KR101254998B1 - System and Method for Providing of forwarding Transmission for Call Processing Message - Google Patents

Abstract

The present invention relates to a system and method for providing a bypass transmission of a call processing message. When an error occurs in a first signal path that is responsible for transmitting / receiving a call processing message, the call processing is performed through a second signal path except for the first signal path. By forwarding messages to transmit and receive call processing messages, it prevents waste of mobile network resources due to allocation of additional signal paths for sending and receiving call processing messages, and handles calls due to errors in signal paths. It is effective to prevent interruption of message transmission / reception.

Signal, No.7, bypass, forwarding, forwarding

Description

System and Method for Providing of Forwarding Transmission for Call Processing Message

The present invention relates to signal processing in a telecommunications system. More particularly, the present invention relates to another signal path when an error occurs in one signal path in at least two signal paths for transmitting and receiving call processing messages. The present invention relates to a system and a method for providing a bypass transmission of a call destination message through a call processing message.

If an error occurs in the signal path that transmits / receives a call processing message (for example, No.7 message) used for call processing in the existing wired / wireless communication network, it is impossible to provide services related to various call processing. Inability to send and receive messages or loss of call processing messages can lead to poor service quality and customer dissatisfaction. In this case, when an error occurs in the signal path, a failure may occur in the signal path for transmitting / receiving a call processing message, or a lack of capacity of the signal path may occur due to a sudden increase in call processing messages to be transmitted / received.

Also, in this case, the retry and delay of the call processing message causes an overload of the processor processing the call processing message of the system, causing a serious problem that causes the entire system to stop. Sometimes.

In other words, when there is a problem in the call processing message transmission / reception function due to the failure of the signal path or the increase in the eventual call volume, there is no backup function, and thus the signal path is increased by checking the call volume that is frequently transmitted / received. Or, many signal paths must be kept in the system at all times in preparation for the increase in the call volume.

As a result, a problem arises that a signal path resource for transmitting and receiving call processing messages in the entire mobile communication network is wasted due to the allocation of a signal path having an unnecessary capacity, which is rarely used in the wired / wireless communication network, or the call volume. In this sudden increase, there is always a risk of interruption of the transmission / reception of call processing messages due to the overload of the signal path.

In order to solve these problems, an object of the present invention is to forward a call processing message to a different signal path when an error occurs in a signal path that is responsible for transmitting / receiving a call processing message, and transmit the call processing message to a destination server. The present invention provides a system and method for providing a bypass transmission of a call processing message.

In order to achieve this object, the system for providing a bypass transmission of a call processing message according to the present invention has a plurality of signal paths, detects whether an error of a specific signal path among the plurality of signal paths, and an error of the specific signal path. Is detected, the first call control server transmits a call processing message through another signal path, and transmits a call processing message received from the first call control server to a destination server and then responds to the call processing message from the destination server. And a plurality of second call control servers for receiving a message and transmitting the message to the first call control server.

The first call control server may include a first RNC and a first data service node, and the second call control server may include a second RNC and a second data service node.

In addition, when an error is detected in the first data service node, a message processing load rate of a plurality of second data service nodes is requested from the first data service node, and the message processing load rates of the plurality of second data service nodes are checked. And a signal path distribution server for transmitting the identified load rate to the first data service node to transmit a call processing message to the plurality of second data service nodes based on the load rate.

The call processing message may include an outgoing call message requested by the calling terminal to the called terminal and an authentication request message of the calling terminal.

In addition, a call control server providing a bypass transmission of a call processing message according to the present invention includes a RNC and a data service node providing a bypass transmission path of a call processing message, wherein the data service node includes a plurality of signals. An error detection unit for detecting an error of a specific signal path among the paths, and when the error detection unit detects an error of the specific signal path, after requesting a message processing load rate for a plurality of different data service nodes to a signal path distribution server, A path setting unit configured to set the plurality of different data service nodes to transmit a call processing message by checking a message processing load ratio received from a signal path distribution server; and when the plurality of other data service nodes are set in the path setting unit, the call processing A forwarding request message including a message and requesting forwarding of the call processing message Via the other signal path, it characterized by comprising forwarding the request unit for transmitting to the plurality of other data service node.

The routing unit may distribute the forwarding request message to be inversely proportional to the message processing load rate and transmit the forwarding request message to the plurality of other data service nodes.

Further, the database node may receive a response message from the destination server through the plurality of other data service nodes in response to the call processing message included in the forwarding request message transmitted to the destination server through the plurality of other data service nodes. It further comprises a receiving unit.

In addition, when the RNC is to transmit a call processing message to a destination server, the RNC detects an error of a signal path capable of transmitting the call processing message, and if an error is detected in a specific signal path, the call processing through another signal path. And a forwarding request message for requesting forwarding of the message.

The RNC may transmit the call processing message to the destination server through the other RNC when a forwarding acceptance message corresponding to the forwarding request message is received from another RNC included in the other call control server.

The forwarding acceptance message forwards the call processing message to the RNC when an error is not detected in a signal path through which the other RNC transmits the call processing message to another data service node included in the other call control server. Characterized in that the message indicating the acceptance.

In addition, the signal path distribution server for providing a detour transmission of the call processing message according to the present invention is a load checking unit for periodically checking the message processing load rate of the plurality of second call control server, the plurality of second confirmed in the load checking unit A load DB for storing the message processing load rate for each call control server; and when a message processing load rate check for the plurality of second call control servers is requested from the first call control server, the plurality of second call controls stored in the load DB; And a bypass signal checking unit for extracting a message processing load rate for a server and transmitting the message processing load rate to the first call control server.

In addition, the method for providing a bypass transmission of a call processing message according to the present invention comprises the steps of detecting whether an error of a specific signal path of the plurality of signal paths, the first call control server having a plurality of signal paths, the first call control server If an error of the specific signal path is detected, transmitting a call processing message to a second call control server through another signal path, and the first call control server processes the call from a destination server through the second call control server. Receiving a response message to the message.

In addition, the method for providing a bypass transmission of a call processing message according to the present invention includes determining whether an error occurs in a signal path through which a data service node or an RNC can transmit a call processing message, and as a result of the determination, the data service node transmits a plurality of signals. Requesting a message processing load rate for a plurality of different data service nodes to a signal path distribution server if an error of a specific signal path is detected in the path, and receiving the message processing load rate from the signal path server, the received message processing load rate Establishing a plurality of data service nodes for transmitting a call processing message, and confirming a forwarding request message including the call processing message and requesting forwarding of the call processing message through another signal path. Transmitting to the data service node And a gong.

If the RNC detects an error in a signal path capable of transmitting the call processing message to a destination server, the RNC transmits a forwarding request message requesting forwarding of the call processing message through a specific signal path connected to another RNC. The RNC may further include transmitting the call processing message to the destination server through another data service node connected to the other RNC when receiving the forwarding acceptance message corresponding to the forwarding request message from the other RNC. It is characterized by.

As such, when the error occurs in a signal path that is responsible for transmitting / receiving call processing messages, the present invention forwards the call processing message to another signal path, thereby moving due to allocation of an additional signal path for transmitting / receiving call processing messages. It prevents the waste of network resources and prevents interruption of call processing message transmission / reception due to faults and overloads that occur in the signal path.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the embodiments, descriptions of technical contents that are well known in the technical field to which the present invention belongs and are not directly related to the present invention are omitted. This is to more clearly communicate without obscure the core of the present invention by omitting unnecessary description.

1 is a schematic diagram showing the main configuration of a system for providing bypass transmission of a call processing message according to an embodiment of the present invention. FIG. 2 is a block diagram illustrating a main configuration of the data service node shown in FIG. 1. 3 is a block diagram showing the main configuration of the signal path distribution server shown in FIG.

1 to 3, the system 100 providing the bypass transmission of the call processing message is the originating terminal 110, Node B (120), the first call control server 130, the signal path distribution server ( 140, a second call control server 150, and a destination server 160. In this case, the first call control server 130 and the second call control server 150 include first and second RNCs 131 and 141 and first and second data service nodes 132 and 142, respectively.

The calling terminal 110 is a portable terminal capable of communicating with other portable terminals, and may be used in place of a mobile communication terminal, a mobile phone, a personal digital assistant (PDA), a smart phone, and the like. In the present invention, the calling terminal 110 has been described as an example of a terminal based on the All-IP method, but can be applied regardless of a communication method such as a terminal based on the WCDMA method.

The calling terminal 110 generates a call processing message in the case of a request for sending to another portable terminal or a request for authentication of the calling terminal 110, and the first call control server 130 through the Node B 120. To send.

The Node B 120 controls the radio connection between the calling terminal 110 and the base station.

The first call control server 130 includes a first RNC 131 and a first data service node 132, and is a call processing message No through the first RNC 131 or the first data service node 132. .7 It holds a plurality of signal paths for transmitting a message to the destination server 160, and if an error occurs in a specific signal path of the plurality of signal paths, the call processing message is transmitted to the destination server 160 through another signal path. do.

More specifically, the first RNC 130 is a base station controller, which controls one or more base stations and performs connection with other portable terminals so as to support voice and data communication and to use communication services in the calling terminal 110. . The first RNC 131 detects whether an error has occurred in a packet switching (IuPS) or circuit switching (IuCS) signal path connected to the first data service node 132, and if the error is detected, the second RNC 141. ) Transmits a forwarding request message to the second RNC 141 through an IuR signal path connected thereto. In this case, an error in the IuPS and IuCS signal paths means that a failure occurs in a signal path for transmitting / receiving call processing messages or a shortage of signal paths occurs due to a sudden increase in call processing messages.

Thereafter, when the first RNC 131 receives a forwarding acceptance message from the second RNC 141, the first RNC 131 transmits a call processing message to the second RNC 141 through an IuR signal path.

The first data service node 132 is a general packet radio service (GPRS), which performs a connection function between a GPRS network and an external packet data network, performs a data packet transmission function with a base station within a service area, and performs a GGSN (Gateway). GPRS Support Node (SGRS) and Serving GPRS Support Node (SGSN).

The first data service node 132 has two kinds of signal paths for transmitting the No.7 message, which is a call processing message, to the destination server. First, the No.7 signal collectively referred to as narrow-band and broad-band. It holds a path and an IP signal path, and secondly, a No. 7 signal path referring to a narrow-band and a BICC path referring to a broad-band. The first signal path and the No.7 signal path used in the embodiment of the present invention refer to the first No.7 signal path and the second No.7 signal path collectively, and the second signal path is an IP signal. Represents a path or a BICC signal path.

The first data service node 132 detects the error state of the first signal path, that is, the No.7 signal path, used when transmitting the No.7 message, which is a call processing message, to the destination server 160, and the No.7 signal. When an error is detected in the path, a message for requesting message processing load rates of the plurality of second data service nodes 152 is transmitted to the signal path distribution server 140, and the message processing load rate is received from the signal path distribution server 140. The call processing message is transmitted to the second data service node 152. In this case, the call processing message is a message including an outgoing call message requesting the originating terminal 110 to the other mobile terminal, a message requesting authentication of the calling terminal 110, and the like.

To this end, the first data service node 132 includes an error detecting unit 132a, a path setting unit 132b, a forwarding requesting unit 132c, and a message receiving unit 132d.

The error detector 132a detects whether an error has occurred in the signal path No. 7 which is the first signal path, and provides a detection result to the path setting unit 132b when the error is detected. At this time, an error of the signal path No. 7 means that a failure occurs in a signal path for transmitting / receiving call processing messages or a shortage of signal paths occurs due to a sudden increase in call processing messages to be transmitted / received.

If the error detecting unit 132a detects that an error has occurred in the signal path No. 7, the path setting unit 132b includes a second path included in the plurality of second call control servers 150 as the signal path distribution server 140. The message processing load rate of the data service node 152 is requested. The routing unit 132b sets a plurality of second data service nodes 152 to transmit call processing messages by checking load rates of the plurality of second data service nodes 152 received from the signal path distribution server 140. do. In this case, the routing unit 132b distributes the call processing message to the plurality of second data service nodes 152 in inverse proportion to the message processing load rates for the plurality of second data service nodes 152.

The forwarding request unit 132c generates and transmits a forwarding request message requesting forwarding of the call processing message to the plurality of second data service nodes 152 distributed by the routing unit 132b. In this case, the forwarding request message may be transmitted to the second data service node 152 through a second signal path, that is, an IP signal path or a BICC signal path.

In addition, the forwarding request message includes the IP address of the first data service node 132 requesting forwarding and the IP address of the second data service node 152 to forward the call processing message, and includes a call processing message. It is preferable.

The message receiving unit 132d receives a response message for the call processing message included in the forwarding request message from the destination server 160 through the second data service node 152. In this case, when the message receiving unit 130 transmits the forwarding request message to the second data service node 152 through the IP signal path, the message receiving unit 130 receives the response message through the IP signal path and transmits it through the BICC signal path. If so, the response message is also received through the BICC signal path.

The signal path distribution server 140 checks the message processing load ratios of the plurality of second data service nodes 152 requested from the path setting unit 132b of the first data service node 132 to determine the first data service node ( 132).

To this end, the signal path distribution server 140 includes a load checking unit 141, a bypass signal checking unit 142, and a load DB 143.

The load checking unit 141 periodically checks message processing load rates of the plurality of second data service nodes 152 and stores them in the load DB 143.

The detour signal checking unit 142 receives the message processing load rate confirmation request of the plurality of second data service nodes 152 from the first data service node 132 and stores the message processing load rate stored in the load DB 143 as the second data. Extracted for each service node 152, and transmits the extracted message processing load rate to the first data service node 132.

The load DB 143 stores message processing load rates of the plurality of second data service nodes 152 identified by the load checking unit 141 for each second data service node 152.

The second call control server 150 includes a second RNC 151 and a second data service node 152 like the first call control server 130.

When the second RNC 141 receives the forwarding request message from the first RNC 131, the second RNC 141 detects whether an error has occurred in the IuPS or IuCS signal paths connected to the second data service node 152, and if the error is not detected. A forwarding acceptance message corresponding to the forwarding request message received from the first RNC 131 is generated through the IuR signal path and transmitted to the first RNC 131.

In addition, when the second RNC 141 detects that an error has occurred in the IuPS and IuCS signal paths connected to the second data service node 152, it notifies that the forwarding of the call processing message cannot be performed through the IuR signal path. The message is sent to the first RNC 131.

Receiving a message indicating that the call processing message cannot be forwarded from the second RNC 141, the first RNC 131 generates an error in the IuPS and IuCS signal paths connecting to the first data service node 132. After not waiting, the call processing message is transmitted to the first data service node 132. In addition, the first RNC 131 waits until it receives a forwarding acceptance message from the second RNC 141, and then transmits a call processing message to the second RNC 141 or discards the call processing message.

When the second data service node 152 receives the forwarding request message from the first data service node 132, the second data service node 152 transmits the forwarding request message to the destination server 160 and includes the forwarding request message transmitted from the destination server 160. The response message for the processed call processing message is transmitted to the first data service node 132. At this time, the second data service node 152 sets the forwarding transmission flag to On in the forwarding request message and transmits it to the destination server 160.

If, the call processing message included in the forwarding request message is a message for the authentication request of the calling terminal 110, the authentication vector capable of performing authentication of the calling terminal 110 is stored in the second data service node 152. If so, the second data service node 152 transmits the authentication vector to the first data service node 132. On the contrary, if the authentication vector is not stored, the second data service node 152 transmits a forwarding request message to the destination server 160.

When the forwarding request message is received through the second data service node 152, the destination server 160 generates a response message corresponding to the call processing message included in the forwarding request message and transmits it to the second data service node 152. do.

At this time, the call processing message included in the forwarding request message received through the second data service node 152 is a message for requesting the originating terminal 110 to make a call to another mobile terminal, and requesting an authentication request of the originating terminal 110. In the case of a message for requesting a text message transmission and a location registration message of the calling terminal 110, the destination server 160 preferably includes a subscriber management server (HSS). At this time, the subscriber management server performs the function of AuC (Authentication Center) to perform the location registration of the calling terminal 110 and the authentication of the calling terminal 110. In addition, the destination server 160 may be applied to various servers and nodes including the subscriber management server according to the type of call processing message included in the forwarding request message received through the second data service node 152.

The destination server 160 checks that the forwarding transmission flag set in the forwarding request message is On and sets the forwarding transmission flag to On when generating the response message. For example, if the call processing message is a call request message, the calling terminal 110 generates the location registration information of the other mobile terminal to be sent as a response message, and the call processing message is for the authentication request of the calling terminal 110. If the message, the information necessary for authentication, such as the authentication vector of the calling terminal 110 generates a response message.

The second data service node 152 confirms that the forwarding transmission flag is set to On in the response message transmitted from the destination server 160 and transmits the response message to the first data service node 132.

In addition, in the embodiment of the present invention, the data service node has described GPRS as an example, but may be changed to MSC (Mobile Switching Center) according to the type of communication network.

4 is a flowchart illustrating a process of providing bypass transmission of a call processing message according to an embodiment of the present invention.

1 to 4, in operation S401, the error detection unit 132a of the first data service node 132 included in the first call control server 130 may receive a call processing message received from the calling terminal 110. Detects whether an error of the first signal path, that is, the No. 7 signal path, is transmitted from the first call control server 130 to the destination server 160. In operation S401, the first RNC 131 detects whether an error occurs in the IuPS and IuCS signal paths used when the first RNC 131 transmits the call processing message to the first data service node 132.

When the error detection unit 132a detects an error in signal path No. 7 in step S402, the controller proceeds to step S403. .

Subsequently, when an error is detected in signal path No. 7 in step S402, the path setting unit 132b may include a plurality of second call control servers 150 as signal path distribution servers 140 in step S403. Request the message processing load rate for the second data service node 152. When the detour signal checking unit 142 of the signal path distribution server 140 receives a message processing load rate confirmation request for the plurality of second data service nodes 132 from the first data service node 132, it is stored in the load DB 143. The message processing load rate is checked for each second data service node 152, and the determined message processing load rate is transmitted to the first data service node 132. In addition, the load check unit 141 of the signal path distribution server 140 periodically checks the message processing load rate for the second data service node 152 included in the plurality of second call control servers 150 to load DB. Save to (143).

Thereafter, in step S404, the path setting unit 132b receives message processing load rates for the plurality of second data service nodes 152 from the signal path distribution server 140, and then proceeds to step S405.

In operation S405, the routing unit 132b of the first data service node 132 distributes the call processing message to be inversely proportional to the message processing load rate received from the signal path distribution server 140. When distribution of the call processing message is completed in the routing unit 132b, the forwarding request unit 132c transmits a forwarding request message to the plurality of second data service nodes 152 through the second signal path. In this case, the forwarding request message includes a call processing message, an IP address of the first data service node 132, and an IP address of the second data service node 152.

The second data service node 152 receiving the forwarding request message including the call processing message sets the forwarding transmission flag of the forwarding request message to On and transmits it to the destination server 160. If the forwarding request message of the forwarding request message is set to On, the destination server 160 sets the forwarding transmission flag to On when generating a response message corresponding to the call processing message included in the forwarding request message, and thereby the second data service node. To 152.

In step S406, the message receiving unit 132d of the first data service node 132 receives a response message in which the forwarding transmission flag is set to On from the second data service node 152 through the second signal path.

On the contrary, if an error in the IuPS and IuCS signal paths is detected by the first RNC 131 in step S402, the first RNC 131 transmits a forwarding request message of the call processing message to the adjacent second RNC 141 in step S407. do. The second RNC 141 detects an error in the IuPS and IuCS signal paths connected to the second data service node 560, and if the error is not detected, generates a forwarding acceptance message corresponding to the forwarding request message. Transmit to RNC 131. In addition, if an error is detected in the IuPS and IuCS signal paths connecting the second RNC 141 and the second data service node 560, the second RNC 141 indicates that the forwarding of the call processing message cannot be accepted. Generate and transmit to the first RNC (131).

When the first RNC 131 receives the forwarding acceptance message from the second RNC 141 in step S408, the process proceeds to step S409 to transmit a call processing message to the second RNC 141. On the contrary, if the forwarding accept message is not received from the second RNC 141 at step S408, that is, if the first RNC 131 receives a message indicating that it cannot accept the forwarding of the call processing message, the first RNC 131 is not present. Proceeds to step S410 discards the call processing message. Of course, the first RNC 131 waits until an error does not occur in a signal path connecting with the first data service node 132, and then transmits a call processing message to the first data service node 132, or 2 After waiting until the RNC 141 receives the forwarding acceptance message, the call processing message may be transmitted to the second RNC 141.

While the invention has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

The present invention is applicable to a mobile communication system, and in particular, a mobile communication network by transmitting / receiving a call processing message through a signal path other than a signal path where an error occurs when an error occurs in a signal path that is responsible for transmitting / receiving call processing messages. It is possible to provide more stable service to subscribers by minimizing the error occurrence rate of.

1 is a schematic diagram showing the main configuration of a system for providing bypass transmission of a call processing message according to an embodiment of the present invention;

FIG. 2 is a block diagram showing the main configuration of the data service node shown in FIG.

3 is a block diagram showing the main configuration of the signal path distribution server shown in FIG.

4 is a flowchart illustrating a process of providing bypass transmission of a call processing message according to an embodiment of the present invention.

<Description of main parts of drawing>

110: calling terminal 120: Node B

130: first call control server 130: signal path distribution server

140: second call control server 160: destination server

Claims (14)

A first call control server having a plurality of signal paths, detecting whether a specific signal path among the plurality of signal paths is detected, and transmitting a call processing message through another signal path when an error of the specific signal path is detected; A plurality of second call control servers transmitting a call processing message received from the first call control server to a destination server and receiving a response message for the call processing message from the destination server; ; Bypass transmission providing system of a call processing message, characterized in that it comprises a. The method of claim 1, The first call control server includes a first RNC and a first data service node, and the second call control server includes a second RNC and a second data service node. system. 3. The method of claim 2, When an error is detected in the first data service node, a message processing load rate of a plurality of second data service nodes is requested from the first data service node to check message processing load rates of the plurality of second data service nodes, and the call processing is performed. A signal path distribution server for transmitting the identified load rate to the first data service node to send a message to the plurality of second data service nodes based on the load rate; Bypass transmission providing system of a call processing message, characterized in that it further comprises. The method of claim 1, The call processing message is And a calling signal message requested by the calling terminal to the called terminal, and an authentication request message of the calling terminal. A call control server including an RNC and a data service node providing a bypass transmission path of a call processing message, The data service node, An error detecting unit detecting whether an error occurs in a specific signal path among a plurality of signal paths; When the error detection unit detects an error of the specific signal path, the signal path distribution server requests a message processing load rate for a plurality of different data service nodes, and then checks the message processing load rate received from the signal path distribution server to process a call. A routing unit configured to set the plurality of different data service nodes to transmit a message; When the plurality of different data service nodes are set in the routing unit, a forwarding request message including the call processing message and requesting forwarding of the call processing message is transmitted to the plurality of other data service nodes through different signal paths. Forwarding request unit; Call control server providing a detour transmission of the call processing message comprising a. The method of claim 5, The route setting unit And forwarding the forwarding request message so as to be inversely proportional to the message processing load rate and transmitting the forwarding request message to the plurality of other data service nodes. The method of claim 5, The data service node A message receiving unit receiving a response message from the destination server through the plurality of other data service nodes, in response to a call processing message included in the forwarding request message transmitted to the destination server through the plurality of other data service nodes; Call control server providing a bypass transmission of a call processing message, characterized in that it further comprises. The method of claim 5, The RNC When sending a call processing message to a destination server, it detects whether there is an error in a signal path capable of transmitting the call processing message, and if an error is detected in a specific signal path, forwarding of the call processing message through another signal path is performed. Call control server providing a bypass transmission of the call processing message, characterized in that for transmitting a request forwarding request message. 9. The method of claim 8, The RNC When the forwarding accept message corresponding to the forwarding request message is received from another RNC included in the other call control server, the call processing message is transmitted to the destination server through the other RNC. Provide call control server. 10. The method of claim 9, The forwarding acceptance message If the error is not detected in the signal path that the other RNC can transmit the call processing message to the other data service node included in the other call control server is a message indicating that the RNC accepts the forwarding of the call processing message. Call control server providing a bypass transmission of a call processing message characterized in that. A load checking unit periodically checking message processing load rates of the plurality of second call control servers; A load DB for storing the message processing load rate for each of the plurality of second call control servers identified by the load checking unit; When requesting message processing load rates for the plurality of second call control servers is requested from a first call control server, the first call control is performed by extracting message processing load rates for the plurality of second call control servers stored in the load DB. Detour signal confirmation unit for transmitting to the server; Bypass transmission providing signal path distribution server of the call processing message comprising a. Detecting, by a first call control server having a plurality of signal paths, an error of a specific signal path among the plurality of signal paths; Transmitting, by the first call control server, a call processing message to a second call control server through another signal path when an error of the specific signal path is detected; Receiving, by the first call control server, a response message for the call processing message from a destination server through the second call control server; Method for providing a detour transmission of the call processing message comprising a. Determining whether an error occurs in a signal path through which the data service node or the RNC can transmit a call processing message; If the data service node detects an error of a specific signal path among a plurality of signal paths, the message path distribution server requests a message processing load rate for a plurality of other data service nodes, and then the message processing load rate from the signal path server. Receiving; Setting the plurality of data service nodes to transmit a call processing message by checking the received message processing load rate; Transmitting a forwarding request message including the call processing message and requesting forwarding of the call processing message to the plurality of other data service nodes through different signal paths; Method for providing a detour transmission of the call processing message comprising a. 14. The method of claim 13, Transmitting, by the RNC, a forwarding request message for requesting forwarding of the call processing message through a specific signal path connected to another RNC when an error is detected in a signal path capable of transmitting the call processing message to a destination server; When the RNC receives a forwarding acceptance message corresponding to the forwarding request message from the other RNC, transmitting the call processing message to the destination server through another data service node connected to the other RNC; Method for providing a bypass transmission of the call processing message, characterized in that it further comprises.

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