KR100286539B1 - Method for managing of duplicate no.7 processor in mobile communication exchange - Google Patents

Abstract

PURPOSE: A duplex number 7 processor management method for a mobile communication exchange is provided to manage stably and reliably the duplex constitution of the No.7 processor for processing and managing No.7 signal system. CONSTITUTION: A processor(21) controls wholly No.7 communication protocol operations of MSHP(Mobile Signaling Handling Processor). IGCAs(Integrated Global Communication board Assembly)(22,23) are comprised of duplex for processing IPC(Inter Process Communication). SSPA(Signaling System Process board Assembly)s(24,25) are comprised of duplex for performing duplex No.7 processing operations of MSHP. SSFA(Signaling System level 2 Function board Assembly)s(26,27) are comprised of duplex for processing level 2 as a signal link of No.7 communication protocol. An IPC communication unit(28) is connected to the IGCA(22,23)s for performing IPC communication to a control station. A No.7 L2 processing unit(29) is connected to the SSFA(26,27)s for performing No.7 L2 communication to the control station.

Description

Number of managing of duplicate no.7 processor in mobile communication exchange}

The present invention relates to a mobile communication exchange, and more particularly, to a method for stably and reliably managing a duplex configuration of a No.7 processor for processing and managing No.7 signaling, a communication protocol between an exchange and a control station.

In general, a mobile communication system is a communication system for a mobile device such as a person, a car, a ship, a train, an aircraft, and includes a personal communication system (PCS) system and a digital cellular system (DCS). A digital trunked radio system (DTRS) is used.

1 is a block diagram of a conventional mobile communication system.

As shown therein, a switch 1 performing an exchange function to perform a mobile communication service; A control station (2) connected to the exchanger (1) in an inter process communication (IPC) manner to control signal processing between the exchanger and the base station (3); The base station 3 is configured to transmit a call transfer request from the control station 2 to the terminal, receive a call processing request from the terminal, and transmit the call processing request to the control station 2.

In the conventional mobile communication system configured as described above, when the subscriber intends to use the mobile communication service while having the subscriber station within the service radius of the base station 3, the switch 1 is located under the control of the control station 2. The mobile phone service was operated to perform voice / fax information service or to connect with other communication networks according to the request of the terminal.

Here, the matching between the switch 1 and the control station 2 was performed by the IPC communication method. However, as the amount of signals increased, the communication protocol between the switch 1 and the control station 2 was replaced by the No. 7 method. Therefore, if one of the signal processings of No. 7 goes down, the other side should be able to process the next.

However, the No. 7 processor of the conventional mobile communication exchange has not been redundantly processed by load sharing multiplexing. Therefore, when the processor is down, the signals at the time of down are lost, and the subsequent signal causes the other processor to proceed, thereby degrading the stability and reliability of the system.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to provide a redundant configuration of a No. 7 processor that processes and manages No. 7 signaling, which is a communication protocol between an exchange and a control station. The purpose of the present invention is to provide a management method of a redundant number 7 processor of a mobile communication switch, which can be stably and reliably managed.

In order to achieve the above object, the redundant number of the mobile communication switch according to the present invention.

An initialization step of generating an interrupt to SSPA A and SSPA B to notify the alive / down state, and identifying the state; A failure processing step of detecting a down interrupt type of the failed SSPA A or SSPA B and changing the states of SSPA A and SSPA B to down when the failure occurs in the SSPA A or SSPA B; When the SSPA A and SSPA B is restored, the technical configuration is characterized by a recovery processing step of detecting the recovery interrupt of the SSPA A, SSPA B through the redundant channel and changing the state of the SSPA A, SSPA B to alive.

1 is a block diagram of a conventional mobile communication system,

2 is a block diagram of a mobile communication system to which the present invention is applied;

3 is a detailed block diagram of the MSHP in FIG.

4 is a flowchart illustrating a management method of a redundant number 7 processor of a mobile communication switch according to the present invention;

<Explanation of symbols for main parts of drawing>

21: Processor 22, 23: IGCA

24, 25: SSPA 26, 27: SSFA

28: IPC communication unit 29: No.7 L2 processing unit

DETAILED DESCRIPTION OF THE EMBODIMENTS Hereinafter, an embodiment according to the technical idea of the method for managing a redundant number 7 processor of the present invention configured as described above will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a mobile communication system to which the present invention is applied.

As shown therein, the No. 7 signal matching unit is provided with a No. 7 signaling system which processes and manages No. 7 signaling, which is a communication protocol between the exchange and the control station 30, and has a mobile signaling handling processor (MSHP) 20, which is a signal processing processor. 10; A control station 30 connected to the No. 7 signal matching unit 10 in a No. 7 manner to control signal processing between the switch 10 and the base station 40; And a base station 40 which transmits a call transfer request of the control station 30 to the terminal, receives a call processing request of the terminal, and transmits the call processing request to the control station 30.

In the mobile communication system configured as described above, when the subscriber intends to use the mobile communication service while having the subscriber's own terminal within the service radius of the base station 40, the No. 7 signal matching unit 10 of the exchange uses the No. 7 communication protocol. By communicating with the control station 30, the exchange determines the location of the terminal and performs a voice / fax information service according to the request of the terminal or connects with another communication network to perform a mobile communication service.

3 is a detailed block diagram of an MSHP in a mobile communication system to which the present invention of FIG. 2 is applied.

As shown therein, a processor 21 for controlling overall operation of the No. 7 communication protocol of the MSHP 20; An integrated global communication board assembly (IGCA) 22, 23 configured to be redundant to handle IPC communication; A signaling system process board assembly (SSPA) 24, 25 configured to be redundant to perform the duplication No. 7 processing operation of the MSHP 20; A signaling system level 2 function board assembly (SSFA) 26 (27), which is configured to be redundant and processes Level 2 (L2, Level 2) which is a signal link function of the No. 7 communication protocol; An IPC communication unit 28 connected to the IGCA 22 and 23 to perform IPC communication with the control station 30; And a No. 7 L2 processing unit 29 connected to the SSFA 26 and 27 to perform No. 7 L2 communication with the control station 30.

Here, No.7 signaling is developed for use in digital communication network and integrated services digital network (ISDN), and is hierarchically modularized, and also common network signaling and intelligent network that contributes to special services. Can be used for It is easy to improve reliability by providing rich signal capacity, high speed transmission, error detection and correction, and provide other new services (Closed User Group, credit call, wide area incoming service, etc.). Levels 1 to 3 provide network layer services, and use MTP (Message Transfer Part) to control the physical routing and error detection, correction of signal transmission errors, or route routing of signals, And carries a signal for ISDN. Level 1 (L1) operates as a signal data link unit, L2 as a signal link function unit, and L3 as a signal network function unit.

As such, the present invention is applied to the MSHP 20 by implementing processor redundancy processing in a Signaling Processor Operating System (SPOS), which is an operating system of a block that processes a No. 7 message.

Thus, in the redundant processing method according to the present invention, two processor boards normally handle signals with load sharing, and when the processor is down due to one of the failures, the other side detects the hardware interrupt, and determines By doing so, the application is notified of the other processor's downtime so that the live processor can handle all loads continuously.

4 is a flowchart illustrating a management method of a redundant number 7 processor of a mobile communication switch according to the present invention.

As shown therein, an initialization step (ST1) of generating an interrupt to SSPA A and SSPA B to notify the live / down state and the SSPA A and SSPA B to grasp the state based on the received information; A failure processing step (ST2-ST4) of detecting a down interrupt type of the failed SSPA A or SSPA B and changing the states of SSPA A and SSPA B to down when a failure occurs in the SSPA A or SSPA B; When the SSPA A and the SSPA B are restored, a recovery processing step (ST5 to ST8) detects a recovery interrupt of the counterpart processor through the redundant channel and changes the states of the SSPA A and SSPA B to Alive.

Therefore, in the initial stage (ST1), when SSPA A and SSPA B survive, the other party is notified through the S-channel (Serial channel), which is a surviving channel, and the other party detects the situation when it is alive and at the same time, Notifies that S-Channel is alive If there is no response, the other side is determined to be in the down state. This allows each processor to see the other processor's state.

If a failure occurs in the SSPA 24 of the A side (SSPA A) in the failure processing steps ST2 through ST4, an interrupt of the MFP (Multi Function Peripheral) is generated. At this time, the SPOS initializes to enable interrupt for the GPFP (General Purpose Input / Output Port) of the MFP so that a hardware interrupt is detected during the initialization process. The MFP GPIP ports for each fault are as follows.

MFP1 GPIP 6: Opposing AC Fail

GPIP 4: Opponent SYS error

GPIP 2: Opponent IGCA error

MFP2 GPIP 3: Opponent POWER Error

GPIP 0: Delete opponent's SSPA

Thus, SSPA 25, the B side (SSPA B) processor, detects the type of down interrupt of the A side processor, the counterpart processor. The down interrupt types are as follows. That is, AC fail, Power fail, SYS fail, IGCA fail, SSPA delete. Accordingly, when the above kind of situation occurs in the opposite processor, the hardware detects it and generates an interrupt using the MFP interrupt port of the SSPA 25, and the SPOS detects this to detect the down state of the other processor. do.

When such an interrupt occurs, it detects the SPOS, displays the fact that the other side is down, notifies the application program to enable continuous service, and processes the information about the counterpart processor in the SPOS as down. .

In case of recovery in the recovery process (ST5-ST8) again, the detection is performed in the same way as when it is down (bit setting is different), the fact of recovery of the partner processor is displayed, and notification by the redundant channel S-channel. By receiving, the information about the other processor is treated as live.

As described above, the present invention is to stably and reliably manage the duplex configuration of the No.7 processor which processes and manages No.7 signaling, which is a communication protocol between the exchange and the control station.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the duplication number of the mobile communication switch according to the present invention.7 The processor management method is that when one processor is down, the other processor is capable of continuous signal processing, so that a large amount of signals are processed, and signal processing. There is an effect of improving the stability of.

Claims (3)

In the method of managing a processor, the duplication number of a mobile communication switch having SSPA (Signaalling System Process board Assembly) A, SSPA B, An initialization step of generating an interrupt to the SSPA A and the SSPA B to notify the alive / down state and identifying the state; A failure processing step of detecting a down interrupt type of the failed SSPA A or SSPA B and changing the states of SSPA A and SSPA B to down when the failure occurs in the SSPA A or SSPA B; When the SSPA A, SSPA B is restored, the duplication of the mobile communication switch comprising a recovery processing step of detecting the recovery interrupt of the SSPA A, SSPA B through the redundant channel and changing the state of the SSPA A, SSPA B to Alive No. 7 How to manage the processor. The method of claim 1, wherein the fault processing step, When an interrupt occurs, the operating system of SSPA A and SSPA B, the No. 7 processor, detects the MFP, displays the fact that the SSPA A and SSPA B are down, and notifies the application to enable continuous service. 7. The duplication number of the mobile communication switch, characterized in that the processing down to the information about SSPA A, SSPA B in the operating system. The method of claim 1, wherein the recovery processing step, When an interrupt occurs, the operating system of SSPA A and SSPA B, the No. 7 processor, detects the MFP, displays the recovery of the SSPA A and SSPA B, and notifies the application to the continuous service. And duplication number of the mobile communication switch, wherein the information on the SSPA A and the SSPA B in the operating system is recovered.