.e. speech with speech interpolation or messages in blocks - Google Patents

Abstract

The information segments are preceded by destination identification sequences (ZKF) which comprise information elements identifying the trunk groups or trunk group nodes to be passed through, the order of which is re-arranged from one reached trunk group node to the next so that this order contains information relating to the respective connection path which has been passed through. In the event of an unsuccessful transfer attempt, the last ordered destination identification sequence is "mirrored back" to the originating exchange. <IMAGE>

Description

Universal network for the timely transmission of in-

formation sections, namely language with language interpolation or Messages in Blocks The present invention relates to a universal network for the timely transmission of information sections, namely voice with Speech interpolation or messages in blocks, with the information sections by the transmission method and / or the switching method in their lengths the network in which the subscribers to the end exchanges are not restricted are connected and the terminal exchanges via at least one transit exchange are connected to one another, with an information section sent by a subscriber a target identifier sequence is prefixed by the associated terminal exchange and the information section is terminated with an end identifier and where as connection control information, the destination identifier sequence is known per se Manner is generated and the local exchange possibly as a message in a block is made available.

In previously known networks for digital voice transmission as a rule - as in analog networks - connections between two participants permanently assigned for the entire duration of the call. With increasing compression of such Networks or with increasing numbers of subscribers, the difficulties in relation to grow the number of channels available.

It is known to have a voice connection for a single conversation usually over time only too exploited to a small extent because on the one hand the interlocutors speak alternately and on the other hand also the flow of speech of the individual interlocutor is not continuous. There are also pauses in speaking in a short monologue, during which the relevant one Voice connection is actually not required. This fact is known by methods of saving channel capacity, especially in cost-intensive ones Connection sections, for example transatlantic cables, satellite links, etc. Ä., Advantageously exploited. A well-known procedure in this regard is provided by the TASI (Time Assignment Speach Interpolalation) method.

In the so-called speech interpolation, which is the case with this known TASI method is carried out, one channel is switched through for a respective voice connection, when people actually speak in the relevant direction. In all At other times, the channel capacity is available for further individual voice connections to disposal.

It is readily apparent that by means of such a method the fact that a conventional voice connection according to the circumstances explained during a call is only required at times, which is advantageous for a better utilization of the channels can be exploited. With language interpolation the existing transmission capacity of a trunk group can do much better be exploited.

A previously proposed universal digital network provides that an information to be transmitted in information sections with variable, of the Transmission method and the switching method are not divided into limited lengths is that in each case a section of information in the form of a block with a preceding Target identifier sequence, contains the information about the respective virtual partial connections to be passed through, and with one at the end of the information section. and signaling its end End identifier via the respective current block between two Switches established real partial connection is transmitted at the correct time. This proposed universal network is required in the respective transit exchanges and terminal exchanges facilities for monitoring purposes. The concerned Switching centers must also have information about the connections between store and process the subscribers or the associated terminal exchanges and update in due course.

The present invention is based on the object of a universal To create network of the type mentioned, but in which the facilities mentioned for monitoring purposes as well as the storage, processing and updating of information via the connections between the subscribers or the associated terminal exchanges can be omitted in through exchanges and in the facilities in the Transit exchanges are provided to deal with overloads of a bundle To send back information sections or parts thereof with little delay. The delay corresponds to the transmission time of the target identifier sequence.

The object on which the invention is based is achieved by a universal Network according to the preamble of the main claim solved by the in the characterizing Part of the main claim specified features is characterized.

The universal network according to the present invention requires in the transit exchanges no information about the connections between the participants or the associated terminal exchanges. In the network does not need any transit exchanges and terminal exchanges Facilities for surveillance purposes.

Advantageous further developments of the invention are indicated in the subclaims indicated features.

In the following the invention is based on two figures, each Represent exemplary embodiments, explained in detail.

Fig. 1 shows schematically a network structure of a universal network according to the present invention.

FIGS. 2A to 2G schematically show a connection path which extends over a number of central offices (VST) as well as the exemplary one Creation of a target identification sequence that is to be transmitted via this connection path, in different phases.

The first field of the destination identifier indicates the number of bundles for the respective direction.

The second field identifies the bundles still to be passed through.

The third field indicates whether the target ID string is returned or not.

This is followed by the information elements for the designation of the individual bundles in the order in which the bundles are to be traversed.

Fig. 2B shows the target identification sequence (ZKF) as it is in the VST 1 is stored as a local exchange.

2C shows the target identification sequence ZKF which is sent by the VST 1 and is received by the VST 2.

2D shows the target identification sequence ZKF which is sent by the VST 3 and is received by the VST 4.

2E shows the target identification sequence ZKF which is sent by the VST 5 and is received by the VST 6 as a local exchange.

2F shows after the overload of the bundle 1 has been detected by the VST 4 the target identifier sequence ZKF after the rearrangement of the information elements of the target identifier sequence ZKF. The rearrangement is to be understood as an example.

Fig. 2G shows the returned target identifier sequence received in the VST 1 ZKF. The first size of the target identifier here identifies the node from which the target identifier sequence was sent back.

As already explained, Fig. 1 shows schematically a network structure for a universal network according to the present invention, wherein multiple end exchanges EVST, several transit exchanges TVST and bundles between these exchanges and several subscriber stations T are shown. The participants are in the network connected to the local exchanges, and the local exchanges are each connected to one another at least via a transit exchange, wherein an information sent by a participant mation section of the associated terminal exchange EVST a destination identifier sequence ZKF, see. Fig. 2, and the information section is terminated with an end identifier will. The destination identification sequence ZKF is used as connection control information in generated in a known manner and the relevant terminal exchange together supplied with the actual information section. The target identifier sequence ZKF consists of ordered information elements that identify the individual for the to be used Transmission path previously determined bundles between the switching centers EVST, TVST, as well as the participating participants are assigned and identify them. One processed by means of the respective switching center EVST or TVST Information element of the target identification sequence ZKF is identified within the ZKF, whereby, after a connection has been made, a free line of the previously determined Bundle in the course of the overall connection another information element of the target identification sequence ZKF is marked as relevant for the next exchange.

The newly identified target identification sequence ZKF 'can be used for further transmission of the relevant information section.

In the event that in an exchange EVST or TVST in the pre-determined bundle no free line for further cell-correct transmission of the relevant information section is available, the target identification sequence ZKF 'in its last existing identification of the information elements for the Backward direction to the relevant sending participant interpreted, whereby the information elements in turn each of the individual bundles of the building Identify reverse transmission path. The target identifier sequence for the reverse direction ZKF "is specially marked. The marking includes both the reversal of the Direction of transmission of the relevant information section as even the information about the exchange at which the reversal of the transmission direction took place.

The latter information can, for example, from a counter for the bundles passing through in the forward direction are derived. The one in question Information section or part of it is then attached to the target identification sequence ZKFs' sent back to the sending participant.

Stands in reverse when a section of information is being transmitted none in a relevant bundle.

Free line is available due to the special marking in the target identification sequence ZKF "no reversal of the direction of transmission performed.

Information elements are identified by a specific Ordering of these information elements made, see Fig. 2. A new designation the relevant information elements are expediently rearranged the same made. This rearrangement of the information elements is advantageous simply in a cyclical exchange.

The information elements each represent an identification of the determined in advance by a relevant exchange EVST or TVST Bundle and the next following to a relevant one in the course of the transmission path Switching place EVST or TVST coming pre-determined bundle. Appropriately it is provided that the target identification sequence contains header information that is from a rearrangement is excluded and the at least one indication of the length represents the target identifier sequence ZKF. The target identification sequence ZKF contains a first Information component that defines the transmission path from the relevant originating terminal exchange EVSTA up to the subscriber station T describes to which an information section is to be transmitted. the Target ID sequence ZKF contains another Share of information that takes the transmission path in the opposite direction to the sending one Describes participants.

According to an advantageous development of the invention, it is provided that the target identification sequence ZKF contains an information element that provides information about the type of information segment to be transmitted, for example a speech phrase, a message in a block or a message with connection control information represents in a block. In addition, it is advantageously provided that the target identification sequence ZKF contains an information element that represents an indication of whether this Target identifier sequence ZKF a "forward running" or a reverse target identifier sequence is.

The information elements of the target identification sequence ZKF also those of the rest Information sections are usually octets, namely 8-bit words. It can however, it can be advantageous that the information element is octet pairs, namely pairs of 8-bit words, are.

According to another advantageous development for the present Invention it is provided that the target identification sequences, which in the reverse direction through the network are sent to be statistically evaluated, based on the respective Marking the target identification sequence to draw conclusions about the bundle availability are.

The statistical evaluation can advantageously also be time-related Information about the dispatch and return of the relevant information sections and, if applicable, the type of information section that should have been transmitted, consider.

It is advantageously provided that the functions of the end exchanges EVST in the relevant subscriber terminals are relocated so that the end exchanges EVST can be omitted.

13 claims 2 figures

Claims (13)

Claims Universal network for the timely transmission of Sections of information, namely speech with speech interpolation or messages in blocks, whereby the information sections through the transmission method and / or the length of the mediation process is not restricted in which Network, the subscribers are connected to the end exchanges and the end exchanges are connected to one another via at least one transit exchange, wherein an information section sent by a subscriber from the associated Terminal exchange is preceded by a destination identification sequence and the information section is terminated with an end identifier and as connection control information the target identification sequence is generated in a manner known per se and the end switching center possibly made available as a message in a block, d u r c h g e k e-n n -z e i c h n e t that the target identifier sequence (ZKF) consists of ordered information elements exists, which determined the individual for the transmission path to be used in advance Bundling between the exchanges (EVST, TVST) and the participants involved are assigned and these identify that one by means of the relevant Exchange (EVST or TVST) each processed information element within the target identification sequence (ZKF) is identified, whereby after a successful connection a free line of the previously determined bundle in the course of the overall connection Another information element of the target identification sequence (ZKF) for the next exchange is marked as decisive that the newly marked target identification sequence (ZKF1) used for the further transmission of the relevant information section and that in the event that in an exchange (EVST or TVST) in the predetermined bundle no free line to further Transmission of the relevant information section is available, the target identification sequence (ZKF) in their last existing identification of the information elements for the Backward direction to the relevant sending participant interpreted and special is marked, the information elements in turn each of the individual bundles identify the reverse transmission path to be set up, and then the relevant Information section or part of it is sent back to the sending subscriber will. 2. Universal network according to claim 1, d a d u r c h g e k e n n z e i c h n e t that an identification of information elements by a certain Order of these information elements is made and that a new labeling the relevant information elements made by rearranging the same will. 3. Universal network according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the rearrangement of the information elements in a cyclical Exchange exists. 4. Universal network according to claim 1, d a d u r c h g e k e n n z e-i c h n e t that the information elements each have an identification of the a relevant exchange (EVST or TVST), determined in advance Bundle and the next following to a relevant one in the course of the transmission path Switching center (EVST or TVST) represent coming pre-determined bundle. 5. Universal network according to one of the preceding claims, d a It is indicated that the target identifier sequence is header information contains that is excluded from rearrangement and that contains at least one item over the length of the target identifier sequence (ZKF) represents. 6. Universal network according to claim 4, d a d u r c h g e k e n n z e i c h n e t that the target identifier sequence (ZKF) contains a first information part, the transmission path from the relevant originating terminal exchange (EVSTA) to the subscriber station (T) to which an information section is to be transmitted is, describes and that the target identification sequence (ZKF) is a further piece of information contains the transmission path in the opposite direction to the sending participant describes. 7. Universal network according to claim 4 or 6, d a -d u r c h g e k It is indicated that the target identification sequence (ZKF) is an information element contains information about the type of information section to be transmitted, for example a voice phrase, a message in a block or a message with connection control information in one block. 8. Universal network according to claim 4 or 6, d a -d u r c h g e k It is indicated that the target identification sequence (ZKF) is an information element contains, which represents an indication of whether this target identification sequence (ZKF) a is a "forward running" or a "reverse running target identifier sequence. 9. Universal network according to one of the preceding claims, d a it is indicated that the information elements are octets, namely 8-bit words, are. 10. Universal network according to one of claims 1 to 8, d a d u r c h g e k e n n n z e i c h n e t that the information elements are octet pairs, namely Pairs of 8-bit tags, are. 11. Universal network according to claim 1, d a du r c h g e k e n n z e i c h n e t that the target identifier sequences that are sent backwards through the network are sent, are statistically evaluated, based on the respective marking Conclusions about the bundle availability are to be drawn from the target identification sequence. 12. Universal network according to claim 11, d a d u r c h g e k e n n notices that the statistical evaluation also provides time-related information about sending and returning the relevant information sections and, if applicable, about the type of information section that would have had to be transmitted. 13. Universal network according to one of the preceding claims, d a D e c h i n e n n e n n e n ts that the functions of the end exchanges (EVST) are relocated to the relevant subscriber terminals, so that the terminal exchanges (EVST) can be omitted.