DE19757610A1 - Method for a narrowband switching node for transmitting useful and signaling information via a broadband network and narrowband switching node for implementing the method - Google Patents

Abstract

A transition unit (IWU) integrated in a narrowband switching node (SVK1) is provided to split a trunk group of narrowband useful channels (SN) for the transmission of useful information to other target narrowband communication devices (SVK2, SVK3) connected to the broadband network (ATM) into target-specific partial trunk groups. By directly accessing the signaling information in the node, the integrated transition unit (IWU) can easily allocate its target-specific segments to the partial trunk groups and convert them into narrowband signaling channels which are respectively included in the partial trunk groups.

Description

The invention relates to a narrowband switching node for Establishment and dismantling of narrowband connections, which over a Transition unit can be connected to a broadband network and a method for transmitting useful and signaling information from the narrowband switching node across the width band network to other target narrow band connected to it communication facilities. As a target narrowband communication tion facilities come z. B. narrowband switching knots, narrow-band end devices or narrow-band end devices emulie broadband devices in question.

According to the known prior art, narrow band commu networking facilities, d. H. connectable with each other be made by using transition units, so-called Interworking Units (IWU), connected to a broadband network become. Broadband networks generally have high transmission capacities and connect connected narrowband comm a variety of simultaneously usable devices Channels for data transmission available.

Previously known transition units are each one Narrowband interface to the associated narrowband communication kationseinrichtung and a broadband interface to the Broadband network connected. In addition to adjusting under different transmission protocols has a transition unit the task of one of the connected narrowband communications tion device coming bundle of narrowband channels, for. B. a PCM30 line with 30 B channels and one D channel, in split several sub-bundles, the other, to the  Broadband network connected target narrowband communication facilities are assigned. The sub-bundles are used for transmission of useful and signaling information to the target narrowband communication assigned to them directions and are each shown in virtual channels via the Broadband network broadcast. This technique is often called Fractional backboning is called and is for example in Document "Circuit Emulation Service Interoperability Specifi cation, af-vtoa-0078.000 "of the ATM Forum Standards, January 1997, pages 8 to 16.

When splitting the original bundle of narrow band channels there is the problem of using one for each sub-bundle averaging-specific narrowband signaling channel the narrow band signaling channel of the original Bün dels, e.g. B. the D channel of a PCM30 route to win. To the transition unit must be the one for the respective transmission target specific signaling information from the original filter out narrow band signaling channel and in separate narrowband assigned to the respective sub-bundles Implement signaling channels. However, this process is in usually very complex because the original narrowband Signaling channel for this at least up to the third proto collision layer (the network layer) of the OSI reference model must be analyzed.

The analysis of a narrow is particularly difficult band signaling channel if additional signal i sation information z. B. for feature control or Routing is transmitted. Required in these cases an analysis usually the knowledge of still further, purpose specific protocol layers, which also a variety of un Different, each to be treated individually can belong to protocols. As a rule, an over not all Son used in narrowband networks protocols available.  

The object of the present invention is to provide an arrangement for Connect a narrowband switching node to a Breit band network and a method for transmitting useful and Si signaling information from the narrowband switching node other target narrowband connected to the broadband network to specify communication facilities, each a little ger complex processing of the signaling information demand.

According to the invention, this object is achieved by an arrangement tion with the features of claim 1 and a procedure ren with the features of claim 2.

Advantageous developments of the invention are in the Un claims specified.

There is a transition unit in the narrowband switching node integrated in a way that allows her to do so according to a signal present in an internally used protocol access information, the previously known, not integrated transition units in this form inaccessible is. In particular, the integrated transition unit can Transmission-target-specific portions of the signaling access formation before it is often varied term signaling protocol in a narrowband signal channel is implemented.

A portion of the internal signaling information be writes the assignment of narrowband user channels to the un different target connected to the broadband network Narrowband communication facilities. This information part of the transition unit bypassing a com The specified signaling protocol can be evaluated. He is used to split the bundle of narrowband Channels in each of the target  Sub-bundle associated with narrowband communication devices to be determined. A sub-bundle can only consist of one only narrowband user channel exist or be completely empty.

A transmitting useful information to a transmitter portion of the internal signaling relevant to the target information is usually clearly identified by a button internal assignment information to the transmission destination arranges. Based on this internal mapping information can the transition unit for each transmission destination because assigned portion of the signaling information identify easily. The identified parts are extracted from the transition unit and each in se separate narrowband signaling channels implemented that the associated sub-bundles are added in each case. The part bundles are then transformed from the transition unit into virtual ones Broadband channels implemented and to the broadband network target narrowband communication devices associated with them transmitted.

You can also use it to control features or Routing provided portions of the signaling information mation based on available node-internal mapping information one processed in a simple manner specific to the delivery destination become.

According to an advantageous embodiment of the invention in the transition unit the target narrowband communication facilities and thus the sub-bundles logical or physical assigned calic ports. Accordingly, the target Narrowband communication devices to be transmitted and signaling information of the transition unit portbezo gen, d. H. with a Zu identifying the respective port order information transmitted. Since in many previously known th narrowband switching node a port-related transmit of useful and signaling information already pre  is seen to drive peripheral narrowband network assemblies ern, this embodiment of the invention can with proportion moderately few interventions in existing structures known Narrowband switching nodes can be realized.

The virtual broadband channels for transmitting the useful and signaling information of the individual sub-bundles via the broadband network can be provided in several ways:
For individual sub-bundles, at least one permanent virtual channel with a defined bandwidth, e.g. B. through broadband network management. An advantage of permanently set up virtual channels is that their full transmission capacity is immediately available at any time.

According to a first variant, the bandwidth of a perma nent set up virtual channel provided the broadband network provides this option, also at the request of Transition unit dynamically in individual sub-bundles transmitted data volume can be adjusted.

A second variant provides that only when Useful or signaling information in individual subbun at least one virtual channel to the respective target Narrowband communication device from the transition unit, e.g. B. by broadband signaling according to protocol Q.2931 is required. To do this, the Broadband addresses, e.g. B. the E.164 addresses, the target narrow band communication facilities known and the respective Sub-bundles and / or the respective logical or physical ports.

Virtual channels prepared according to the two variants are only provided by those actually to be transferred average of the currently available usage or signaling  information required bandwidth in the broadband network, especially especially when using public broadband networks can lead to significant cost savings. By the nope before request the bandwidth or the virtual channel however, data transmission is delayed briefly. The the transition unit can select the bandwidth required in each case determine the signaling information internal to the node.

The methods described above for deploying virtu ellen channels can also be combined. So can permanently set up virtual channels Bandwidth preferably for transferring a basic data load be provided while temporarily occurring for transmission of peak loads to be dynamically adjusted or requested virtual channels are used.

When establishing a user data connection to a target The problem is that narrowband communication equipment at the delivery destination within a newly built virtual len channel incoming user information, one for this User data connection provided, previously by exchanging Signaling information between the two connection parts agreed sub-bundle of narrowband user channels of the Assign the delivery destination correctly. This problem occurs especially when useful information arrives over several newly built virtual channels.

One solution to this problem is the transmission Aim the previous signaling connection to set up of the user data connection clearly identifying information tion element, e.g. B. the so-called call reference of the Signali sationsverbindung, preferably within the newly built th virtual channel. So that can be new built virtual channel clearly the previous signali connection and thus in the course of this signalization  Connection agreed for the user data connection Sub-bundles can be assigned.

Alternatively, the sub-bundles of all can be ver network narrowband communication devices each Identification information, e.g. B. by numbering the part bundle, can be permanently assigned to a connection build over a virtual channel of the broadband network to the Transitional unit of the respective target narrowband communication tion device is transmitted. This allows this over an incoming broadband connection assign to the associated sub-bundle and thus in particular a narrowband signaling channel in the same part bundle, but possibly transmitted via other virtual channels assign the narrow-band user channels.

The invention is illustrated below with the aid of an embodiment game explained with reference to the drawing.

The figure shows a communication network consisting of three over a ATM network networked narrowband switching nodes in schematic representation.

In the figure there are three narrowband switching nodes SVK1, SVK2 and SVK3 are shown schematically, each with a Broadband transmission path BS to an ATM network ATM are closed. Every narrowband switching node is included the other narrowband switching node via one virtual channel VC of the ATM network ATM connected.

Instead of the narrowband switching nodes SVK2 and SVK3 you can other narrowband communication devices of the Type described above, also provided in large numbers be. The choice made is for simplification only the following description.  

In the first narrowband switching node SVK1 are as functions components a switching network KN, a switching control VS and an integrated transition unit IWU, the one Interface to the ATM network ATM is shown. The funk tion components are interconnected via an internal node Bus coupled. The IWU transitional unit exists on the one hand from a port assignment module PZM and thus over two logical ports LP communicating ATM conversion module AU, which is sent to the ATM via the broadband transmission link BS Network ATM is connected. The logical ports LP are each because the other narrow connected to the ATM network ATM band switching nodes SBK2 and SBK3 permanently assigned. (At a higher number of connected narrowband communications onseinrichtung would therefore have the number of logical ports be increased accordingly.) The port allocation module PZM communicates with the switching network KN via the bus BUS Bundle of narrowband user channels SN, which are used to transmit User information to (or from) the others to the ATM network ATM connected narrowband switching nodes SVK2, SVK3 are provided. The port allocation mo dul PZM also port-related, d. H. with each one Logical port LP identifying information element ver seen signaling information from the switching tax tion VS transmitted. The signaling information included port-related connection-specific shares PSIG and port-related setting messages PEM. The connection spec Fish parts of the signaling information PSIG are the respective target narrowband switching nodes SVK2 and SVK3 to control the connection.

Signaling information related to logical ports with many narrow-band devices that correspond to the state of the art switching nodes already provided to peripheral narrow to control band network modules. By making the transition IWU is similar to a peripheral narrowband network module can control, a narrowband switch according to the invention  nodes with relatively few interventions in the best existing structures of known narrowband switching nodes rea be lized.

The port assignment module PZM is via the port-related on control messages PEM transmits the information which of the Narrow band user channels of the bundle SN each the individual logical ports LP and thus the individual transmission target len SVK2, SVK3 are to be assigned. According to this information the bundle of narrowband user channels SN in the port allocation mo dul PZM in individual, the logical ports LP assigned nete sub-bundles divided, which on each of them assigned logical ports LP to the ATM conversion module AU be directed. A sub-bundle can only consist of one single narrowband user channel SN exist or are completely empty be. In the latter case, the relevant logical port is LP none of the narrowband user channels SN are assigned. The assignment from narrowband user channels to transmission destinations can be from the exchange control VS a current communication adjusted or adjustable communication conditions become.

The connection-specific parts of the signaling information mation PSIG are already in the PZM port assignment module port-related (and thus transmission-destination-specific) form before and can thus easily connect to individual verbin application-specific narrowband signaling channels implemented become. Together with the sub-bundles of the narrow band user channels via the respectively assigned logical ports LP passed to the ATM conversion module AU.

The ATM conversion module AU takes over for each logical port LP the part supplemented by the narrowband signaling channel bundle of narrowband channels and puts this in at least a virtual channel VC of the ATM network ATM, which ever destination narrowband switching nodes SVK2 and SVK3  permanent, e.g. B. assigned by broadband network management is. The ATM implementation module AU is also often used as a segment designation and reassembly modules and has among other things the task of the data to be transmitted over the ATM network to segment currents and insert them into ATM cells. On the then at least one virtual channel VC Usage and signaling information of the respective subbun dels over the ATM network ATM the respective target narrowband switching node SVK2 or SVK3 transmitted and from it own transition unit back into a bundle of narrowband channels implemented. This bundle in turn becomes an intermediary control or a coupling network of the target narrowband ver averaging nodes forwarded for further processing there the.

Claims (11)

1. Narrowband switching node (SVK1) for setting up and clearing narrowband connections and for connecting to a broadband network (ATM) via a transition unit (IWU), which has a device for splitting a bundle of narrowband user channels (SN) coming from the narrowband switching node Sub-bundle provided for transmitting useful information to different target narrowband communication devices (SVK2, SVK3) connected to the broadband network, characterized in that the transition unit (IWU) is integrated in the narrowband switching node (SVK1) by a switching node in the narrowband switching center (SVK1 ) according to a protocol used internally in the node, existing signaling information (PSIG), which is assigned in each case in the sub-bundles of useful information to be transmitted, from the transition unit (IWU) sub-bundle-specific narrow band signaling channels added in the sub-bundles for transmission to the pulp pass on tbandnetz (ATM). 2. A method for transmitting useful and signaling information from a narrowband switching node (SVK1) connected via a transition unit (IWU) to a broadband network (ATM) to different narrowband communication devices (SVK2, SVK3) connected to the broadband network through the following process steps:

• a) Splitting a bundle of narrowband user channels (SN) in accordance with a signaling information (PEM, PSIG) present according to a protocol used internally in a sub-bundle for the transmission of user information from the narrowband switching node (SVK1) to the different target narrowband communication devices (SVK2, SVK3) which are each assigned to target narrowband communication devices (SVK2, SVK3),
• b) assigning transmission target-specific portions of the signaling information (PSIG) to the sub-bundles assigned to the respective target narrowband communication devices (SVK2, SVK3),
• c) sub-bundle-specific implementation of the portions of the signaling information (PSIG) assigned to the sub-bundles in the sub-bundles each added narrowband signaling channels and
• d) sub-bundle-specific transmission of the payload and signaling information of the sub-bundles via virtual channels (VC) of the broadband network (ATM) to the target narrow-band communication devices (SVK2, SVK3) assigned to the sub-bundles.

3. The method according to claim 2, characterized, that the target narrowband communication devices (SVK2, SVK3) in the transition unit (IWU) logical or physical cal ports (LP) are assigned and useful and signaling the port unit of the transition unit (IWU) is averaged. 4. The method according to claim 2 or 3, characterized, that in the transition unit (IWU) the target narrowband communication kationseinrichtung (SVK2, SVK3) assigned broadband ad assigned to logical or physical ports (LP) become. 5. The method according to any one of claims 2 to 4, characterized, that the transition unit (IWU) from the narrowband switching node ten (SVK1) like a peripheral narrowband network module is controlled. 6. The method according to any one of claims 2 to 5, characterized, that for sub-bundle-specific transmission of useful and / or  Signaling information on target narrowband communication institutions (SVK2, SVK3) at least one permanent virtu eller channel (VC) with defined bandwidth in the broadband network (ATM) is kept ready. 7. The method according to any one of claims 2 to 6, characterized, that for sub-bundle-specific transmission of useful and / or Signaling information on target narrowband communication facilities (SVK2, SVK3) at least one virtual channel (VC) is held ready in the broadband network (ATM) Bandwidth depends on the volume of data to be transmitted Transition unit (IWU) requirement varies dynamically becomes. 8. The method according to any one of claims 2 to 7, characterized, that at least one virtual channel (VC) in the broadband network (ATM) for sub-bundle-specific transmission of user information tion on target narrowband communication devices (SVK2, SVK3) only if user information is available in sub-bundles is requested by the transition unit (IWU). 9. The method according to claim 8, characterized, that when connecting to a target narrowband communication device (SVK2, SVK3) via one to over carry virtual channel requested by payload (VC) of the broadband network (ATM) an information element to the Transition unit of the target narrowband communication device (SVK2, SVK3) is transmitted to this transitional unit a clear assignment of the incoming user information one intended for this connection, previously by off exchange of signaling information via another vir ver channel (VC) between the two connection partners agreed, own sub-bundle enables.   10. The method according to claim 8 or 9, characterized, that the sub-bundles of all interconnected narrowband communication devices (SVK1, SVK2, SVK3) each one Identification information is permanently assigned, which at ei connection via a virtual channel (VC) of the Broadband network (ATM) to the transition unit of the respective target narrowband communication device is transmitted and it enables this transitional unit, the incoming width assign band connection clearly to a sub-bundle. 11. The method according to any one of claims 2 to 10, characterized, that at least one virtual channel (VC) in the broadband network (ATM) for sub-bundle-specific transmission of signalisie information to target narrowband communication device (SVK2, SVK3) only when signaling is present formation in sub-bundles from the transition unit (IWU) is requested.