KR20040055283A - Method for setting bearer in voip network - Google Patents

Abstract

PURPOSE: A method for setting a bearer in VoIP(Voice over Internet Protocol) network is provided to set a bearer by using an ISUP(ISDN User Part) in a soft switch when connection of a call belonging to the same MGC(Media Gateway Controller) is requested. CONSTITUTION: An originating ISUP of a call reserves setup of a bearer by using an MEGACO(MEdia GAteway COntroller protocol)(S20). A terminating ISUP of the call confirms the reservation for setup of a bearer(S21). The originating ISUP confirms the setup of the bearer(S22). The originating ISUP and the terminating ISUP set up a bearer in both directions(S23).

Description

Method for setting bearer in VOIP {Method for setting bearer in VoIP network}

The present invention relates to a bearer setup method in a VIO IP network. Especially, when a call belonging to the same MGC (Media Gateway Controller) is required in a VoIP (Voice over IP) environment, an integrated user network (ISDN User Part) in a soft switch. It relates to a method for establishing a bearer using the (ISUP) protocol.

FIG. 1 shows a VoIP / ATM based network structure integrating a switch and a subscriber in a public switched telephone network (PSTN network) using a soft switch and a media gateway.

Typically, when a setup of a bearer from one voice communication subscriber 10 to another voice communication subscriber 11 is requested (if a call setup is requested), the bearer setup request signal is transmitted to the first local media gateway (MGW_1, 12) and the line MGC ( 13) the trunk MGC 14 is reached. At this time, the two MGCs (13, 14) are interconnected by BICC / SIP-T (Bearer Independent Call Control / Session Initiation Protocol for telephone), and are transmitted through MEGACO (MEGA GAteway COntroller protocol) to set up and control the bearer. The session description protocol (SDP) of the originating media gateway and the session description protocol (SDP) of the terminating media gateway are exchanged with each other.

SDP is a text-based information representation method for describing multimedia sessions for the purpose of session announcement, session invitation, multimedia session initiation, etc., and it is used together with device control protocol for establishing connection such as MEGACO. Used to send and receive information.

The trunk MGC 14 notifies the switch 15 that a bearer setup request signal has been received, and the exchange 15 which receives the bearer setup request signal interprets this signal to send the trunk MGC 14, line MGC 13, and the second. The subscriber 10, which has made the connection request, is connected to the other subscriber 11 via the local media gateway MGW_2, 18 to establish a call. Here, only one line MGC 13 and one trunk MGC 14 are shown for convenience, but there are usually a plurality and the same for the exchange 15.

User data, including voice data from subscriber 10 to other subscribers 11, passes through ATM / VoIP network 17 and reaches trunk 15 via trunk media gateway (TGW, 16). 15 transfers this data to another subscriber via trunk media gateway (TGW) 16 and ATM / VoIP network 17 again. At this time, relay line processing is performed between the switch 15 and the trunk MGC 14 using the ISUP protocol, and the trunk MGC 14 controls the trunk media gateway (TGW, 16) using the MEGACO (MEdia GAteway COntroller protocol). . In FIG. 1, the dotted line indicates signaling for setting up a bearer (setting up a call) and the flow of data is indicated by a solid line.

As such, in establishing a bearer between subscribers 10 and 11, the BICC / SIP-T is typically used between two MGCs 13 and 14. The problem is that the subscribers 10 and 11 are connected to the same line MGC 13; In the case of belonging, it is unnecessary to set up a bearer through the protocol BICC / SIP-T connecting two MGCs 13 and 14.

Previously, even when the subscribers 10 and 11 belonged to the same line MGC 13, the bearer was established through a protocol connecting the two MGCs 13 and 14, which causes an inefficiency in call setup and increases the number of calls. The more inefficient the more.

Therefore, the present invention was devised to solve such an inefficiency, and an object and technical problem of the present invention are not required when the call connection belonging to the same MGC (MediaGateway Controller) is required in a VoIP (Voice over IP) environment. An object of the present invention is to provide a bearer setting method in a BIO IP network capable of setting a bearer.

1 shows a VoIP / ATM based network structure integrating a switch and a subscriber.

2 is a flow chart of the present invention.

3 is a flow chart illustrating the flow shown in FIG.

<Description of the symbols for the main parts of the drawings>

S20: step in which the calling ISUP of the call reserves a bearer using MEGACO

S21: confirming bearer reservation at the receiving ISUP of the call

S22: step of the originating ISUP confirming the bearer setting

S23: step of setting the bearer in both directions by the sending ISUP and the receiving ISUP

In order to achieve the above object and technical problem, a method of configuring a bearer in a VIO IP network using ISUP in setting up a bearer for connection of a call belonging to the same MGC (Media Gateway Controller) in a VoIP environment provided by the present invention

(a) the originating ISUP of the call reserves a bearer using MEGACO; (b) confirming the bearer reservation at the receiving ISUP of the call; (c) the originating ISUP confirming the bearer setting; And (d) setting the bearer in both directions by the originating ISUP and the receiving ISUP.

Preferably, the step (a) comprises: Originating_ISUP sending a ReserveBearer RQ of bearer setup to the call control block of the MEGACO protocol; Sending, by the call control block of the MEGACO protocol, a Response Message (ReserveBearer RP) to the Reservation Request to the Originating_ISUP; Originating_ISUP receiving the ReserveBearer RP sends a call processing request message (Initial Address Message, IAM) to the call control block of the Terminating_ISUP; And sending, by the call control block of Terminating_ISUP, the IAM message to the terminating block (ISUP_out) of Terminating_ISUP.

Preferably, the step (b) includes: terminating block ISUP_out of Terminating_ISUP sending a bearer setup reservation confirmation request message (ResvConfBearer RQ) to the call control block of the MEGACO protocol; The call control block of the MEGACO protocol sending a response message (ResvConfBearer RP) to the ISUP_out for the ResvConfBearer RQ; And transmitting an address complete message (ACM) meaning that the ISUP_out is a bearer setup reservation to the Originating_ISUP.

Preferably, the step (c) may include: sending, by the Originating_ISUP, a message (ConfirmBearer RQ) requesting confirmation of bearer setup to the call control block of the MEGACO protocol; And sending, by the call control block of the MEGACO protocol, a response message (ConfirmBearer RP) for the ConfirmBearer RQ to the Originating_ISUP.

Preferably, the step (d) may include: transmitting a message (SetFullDuplex RQ) requesting that the terminating block (ISUP_out) of the Terminating_ISUP establishes a bearer in both directions to the call control block of the MEGACO protocol; Sending, by the call control block of the MEGACO protocol, a response message (SetFullDuplex RP) of the SetFullDuplex RQ to the ISUP_out; Sending an Answer Message (ANM), meaning that the ISUP_out confirms the bidirectional bearer setup confirmation on the Terminating_ISUP side, to notify the Originating_ISUP that the bidirectional bearer setup is requested; Sending, by the Originating_ISUP, the SetFullDuplex RQ to a call control block of the MEGACO protocol after receiving the ANM; And transmitting, by the call control block of the MEGACO protocol, a response message to the Originating_ISUP.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, the configuration, operation, and optimal embodiments of the present invention will be described in detail with reference to the accompanying drawings, in which like reference numerals are used to designate like elements. It is noted that in the description of the drawings, components of other drawings may be cited if necessary.

For convenience of understanding, the present invention will be described in general.

Previously, even when a call of a call belonging to the same MGC was requested, there was an unnecessary procedure of setting up a bearer through a protocol such as BICC / SIP-T between two MGCs, as in the call of a call belonging to another MGC. To present.

The present invention can simplify the bearer setup process of a call belonging to the same MGC by requesting that the ISUP assumes not only a connection establishment function between the exchange and the MGC but also a bearer setup function when requesting connection of a call belonging to the same MGC. That is, the ISUP assumes the bearer setting function that the BICC / SIP-T protocol is responsible for, thus eliminating unnecessary processes of bearer setting and suggesting a fast and effective bearer setting method.

FIG. 2 is a flow chart of the present invention and FIG. 3 is a flow chart illustrating the flow shown in FIG.

In step S20, the originating ISUP of the call reserves the bearer setup using the MEGACO. The originating ISUP (Originating_ISUP) is the reservation request message of the bearer setup in the call control block (CallControl) of the MEGACO protocol. RQ).

The call control block of the MEGACO protocol receiving the reservation request message (ReserveBearer RQ) adds the Originating Media Gateway_Session Description Protocol (OMG_SDP) to the originating ISUP (Originating_ISUP) by adding a response message (ReserveBearer RP) to the reservation request. .

The originating ISUP (Originating_ISUP) receiving the response message (ReserveBearer RP) receives the OMG_SDP received from the call control block (CallControl) of the MEGACO protocol in addition to the initial address message (IAM) indicating that a call processing request has been received. The bearer is established by sending to the call control block (CallControl) of the terminating ISUP (Terminating_ISUP) and the call control block (CallControl) of the receiving ISUP (Terminating_ISUP) by sending an IAM message to the terminating block (ISUP_out) of the receiving ISUP (Terminating_ISUP). The bearer setup is reserved by informing the reservation.

In step S21, in the receiving ISUP of the call, the bearer establishment reservation reservation confirmation step (ISUP_out) of the receiving ISUP (Terminating_ISUP) is a call control block (CallControl) of the MEGACO protocol, and the bearer establishment reservation confirmation request message (OMG_SDP) is included. Send ResvConfBearer RQ).

The call control block (CallControl) of the MEGACO protocol delivers the received OMG_SDP to the media gateway and, if the delivery is successful, includes the terminating MediaGateway_Session Description Protocol (TGM_SDP) in the response message for the ResvConfBearer RQ (ResvConfBearer RP) to receive this ResvConfBearer RP. Send to the end block (ISUP_out) of the terminating ISUP (Terminating_ISUP). At this time, if the parameters of the ResvConfBearer RQ and the parameters of the ResvConfBearer RP do not coincide with each other, it means that the setting reservation is not made by S20. In this case, the step S21 is performed by repeating the step S20. Here, the parameter means predetermined information on the transmission / reception side, for example, information including the number of the media gateway, communication protocol between the transmission / reception side, and the like.

The terminating block (ISUP_out) of the receiving ISUP (Terminating_ISUP) confirms the bearer establishment reservation by sending an address complete message (ACM) indicating that the bearer establishment reservation is reserved to the originating ISUP (Originating_ISUP). .

In step S22, the originating ISUP confirms the bearer setup. The step S22 confirms whether the bearer is set up as reserved by the two steps S21 and S22. The originating ISUP (Originating_ISUP) receiving the ACM message is determined by TMG_SDP. A message (ConfirmBearer RQ) requesting confirmation of the embedded bearer is sent to the call control block (CallControl) of the MEGACO protocol, and the call control block (CallControl) of the MEGACO protocol is confirmed only if the bearer is intact. By sending a response message (ConfirmBearer RP) to the originating ISUP (Originating_ISUP) to confirm whether the bearer is set.

At this time, if the parameters of ConfirmBearer RQ and the parameters of ConfirmBearer RP do not coincide with each other, it means that the bearer is not set as reserved by S21. In this case, step S22 is performed again by performing step S21. The parameters are the same as mentioned above.

In step S23, in which the calling ISUP and the receiving ISUP set up the bearer in both directions, an address complete message (Address Complete Message) means that the bearer setting is reserved for the originating ISUP (Originating_ISUP) after the bearer setting is confirmed. The terminating block (ISUP_out) of the receiving ISUP (Terminating_ISUP) transmitting the ACM) sends a message (SetFullDuplex RQ) requesting to set the bearer bidirectionally to the call control block (CallControl) of the MEGACO protocol and to call control of the MEGACO protocol. The block CallControl transmits its response message SetFullDuplex RP to the end block ISUP_out of the receiving side ISUP (Originating_ISUP). The terminating block (ISUP_out) of the receiving side ISUP (Originating_ISUP) transmits an Answer Message (ANM), which means to confirm the bidirectional bearer setting of the Terminating_ISUP, to the originating side ISUP (Originating_ISUP) to notify that the bidirectional bearer setting is requested.

After receiving the originating ISUP (Originating_ISUP) ANM, it sends a message (SetFullDuplex RQ) requesting to set up the bearer bidirectionally to the call control block (CallControl) of the MEGACO protocol, and the call control block (CallControl) of the MEGACO protocol is a response message. The bearer setting between the subscribers 10 and 11 is completed by transmitting (SetFullDuplex RP) to the originating ISUP (Originating_ISUP).

At this time, the above-mentioned multiple messages are entered by MEGACO protocol as mentioned above, and the number of the sender side and the receiver side is translated (NTR) by routing controller (RC) and then the routing block (Routing) The path is set.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the appended claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

The present invention can effectively set the bearer using the ISUP protocol when the call belongs to the same MGC in the VoIP network using the soft switch. The bearer setup using ISUP eliminates unnecessary bearer setup between BICC and SIP-T, thus reducing call setup time and improving call processing performance.

In addition, by using a minimum protocol block, the load of the MGC can be reduced to a minimum, so the larger the number of calls, the larger the network.

Claims (5)

In a method of establishing a bearer in a VIO network for connection of calls belonging to the same Media Gateway Controller (MGC) in a Voice over Internet Protocol (VoIP) environment (a) the originating ISUP of the call reserving bearer setup using the MEGACO protocol; (b) confirming the bearer establishment reservation at the receiving ISUP (Terminating_ISUP) of the call; (c) verifying bearer configuration by the Originating_ISUP; And and (d) the Originating_ISUP and the Terminating_ISUP use the ISUP to configure the bearer, including setting the bearer in both directions. The method of claim 1, wherein step (a) Sending, by the Originating_ISUP, a ReserveBearer RQ of a bearer setup to a call control block of a MEGACO protocol; Sending, by the call control block of the MEGACO protocol, a Response Message (ReserveBearer RP) to the Reservation Request to the Originating_ISUP; Originating_ISUP receiving the ReserveBearer RP sends a call processing request message (Initial Address Message, IAM) to the call control block of the Terminating_ISUP; And And transmitting, by the call control block of the terminating_ISUP, the IAM message to the terminating block (ISUP_out) of the terminating_ISUP. The method of claim 1, wherein step (b) Sending a bearer establishment reservation confirmation request message (ResvConfBearer RQ) to a call control block of the MEGACO protocol by an end block (ISUP_out) of the Terminating_ISUP; The call control block of the MEGACO protocol sending a response message (ResvConfBearer RP) to the ISUP_out for the ResvConfBearer RQ; And And transmitting an address complete message to the Originating_ISUP to confirm that the bearer setup reservation is made to the Originating_ISUP. The method of claim 1, wherein step (c) Sending, by the Originating_ISUP, a message (ConfirmBearer RQ) requesting confirmation of bearer setup to a call control block of the MEGACO protocol; And And sending a response message (ConfirmBearer RP) for the ConfirmBearer RQ to the Originating_ISUP by the call control block of the MEGACO protocol. The method of claim 1, wherein step (d) Sending a message (SetFullDuplex RQ) requesting that an end block (ISUP_out) of the terminating_ISUP establishes a bearer in both directions to a call control block of the MEGACO protocol; Sending, by the call control block of the MEGACO protocol, a response message (SetFullDuplex RP) of the SetFullDuplex RQ to the ISUP_out; Sending an Answer Message (ANM), meaning that the ISUP_out confirms the bidirectional bearer setup confirmation on the Terminating_ISUP side, to notify the Originating_ISUP that the bidirectional bearer setup is requested; Sending, by the Originating_ISUP, the SetFullDuplex RQ to a call control block of the MEGACO protocol after receiving the ANM; And And a call control block of the MEGACO protocol sends a response message to the Originating_ISUP.