DE19712262B4 - Method for routing signaling messages in a signaling network - Google Patents

Abstract

Method for routing signaling messages in a signaling network, the signaling nodes of which comprise at least one user-part system (eg SCCP) and a shared-part transferpart system (MTP) common to all userpart systems, wherein the transferpart system is provided by a userpart system for transporting the signaling messages is used, accordingly
a) the transmission part system routes signaling messages based on transfer system addresses, the transfer system addresses addressing signaling nodes,
b) are routed by a Userpart system signaling messages based on Userpartsystem addresses, the Userpartsystem addresses address switching nodes,
c) is determined by a signaling node on which a signaling message enters the signaling network, based on a part of the B-subscriber number contained in the signaling message, which signaling node is responsible for the translation of this B-subscriber number in the Transferpartsystem address of the destination signaling node,
d) the signaling message is forwarded by the said signaling node, if appropriate, to a signaling node responsible for said determination,
e) is carried out by a competent signaling node, the translation of this B-subscriber number in a Transferpartsystem address of the destination signaling node by
e1) first using the B subscriber number by requesting ...

Description

telecommunications networks with # 7 signaling can Supplementary services that support an exchange of Signaling messages (end-to-end messages) between the service logic in the local exchanges. For addressing Many of these service logics use the geographic ones of their messages Numbers of subscribers participating in the service.

Examples for such Additional services are CCBS and CCNR. The CCBS service logic in the originating switch (Originating switching node) passes one for the CCBS service logic in the destination switching center (destination switching node) certain message to the transport service of the # 7 network (Signaling Connection Control Part SCCP) together with the E.164 number of the B-subscriber as Global Title (GT) identifying the message recipient. The SCCP determines the GT the MTP address of the Destination signaling node and transfers she along with the GT and the message to the MTP of the # 7 network who received the message to the destination signaling node transmits where they is routed internally to the receiving service logic when the Destination signaling node is simultaneously the destination exchange.

Annotation: For network-internal service usage, the destination signaling node is also the Destination exchange. When service usage across network boundaries is the destination signaling node the signaling gateway node into the target network.

in the Subsequently, the destination switch, i. the exchange, to which the B-subscriber is connected, also as a destination switching node designated.

For the investigation the MTP address of the destination signaling node from the B-subscriber number (Global Title Translation, GTT) had the SCCP so far only a part of the leading Evaluate digits of the H-subscriber number, as all subscribers with this leading one Numbers were connected to the same exchange.

This is no longer valid if number portability is introduced on the network. Then can individual subscriber numbers from the one assigned to an exchange Call number space are taken out and another switching center be assigned.

In order to the technical problem arises that the MTP address of the destination signaling node for end-to-end Messages now individually determined for each subscriber number must become. This can be a significant increase in the GTT tables of the SCCP, as well as frequent changes to this data, depending on how many subscriber numbers how often be ported between the exchanges.

From the problem described that from the portability geographical numbers, are generally all network services affected that for the addressing from end-to-end Messages using geographical numbers, e.g. also the transparent one Data transport between private branch exchanges over the public network.

One analogous problem also arises for portable non-geographic numbers (e.g., for the service Freephone), if in the net the mentioned additional services also in Combination with portable non-geographical numbers are supported. In this case, one must Switching station can be found, which by the portable non-geographical Phone number identified service subscribers supported.

So far Known solutions for the mentioned One problem is the extension of the GTT tables of the SCCP and secondly the forwarding of the message by the service logic.

• Extension of the GTT tables of the SCCP:

• – Informationen über die Zuordnung einer portierten Rufnummer zu einer Vermittlungsstelle muß an mehreren Stellen im Netz verwaltet werden: für den Aufbau eines Nutzkanals (z.B. durch den ISUP) muß für jede portierte Rufnummer in einer entsprechenden Datenbasis (Number Portability Datenbasis NP-BD) die Routing-Nummer der Ziel-Vermittlungsstelle verwaltet werden. Für den Ende-zu-Ende Nachrichtenaustausch SCCP-basierter Zusatzdienste muß für jede portierte Rufnummer die MTP-Adresse des Ziel-Signalisierungsknotens in den Signalisierungs-Punkten (SP) verwaltet werden, die die GTT für diese Rufnummer durchführen.

The SCCP evaluates in the GTT all digits of the phone number used in the GT. This solution variant is dynamically particularly favorable. But it has the following disadvantages:

• - Information about the assignment of a ported number to an exchange must be managed at several points in the network: for the construction of a user channel (eg by the ISUP) must for each ported number in a corresponding database (Number Portability database NP-BD) the Routing number of the destination exchange to be managed. For the end-to-end message exchange of SCCP-based supplementary services, for each ported number, the MTP address of the destination signaling node in the signaling points (SP) must be managed by the GTT for this directory number.

und SCCP – Datenbasis:

• – Häufige und gleichzeitige Änderungen der NP-Datenbasis und der SCCP-Datenbasis sind erforderlich, abhängig davon wieviele Rufnummern wie häufig portiert werden. Dies kann für den Netzbetreiber eine besondere Schwierigkeit darstellen, insbesondere wenn diese Datenbasen auf unterschiedliche Netzelemente verteilt sind.

The database used in the network thus has a logical structure in which the number is used as a key, both for the determination of the MTP address of the destination signaling node as well as for the determination of the routing number of the destination exchange. NP - database:

and SCCP database:

• - Frequent and concurrent changes to the NP database and SCCP database are required, depending on how many numbers are ported as frequently. This can be a particular difficulty for the network operator, especially if these databases are distributed over different network elements.

• forwarding the message through the service logic

• – Alle betroffenen Dienstelogiken müßten funktional erweitert werden, um die oben beschriebene Nachrichtenweiterleitung durchführen zu können.
• – Falls das abgebende Netz den Zusatzdienst oder dessen oben beschriebene funktionale Erweiterung nicht unterstützt, kann ein Teilnehmer nach einem Wechsel des Netzbetreibers diesen Zusatzdienst auch dann nicht nutzen, wenn der Zusatzdienst im Netz des neuen Betreibers verfügbar ist.
• – Für die Erbringung eines Zusatzdienstes für einen ehemaligen Teilnehmer werden die Netzresourcen des abgebenden Netzbetreibers belastet.

The message sent by the service logic in the originating switch is routed to the service logic in the switch to which the subscriber number was originally assigned. The recipient service logic determines that the directory number has been ported. It determines (eg from administered data) the MTP address of the destination exchange and forwards the message. This solution variant has the following disadvantages:

• - All affected service logic would have to be extended functionally to carry out the message forwarding described above.
• - If the issuing network does not support the additional service or its functional extension described above, a subscriber can not use this additional service even after the operator has changed, even if the additional service is available on the new operator's network.
• - The network resources of the issuing network operator are charged for the provision of an additional service for a former subscriber.

Of the Invention is based on the object to overcome the disadvantages mentioned.

These The object is achieved by a method according to claim 1.

Due to the invention, the NP database and the SCCP database are operationally decoupled. Individual number porting no longer leads to changes in the SCCP data Base.

in the The following will be an embodiment the invention explained in more detail with reference to the drawing.

• • Vor einer etwaigen GTT bewertet der SP aufgrund eines führenden Teils der B-Rufnummer und des Translationtypes für die Ende-zu-Ende Nachricht, ob er für die Ermittlung der finalen MTP-Adresse, d.h. der MTP-Adresse des Ziel-Signalisierungsknotens im Ziel-Portabilitätsgebiet, zuständig ist.

Number portability in the network is supported by a central database (NP database) for each portability area.

• • Prior to any GTT, the SP, based on a leading part of the B-number and the translation type for the end-to-end message, evaluates whether it is determining the final MTP address, ie the MTP address of the destination signaling node in the destination Portability area.

If this is the case, it determines the userpart address (routing number) the destination switch by polling the NP database of the destination portability area. With the determined routing number, the SP performs a GTT and determines thereby the MTP address of the destination signaling node. Is the destination signaling node same time the destination switch, then this GTT is one final GTT. Is the destination signaling node a signaling gateway node to the target network, then this GTT is a non-final GTT. The routing number The destination exchange is thus at the same time a GT for the destination signaling node.

• • Die NP-Datenbasis und die SCCP-Datenbasis sind betrieblich voneinander entkoppelt. Individuelle Rufnummernportierungen führen somit nicht zu Änderungen in der SCCP-Datenbasis. NP-Datenbasis
  
  und SCCP-Datenbasis in einem für den Zielrufnummernbereich nicht zuständigen SP:
  
  SCCP-Datenbasis in dem für den Zielrufnummernbereich zuständigen SP:
  
  
• • Das beschriebene Verfahren ist anwendbar für alle Netzzusatzdienste, die Ende-zu-Ende Nachrichten mit Hilfe von B-Teilnehmernummern als GT adressieren.
• • Das beschriebene Verfahren ist ohne Einfluß auf die Netzzusatzdienste, die Ende-zu-Ende Nachrichten mit Hilfe von Rufnummern als GT adressieren.
• • Das beschriebene Verfahren ist anwendbar für portable geographische Rufnummern und für portable nicht-geographische Rufnummern.

If the SP is not responsible for the destination number range, it forwards the message to a responsible SP.

• • The NP database and the SCCP database are operationally decoupled. Individual number porting thus does not lead to changes in the SCCP database. NP database
  
  and SCCP database in an SP not responsible for the destination number range:
  
  SCCP database in the SP responsible for the destination number range:
  
  
• • The method described is applicable to all supplementary network services that address end-to-end messages as GT using B subscriber numbers.
• • The method described has no effect on the supplementary network services that address end-to-end messages using numbers as GT.
• • The method described is applicable to portable geographic numbers and portable non-geographic numbers.

• 1. Die Ursprungsvermittlungsstelle sendet eine Nachricht einer beliebigen SCCP-Anwendung mit der im GT enthaltenen B-Rufnummer an einen SP mit GTT Fähigkeit.
• 2. Anhand desjenigen führenden Teiles der (national signifikanten) B-Rufnummer, der den Zielrufnummernbereich (Portabilitätsgebiet) kennzeichnet, adressiert der SP eine Zuständigkeits-Tabelle der SCCP-DB, deren Ergebnis entweder eine fremde MTP-Adresse oder ein Label mit lokaler Bedeutung (Zuständigkeitskennzeichen, oder alternativ die eigene MTP-Adresse) ist. Wenn das Ergebnis ein Zuständigkeitskennzeichen ist, weiß der SP, daß er für das adressierte Portabilitätsgebiet zuständig ist, d.h. daß er die GTT für das adressierte Portabilitätsgebiet teilnehmernummernindividuell durchführen kann. Wenn das Ergebnis eine fremde MTP-Adresse ist, weiß der SP, daß er für das adressierte Portabilitätsgebiet nicht zuständig ist, weshalb er die Nachricht an einen SP mit der aus der Zuständigkeits-Tabelle erhaltenen MTP-Adresse weiterroutet.
• 3. Der für das adressierte Portabilitätsgebiet zuständige SP ermittelt aus den führenden Ziffern der B-Rufnummer und aus zusätzlichen administrierten Daten die Adresse der zuständige NP-Datenbasis.
• 4. Der für das adressierte Portabilitätsgebiet zuständige SP fragt die zuständige NP-Datenbasis ab nach der Routing-Nummer der Ziel-Vermittlungsstelle. Dies kann in derselben Weise erfolgen, wie für nutzkanalbezogene Signalisierung (z.B. für ISUP Signalisierung). Falls der zuständige SP und die NP-Datenbasis in unterschiedlichen Netzelementen liegen, kann der SP eine (TCAP-)Nachricht erstellen. Falls der zuständige SP und die NP-Datenbasis im gleichen Netzelement liegen, kann der SP eine interne Abfrage verwenden.
• 5. Die NP-Datenbasis gibt die Rufnummer (Routing-Nummer) der Ziel-Vermittlungsstelle an den SP zurück.
• 6. Der SP ermittelt anhand der Routing-Nummer der Ziel-Vermittlungsstelle aus seinen GTT-Tabellen die MTP-Adresse (den Destination Point Code) des Ziel-SP (in dem dargestellten Fall ist der Ziel-SP in der Vermittlungsstelle, an die der B-Teilnehmer angeschlossen ist, enthalten, finale GTT) oder die MTP-Adresse (den Destination Point Code) des #7-Gateways zum Zielnetz (nicht-finale GTT).
• 7. In dem Ziel-SP wird anhand des ursprünglichen, von der absendenden Dienstelogik verwendeten und von jedem SP weitergeleiteten GT die Nachricht der adressierten Dienstelogik (Application) zugestellt.

The figure shows the sequence of the method according to the invention.

• 1. The originating exchange sends a message from any SCCP application with the B-number included in the GT to an SP with GTT capability.
• 2. On the basis of the leading part of the (nationally significant) B call number, which identifies the destination number range (portability area), the SP addresses a responsibility table of the SCCP DB, the result of which is either a foreign MTP address or a label with local significance ( Responsible indicator, or alternatively your own MTP address) is. If the result is a responsibility flag, the SP knows that it is responsible for the addressed portability area, ie that it can perform the GTTs for the addressed portability area on a subscriber number basis. If the result is a foreign MTP address, the SP knows that it is not responsible for the addressed portability area, so it routes the message to an SP with the MTP address received from the jurisdiction table.
• 3. The SP responsible for the addressed portability area determines from the leading digits of the B-number and additional administered data the address of the responsible NP database.
• 4. The SP responsible for the addressed portability area queries the relevant NP database for the routing number of the destination exchange. This can be done in the same way as for user channel related signaling (eg for ISUP signaling). If the responsible SP and the NP database are in different network elements, the SP can create a (TCAP) message. If the responsible SP and the NP database are in the same network element, the SP can use an internal query.
• 5. The NP database returns the call number (routing number) of the destination switch to the SP.
• 6. The SP uses the routing number of the destination exchange from its GTT tables to determine the destination point code (MTP) address of the destination SP (in the illustrated case, the destination SP in the exchange to which the B-subscriber is connected, include, final GTT) or the MTP address (the destination point code) of the # 7 gateway to the destination network (non-final GTT).
• 7. In the destination SP, the message of the addressed service logic (Application) is delivered based on the original GT used by the originating service logic and forwarded by each SP.

Claims (3)

Method for routing signaling messages in a signaling network, the signaling nodes of which comprise at least one user-part system (eg SCCP) and a shared-part transferpart system (MTP) common to all userpart systems, wherein the transferpart system is provided by a userpart system for transporting the signaling messages a) are routed by the transfer part system signaling messages based Transferpartsystem addresses, the Transferpartsystem addresses address signaling nodes, b) are routed by a Userpart system signaling messages based on Userpartsystem addresses, the Userpartsystem addresses address switching nodes , c) from a signaling node to which a signaling message enters the signaling network to hand, a part of the B-subscriber number contained in the signaling message is determined, which signaling node is responsible for the translation of this B-subscriber number in the Transferpartsystem address of the destination signaling node, d) the signaling message from said signaling node optionally to one for said determination is forwarded by a competent signaling node, the translation of this B-subscriber number in a Transferpartsystem address of the destination signaling node by e1) first on the basis of the B-subscriber number by querying a first database (NP-DB) the Userpartsystem address of the destination switching node is determined, e2) then based on the Userpartsystem address (E.164) of the destination switching node by querying a second database (SCCP-DB) the Transferpartsystem address (Q.701-Q.708 ) of the destination signaling node is determined. Method according to claim 1, characterized in that that the competent Signaling node based on the leading digit part of the B number Is evaluated. Method according to claim 1 or 2, characterized that it in the said signaling network to a # 7 signaling network is.