KR20100065711A - Back up exchange and apparatus for recovering service in mobile communication system and method thereof - Google Patents

Abstract

PURPOSE: A back up exchange and a device and method for recovering service of mobile communication system are provided to remove destination point changing about exchanger switching time RNC, thereby drastically reducing exchanger switching time. CONSTITUTION: An MGC(Media Gateway Controller) unit(400) comprises each own signal point which is different for connection with STP(Signaling Transfer Point) signal network and RNC(Radio Network Controller). The MGC unit changes the RNC unit and the own signal point for connection into the first own signal point of the common uses exchanger combining with destination point of the RNC unit on switching to the RNC unit due to common use exchanger failure. A MGW(Media GateWay)(402) changes the own signal point connecting with the RNC unit into a second own signal point of the common use exchanger combining with the destination signaling point of the RNC unit.

Description

BACK UP EXCHANGE AND APPARATUS FOR RECOVERING SERVICE IN MOBILE COMMUNICATION SYSTEM AND METHOD THEREOF}

The present invention relates to an exchange of a mobile communication system, and more particularly, to an external communication network of a back-up exchange when a failure of a mobile communication exchange such as a wideband mobile switching center (WMSC) or a serving GPRS support node (SGSN) occurs in a mobile communication system. The own signal point (OSP) of the PSG (PSTN Signaling Gateway) group for interworking and the RNC of the own signal points of the ISG (Iu Signaling Gateway) and Megaco Signaling Gateway (MSG) group of the Radio Network Controller (RNC) By changing or setting the linking local station's signal point to the same one as the own station's signal point value set in the faulty mobile communication exchange, it is possible to skip the change of the signal point in the RNC when switching the exchange. The present invention relates to a backup exchange and a service recovery apparatus and method for a mobile communication system that can be minimized.

In general, when a failure of a mobile communication exchange such as WMSC and SGSN that is connected to an RNC in a wideband CDMA (WCDMA) mobile communication network to perform a call or data service to a mobile communication terminal, all of the RNCs that have conventionally been connected to the mobile communication exchange are connected. Signaling point change shall be performed to change the destination point to a new station signal point corresponding to the local station signaling point of the backup exchange replacing the failed mobile communication exchange.

However, the signal point change in the RNC is the most time-consuming work in the switchover process, and it takes a considerable time to switch to the backup exchange due to the RNC signal point change. There was a problem that can not be done quickly.

FIG. 1 illustrates a service recovery concept using a backup exchange in a conventional WCDMA mobile communication network. Referring to FIG. 1, the operation of switching to a backup exchange for service recovery in the event of a failure of the exchange in the conventional WCDMA mobile communication network will be described in detail. do.

First, when a failure occurs in the currently serving WMSC 100, the WCDMA Recovery Management System (W-RMS) 102 inputs the RNC information of the failed WMSC 100 to the backup WMSC 104, and at the ATM. (Asynchronous Transfer Mode) The path is switched so that the RNCs 106, 108, 110, 112 are connected to the backup WMSC 104.

The W-RMS 102 then instructs the RNCs 106, 108, 110, and 112 to change the signal point for switching to the new backup WMSC 104, where each RNC 106, 108, 110, 112 is moved. The signal point information associated with the connected WMSC 100 is deleted, and a signal point change operation for generating a signal point of the backup WMSC 104 is performed.

However, as described above, updating the signal point information of the RNC with the signal point information of the backup WMSC is the most time-consuming operation in the main switching process among the switching operations of the exchange as shown in FIG. As shown in FIG. 2, when 12 RNCs are connected to the exchange, a work time of about 6 minutes or more is required according to the execution of the 264 lines, which has been a major cause of the rapid restoration of the mobile communication service.

Therefore, in the present invention, in case of failure of a mobile communication switch such as WMSC or SGSN in a mobile communication system, the local communication point of the PSG group for interworking with the external communication network of the backup exchange and the local signal points of the ISG for the RNC interworking and the MSG group are interlocked with the RNC. By changing or setting the own signal point to the same as the own signal point value set in the faulty mobile communication switch, it is possible to omit the work of changing the signal point in the RNC when switching the switch, thus minimizing the service recovery time due to the switchover. It is an object of the present invention to provide a backup exchange and a service recovery apparatus and method for a mobile communication system.

The present invention described above is a mobile communication backup switch, which has different signaling points of its own for connecting to a STP (Signaling Transfer Point) signal network and a RNC (Radio Network Controller), and when switching to the RNC due to a failure of a commercial exchange. A MGC (Media Gateway Controller) for changing a local station signal point for connection with the RNC to a first local station signal point of the commercial exchange that matches the station signal point of the RNC, and for connecting with the RNC under control of the MGC. A MGW (Media GateWay) for connecting to the RNC by changing the local signal point to a second local signal point of the commercial exchange that matches the station signal point of the RNC,

The MGC is a local signal point having a value different from that of the local signal point for the RNC, and the external network matching unit connected to the STP signal network, and the local signal point for connection with the RNC when the RNC is connected to the commercial signal point. And an RNC matching part for changing to the first local signal point of the exchange and connecting with the RNC.

The RNC matching unit may be connected to the RANAP signal link of the RNC, and the MGW may include an MGW matching unit connected to an ALCAP signal link of the RNC, and the MGW matching unit may be connected to the RNC when connected to the RNC. It is connected to the RNC by changing a local signaling point for the second local signaling point of the commercial exchange matched with the ALCAP signal link.

In addition, the present invention is a mobile communication backup switch, the first having a different local signal point for the connection between the STP signaling network and the RNC, the first local signal point for the connection to the RNC is common to all commercial exchanges A second local station signal which is set to a local station signal point and has a common local station signal point connected to the RNC under the control of the MGC and the MGC to be connected to the RNC when switching due to the failure of the commercial exchange. Including the MGW to connect to the RNC by setting a point,

The MGC is a local signal point having a value different from that of the local signal point for the RNC, and the external network matching unit connected to the STP signal network, and the local signal point for connection with the RNC when the RNC is connected to the commercial signal point. And an RNC matching unit for setting the first local station signal point common to the exchanger to connect to the RNC, and an MGC matching unit for connecting the MGW to the same local station signal point as the external network matching unit.

The RNC matching unit is connected to the RANAP signal link of the RNC, and the MGW includes an MGW matching unit connected to an ALCAP signal link of the RNC, and the MGW matching unit is connected to the RNC signal link when connected to the RNC. And a second local signal point of the commercial exchange that matches with the RNC. In this case, the MGW matching unit may be connected to the MGC matching unit using a local station signal point having a value different from that of the second local station signal point when the MGW matching unit is connected to the MGC.

In addition, the present invention is a mobile communication service recovery device, the switching of the local station signal point set in the RNC to the local station signal point of the commercial exchange that matches the station signal point of the RNC when switching due to the failure of the commercial exchange interoperating with the RNC And a W-RMS for performing switching switching to connect the RNC to the backup exchange changed to the same local signal point as that of the commercial exchange when the commercial exchange fails.

In addition, the present invention is a mobile communication service recovery apparatus, by setting the same local signal point that is set in common on all commercial exchanges interworking with the RNC by using the same local signal point when switching due to the failure of the commercial exchange; And a W-RMS for performing switching switching to connect the RNC to the backup exchange having the same local signal point as the commercial exchange to the RNC in case of a failure of the commercial exchange.

In addition, the present invention provides a method for recovering a mobile communication service, the method comprising the steps of setting a different local signal point for the connection between the STP signaling network and the RNC on the exchange, and the backup when switching to the backup exchange due to the exchange failure; Changing a local signal point of the exchange to a local signal point of the failed exchange that matches the station signal point of the RNC, and connecting the RNC to the backup exchange using the changed local signal point; The local station signal point for connection with the RNC includes a first local signal point that matches the RANAP signal link of the RNC and a second local signal point that matches the ALCAP signal link of the RNC.

In addition, the present invention provides a method for recovering a mobile communication service, the method comprising the steps of setting a different local signal point for the connection between the STP signaling network and the RNC on the switch, and the RNC is connected to the local signal point for the connection to the RNC; And setting the same value common to the switch, and connecting the RNC to the backup switch using the same local signal point when switching to a backup switch according to a failure of the switch. The local signal point for the connection includes a first local signal point that matches the RANAP signal link of the RNC and a second local signal point that matches the ALCAP signal link of the RNC.

The present invention is to recover the service using the backup exchange when the exchange failure occurs in the mobile communication system, the local signal point and the RNC of the PSG group for interworking with the external system connected to the STP network when switching to the backup exchange due to the exchange failure Separate the local signal point of ISG and MSG group for interworking with other station, and change the local signal point of ISG and MSG group connected with RNC to the same as the local signal point of previous commercial exchange or set in advance As a result, it is possible to significantly reduce the switchover time by eliminating the need for changing the switching point of the power point for the exchange, which has to be performed in each RNC. In addition, there is an advantage that can increase the service satisfaction of the user through the rapid service recovery as described above.

Hereinafter, with reference to the accompanying drawings will be described in detail the operating principle of the present invention. In the following description of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be made based on the contents throughout the specification.

According to the technical gist of the present invention, in case of a failure of a mobile communication switch such as WMSC or SGSN in a mobile communication system, among the local signal points of the PSG group for interworking the external communication network of the backup exchange and the local signal points of the ISG and MSG group for RNC interworking By changing or setting the own station signal point linked with the RNC to the same as the own station signal point value set in the faulty mobile communication exchange, the operation of changing the signal point in the RNC can be omitted when switching the exchange. It is easy to achieve what is intended in the present invention through a technique that reduces time.

3 illustrates a service backup concept using a backup exchange in a WCDMA mobile communication network according to an embodiment of the present invention.

Hereinafter, the operation of switching to a backup exchange for service recovery in the event of a failure of the exchange in the WCDMA mobile communication network will be described in detail with reference to FIG. 3.

First, the WMSC 300 manages a circuit-switched connection with a mobile communication switch supporting a mobile communication service in a circuit-switched network, and performs mobility such as location update, location registration, and paging. In addition to management, it is responsible for the security of data.

The backup WMSC 302 is a switch additionally provided to continuously perform an operation performed by the WMSC 300 until the recovery of the failed WMSC 300 when the failure occurs in the currently operating WMSC 300. When switching to RNC (306, 308, 310, 312) due to WMSC 300 failure, ISG and MSG group's own signal point (OSP) value for connection with RNC (306, 308, 310, 312) failed. RNC 306, 308 using the same local signal point value of the ISG and MSG group of the previous WMSC 300, or using the local signal point value set equal to the preset local signal point value identical to all WMSCs. RNCs 306, 308, 310, and 312 are connected directly without changing the signal points of 310, 312, and so forth.

The W-RMS 304 transfers the ATM pass to the backup WMSC 302 in case of a failure of the WMSC 300 currently operating in connection with the RNC 306, 308, 310, 312 and the mobile communication through the backup WMSC 302. Allow the service to continue. At this time, in order for the mobile communication service to continue to be performed through the backup WMSC 302, the W-RMS 304 instructs the backup WMSC 302 to change the signal point so that the RNC 306, 308, The local signal point values of the ISG and the MSG group for the connection with 310 and 312 are changed to be the same as the local signal point values of the ISG and the MSG group of the previous WMSC 300 where the failure occurs.

On the other hand, as another embodiment of the present invention, all the WMSC (300, 302) and the RNC (306, 308, 310, 312) to the signal point change operation in the RNC (306, 308, 310, 312) The local signal point of the ISG and MSG group for the connection is set to be the same in all the transfers.

Accordingly, since the W-RMS 304 sets the local signal point value of the ISG and MSG group of the backup WMSC 302 to be the same as the local signal point value of the ISG and MSG group of the WMSC 300 currently operating, RNC (306, 308, 310) by controlling only the transfer operation of the ATM pass in the event of a failure of the WMSC 300, without commanding any signal point change operation to the backup WMSC (302) and RNC (306, 308, 310, 312) 312 can be directly connected to the backup WMSC 302.

Radio Network Controllers (RNCs) 306, 308, 310, and 312 are directly connected to the core network, and function as an access point of a service to all services provided through the core network. do.

The base station (Node B) 314 serves as a physical layer and is responsible for transmitting and receiving data through a wireless interface. In addition, according to the control information transmitted from the RNC (306, 308, 310, 312) to set the radio physical channels required for data exchange, and converts the data transmitted from the upper protocol (protocol) to suit the wireless environment and transmits. The data received from the mobile communication terminal (user element: UE) 316 is transferred to the higher layer protocol of the RNC 306, 308, 310, or 312.

The mobile communication terminal 316 is a user interface device in which a service provided by a mobile communication network is implemented. The mobile communication terminal 316 supports a voice video call with the other party and supports a data service such as wireless Internet through a data network.

The Home Location Register (HLR) 320 is one of the external systems connected through the STP (Signaling Transfer Point) signal network. The home location register (HLR) 320 is connected to the WMSC (local signal point) of the PSG group for interworking with the external system of the WMSC (300). 300, and manages the status, statistics, and various service related information of the mobile subscriber, including the current location information of the mobile communication terminal 316.

SMSC (Short Message Service Center) 322 is one of the external systems connected through the STP signaling network is connected to the WMSC 300 through the local signal point of the PSG group for interworking with the external system of the WMSC 300, SMS message To the mobile communication terminal 316.

AuC (Authentication Center) 318 is one of the external systems connected via the STP signaling network is connected to the WMSC 300 through the local signal point of the PSG group for interworking with the external system of the WMSC 300, the mobile communication network It supports authentication of subscriber and encryption function for wireless call interval. That is, the authentication algorithm is defined by managing the telephone number, terminal serial number, authentication key, etc. for the subscriber in its own database for authentication and encryption.

The CGS (Cellular Gateway Switch) 324 is one of the external systems connected through the STP signaling network and is connected to the WMSC 300 through a local signal point of the PSG group for interworking with the external system of the WMSC 300. It is connected to a number of wired / wireless exchanges to perform call processing.

4 is a diagram illustrating a service recovery concept by changing local signaling points of ISG and MSG groups connected to RNCs 306, 308, 310, and 312 in a backup WMSC 302 according to an embodiment of the present invention. In the following description, a case where two RNCs 306 and 308 are connected will be described as an example.

Referring to FIG. 4 above, the backup WMSC 302 includes a Media Gateway Controller (MGC) 400 and a Media GateWays (MGW) 402, and backups when an exchange transfer command is received from the W-RMS 304. The MGC 400 of the WMSC 302 converts the local signaling point value of the ISG group on the IISU, which is connected to the Radio Access Network Application Part (RANAP) signal link of the RNC 306, 308, to the station signaling point of the RNC. Change the local signal point value of the previous WMSC to match.

That is, as shown in FIG. 4, the RNC 306 connected to the RANAP signal link in the ISG group on the I / O Interface for lu by STM-1 board unit (IISU) 406 of the MGC 400. 308F, the MGC 400 changes the local signaling point of the ISG connected with the RANAP signaling link of the RNC 306, 308 on the IISU 406 from 278F to 268F.

In this case, the MGC 408 may set its own signaling point for connection between the STP signal network and the RNC 306 and 308, respectively, and thus, an external network matching unit I connected to the STP (Signaling Transfer Point) signal network. On the / O Interface for ss7 by E1 / ATM-E1 board unit (ISEU) (404), the local signal point of the PSG group is maintained at 278F without changing due to switchover, and the MGC matching unit (I On the / O Interface for Mc by STM-1 board unit (IMSU) 408, the MSG group's local signal point value is also maintained at 278F.

Subsequently, the MGW 402 converts its own signaling point of the MSG group on the IMSU 408, which is connected to the Access Link Control Application Protocol (ALCAP) signaling link of the RNC 306, 308, with the counter signal point of the RNC 306, 308. It changes the local signal point value of the previous WMSC 300 to be matched.

That is, as shown in Figure 4, the RNC (306, 308) connected to the ALCAP signal link in the MSG group on the MGW matching interface (MGW Mc Interface by STM-1 board unit: MMSU) 410 of the MGW 402 Since the station signal point of 2690 is the MGW 402, the MGW 402 changes its own signal point in the MSG group connected to the ALCAP signal link of the RNC 306, 308 on the MMSU 410 from 2790 to 2690.

FIG. 5 is a diagram illustrating multi-station signal points of multiple ISG and MSG groups connected to an RNC 306, 308, 310, and 312 in a backup WMSC 302 according to an embodiment of the present invention. A service recovery concept using an own signal point is illustrated. In the description of the present invention, a case in which two RNCs 306 and 308 are connected will be described as an example.

In the above description of the embodiment of FIG. 5, it is assumed that all commercial WMSCs 300 connected to the RNCs 306 and 308 and local signal points of the ISG and MSG groups of the backup WMSCs 302 are set to the same value. The switchover operation at 302 will be described.

First, as described above, when all commercial WMSCs 300 have the same local signal point values for connecting with the RNCs 306 and 308, the backup WMSCs 302 also prepare for the switching due to the failure of the commercial WMSCs 300. The same local signal point value as the commercial WMSC 300 is set in advance for the RNCs 306 and 308.

That is, as shown in FIG. 5, the local signal point of the ISG group on the IISU 406 connected to the RANAP signal link R1 of the RNC 306, 308 in the MGC 400 of the backup WMSC 302 is connected to the RNC ( Pre-set to 268F, which can be matched directly with 306, 308, the MGC 400 receives the pre-configured previous commercial WMSC in the ISG group on IISU 406 when an exchange transfer command from W-RMS 304 is received. The local signal point having the same value as that of 300 is directly connected to the RNCs 306 and 308 through the RANAP signal link R1.

In addition, the local signal point of the MSG group on the MMSU 502 connected to the ALCAP signal link A1 of the RNC 306, 308 in the MGW 500 of the backup WMSC 302 may be directly matched with the RNC 306, 308. Pre-set to a value of 2690, which is set equally on all exchanges, so that when an exchange transfer command from the W-RMS 304 is received, the MGW 500 will display all the preset presets in the MSG group on the MMSU 502. It connects directly to the RNC 306, 308 via the ALCAP signaling link A1 using the local signal point of the same value on the exchange.

At this time, in the embodiment of FIG. 5, the MMSU 502 of the MGW 500, which is connected to the RNC 306 and 308 through the ALCAP signal link A1, is connected to the RNC 306 and 308 by the local signal point and the MGC. It is possible to have its own signaling point for connection with IMSU 408 of 400 at different values in the MSG group. That is, 2790, which is the power point value of the MSG group on the MMSU 502 of the MGW 500 that matches the local signal point value 278F of the MSG group on the IMSU 408 of the MGC 400, is set to the ALCAP of the RNC 306, 308. By not changing to the 2690 value for the connection to the signal link A1, and maintaining the same value as the 2709 value, service interworking of the BICC (Bearer Independent Call Control), MEGACO (MEGACO), MTRU, etc. becomes possible. .

Accordingly, the time required for the switchover can be significantly reduced by not having to perform the power point change operation for the connection from the RNC 306 and 308 to the backup WMSC 302 due to the switchover.

6 illustrates a SGSN recovery concept in a packet network of a WCDMA mobile communication system according to an embodiment of the present invention, and all commercial SGSNs 600 and backup SGSNs 602 connected to RNCs 306, 308, 310, and 312 are illustrated in FIG. The switchover operation in the backup SGSN 602 will be described on the assumption that the local signaling point of the ISG group of the UE is set to the same value. In the following description of an embodiment of the present invention, a case in which one RNC 306 is connected will be described as an example.

First, as described above, when all SGSNs 600 and 602 of the packing network have the same local signal point values for connecting with the RNC 306, the backup SGSN 602 is also switched due to the failure of the commercial SGSN 600. In preparation for the RNC 306, the same local signal point value as the commercial SGSN 600 is set in advance.

That is, as shown in FIG. 6, the local signal point of the ISG group connected with the RANAP signal link R1 of the RNC 306 in the backup SGSN 602 to perform the switching according to the failure of the commercial SGSN 600. Preset to H'2620, which can be directly matched with 306, when a switchover command from W-RMS 304 is received, a national signal of the same value as the previous commercial SGSN 600 preset to the ISG group. Connect to the RNC 306 directly through the RANAP signal link (R1) using the point.

At this time, both the commercial SGSN 600 and the backup SGSN 602 can set their own signaling points for connection with the STP signaling network and the RNC 306, respectively. 322), the local signal point of the PSG group for access to SCP (323), HLR 320, CGS (324), etc. without changing to the H'2620, PSG group local signal point value of the previous commercial SGSN (600) Keep H'2791, the local signal point value that was set.

On the other hand, in the SGSN (600, 602), unlike the WMSC (300, 302) of the circuit switched network, the RNC 306 is connected only through the SGSN (602, 602) and the RANAP signal link (R1), and connected through the ALCAP signal link Since the ISG group local signal point values of the SGSNs 600 and 602 connected to the RANAP signal link R1 of the RNC 306 are transferred to all the SGSNs 600 and 602 in advance, the same local signal point values are identical. By setting, the RNC 306 can be connected immediately upon receiving the switchover command.

As described above, in the present invention, in the service recovery using a backup exchange when a switch failure occurs in a mobile communication system, the PSG group marks for interworking with an external system connected to an STP network when switching to a backup switch according to a switch failure. Separate the ISG and MSG group's own signal point for interworking with the signaling point and set the RNC, and change the own signal point of the ISG and MSG group connected to the RNC to be the same as the own signal point of the previous commercial exchange. By setting in advance, it is possible to drastically reduce the switchover time by eliminating the need to change the signal point of the exchange for the exchange that had to be performed at each RNC. In addition, such a quick service recovery can increase the user's service satisfaction.

While the invention has been shown and described with reference to certain preferred 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. Accordingly, the scope of the invention should not be limited by the described embodiments but should be defined by the appended claims.

As described above, in the present invention, in the service recovery using the backup exchange when the exchange failure occurs in the mobile communication system, the switching time of the exchange is greatly reduced by eliminating the need for changing the signal point for the exchange that had to be performed at each RNC. In addition, it is possible to increase the service satisfaction of the user through the rapid service recovery as described above, which is suitable for activating a mobile communication service.

1 is a conceptual diagram of a service recovery in a conventional mobile communication system;

2 is a diagram illustrating an exchange switching process for recovering a conventional mobile communication service;

3 is a conceptual diagram of a service recovery in a mobile communication system according to an embodiment of the present invention;

4 is a conceptual diagram illustrating a detailed operation inside a backup exchange for service recovery according to an embodiment of the present invention;

5 is a conceptual diagram illustrating a detailed operation inside a backup exchange for service recovery according to another embodiment of the present invention;

6 is a detailed operation conceptual diagram inside SGSN for service recovery in a packet network according to another embodiment of the present invention.

<Brief description of the major symbols in the drawings>

300: WMSC 302: Backup WMSC

304: W-RMS 306, 308, 310, 312: RNC

314: Node B 316: UE

318: AuC 320: HLR

322 SMSC 324 CGS

Claims (18)

As a cellular backup exchange, Each station has its own signal point for connection between STP (Signaling Transfer Point) signal network and RNC (Radio Network Controller) and recalls its own signal point for connection with RNC when switching to RNC due to the failure of commercial exchange. A MGC (Media Gateway Controller) for changing to a first local station signaling point of the commercial exchange that matches the station signaling point of the RNC, MGW (Media GateWay) for connecting to the RNC by changing a local signal point connected to the RNC under the control of the MGC to a second local signal point of the commercial exchange that matches the station signal point of the RNC. Mobile communication backup switch comprising a. The method of claim 1, The MGC, An external network matching unit connected to the STP signal network as a local signal point having a value different from that of the local signal point for the RNC; An RNC matching unit for connecting with the RNC by changing a local signal point for connection with the RNC to the first local signal point of the commercial exchange when the RNC is connected. Mobile communication backup switch comprising a. The method of claim 2, The RNC matching unit, And a RANAP signal link of the RNC. The method of claim 2, The MGW, And a MGW matcher coupled to the ALCAP signal link of the RNC. The method of claim 4, wherein The MGW matching unit, And when connected with the RNC, the local station signaling point for the connection with the RNC is changed to a second local station signal point of the commercial switching station that has been matched with the ALCAP signal link and connected with the RNC. As a cellular backup exchange, The commercial exchange breaker has a different local station signal point for connection with the STP signaling network and the RNC, and the local station signal point for connection with the RNC is set to the first local station signal point set in common to all commercial exchanges, MGC connected to the RNC when switching according to, MGW connecting with the RNC by setting a local station signal point to be connected to the RNC under the control of the MGC as a second local station signal point which is commonly set to the commercial exchange. Mobile communication backup switch comprising a. The method of claim 6, The MGC, An external network matching unit connected to the STP signal network as a local signal point having a value different from that of the local signal point for the RNC; An RNC matching unit for connecting with the RNC by setting a local station signal point for connection with the RNC as a first local station signal point commonly set in the commercial exchange when the RNC is connected to the RNC; MGC matching unit that connects to the MGW at the same local signal point as the external network matching unit Mobile communication backup switch comprising a. The method of claim 7, wherein The RNC matching unit, And a RANAP signal link of the RNC. The method of claim 7, wherein The MGW, And a MGW matcher coupled to the ALCAP signal link of the RNC. The method of claim 9, The MGW matching unit, And a second local signal point of the commercial switch that matches the ALCAP signal link when connecting to the RNC. The method of claim 9, The MGW matching unit, And the MGC matching unit is connected to the MGC matching unit by a local station signal point having a value different from the second local station signal point when the MGC is connected to the MGC. A mobile communication service recovery device, A backup exchange switch which connects to the RNC by changing a local signal point set in the RNC to a local signal point of the commercial exchange that matches the country signal point of the RNC when the switching of the commercial exchange interoperating with the RNC occurs; W-RMS for performing switching switching to connect the RNC to the backup exchange changed to the same local signal point as the local exchange when the commercial exchange fails. Mobile communication service recovery apparatus comprising a. A mobile communication service recovery device, A backup exchange switch that connects to the RNC using the same local signal point when switching due to a failure of the commercial exchange by setting the same local signal point set in common on all commercial exchanges that interoperate with the RNC; A W-RMS for performing switching switching to connect the RNC to the backup exchange having the same local signaling point as the commercial exchange upon failure of the commercial exchange. Mobile communication service recovery apparatus comprising a. The method according to claim 12 or 13, The backup exchanger, Mobile communication service recovery apparatus, characterized in that each has a different station signal point for the connection between the STP signaling network and the RNC. The method of claim 14, The backup exchanger, A mobile communication service recovery apparatus, characterized in that the circuit network switch or packet network switch. As a mobile service recovery method, Setting up different local signal points for the connection between the STP signaling network and the RNC on the exchange; Changing a local signal point of the backup exchange to a local signal point of the failed exchange that matches the counter signal point of the RNC when switching to a backup exchange resulting from the failure of the exchange; Connecting the RNC to the backup exchange using the modified local signaling point Mobile communication service recovery method comprising a. As a mobile service recovery method, Setting up different local signal points for the connection between the STP signaling network and the RNC on the exchange; Setting a local signal point for connection with the RNC to the same value common to the exchange to which the RNC is connected; Connecting the RNC to the backup exchange using the same local signal point when switching to a backup exchange resulting from the failure of the exchange. Mobile communication service recovery method comprising a. 18. The method according to claim 16 or 17, The local signal point for connection with the RNC, And a first local signal point that matches the RANAP signal link of the RNC and a second local signal point that matches the ALCAP signal link of the RNC.

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