KR100998726B1 - Method for Cooperating Private Network and Mobile Network and Gateway System therefor - Google Patents

Abstract

A method of interworking between a private switching network and a mobile communication network and a gateway system thereof are disclosed. In the gateway system of the present invention, the private switching network and the mobile communication network are interworked so that subscribers of the private switching network do not need to pass through the wired operator network in connecting the call with the subscriber of the mobile communication network. To this end, the gateway system is a media processor connected to a switch between a private switching network and a mobile communication network to transmit and receive a signal and provide a channel for media data while a call is connected, and a different protocol of a private switching network and a mobile communication network connected to the media processor. It includes a signal processor for interworking by converting the call processing signal according to.

Private Switching Network, Mobile Communication Network, Interworking Method

Description

Interworking method between private switching network and mobile communication network and its gateway system {Method for Cooperating Private Network and Mobile Network and Gateway System therefor}

The present invention relates to an interworking method and a gateway system for interworking a call between a wired subscriber of a private switching network and a mobile telephone subscriber using an external mobile communication network directly without passing through a wired carrier network.

A conventional wired private switched network is connected to a wired operator network to provide a call service between subscribers subscribed to an external network and to provide exchange services between subscribers connected to its own network. This means that not only wired private switching networks but also conventional mobile communication networks are connected to wired operator networks to handle call connections with other heterogeneous network subscribers.

Therefore, in order for a wired subscriber connected to a wired private switched network to make a voice call with a mobile subscriber connected to an external mobile communication provider network, the private switched network must be connected to a wired carrier network.

1 is a block diagram showing a connection state of a conventional private switching network. Referring to FIG. 1, a private branch exchange (PBX) 111 of a private switching network 110 is connected to a wired operator network 130, and the wired operator network 130 is again connected to the mobile communication network 150. It is connected.

The wired provider network 130 includes a public network switch 131 connected to the private switching network 110, a wireless network gateway 133 connected to the mobile communication network 150, and a wired switch 135 providing circuit switching service. Equipped.

The mobile communication network 150 includes a wired network gateway 151 connected to a wired operator network 130, a mobile switching center (MSC) 153, a base station controller (BSC) 155, and a base station (BTS). The mobile phone service is provided to the mobile subscriber (MS), including 157).

Referring to FIG. 1, since a subscriber of the private switching network 110 needs to go through a wired operator network 130 in order to connect a call with a mobile subscriber, a corporation or the like using the private switching network 110 is a mobile communication network 150. Along with the call charge for the wired carrier's network (130) pays the double cost of the forced to bear.

An object of the present invention is to provide an interworking method and a gateway system for interworking a call between a wired subscriber of a private switching network and a mobile telephone subscriber using an external mobile communication network directly without passing through a wired carrier network.

In order to achieve the above object, the gateway system according to the present invention includes a media processor and a signal processor to link a private switching network and a mobile communication network without passing through a wired operator network. Herein, the media processor provides an interface connected to a private exchange of a private switching network and a mobile communication exchange of a mobile communication network, and, when a call is connected between the private switching network and the mobile communication network, the media processor transfers media data between the private exchange and the mobile communication exchange. Provide a channel for The signal processor receives the PRI or R2 based call processing signal of the private exchange and the SS7 based call processing signal of the mobile communication exchange from the media processor, and the PRI or R2 based call processing signal and the SS7 based The call processing signal is mutually converted and provided to the media processor.

According to an embodiment, the media processor may include a first interface connected to a private exchange of the private switching network through an E1 or T1 line, and transmitting and receiving media code based on Pulse Code Modulation (PCM) with the private exchange; And a second interface connected to a mobile communication exchange of the mobile communication network through an E1 line, and transmitting and receiving the PCM-based media data with the mobile communication exchange. Furthermore, the first interface and the second interface may mutually convert the PCM-based media data into an IP-based Real-time Transport Protocol (RTP) packet.

According to another embodiment of the present invention, an interworking method for interworking a private switching network and a mobile communication network without passing through a wired operator network, a media processor providing an interface connected to a private exchange of a private exchange network and a mobile communication exchange of a mobile communication network, respectively. Providing a; Receiving, by the media processor, a PRI or R2 based call processing signal from the private exchange, receiving a SS7 based call processing signal from the mobile communication exchange, and providing the signal processor to convert the signal; The signal processor converts the PRI or R2 based call processing signal and the SS7 based call processing signal provided from the media processor to the media processing unit, and causes the media processor to connect between the private exchange and the mobile communication exchanger. Controlling to allocate a channel for media data; Connecting, by the media processor, the mutually converted signal to the private exchange and the mobile communication exchange to interwork with each other; And transmitting and receiving media data between the private exchange and the mobile communication exchange over a channel allocated by the media processor as a call is connected.

According to the gateway system according to the present invention, a wired subscriber of a private switching network can call a mobile subscriber of an external mobile communication network without passing through an external wired operator network. Accordingly, the operator having a private switching network can eliminate the cost incurred through the wired operator network when trying to communicate with the mobile communication subscriber of the mobile communication network.

In addition, since private switching networks using a wired telephone network can be absorbed into a mobile communication network, a switch to a natural ALL-IP based mobile communication network can be induced.

Since the gateway system of the present invention supports IP-based interworking, the gateway system has an efficient advantage of interworking various IP-based additional service supporting equipments released in the future, and enables simple and various additional services.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in more detail with reference to the drawings.

2 is a block diagram showing a gateway system for interworking between a private switching network and a mobile communication network according to an embodiment of the present invention, Figure 3 is a view showing a signal and data interworking structure of the gateway system of the present invention.

Referring to FIG. 2, a gateway system 200 is provided between the private switching network 110 and the mobile communication network 150. The private switching network 110 is connected to the mobile communication network 150 via the gateway system 200. The gateway system 200 is connected to the private switching network 110 through an E1 line (or a T1 line), and is connected to the mobile communication network 150 through an E1 line. Naturally, the private switching network 110 may be connected to the wired operator network 130 for call connection with the wired subscriber of the general wired operator network 130.

The gateway system 200 includes a signal processor (SPS) 210 and a media processor (MPS) 230.

The signal processor 210 is connected to the media processor 230 to interwork a signaling signal for call connection between the private exchange (PBX) 111 and the mobile communication exchange (MSC) 153. To this end, when the signal processor 210 receives the ISDN PRI (Primary Rate Interface) or R2 signal of the private exchange 111 from the media processor 230, the signal processor 210 converts the signal to a Signaling System No. 7 (SS7) call processing signal and reconstructs the media. Provided to the processor 230, and receives the SS7 signal of the mobile communication switch 153 from the media processor 230 is converted into a PRI call processing signal (or R2 signal) and provided to the media processor 230.

In other words, the PRI call processing signal (or R2 signal) transmitted by the private exchange 111 of the private exchange network 110 is converted into an SS7 signal by the signal processor 210 and transmitted to the mobile communication network 150, and the mobile communication network The SS7 call processing signal transmitted by the mobile communication exchange 153 of 150 is converted into a PRI call processing signal (or R2 signal) by the signal processor 210 and transmitted to the private exchange 111. However, the physical connection between the private exchange 111 and the mobile communication exchange 153 is made through the media processor 230.

In addition, the signal processor 210 may provide a response according to a corresponding protocol for signals that cannot be interworked by converting the PRI call processing signal and the SS7 call processing signal to correspond to each other.

In addition, the signal processor 210 controls and monitors the operation of the media processor 230. The media processor 230 is an E1 (or T1) interface for performing E1 (or T1) interworking with the private exchange 111 of the private switching network 110 and E1 interworking with the mobile communication exchange 153 of the mobile communication network 150. The signal processor 210 may perform control related to setting and initialization of such an interface.

In addition, the signal processor 210 performs control on resource allocation in the media processor 230, thereby causing the media processor 230 to perform channel resource processing for call interworking with the private exchange 111 of the private exchange network 110. It allocates or releases channel resources for call interworking with the mobile communication exchange 153, and performs a function of appropriately controlling the corresponding channel resources according to the call processing progress.

The media processor 230 is connected to the private exchange 111 of the private exchange network 110, the mobile communication exchange 153 of the mobile communication network 150, and the signal processor 210, and the private exchange network 110 and the mobile communication network 150. ) Provides interlocking. To this end, the media processor 230 includes first interface means for interworking with the private exchange 111 of the private exchange network 110 through an E1 or T1 line, and the mobile communication exchange 153 and E1 of the mobile communication network 150. And a second interface means for interworking over a line.

The media processor 230 extracts the PRI call processing signal received from the private exchange 111 of the private exchange network 110 through the first interface and transmits the signal to the signal processor 210, and converted by the signal processor 210. The SS7 signal is transmitted to the mobile communication switch 153 through the second interface. In addition, the media processor 230 extracts the SS7 call processing signal received from the mobile communication switch 153 of the mobile communication network 150 through the second interface, and transmits the signal to the signal processor 210 to the signal processor 210. The converted PRI signal is transmitted to the private exchange 111 of the private exchange network 110 through the first interface.

In addition, the media processor 230 is a PCM (Pulse Code Modulation) based media data (voice, other, etc.) transmitted and received between the private exchange 111 of the private exchange network 110 and the mobile communication exchange 153 of the mobile communication network 150. Media data).

According to an exemplary embodiment, the first interface means and the second interface means may be separately mounted to and detachable from the media processor 230, such as the first interface 231 and the second interface 233 of FIG. 3. It can be prepared as. Furthermore, the signal processing between the first interface 231 and the second interface 233 may use a Real-time Transport Protocol (RTP) packet based on an Internet Protocol (IP).

In this case, the first interface 231 converts the PCM-based media data received from the private exchange 111 into an RTP packet and transfers the media data to the second interface 233. The second interface 233 converts the RTP packet into PCM-based media data and delivers it to the mobile communication switch 153. This interworking structure is because the gateway system 200 adopts an IP network-based interworking structure. On the contrary, the second interface 233 which receives the PCM-based media data from the mobile communication switch 153 of the mobile communication network 150 converts the received PCM media data into an RTP packet and delivers it to the first interface 231. Done.

Hereinafter, a signal interworking method of the gateway system 200 will be described with reference to FIG. 4.

4 is a flowchart provided to explain a method for interworking a signal for call processing according to the present invention, wherein a subscriber of a private switching network 110 processes an outgoing call for calling a mobile subscriber of the mobile communication network 150. to be. The interworking method illustrated in FIG. 4 illustrates a call processing signal which is converted between the private exchange 111 and the mobile communication exchange 153. Accordingly, the signal according to the PRI protocol that the signal processor 210 processes itself for the private exchange 111 and the SS7 protocol that processes the mobile communication exchange 153 itself may not be shown in FIG. Process according to known protocols.

The private exchange 111 of the private exchange network 110 transmits a setup message, which is a PRI signal, to the media processor 230 of the gateway system 200 to initialize the calling terminal according to the subscriber's outgoing call. Then, the first interface 231 of the media processor 230 receives it and delivers it to the signal processor 210. The setup message SETUP includes call setup information including the telephone number (called number) of the party to set up the call (S401).

Upon receiving the setup message, the signal processor 210 requests the media processor 230 to allocate channel resources between the private exchanges 111 for processing the media data according to the outgoing call, and the media processor 230 responds accordingly. Channel resources for call connection with the exchange 111 are allocated (S403 and S405).

Accordingly, the signal processor 210 converts the PRI call processing signal received from the private exchange 111 into an SS7 call processing signal for interworking with the mobile communication switch 153 of the mobile communication network 150 (S407).

When the signal processor 210 requests the media processor 230 to allocate a channel resource between the media processor 230 and the mobile communication exchange 153 for processing media data according to an outgoing call, the media processor 230 responds thereto. Channel resources for call connection with the mobile communication exchange 153 are allocated (S409, S411).

The signal processor 210 transmits an IAM message (Initial Address Message) corresponding to the PRI Setup message to the mobile communication switch 153 through the media processor 230. The IAM message includes the called number, the call channel information, and the like, which are basic information necessary for the line connection (S413).

The mobile communication exchanger 153 identifies the service subscriber in the mobile communication network 150 and attempts paging according to the IAM message received from the signal processor 210 of the gateway system 200, and responds to the IAM message in response to the IAM message. An ACM message (Address Complete Message) is generated and provided to the media processor 230 (S415 and S417).

Thereafter, the signal processor 210 converts the call progress in the mobile communication network 150 according to the SS7 call processing signal received from the mobile communication exchanger 153 into a PRI signal and transmits the signal to the private exchange 111. For example, the signal processor 210 provides a call notification message (Call Proceeding) and a warning notification message (Alert) for sending a ring tone to the private exchange 111 to notify that the initialization has been initiated according to the setup message, and the mobile communication. In response to the subscriber's response, upon receiving the ANM (Answer Message) message provided by the mobile communication exchanger 153, it provides a connect message to the private exchange 111 (S419).

In response to the subscriber's incoming call in the mobile communication network 150, the signal processor 210 transmits the channel assigned to the media processor 230 for the bearer with the private exchange 111 and the media processor for the bearer with the mobile communication switch 153. While controlling the channel allocated to 230, the voice traffic path between the wired subscriber and the mobile subscriber is connected to connect the call (S421).

When the call connection is released and terminated, the signal processor 210 releases the call by converting and interworking a signal for call release between the private exchange 111 and the mobile communication exchange 153, and the media processor 230. Control to release the channel resources allocated to (S423).

By the above method, the outgoing call where the subscriber of the private switching network 110 calls the mobile subscriber of the mobile communication network 150 is processed by the gateway system 200.

According to an embodiment, when the private exchange 111 of the private exchange network 110 is an IP network based IP-PBX, the signal processor 210 connects a call according to a Session Initiation Protocol (SIP) message of the private exchange 111. A service may be provided, and the corresponding SIP message and the SS7 message may be converted to each other and provided to the media processor 230.

In this case, outgoing call processing of the subscriber of the private switching network 110 by the gateway system 200 may be described as shown in FIG. 5, which is similar to the processing in the general private exchange 111 shown in FIG. 4.

However, the interworking method of FIG. 5 is similar to the interworking method of FIG. 4 in that the SIP interworking process is performed instead of the PRI interworking process, and the interworking between the private exchange 111 and the gateway system 200 is based on the IP network in the E1 or T1 interface. Different.

For example, the IP-PBX 113 provides the gateway system 200 with an INVITE message corresponding to the setup message of step S401 and a Trying message (status code 100) indicating that the signal processor 210 is processing according to the INVITE message. It is provided to the IP-PBX 113. In addition, the ringing message (status code 180) is provided to the IP-PBX 113 instead of the alert notification message (Alert), and when the ANM (Answer Message) message provided by the mobile switching center 153 is received, the call of step S419 is received. The IP-PBX 113 provides an OK response message (status code 200) for the INVITE message instead of the Connect message.

In addition, the signal processor 210 processes a signal to be processed by itself without interworking with the mobile communication switch 153. For example, the signal processor 210 which provides a Trying message (status code 100) to the IP-PBX 113 and then allocates channel resources between the private exchanges 111 may transmit a 'Session Proceeding' message (status code 183) to the IP-PBX 113. It provides the PBX 113 with information about the call processing.

In addition, since the gateway system 200 supports IP-based interworking, the gateway system 200 supports interworking between the IP-PBX 113 of the private switching network 110 and the mobile communication switch 153 of the mobile communication network 150 shown in FIG. 5. It can be provided.

Although the above has been illustrated and described with respect to preferred embodiments of the present invention, the present invention is not limited to the above-described specific embodiments, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1 is a configuration diagram showing a connection state between a conventional private switching network and a mobile communication network,

2 is a block diagram showing a gateway system for interworking between a private switching network and a mobile communication network according to an embodiment of the present invention;

3 is a view showing a signal and data interworking structure of the gateway system of the present invention;

4 is a flowchart provided to explain an interworking method for call processing according to an embodiment of the present invention; and

5 is a flowchart provided to explain an interworking method for call processing according to another embodiment of the present invention.

Claims (3)

A media providing an interface connected to a private exchange of a private switching network and a mobile communication switching network of a mobile communication network, respectively, and providing a channel for media data between the private exchange and the mobile communication exchange when a call between the private switching network and the mobile communication network is connected. Processor; And The PRI or R2 based call processing signal of the private exchange and the SS7 based call processing signal are received from the media processor, and the PRI or R2 based call processing signal and the SS7 based call processing signal are received. And a signal processor for converting each other to the media processor, thereby interworking the private switching network and the mobile communication network without passing through a wired operator network. The method of claim 1, The media processor A first interface connected to a private exchange of the private exchange network through an E1 or T1 line, and transmitting and receiving media code based on Pulse Code Modulation (PCM) with the private exchange; And A second interface connected to a mobile communication exchange of the mobile communication network through an E1 line, and transmitting and receiving the PCM-based media data to and from the mobile communication exchange; And the first interface and the second interface convert the PCM-based media data into an IP-based Real-time Transport Protocol (RTP) packet to provide each other. Providing a media processor providing an interface connected to a private exchange of a private exchange network and a mobile communication exchange of a mobile communication network, respectively; Receiving, by the media processor, a PRI or R2 based call processing signal from the private exchange, receiving a SS7 based call processing signal from the mobile communication exchange, and providing the signal processor to convert the signal; The signal processor converts the PRI or R2 based call processing signal and the SS7 based call processing signal provided from the media processor to the media processing unit, and causes the media processor to connect between the private exchange and the mobile communication exchanger. Controlling to allocate a channel for media data; Connecting, by the media processor, the mutually converted signal to the private exchange and the mobile communication exchange to interwork with each other; And As the call is connected, the method of interworking between the private switching network and the mobile communication network not via a wired operator network, including transmitting and receiving media data between the private exchange and the mobile communication exchange through a channel allocated by the media processor. .

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