KR100418397B1 - softswitch for interfacing between different protocol - Google Patents

Abstract

A softswitch for performing an interface between heterogeneous protocols according to the present invention is a softswitch for performing an interface between a call processing module having a different protocol and a media gateway. A media that performs an interface with a call processing interface unit that performs an interface with an interface object pool to execute and an object pool for performing an interface with a media gateway separately from the interface object pool of the call processing interface unit. It comprises a gateway interface unit, one call processing interface unit by assigning a connection endpoint identifier is dynamically bound to at least one media gateway interface unit to perform communication, When performing an interface with the call processing module and the media gateway on the switch was able to minimize the dependence of each other.

Description

Softswitch for interfacing between different protocols

The present invention relates to a soft switch for performing an interface between heterogeneous protocols, and more particularly, to a soft switch for performing an interface between heterogeneous protocols, which is a core technology of a next generation network.

The next generation network structure is being developed into a structure in which signaling and media transmission are separated and supported. In the interworking between public telephone networks and IP networks, the parts for converting and providing signaling and the parts for converting media transmission types such as voice and video are supported. The soft switch is a transport interface module that performs a function of interworking independently between a call processing module performing call processing and a media gateway for media transmission.

1 is a block diagram illustrating a connection configuration of a soft switch in the related art.

As shown in the drawing, the soft switch 2 performs the interworking between the call processing module 1 performing call processing and the media gateway 3 performing media transmission.

The soft switch 2 communicates with the call processing module 1 using a generic message communication scheme, and communicates with the media gateway 3 using a protocol such as MGCP or Megaco.

The media gateway 3 is a network element that converts information transmitted from a telephone line and data packets transmitted from the Internet, and includes trunking gateways, access gateways, and network access servers. It also covers standards for interworking with networks other than the Internet, such as ATM.

Here, MGCP is an abbreviation of Media Gateway Control Protocol, and is a protocol that defines communication between a media gateway and call processing elements. This protocol partially compensates for the apparent disadvantages of H.323, which is complex at the level of a centralized network infrastructure, and the goal of MGCP is to reduce the burden on the gateway and to keep it simple. It is a protocol implemented to reduce the role of media gateway in multiservice packet network that converts audio signal and data packet, and to handle call processing, control, and processing intelligently in call agent or media gateway controller (MGC). .

MEGACO is an abbreviation of Media Gateway Control. It is a group that standardizes the protocol that controls the media gateway, an inter-media conversion device required when providing multimedia services by connecting various networks including the telephone network and the Internet.

In this case, the soft switch should be in charge of interfacing with the media gateway along with the interface with the call processing module.

In the conventional case, when implementing a soft switch, one interface object pool was used to process the interface of the call processing module and the media gateway interface.

In the prior art, when an interface with one module is changed or a call processing sequence is changed by performing an interface with a call processing module and an interface with a media gateway in one object. The problem arises that both interfaces must be modified.

SUMMARY OF THE INVENTION The present invention has been made to solve such a conventional problem, and is a heterogeneous method that minimizes dependency between each other by independent of a module performing an interface with a call processing module and a module performing an interface with a media gateway in a soft switch. Its purpose is to provide a soft switch for performing the interface between protocols.

1 is a configuration block diagram showing a connection configuration of a conventional soft switch.

2 is a block diagram illustrating a transmission layer interface module of a soft switch according to the present invention;

3 is a process flow diagram when call setup is requested from the call processing module.

4 is a processing flowchart when a call release is requested from a call processing module.

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

10: call processing module 20: call processing interface unit

30: media gateway interface 40: media gateway

In order to achieve the above object, a soft switch for performing an interface between heterogeneous protocols according to the present invention is a soft switch for performing an interface between a call processing module having a different protocol and a media gateway, and performs an interface with a call processing module. Including a call processing interface unit for performing an interface with an interface object pool for performing, and a media gateway interface unit for performing an interface with an interface object pool for performing an interface with a media gateway separately from the interface object pool of the call processing interface unit One call processing interface unit is configured to allocate a connection endpoint identifier and dynamically bind with at least one media gateway interface unit to perform communication.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram illustrating a transmission layer interface module of a soft switch according to the present invention.

Referring to FIG. 2, the call processing interface unit 20 that interfaces with the call processing module 10 and the call processing interface unit 20 are dynamically bound, and interface with the media gate 40. The media gateway interface unit 30 is configured.

In this case, the call processing interface unit 20 has an interface object pool for performing an interface with the call processing module 10 and communicates with the call processing module 10 through a generic message communication method. In order to maintain consistency with each other in communication with the call processing module 10, a session identifier is used. The session identifier is an identifier necessary for the call processing interface unit 20 to maintain coherence with each other when interworking with the call processing module 10. Meanwhile, the media gateway 40 is dynamically bound and communicates with each other through a generic message communication method.

Here, dynamically bound means that one call processing interface 20 can be dynamically bound with one or more media gateway interface 3.

Meanwhile, the media gateway interface unit 30 interfaces with the media gateway 40. At this time, the interface is performed using MGCP or Megaco. Each one object is assigned by distinguishing a Call Identifier and a Connection Identifier.

In addition, in order to maintain consistency with the call processing interface unit 20, a connection endpoint identifier (Connection Endpoint Identifier) is assigned and used. The connection endpoint identifier is an identifier necessary for maintaining consistency when one or more media gateway interface units 30 are dynamically bound with one call processing interface unit 20.

Let's look at the operation of the soft switch according to the present invention configured as described above.

3 is a flowchart illustrating a case in which call setup is requested from a call processing module.

Referring to FIG. 3, when a call setup is requested from the call processing module, a call setup request message is received from the call processing module 10 (S1). The call processing interface unit 20 generates a call processing interface object for the call setup accordingly (S2).

The call processing interface unit 20 that has generated the call processing interface object requests the media gateway interface unit 30 to generate the media gateway interface object (S3), and the media gateway interface unit 30 that receives the call processing interface object 30 responds to the request. The object is created (S4) and bound to the call processing interface object (S5). At this time, the two objects share the connection endpoint identifier for interaction with each other, thereby allowing them to interact with each other.

4 is a processing flowchart when a call release is requested from a call processing module.

Referring to FIG. 4, when the call release request is received from the call processing module 20, the call processing interface unit 20 receives the call release request message (S11). The call processing interface unit 20 requests the media gateway interface unit 30 having the call processing interface object and the media gateway interface object bound to the call release request to release the call (S12). Accordingly, the media gateway interface unit 30 notifies the call processing interface unit 20 of the work completion result after completing the work for call release (S13). The call processing interface unit 20 disconnects the media gateway interface object (S14) and requests the media gateway interface module 30 to release the media gateway interface object. Accordingly, the media gateway interface module 30 releases the generated mediaway interface object (S15).

As described above, according to the present invention, when performing an interface with a call processing gateway and an interface with a media gateway, a separate interface object pool is used, so that one process interfaces with the heterogeneous communication. Independence of the two interface modules ensures easy integration of new technologies and reduces the likelihood of errors.

Claims (3)

In the soft switch for performing an interface between the call processing module having a different protocol and the media gateway, A call processing interface unit for performing an interface with an interface object pool for performing an interface with the call processing module; And a media gateway interface unit configured to perform an interface with an interface object pool for performing an interface with the media gateway separately from an interface object pool of the call processing interface unit. And the one call processing interface unit assigns a connection endpoint identifier to dynamically interface with at least one of the media gateway interface units to perform an interface between heterogeneous protocols for communication. The method of claim 1, wherein the call processing interface unit, And a soft switch for performing an interface between heterogeneous protocols using session identifiers necessary to maintain mutual consistency in interworking with the call processing module. The method of claim 1, wherein in the media gateway interface module: Each created object is assigned a call identifier and a connection identifier to perform a soft switch to interface between heterogeneous protocols.