JP2008544597A - Service Feature "SIP Call Transfer" Control Method - Google Patents

Abstract

  In the prior art, ITU-T recommendation Q.I. In accordance with chapter 6.1.1 (1) (a) of 1912.5, the media gateway controller (I-IWU) will send SDP data when the SIP condition is not active in order to implement the service feature “IP call transfer”. It has been proposed to provide the (third) subscriber to be called an ISUP message for the first time upon receipt of. However, this arrangement has decisive drawbacks regarding storage space in the media gateway controller as well as the resulting call delay. The present invention solves this problem by allowing an ISUP subscriber to transmit an IAM message with the ISUP protocol element "previous circuit continuity" and a bearer connection is established after receiving SDP data on the A side.

Description

  In recent communication architectures, an exchange technical network is divided into units related to connection services and transmission of valid information (bearer control). As a result, the connection structure and the medium or bearer structure are disassembled / separated. Transmission of valid information (connection of network channels) can be performed by various high bit rate transmission techniques such as ATM, IP or frame relay.

  With this type of separation, communication services currently being performed in narrowband networks can also be realized in broadband networks. Subscribers are connected directly (eg, by the DSS1 protocol) or via an exchange configured as a media gateway controller (MGC) (eg, by the ISUP protocol). The valid information itself is converted by the media gateway (MG) into the transmission technology used.

  The control of the media gateway is performed by the associated media gateway controller (MGC). In order to control the media gateway, the media gateway controller uses a standardized protocol such as the MGCP protocol or H.264. The H.248 protocol is used. In order to communicate with each other, the media gateway controller uses a BICC (bearer independent call control) protocol standardized by the ITU, which is formed from a number of standardized protocols and therefore encompasses a protocol family. To do.

  A protocol suitable for the BICC protocol has been prepared by the IETF Standardization Committee using the SIP protocol (RFC3261) or supplementarily SIP-T (RFC3204). Unlike the SIP protocol, the latter protocol can transmit an ISUP message. The transmission of the ISUP message is generally performed through a tunnel, that is, a transparent conduction path.

  Connection establishment between two or more SIP subscribers is performed using SIP protocol elements. For example, SDP (Session Description Protocol) data is exchanged. SDP data is data related to (bearer) endpoints, and these data contain information about codecs, IP ports, IP addresses, and the like. SIP subscribers and H.264 When a connection is established with a H.323 subscriber or a TDM / ISDN subscriber, these SIP protocol elements are correspondingly H.323 in the associated media gateway controller. Must be converted to H.323, TDM or ISDN protocol elements. For example, this means that for TDM subscribers originating from the SIP world, an ISUP message used in the TDM world, eg an ISUP message IAM (Initial Address Message), must be formed and supplied to this TDM subscriber. Means.

A connection established between a SIP subscriber (which may be a TDM subscriber with a transition to a SIP network) and another SIP subscriber is forwarded to a third subscriber (which may be a TDM subscriber) In the case of the service feature “SIP call transfer”, the following recommendations regarding the reception of INITIAL INVITE without SDP are as follows: 1912.5 chapter 6.1.1 (1) (a):
“If SIP preconditions are not used, the I-IWU should send an IAM based on receipt of an SDP response containing the media description.”

  This means that if the SIP connection is not active, the media gateway controller (I-IWU) will only supply this subscriber with an ISUP message IAM when the called (third) subscriber receives SDP data. Is meant to do.

  However, this configuration has a decisive drawback. That is, the media gateway controller on the ISUP side must store the ISUP message IAM, which requires additional storage space in the media gateway controller. On the other hand, the ISUP message IAM must be held until an SDP response (Answer) comes from the SIP side. However, this means additional call delay. This problem has not existed so far in conventional PSTN networks.

  The object of the present invention is to show how the service feature “SIP call transfer” can be realized efficiently.

  The invention is solved on the basis of the features described in the superordinate concept of claims 1 and 4 by the features described in the characterizing portions of those claims.

  An advantage of the present invention is that the ISUP message IAM is sent to the (third) subscriber more quickly using the ISUP protocol element "previous circuit continuity". With the proposed solution, the storage space required is significantly reduced, call establishment is carried out more quickly and at the same time it is achieved that it is only called when an IP bearer connection is established. The latter is very important regarding the security of this connection.

Hereinafter, the present invention will be described in detail based on embodiments shown in the drawings. here,
FIG. 1 shows the basic environment between two PSTN subscribers with an internet network in between.

  FIG. 2 shows an embodiment of the service feature “SIP call transfer” according to the invention.

  In FIG. 1, a network configuration in which the method according to the invention is implemented is shown. Illustratively, two PSTN networks are shown, each having a plurality of PSTN subscribers arranged in a known manner. These PSTN subscribers are connected to a local exchange LE, which is connected to a relay exchange TX.

  In the relay switching center TX, the signaling information and the valid information are separated. The signaling information is supplied from the relay switching center TX directly to the associated media gateway controller MGC (MGC A or MGC B) by the ISUP protocol. Valid information is transmitted to the media gateway MG (MG A or MG B) (located on the input side), which acts as an interface between the TDM network and the ATM or IP transport network, and also Packet-oriented transmission through the transmission network. Media gateway MG A is controlled by media gateway controller MGC A, and similarly media gateway MG B is controlled by media gateway controller MGC B. If the valid information is transmitted from the media gateway MG A to the media gateway MG B, the valid information is converted back to a TDM data stream under the control of the media gateway controller MGC B associated with the media gateway MG B; To the relevant PSTN subscriber. Data transmitted between the media gateway controller MGC and the associated media gateway is supported by a standardized protocol. This protocol is for example the MGCP protocol or H.264. H.248 protocol may be used. Advantageously, in this embodiment, the SIP protocol is used between the two media gateway controllers MGC A and MGC B. Further devices such as SIP proxy or SIP unit SIP E can be connected to the signaling path.

  In FIG. 2, a configuration in which a SIP call transfer scenario is implemented is shown. Correspondingly, SIP subscribers A and B communicating with each other are shown. Here, SIP subscriber B terminates communication with SIP subscriber A and attempts to connect SIP subscriber A to subscriber C (call transfer). According to this embodiment, it must be taken into account that the latter subscriber C is located in a classic TDM network. SIP subscriber B transmits the information required for the service feature “call transfer” (without reference) to the application server AS in the form of a SIP protocol element “SIP: REFER to C (SIP)”. The application server AS sends a SIP protocol element “INITIAL INVITE without SDP Offer (SDCP Offer)” to the subscriber C. The endpoint is of course the SIP endpoint, ie in this case the media gateway controller MGC.

  The following table shows the SIP protocol elements required to implement service feature SIP call transfer. After the application server AS on the A side receives information from the subscriber B that the call transfer from the subscriber A to the subscriber C is desired, the application server AS sends the SIP protocol to the media gateway controller MGC (C-side SIP endpoint). The element “INVITE not including SDP data (INVITE without SDP Daten)” is transmitted.

  On the one hand, the media gateway controller MGC contacts the media gateway MG to which it belongs, receives SDP data from the media gateway MG, and uses the SIP protocol element “PROVISIONAL RESPONSE”, that is, the representative media gateway MG using a provisional response on the A side. Reply with subscriber C's SDP data from. On the other hand, according to the invention, the media gateway controller MGC transmits to the next ISUP switching center an IAM message having the ISUP protocol element “previous circuit continuity” towards the subscriber C. This ISUP protocol element is usually a message used for continuity testing for terminal subscribers. This message does not start ringing under subscriber C. That is, this subscriber C is still not called.

  The A side responds to the media gateway controller MGC with the SDP data of the A side (that is, the A subscriber) by the PRACK method regarding the reception of “PROVISIONAL RESPONSE”. At the same time, a bearer connection is established between subscriber A's endpoint and subscriber C's endpoint. Subscriber C is called when the media gateway controller MGC transmits the ISUP protocol element "Continuity (COT)". Connection establishment is completed by exchanging SIP protocol elements 200OK, ACM (address complete message) and ANM according to the prior art.

Therefore, according to the present invention, ITU-T recommendation Q.I. The complement described in 1912.5 Capital Chapter 6.1.1 (1) (a) is required:
“If SIP preconditions are not used, the I-IWU sends an IAM with the indication“ continuous inspection of the previous line ”and sends a COT message based on receipt of an SDP response containing the media description.” .

  The present invention can also be used when no ISUP / SIP exists between a PSTN subscriber (ISDN, analog subscriber or mobile radio subscriber) and a SIP or SIP-T subscriber. This means that the method described above is also implemented in the exchange. Next-generation network subscriber interworking for SIP or SIP-T, for example, VoDSL, H323, etc., is also conceivable.

  Finally, the present invention has been described above by taking the service feature “SIP call transfer” as an example. However, this is not intended to limit the invention. A scenario similar to that described in, for example, RFC 3725, chapters 4.1 and 4.3 ("current best practice for third party call control (3 pcc) in Session Initiation Protocol (SIP))" is also handled by the present invention. can do.

  Furthermore, in the embodiments of the present invention described above, the use of ISUP using IAM and COT has been described. Of course, the present invention is not limited thereto. This is because there may also be direct interworking of SIP, such as in DSS1 or TUP, where there is no ISUP under the C subscriber. However, the above mechanism can also be applied in a general way. That is, for example, a signaling type that is not equal to an ISUP that does not have an “IAM that includes the current line / previous line conduction state” may not yet be able to easily transmit the last dialed digits. So the subscriber can still not be called. Only when the SDP response arrives, for example, this number can be notified by signaling (SAM: next address message in ISUP language). By using this last dialed number, the target station can select or have access to the actual subscriber, so that it will only be ringing for the first time.

Basic environment between two PSTN subscribers with an internet network in between. An example of a service feature “SIP call transfer” according to the invention.

Claims (9)

(Bearer) a method for controlling a communication relationship between at least two endpoints (A, B, C), wherein the data associated with the endpoint is characterized by SDP data, comprising:
A SIP protocol element INITIAL INVITE that does not include SDP data is supplied to the called endpoint (C), and the endpoint (C) receives the SIP protocol element INITIAL INVITE and receives a SIP protocol element PROVISIONAL RESPONSE that includes SDP data. Answer the endpoints (A, B) that made the call,
Using the ISUP protocol element CONTINUITY CHECK ON THIS OR ON PREVIOUS CIRCUIT, the first information element informs the destination exchange office about the connection request,
The calling endpoints (A, B) transmit their SDP data (SDP response) to the called endpoint (C) in the SIP protocol element PRACK, and the SDP data is sent to the second protocol. A communication relationship between at least two endpoints (A, B, C), characterized in that a call is made to a subscriber by converting into an element and the calling endpoint (C) is invoked based on the call How to control.   The method of claim 1, wherein the first information element is an ISUP message IAM.   The method according to claim 1 or 2, wherein the second information element is an ISUP protocol element COT (conducting state). (Bearer) an apparatus for controlling a communication relationship between at least two endpoints (A, B, C), wherein data associated with the endpoint is characterized by SDP data,
A SIP protocol element INITIAL INVITE that does not include SDP data is supplied to the called endpoint (C), and the endpoint (C) receives the SIP protocol element INITIAL INVITE and receives a SIP protocol element PROVISIONAL RESPONSE that includes SDP data. Means are provided for responding to the endpoints (A, B) that made the call,
Using the ISUP protocol element CONTINUITY CHECK ON THIS OR ON PREVIOUS CIRCUIT, the first information element is provided with a means for notifying the destination exchange office of the request regarding the connection, and the endpoint (A, B) transmits its SDP data (SDP response) in the SIP protocol element PRACK to the called endpoint (C), and the subscriber is called by converting the SDP data into a second protocol element. An apparatus for controlling a communication relationship between at least two endpoints (A, B, C), wherein the called endpoint (C) is called based on the call.   The device according to claim 4, wherein the terminal device is configured as a PSTN terminal device.   The device according to claim 4, wherein the terminal device is configured as a SIP terminal device.   The device according to claim 4, wherein the terminal device is configured as an automatic device or a directory.   The apparatus according to claim 4, wherein the first information element is configured as an ISUP message IAM.   5. The device according to claim 4, wherein the second information element is configured as an ISUP protocol element COT (conducting state).

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