KR100277840B1 - How to deal with failures of personal mobile switching centers - Google Patents

Abstract

The present invention relates to a failure handling method of a personal mobile communication exchange for promptly responding to a failure of any one of the redundant signal message handling processors (SMHPs) in a subsystem of the personal mobile communication exchange. In the prior art, when a message for requesting a call processing is sent to each of the redundant SMHPs in the No.7 subsystem, the operating system sends a message for the call processing twice so that each of the duplicated SMHPs is received. In addition to longer message transmission times, each of the redundant SMHPs had to receive and process messages that did not apply to them. Accordingly, in the present invention, when the user wants to send a message for a call processing request to the SMHP in the subsystem No. 7 according to the request of the user part 24, the operating system normally operates the message for the call processing request. By sending only one time to the corresponding SMHP, the message transmission time is shortened and the normally operated SMHP receives and processes only the message corresponding to itself, thereby reducing the load and improving the performance of the overall system, thereby improving the above-mentioned defects. will be.

Description

How to deal with failures of personal mobile switching centers

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a failure handling method of a personal handheld telecommunications exchange, and in particular, to promptly respond to a failure of any one of the redundant signal message handling processors (SMHPs) in a subsystem of the personal handheld telecommunications exchange. The present invention relates to a failure handling method of a personal mobile communication switch.

In this regard, the No. 7 subsystem (Access Switching Subsystem-No. 7; ASS-7) and the trunk subsystem (Access Switching Subsystem-Trunk; ASS-T) of the TDX-10PCX personal mobile communication exchange according to the related art. In this case, the user part for switching between subscribers in the trunk subsystem requests call processing to each of the redundant SMHPs in the No.7 subsystem through IPC (Inter Processor Communication) to handle the call with the power. When sending a message for the operating system (Operating System (OS)) transmits a message for the call processing request to each of the duplicated SMHP each over the IPC twice.

However, in this conventional technique, when a message for requesting a call is sent to each of the duplicated SMHPs in the No. 7 subsystem, the operating system sends a message for the call processing twice to each of the duplicated SMHPs. In addition to the long message transmission time, each of the redundant SMHPs had to receive and process a message that was not applicable to them.

The present invention has been made to remedy the above-described drawbacks, and when an operating system wishes to send a message for a call processing request to a redundant SMHP in the No. 7 subsystem of a TDX-10PCX personal mobile communication exchange, the operating system requests the call processing request. It is an object of the present invention to provide a method for handling a failure of a personal mobile communication switch that transmits a message for a SMHP to the corresponding SMHP once.

The present invention for achieving the above object comprises: a No.7 subsystem, which consists of a SMHP, a first storage unit, and an internal network management unit redundantly monitoring each other's failures; A personal handheld communication switch comprising a trunk subsystem consisting of a transmission unit, a second storage unit, and a user part to process a call with a large power station: a system that operates normally when one of the redundant SMHPs fails. Transmitting a failure detection signal from an SMHP to the internal network management unit, and updating the SMHP address for a power station for each signal point stored in accordance with the failure detection signal from the internal network management unit; And applying a failure detection signal of the internal network manager to the second storage unit through the transmitter to update the SMHP address for the power station for each signal point in which the second storage unit is stored. Using the SMHP address for the power point for each signal point updated in the second storage unit Including the SMHP and communicating that normally drive characterized by comprising.

1 is a block diagram showing a subsystem for hardware description of a failure handling method of a personal communication switch according to the present invention;

FIG. 2 is a flowchart illustrating, in stages, an embodiment of a method for handling a failure of a personal communication switch according to FIG. 1; FIG.

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

10: message processing unit 12: failure management unit

14: internal network management unit 16, 22: first and second storage unit

18: No.7 Subsystem 20: Transmission Unit

24: User Part 26: Trunk Subsystem

Hereinafter, the embodiment of the present invention as described in detail as follows.

1 is a block diagram showing a subsystem for hardware description of a failure handling method of a personal mobile communication switch according to the present invention, and FIG. 2 is a personal mobile communication switch according to the present invention, i.e. 1 is a flowchart showing step by step an embodiment of a method for handling a failure.

First, when a failure (for example, down) occurs in one of the SMHPs duplicated in the message processing unit 10 of the No. 7 subsystem 18, the counterpart SMHP monitors the failure and then fails. The failure detection signal is simultaneously delivered to the Fault Management (FLM) 12 and the Signaling No. 7 Internal Network Management (S7INM) 14.

Accordingly, the failure management unit 12 performs failure management, which is one of the functions of the main processor (MP), and the internal network management unit 14, the state information of SMHP, which is one of the functions of the peripheral processor (PP). Manage (30, 32).

Next, the first storage unit 16 updates the SMHP address for the power station for each signal point stored according to the failure detection signal from the internal network manager 14, and the internal network manager 14 trunks the failure detection signal. The second storage 22 is applied to the second storage 22 through the transmission unit (Signal No. 7 ReRouting Control (S7RRC) 20) in the subsystem 26, so that the second storage unit 22 stores Update the address (34).

Accordingly, the user part 24 communicates with the corresponding SMHP, that is, the SMPS on the side where the failure does not occur, by using the SMHP address of the power station for each signal point updated in the second storage unit 22, through the operating system. Send a message (36).

At this time, if the operating system wants to send a message for a call processing request to the SMHP in the No. 7 subsystem 18 according to the request of the user part 24, the operating system normally operates the message for the call processing request. Send only once to the SMHP.

As described above, when the user wants to send a message for a call processing request to the SMHP in the No. 7 subsystem 18 according to the request of the user part 24, the operating system sends a message for the call processing request. By sending only one time to the normal SMHP, the message transmission time is shortened and the normal SMHP receives and processes only the message corresponding to itself, thereby reducing the load and improving the performance of the overall system.

Claims (1)

A No. 7 subsystem, which consists of a SMHP, a first storage unit, and an internal network management unit, which are redundantly monitored to monitor each other's failures, using a No. 7 common line signaling method; In a personal handheld communication switch comprising a trunk subsystem consisting of a transmitter, a second storage, and a user part to handle calls with large powers: Transmitting a failure detection signal to the internal network management unit from another SMHP which normally operates when a failure occurs in any one of the redundant SMHPs; Updating, by the first storage unit, an SMHP address for a power station for each signal point stored according to a failure detection signal from the internal network manager; Applying an error detection signal of the internal network manager to the second storage unit through the transmitter to update an SMHP address for a power station for each signal point in which the second storage unit is stored; And the user part communicating with a corresponding SMHP normally driven using the SMHP address for the power point for each signal point updated in the second storage unit.