KR20080010795A - Softswitch with separate call processing servers and sigtran servers and method for interworking these servers - Google Patents

Abstract

A soft switch including separated call processing server and SIGTRAN(Signal Transport) server and a server interworking method are provided to operate a SIGTRAN server according to system capacity by separating constructing the SIGTRAN server and the call processing server according to the function of the soft switch. SIGTRAN servers(202a,202b) exclusively handle SIGTRAN. ISUP call processing servers(204a,204b,204c,204d) are connected with the SIGTRAN servers. The SIGTRAN servers(202a,202b) relay ISUP(ISDN(Ingetrated Services Digital Network) User Part) call processing signals between a signaling gateway and the ISUP call processing servers(204a,204b,204c,204d), and in this case, the relaying is made with reference to association between the ISUP call processing servers(204a,204b,204c,204d) and the ISUP call processing signals. The SIGTRAN servers(202a,202b) perform registration, activation, deactivation, and deregistration on of RK(Routing Key) for routing signal traffic.

Description

SOFTSWITCH WITH SEPARATE CALL PROCESSING SERVERS AND SIGTRAN SERVERS AND METHOD FOR INTERWORKING THESE SERVERS}

1 is a diagram illustrating a connection structure between a soft switch, a signaling gateway (SG), and a trunk gateway (TG).

2 is a diagram illustrating a server structure of a soft switch according to an embodiment of the present invention.

3 is a diagram illustrating an interworking procedure between a SIGTRAN server and a call processing server when RK is activated according to an embodiment of the present invention.

4 is a diagram illustrating an interworking procedure between a SIGTRAN server and a call processing server when RK is deactivated according to an embodiment of the present invention.

5 is a diagram illustrating a re-registration procedure after deleting an RK in a method of selecting a dynamic call processing server when changing an RK according to an embodiment of the present invention.

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

100: soft switch

106: signaling gateway (SG)

108a, 108b: trunk gateway (TG)

202a: SIGTRAN server

204a, 204b, 204c, 204d: ISUP call processing server

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention generally relates to a soft switch for controlling call processing of a media gateway, and more particularly, to a soft switch in which SIGTRAN (Signaling Transport) signal processing server and ISUP (ISDN user part) call processing server are interworked separately.

Recently, there is a growing interest in Next Generation Network, which integrates existing public telephone networks and packet networks (Internet networks) into a single structure. In the next generation communication network, a media gateway, which is a data conversion device for transferring data between heterogeneous networks following different standards, is required to perform an interworking function between an existing public telephone network and a packet network. Such a media gateway includes a trunk gateway (TG), which is a device for transmitting a large amount of data from a public telephone network, and a signal message including information on call establishment and release. There is an signaling gateway (SG). Softswitch is a device for controlling the media gateway. It performs call processing, access control, resource management, addressing and routing functions.

Typically, a soft switch includes a number of servers to accommodate large subscribers and transit calls, and is configured to use these servers to split the call processing function and share the load accordingly. At the same time, the soft switch is configured to process the SIGTRAN signal, which is a protocol that performs a function of delivering a signal of SS7 (or No. 7) based public telephone network to the packet network. Conventional softswitches operate a number of servers interworking with trunk gateways and signaling gateways for ISUP call processing. As the SIGTRAN signal processing and call processing are performed on the same server, each of the servers in the softswitch transmits call processing signals. The SIGTRAN function is required for the purpose, and the structure of the Media Gateway Control (MEGACO) interworking required for SIGTRAN interworking and ISUP call processing may be different for each server.

Therefore, the conventional soft switch has a complicated interface with the outside due to the above-described configuration, and its functional utilization is inferior, and it is difficult to accurately calculate the ISUP call processing ratio of each server. There is a problem that waste is likely to occur. In addition, as SIGTRAN signal processing and ISUP call processing are performed on the same server, it is impossible to modularize functions on a per server basis, it is difficult to have flexibility in constructing a soft switch or IMS server, and the complexity of the implementation increases, so there is a possibility of instability. High and there is difficulty in expanding and improving the function.

An object of the present invention is to configure the server performing the SIGTRAN signal processing function separately from the ISUP call processing server to operate the SIGTRAN server according to the system capacity, to provide modularization and improved server stability according to the function partition, and to increase the capacity of the system capacity And it is to provide a soft switch that can achieve the flexibility of the system server deployment.

According to an aspect of the present invention, there is provided a soft switch connected to a signaling gateway for exchanging ISUP (ISDN user part) call processing signals, the soft switch comprising one or more SIGTRAN servers dedicated to implementing a signaling transport (SIGTRAN); And at least one ISUP call processing server connected to the at least one SIGTRAN server, wherein the SIGTRAN server relays ISUP call processing signals between the signaling gateway and the ISUP call processing server, wherein the relaying is performed by the ISUP call processing servers and the ISUP call processing signals. This is done by reference to association with the field.

According to another feature of the invention, there is provided a method performed in the SIGTRAN server in order to separately interwork one or more SIGTRAN server and one or more ISUP call processing server in the soft switch, this method is to provide the ISUP call processing signal generated in units of RK Selecting a specific ISUP call processing server to perform call processing from among at least one ISUP call processing server based on the RK of the ISUP call processing signal; and receiving the received ISUP call processing signal to the selected ISUP call processing server. Delivering.

According to another feature of the present invention, in a soft switch including a SIGTRAN server and an ISUP call processing server, an interworking method is provided with an ISUP call processing server performed in a SIGTRAN server according to RK activation. Receiving the generated ISUP call processing signal, selecting an ISUP call processing server to perform call processing based on the RK of the ISUP call processing signal, notifying the ISUP call processing server that the RK has been created, and the ISUP call processing Relaying a signal to the selected ISUP call processing server.

According to still another aspect of the present invention, there is provided a method of interworking between a SIGTRAN server and an ISUP call processing server according to RK deactivation in a soft switch connected to a signaling gateway and including a SIGTRAN server and an ISUP call processing server. The SIGTRAN server notifying the ISUP call processing server of the deactivation of the RK, the ISUP call processing server stopping the call processing of the relay line associated with the RK, the SIGTRAN server deregistering the RK from the signaling gateway, the SIGTRAN server Deleting the RK at the SIGTRAN server and notifying the ISUP call processing server of the deletion of the RK.

According to another feature of the present invention, in a soft switch comprising a SIGTRAN server and a plurality of ISUP call processing servers connected to the SIGTRAN server, the plurality of ISUP call processing servers are connected to a plurality of trunk gateways. According to the change, a static call processing server designation method performed in the SIGTRAN server is provided. This method allows the trunk line belonging to the RK to be controlled by the same server as the RK call processing server in consideration of the trunk line assignment of trunk gateways when generating the RK. And designating one of the ISUP call processing servers as a server processing a call processing signal for the RK, and the ISUP call processing server processing the RK controls a corresponding trunk gateway and a trunk line channel among trunk gateways.

According to still another aspect of the present invention, in a soft switch connected to a signaling gateway and including a SIGTRAN server and an ISUP call processing server, a method of dynamically selecting a call processing server according to a change of RK is provided. When the configuration information changes in the call processing server, notifying the SIGTRAN server of the change, the SIGTRAN server deactivating the RK, the SIGTRAN server deregistering the RK from the signaling gateway, and the SIGTRAN server signaling gateway. Re-registering the new RK at the SIGTRAN server, and notifying the ISUP call processing server that the new RK has been created.

In order to achieve the object as described above, the present invention provides a soft switch including a server for SIGTRAN interworking and ISUP (ISDN user part) call processing server. Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in detail.

1 illustrates a connection structure of a soft switch, a signaling gateway (SG) and a trunk gateway (TG). Softswitch 100 may be implemented by software running on a computer system and configured to perform call processing control functions. The soft switch 100 performs signaling processing (SG) 106 and trunk gateway (TG: 108a) as shown in FIG. 1 to perform call processing and access control, media gateway and resource management, addressing and routing functions. 108b). The soft switch 100 transmits and receives an ISUP call processing signal to and from the SG 106, and establishes an SCTP connection, activates a connection, and manages the SG 106.

In addition, the soft switch 100 is connected to the TGs 108a and 108b to manage the operation of the TGs 108a and 108b. TGs 108a and 108b may include multiple relay line channels. The TGs 108a and 108b may packetize the data on the relay line channel and transmit the packetized data to the packet network, and interwork with the soft switch 100 for call transfer to another gateway. Hereinafter, the internal structure of the soft switch 100 according to the present invention will be described in detail with reference to FIG.

2 illustrates a server structure of a soft switch according to an embodiment of the present invention. As shown in FIG. 2, the softswitch 100 includes at least one SIGTRAN server 202a, 202b and one or more ISUP call processing servers 204a, 204b, 204c, 204d. SIGTRAN servers 202a, 202b are configured separately from ISUP call processing servers 204a, 204b, 204c, 204d. SIGTRAN servers 202a and 202b are dedicated to the SIGTRAN protocol for transmitting signals and relay ISUP call processing signals between ISUP call processing servers 204a, 204b, 204c and 204d and SG 106. Perform the function.

In one embodiment, the SIGTRAN servers 202a, 202b establish a Stream Control Transport Protocol (SCTP) connection with the SG 106, activate the connection, manage the SG, and the MTP3 user adaptation (M3UA) protocol. Management can be performed. Specifically, the SIGTRAN servers 202a, 202b interoperate with the SG 106 in accordance with the SIGTRAN protocol defined in the IETF, for example, between the SG 106 and the ISUP call processing servers 204a, 204b, 204c, 204d. ISUP carries call processing signals. In addition, the SIGTRAN server 202a, 202b processes the registration, activation, deactivation, deregistration, etc. of the RK (routing key) as described below for routing signal traffic, and performs call processing signals corresponding to a specific RK. It manages a table of a call processing server to process and delivers events such as signal traffic generation, deletion, resumption, and suspension of the corresponding RK to the corresponding ISUP call processing servers 204a, 204b, 204c, and 204d.

In the softswitch 100 according to one embodiment of the invention illustrated, each of the ISUP call processing servers 204a, 204b, 204c, 204d is connected to a trunk gateway (TG: 108a, 108b), preferably Is configured to interwork using the MEGACO protocol. In the interworking process between the ISUP call processing servers 204a, 204b, 204c, and 204d and the TGs 108a and 108b, the ISUP call processing server in the soft switch 100 to share the load according to the processing of a plurality of RKs. Each of the fields 204a, 204b, 204c, and 204d is connected to a predetermined TG to manage the operation of the TG.

The ISUP call processing servers 204a, 204b, 204c, and 204d deliver a signal containing a specific RK to the SIGTRAN servers 202a and 202b, thereby performing delivery of the ISUP call processing signal. Here, RK means, for example, a signal traffic identification number divided into an originating point code (OPC), a destination point code (DPC), a circuit identifier code (CIC), and the like in No. 7 signaling network. In this case, the originating signal point, the incoming signal point, and the CIC exist as unique values for specific relay line channels of the specific TGs 108a and 108b. As the relay line channel is identifiable by the RK, the ISUP call processing server managing the TG connected to the relay line channel is configured to process the corresponding RK.

Specifically, a signal transmission method between the ISUP call processing server and the SIGTRAN server will be described. When signaling from the ISUP call processing server to the SIGTRAN server, the ISUP call processing servers 204a, 204b, 204c, and 204d use RK traffic assigned to the corresponding trunk line to perform call processing using the trunk line of the TG managed by the ISUP call processing server. To the SIGTRAN servers 202a and 202b. When the SIGTRAN server transmits a signal to the ISUP call processing server, the SIGTRAN servers 202a and 202b refer to the originating signal point, the incoming signal point, the CIC value, etc. of the ISUP call processing signal received from the SG 106, and the corresponding RK. The signal is transmitted to the ISUP call processing servers 204a, 204b, 204c, and 204d that govern the TG relay line corresponding to the value. In this manner, the RK traffic is distributed and performed by a plurality of ISUP call processing servers, so that the load according to the RK processing can be shared.

3 illustrates an interworking procedure between the SG 106, the SIGTRAN server 202, and the call processing server 204 according to RK activation. When the ISUP call processing signal traffics to be processed by the soft switch are generated in RK data units, the corresponding RK is generated, and the ISUP call processing signal traffics have a unique identifier RK_ID (RK1 in this embodiment) in the mobile communication system. When the RK is generated, the call processing server 204 which performs the call processing of the CIC block and the signal point information related to the generated RK is selected by a predetermined internal rule, and the SIGTRAN server 202 selects the corresponding RK (RK1). The call processing server 204 is notified that the call is generated (301), and the generated RK is requested to be registered with the SG 106 (302). When the SG 106 transmits a routing context RC1 to the SIGTRAN server 202 to transmit the ISUP call processing signal with the corresponding RK (RK1) in response to the registration request of the SIGTRAN server 202 (303), SIGTRAN Server 202 sends an application service process activate (ASPAC) message to SG 106 to activate the RK (304). When the SG 106 responds (ACK) to activation to the SIGTRAN server 202 (305), signal traffic is initiated when the state of the PSTN termination signaling point to be interworked is normal (destination signaling point reachable). The call processing server 204 is notified 306, and the ISUP call processing server 204 performs an initialization procedure (307 to 310) of the CICs of the relay line related to the RK and performs call processing. The initialization procedures 307 to 310 are procedures in which the call processing server exchanges the state of each of the relay lines with the other party (the relay switch on the opposite side of the SG) to confirm that the call processing server is in a normal state or to notify if there is a failure.

4 illustrates an interworking procedure between a SIGTRAN server and a call processing server when RK is deactivated according to an embodiment of the present invention. The SIGTRAN server 202 sends an application service process inactivate (ASPIA) message to the SG 106 to deactivate the RK (401), and the SG 106 sends an acknowledgment (ACK) to the SIGTRAN server 202 for the deactivation. If 402, SIGTRAN server 202 notifies call processing server 204 that signal traffic has ceased (403), and ISUP call processing server 204 suspends call processing services of CICs in the relay line associated with RK. . The SIGTRAN server 202 deregisters the RK with the SG 106 (404, 405) and if the RK is deleted from the SIGTRAN server 202, the SIGTRAN server 202 notifies the call processing server 204 of this (406). .

The method for designating a call processing server according to an embodiment of the present invention includes a static method and a dynamic method. The static designation method of the call processing server is a method of designating one of the ISUP call processing servers as a server that processes the call processing signal for the RK in consideration of the TG's relay line assignment when generating the RK. Since RK consists of the originating signal point, the incoming signal point and the CIC, the combination of these values is unique to one TG and trunk line channel. That is, the call processing server processing the RK becomes a server that performs the MEGACO protocol for controlling the TG and the trunk line channel. This method specifies the processing server as production data when creating the RK, and must be specified at the time of RK generation so that the RK processing server and the TG interworking server match, that is, the relay lines belonging to the RK are controlled by the same server as the RK call processing server. That's how. Later, the call processing servers allocate the CIC to the relay line within the range of RK registered in the relay line controlled by the call line and perform the call processing. If you change the configuration of an RK, you must delete the registered RK, regenerate the RK for the new configuration, and specify the RK call processing server again.

Next, in the dynamic designation method of the call processing server according to an embodiment of the present invention, the call processing server may be dynamically selected according to the change of the RK. The static call processing server designation method as described above may be a burden on the operation of the call processing server because it is necessary to manually fix the change of the operation data in the CIC allocation to the TG and the trunk line controlled by the call processing server. In the dynamic call processing server selection method, the contents of the RK are dynamically changed according to the TG, the trunk line, and the CIC assignment of the call processing server, and the registered contents are re-registered in the SG to reduce the operational burden of the call processing server. It is possible to let.

5 illustrates a re-registration procedure after deleting an RK in a method of selecting a dynamic call processing server when changing an RK according to an embodiment of the present invention. When the registered RK needs to be changed, the registered RK may be deleted and a new RK may be re-registered. According to FIG. 5, all or part of the relay line CICs processing the RK may be deleted at a specific call processing server 204. When a change of configuration information in which a CIC corresponding to a new RK is generated or added occurs, the call processing server 204 dynamically reflects the change and notifies the SIGTRAN server 202 of the change (501). The SIGTRAN server 202 deactivates the RK (ASPIA) (502, 503), deregisters the RK with the SG 106 (504, 505) and re-registers (506, 507). Specific procedures of deactivation, deregistration and re-registration are as described above. The SIGTRAN server 202 then notifies 508 that the call processing server 204 has generated a new RK. When the protocol is changed to provide the RK change registration function on the SIGTRAN protocol, the RK is re-registered using it. That is, when the RK change function is defined in the M3UA protocol, the RK change function is used to re-register the RK. The dynamic call processing server selection method is not an operator's manual selection, and thus has an advantage of increasing operational convenience.

According to the present invention, by dividing the soft switch into SIGTRAN servers and call processing servers according to functions, it is possible to operate the SIGTRAN server according to the system capacity, thereby increasing the economic efficiency.

In addition, according to the present invention can be modularized according to the functional partition, and the stability of the server can be improved.

In addition, according to the present invention it is possible to increase the capacity of the system by dividing the function and the expansion of the call processing server, it is possible to increase the flexibility of the system server construction.

Claims (9)

A soft switch connected with a signaling gateway to exchange ISUP (ISDN user part) call processing signals, One or more SIGTRAN servers dedicated to implementing a signaling transport (SIGTRAN), and At least one ISUP call processing server connected to the at least one SIGTRAN server, And the SIGTRAN server relays the ISUP call processing signals between the signaling gateway and the ISUP call processing server, wherein the relaying is performed by referring to the association between the ISUP call processing servers and the ISUP call processing signals. The method of claim 1, And the one or more SIGTRAN servers perform registration, activation, deactivation, and deregistration of a routing key (RK) for routing signal traffic. The method of claim 1, And said associating comprises RK. The method of claim 1, Each of the at least one ISUP call processing server soft switch to interwork with at least one trunk gateway (TG) using the MEGACO protocol. A method performed in the SIGTRAN server to separate and link one or more SIGTRAN servers and one or more ISUP call processing servers in a soft switch, Receiving an ISUP call processing signal generated in units of RK, Selecting a specific ISUP call processing server to perform call processing among the one or more ISUP call processing servers based on the RK of the ISUP call processing signal, and Transferring the received ISUP call processing signal to the selected ISUP call processing server How to include. In a soft switch including a SIGTRAN server and an ISUP call processing server, the interworking method with the ISUP call processing server performed in the SIGTRAN server according to RK activation, Receiving an ISUP call processing signal generated in units of RK, Selecting an ISUP call processing server to perform call processing based on the RK of the ISUP call processing signal, Notifying the ISUP call processing server that the RK has been created, and Relaying the ISUP call processing signal to the selected ISUP call processing server How to include. In a soft switch connected to a signaling gateway and including a SIGTRAN server and an ISUP call processing server, a method of interworking between the SIGTRAN server and the ISUP call processing server according to RK deactivation, The SIGTRAN server notifying the ISUP call processing server of the deactivation of RK, Stopping the call processing of the relay line associated with the RK by the ISUP call processing server; The SIGTRAN server deregistering the RK with the signaling gateway, Deleting the RK from the SIGTRAN server, and The SIGTRAN server notifying the ISUP call processing server of the deletion of the RK. How to include. In a soft switch including a SIGTRAN server and a plurality of ISUP call processing servers connected to the SIGTRAN server, wherein the plurality of ISUP call processing servers are connected to a plurality of trunk gateways, which are performed by the SIGTRAN server according to a change of RK. As a static call processing server designation method, When generating the RK, one of the ISUP call processing servers processes the call processing signal for the RK so that the trunk line belonging to the RK is controlled by the same server as the RK call processing server in consideration of the trunk line assignment of the trunk gateways. Specifying the server to be And the ISUP call processing server processing the RK to control a corresponding trunk gateway and a trunk line channel among the trunk gateways. In a soft switch connected to a signaling gateway and including a SIGTRAN server and an ISUP call processing server, a method of dynamically selecting a call processing server according to a change of RK, Notifying the SIGTRAN server of the change, when a change of configuration information occurs in the ISUP call processing server, Deactivating the RK by the SIGTRAN server; The SIGTRAN server deregistering the RK with the signaling gateway, The SIGTRAN server re-registering the new RK with the signaling gateway, The SIGTRAN server notifying the ISUP call processing server that the new RK has been created How to include.

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