KR100768636B1 - Signal transfer device and method of signal transfer exchange - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a signal relay device and a method of the signal relay switch, and more particularly, to an IP (Internet Protocol) network connected to a signal relay switch of No. 7 signal network of a public switched telephone network (PSTN). The present invention relates to a signal relay device of a signal relay switch and a method for providing a protocol processing function and a function of processing a No. 7 protocol layer as an IP protocol upper layer. The signal relay switch according to the present invention includes a trunk matching module for receiving a signal message and separating a specific channel of the signal message, a signal message processing module for determining a destination of the signal message received from the trunk matching module, and the signal. Internal high speed cable for delivering messages, signal gateway module for extracting the destination IP address of the signal message, protocol processing and signal message signal information processing, and IP network matching for IP protocol processing and sending packets to the IP network. With the module, it is possible to reduce the cost for network construction, to solve the failure caused by the signal link, and to efficiently process the centralized signal traffic between the PSTN and the IP network in the system.

Description

Signal relay device and method of signal relay exchange

1 is a configuration diagram in which the No.7 signal network and the IP network of the conventional PSTN is interlocked.

2 is a functional block diagram of a signal relay switch according to the present invention;

3 is a flowchart illustrating processing of a No.7 signal message of a signal relay switch according to the present invention;

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a signal relay device and a method of the signal relay switch, and in particular, to a signal relay switch of No. 7 signal network of a public switched telephone network (PSTN), which can be connected to an IP (Internet Protocol) network. The present invention relates to a signal relay device of a signal relay switch that provides an IP protocol processing function and a function of processing the No. 7 protocol layer as an IP protocol upper layer, and a method thereof.

When the network configuration and voice call setup between the PSTN and the IP network are interworked with the No.7 signaling method, as shown in Fig. 1, a Signaling Gateway equipped with the No.7 protocol is installed in the IP network. When a No.7 signal message is generated, the PSTN is transmitted through a Media Gateway Controller of the IP network using the No.7 protocol between the signal relay switch of the No.7 signal network of the PSTN and the signal gateway of the IP network. Controls voice settings between the exchange and the Media Gateway of the IP network.

For example, when the general telephone subscriber 10 makes a call to an Internet personal computer (PC), a call is generated and the call is sent to the exchange 20.

The switch 20 signals the channel information (Trunk channel information selected by the switch 20) to the call channel between the switch 20 and the media gateway 60 for the purpose of connecting the call to the IP network. The message is placed on the message, and the destination address of the message is set by the media gateway controller 50 controlling the media gateway 60 and sent to the signal relay switch 30. This can be said that No.7 signal message of PSTN occurred.

In the signal relay switch 30, the signal gateway 40 receives the media gateway controller 50 through the No.7 signal link according to the destination address of the received message (corresponding to the media gateway controller 50). Send a message.

The signal gateway 40 processes No. 7 signal information, loads it on the upper layer of the IP protocol, and sends the signal to the media gateway controller 50 through the IP network.

The media gateway controller 50 transmits the received trunk channel information to the media gateway 60 using MEGACO / H.248, which is a control protocol between the media gateway controller 50 and the media gateway 60.

The media gateway 60 receiving the trunk channel information selects a trunk channel set by the switch 20 to connect the switch 20 and the media gateway 60, and time-divided voice data of the PSTN through the channel. Allows both regular phone subscribers to make calls to Internet PCs by converting voice data from PSTN into packets of IP network in real time or packetizing data of IP network into voice data of PSTN. .

Here, the trunk channel refers to a large-capacity telephone channel corresponding to E-1 or T-1, and the signal gateway, which is a signal interface point defined between the PSTN and the IP network, supports a plurality of distributed media gateways.

When the IP network is connected to the No.7 signal network of the PSTN via the signal gateway, No.7 traffic is concentrated on the signal gateway supporting the entire IP network, allowing centralized network management.

Such a signal gateway interface enables efficient configuration of No. 7 signal links by providing a gateway function for access to not only a signal gateway in an IP network but also an entire media gateway and a media gateway controller or database.

In this case, since IP-based signals must be fast enough to enable real-time call control, IP networks must be engineered with sufficient bandwidth to guarantee quality of service (QoS).

In this configuration, signal gateways should be deployed in pairs to improve reliability, deployed in geographically isolated locations to improve overall network survivability, and high bandwidth to maintain synchronization between paired signal gateways. Use the connection of.

However, in the above conventional technology, signal point code assignment is required for an independent signal gateway that interworks with No. 7 signal network of PSTN and IP network, and a signal link between signal relay switch and signal gateway is required. There is a problem in that it is expensive to construct, a failure due to the signal link, and the centralized signal traffic between the PSTN and the IP network cannot be efficiently processed.

An object of the present invention is to solve the above problems, the IP protocol processing function that can be connected to the IP network inside the signal relay switch of the No.7 signaling network of the PSTN and the No.7 protocol layer as the IP protocol upper layer to be processed. It is to provide a function.

The signal relay switch according to the present invention includes a trunk matching module for receiving a signal message from an E-1 or T-1 signal link and separating a specific channel of the signal message using a time switch, and receiving the signal from the trunk matching module. A signal message processing module for determining a destination of the signal message, an internal high speed cable for delivering the signal message, a signal gateway module and an IP layer for extracting a destination IP address of the signal message and processing protocol processing and the signal message signal information; It is provided with an IP network matching module that processes the protocol and sends a packet to the IP network.

By this configuration, it is determined that the No.7 signal message of the PSTN received through the trunk matching module in the signal relay exchange is the destination address from the signal message processing module to the IP network, and is transmitted to the signal gateway module through the internal high speed cable. The signal gateway module processes the protocol information for reliable and real-time message delivery and the signal information of the signal message, extracts the IP address information by referring to the incoming signal point code of the No.7 signal message, and converts the information into an IP network matching module. When sent, the IP network matching module processes the protocol of the IP layer using the received information and transmits the packet to the IP network.

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

2 is a functional block diagram of a signal relay switch according to the present invention.

The signal relay switch includes trunk matching modules 110 and 120 for receiving a signal message from an E-1 or T-1 signal link and separating a specific channel of the signal message using a time switch, as shown in the figure. Signal message processing module (210, 220) for determining the destination of the signal message received from the matching module (110, 120), the internal high-speed cable (300) for delivering the signal message, and extracts the destination IP address of the signal message And a signal gateway module 400 for processing a protocol and the signal message signal information, and an IP network matching module 500 for processing a protocol of an IP layer and sending a packet to an IP network.

At present, No.7 signaling network transmits / receives No.7 signaling message only through specific channel of E-1 and T-1 trunk between exchanges or between exchange and signaling relay exchange.

Referring to FIG. 3, the processing flow of the No. 7 signal message according to the present invention is as shown in FIG.

When a signal message of No. 7 signal network is received by the originating exchange to the trunk matching module 110 via a signal link of a specific channel of E-1 or T-1 (S1), the trunk matching module 110 switches a time switch. Detach the channel of the signal message using (S2) and send it to the signal message processing module 210 connected through the Sub-Highway, the signal message processing module 210 determines the destination by the incoming signal point code of the signal message (S3).

When the destination is a PSTN (1 in FIG. 3), the signal message is transmitted to the signal message processing module 220 assigned to the destination exchanger through the internal high speed cable 300 to the destination exchange through the trunk matching module 120. It is delivered (S4).

On the other hand, when the destination is an IP network (2 in FIG. 3), the signal message is transmitted to the signal gateway module 400 through the internal high speed cable 300, and the signal gateway module 400 depends on the incoming signal point code. The destination IP address is extracted (S5) to process the transport layer for reliable delivery of packets in real time so that No.7 signal information can be processed in the IP network.

The information processed by the signal gateway module 400 is transferred to the IP network matching module 500 through the internal high speed cable 300 by the system internal communication rule, and the IP network matching module 500 receives the received IP address. The information, the transport stack information, and the No. 7 signal information are IP packetized, and the packet is sent to the IP network using a high speed data link (S6).

In No.7 signal network, No.7 signal link is connected one-to-one to both signal devices (existing in signal message processing module) between two power signal relay exchanges in specific channel units of E-1 or T-1. It is.

In the drawing, information on which signal message processing module of each trunk belonging to the trunk matching module is connected to the signaling device of which signal processing module is set by the operation data of the system.

According to the data, the time switch of the trunk matching module collects the signal link channels corresponding to the signal devices belonging to the signal message processing module into sub-highways (or separates them in case of signal message transmission) to the signal device of the corresponding signal message processing module. Connect.

Here, using the sub-highway without using the internal high speed cable between the trunk matching module and the signal message processing module, the signal link channel connection of the trunk matching module and the signal message processing module simply converts the corresponding channel into a signal message processing module. This is because only the ability to aggregate (multiplexer function) or separate (demultiplexer function) is required.

The internal high speed cable uses a communication board and is connected by an optical cable between modules.

There is a specific protocol for the internal high speed communication.In order to carry out the internal high speed communication, the signal message is loaded in the data area of the internal high speed communication message, and the destination module ID is set in the header. ) To perform the exchange function according to this ID.

 The present invention provides a function for interworking between the No.7 signal network of the PSTN and the IP network in the signal relay switch, thereby eliminating the need for a signal link used when an external independent signal gateway is installed. It can reduce the cost, solve the failure caused by the signal link, and efficiently process the centralized signal traffic between the PSTN and the IP network in the system.

In addition, it is possible to increase the reliability of the interworking network by applying the redundancy of the network structure applied to the signal relay exchange as it is.

Claims (3)

A trunk matching module which receives a signal message from an E-1 or T-1 signal link and separates a specific channel of the signal message using a time switch, or delivers the signal message to an incoming channel; A signal message processing module for determining a destination of the signal message received from the trunk matching module, or receiving a signal message of which the destination is its destination exchange and delivering the signal to the trunk matching module; A signal gateway module for extracting an IP address according to an incoming signal point code of the signal message received from the signal message processing module and processing a transport layer for reliably transmitting No. 7 signal information in an IP network in real time; An IP network matching module configured to IP packetize the IP address information, the transport stack information, and the No. 7 signal information received from the signal gateway module to transmit the packet to the IP network; And Signal relaying device of a signal relay switch characterized in that it comprises an internal high-speed cable for connecting each of the modules to deliver a signal message. The method of claim 1, And a signal link channel connection for transmitting a message between the trunk matching module and the signal message processing module using a sub-highway. A trunk matching module for transmitting and receiving a signal message according to a channel, a signal message processing module for determining a destination of a signal message, a signal gateway module for extracting an IP address, an IP network matching module for sending an IP packet, and all modules In the signal relay method of a signal relay switch having an internal high speed cable connected to deliver a signal message, The trunk matching module receiving a signal message; Separating, by the signal message processing module, a channel of the signal message and determining whether the destination is a public telephone network or an IP network; And According to the determination result, the signal message is delivered to the destination exchange through the signal message processing module and the trunk matching module, or the destination IP address of the signal message is extracted from the signal gateway module and the packet is transmitted through the IP network matching module. The signal gateway function providing method in the signal relay switch comprising the step of transmitting a.

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