KR100208267B1 - Method for outputing status of ipc node in the switching system - Google Patents

Abstract

The present invention relates to a method for outputting a state of an interprocessor communication node in which an operator analyzes and outputs a state in consideration of an interprocessor communication node expanded in an exchange when an operator requests an interprocessor communication node state output. It is about. To this end, this method grasps the maximum number of ASSs installed in the exchange, and uses the information and system configuration information in the exchange to determine the number of messages that should be received when checking the status of inter-processor communication nodes. And calculating and outputting the inter-processor communication node state information using the calculated number of messages.

Description

Status output method of interprocessor communication node in exchange

The present invention relates to a method of outputting the state of inter-processor communication (hereinafter referred to as IPC (Inter-Processor Communication)) node in an exchange, and in particular, an IPC node capable of checking and outputting an IPC node state regardless of the expansion of the IPC node. The state output method.

Existing exchanges, when required to output the IPC node status from the operator, the central system status control (hereinafter abbreviated as System Status Control Block (SSC)) mounted on the operation maintenance processor (hereinafter referred to as OMP (Operation Maintenance Processor)) and central The status of the IPC node is checked by sending and receiving messages between communication control processors (hereinafter referred to as CIP (Control Interworking Processor)) provided in the inter-processor communication unit (hereinafter referred to as CIPCU (Central Control Subsystem IPCU)). The results were output to the operator.

However, when outputting the status of an IPC node at the request of the operator as described above, however, the SSC is configured to operate by fixing the maximum number of nodes that can check the status. Every time there was a lot of expansion, it was a hassle to update the status output program of the IPC node loaded in the SSC.

Accordingly, an object of the present invention is to provide a state of an interprocessor communication node in which an operator analyzes and outputs a state in consideration of an interprocessor communication node in which a system state control unit has been expanded in an exchange. To provide an output method.

The method according to the present invention for achieving the above object is a communication control processor (CIP) provided in the communication unit (CIPCU) between the system state control unit (SSC) and the central processor provided in the operation maintenance processor (OMP) at the exchanger. A method for outputting an interprocessor communication (IPC) node state using a), the method comprising: identifying a maximum number of subscriber matching boards (ASS) mounted in an exchange when an interprocessor communication node state output is requested from an operator; Calculating the number of received messages to be received from the communication control processor in consideration of the identified maximum number of subscriber matching boards and the system configuration in the exchange; when the calculation is completed, requesting the state of the inter-processor communication node to the communication control processor. If the message is received from the communication control processor on request, increasing the number of received messages; comparing the increased number in the increasing step with the number of received messages calculated in the calculating step; Analyzing and storing the inter-processor communication node information received from the communication control processor if the number of messages to be received is not greater than the increased number as a result of the comparison; After performing the storing step, returning to the increasing step; if the number of received messages is greater than the increased number, formatting and outputting the stored inter-processor communication node information in the storing step.

1 is a functional block diagram of a personal mobile communication switch for performing a state output method of an interprocessor communication node according to the present invention.

FIG. 2 is a block diagram of an interprocessor communication node existing in the central control system (CIPCU) of FIG.

3 is a flowchart illustrating a method for outputting an interprocessor communication node state according to the present invention.

Explanation of symbols for main parts of the drawings

100: Operator Terminal 110: Man Machine Processor (MMP)

120: operation maintenance processor (OMP) 121: system status control unit (SSC)

230: Central processor-to-processor communication unit (CIPCU) 231: Communication control processor (CIP)

The above and other objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram in an exchange for performing a method of outputting a state of an interprocessor communication node according to the present invention, and is an example of application to a personal mobile communication exchange.

Referring to FIG. 1, an operator terminal 100, an operation maintenance processor 120 (hereinafter referred to as an operation maintenance processor (OPM)) that performs an operation maintenance function of an exchanger, and an operator terminal 100 between an OMP 120. Man Machine Processor (110, hereinafter abbreviated as MMP (Man Machine Processor)) that performs information transmission processing, Inter-Central Communication Unit (130, hereinafter called Central Control Subsystem), which acts as a communication network between all IPC units operating in the exchange. IPCU).

The OMP 120 is configured to include a system status control unit 121 (also referred to as a System SSC (Status Control Block)) for outputting the status of the IPC node according to the present invention. CIPCU 130 is configured to include a communication control processor (131, hereinafter referred to as Control Interworking Processor (CIP)) to control and manage the nodes of the IPCU, the IPCU node that can be managed by the CIP 131 is a personal mobile communication exchange 2, the number translation processor (250, generally referred to as NTP), the location register processor (260, generally referred to as LRP), the central control system (200, generally referred to as CCS), Network subsystem 220 (abbreviated INS generally), nodes or gateways (GW) of subscribers or boards (270, generally abbreviated ASS #) for subscriber or trunk or base station matching.

3 is a flowchart illustrating a state output method of an inter-processor communication node in an exchange according to the present invention.

The operation of the flowchart shown in FIG. 3 will now be described in detail with reference to FIG. 1.

When the operator applies the IPC node status output command through the operator terminal 110 in step 300, the operator transmits the command to the SSC 121 in the OMP 120 via the MMP 110.

The SSC 121 proceeds to step 302 via step 301 when the transmitted command is a status output request of the IPC node held in the CIPCU 130. In step 302, the SSC 121 grasps the maximum mounting information of the subscriber registration board (ASS) currently mounted in the exchange. This is because the node of the subscriber registration board (ASS) is configured last in the structure of the CIPCU 130, so as to determine the maximum mounting information described above using the subscriber registration board (ASS) information mounted last.

In step 303, the number of messages to be received from the CIP 131 is calculated using the maximum mounting information of the ASS determined in step 302. In this case, since the CIP 131 transmits up to eight node (or GW) information to the SSC 121 at a time according to the system shape, the SSC 121 always uses the CIP 131 according to the system shape. The number of received messages to be received must be calculated. That is, the number of received messages is calculated in consideration of the number of boards and ASS basically provided in the exchange.

When the above-described calculation is completed, the SSC 121 proceeds to step 304 and requests the CIP 131 for status information of nodes of the CIPCU 130. After the request, if the message is not received from the CIP 131, the process proceeds to step 305, step 306, and the SSC 121 outputs a No Response message to the operator terminal 100 and ends the operation.

However, if a message is received from the CIP 131 after the request, the process proceeds to step 305 to step 307 where the SSC 121 increases the number of received messages, and proceeds to step 308 to increase the number of received messages and the first message. The number of received messages calculated in step 303 is compared. As a result of the comparison, if the number of messages to be received is not greater than the number of received messages, there is still a message to be received. Therefore, the flow proceeds to step 309 to analyze IPC node state information transmitted from the CIP 131, and not shown IPC node information. After storing in the table, the flow returns to step 305.

However, as a result of the comparison in step 308, if the number of messages to be received is greater than the number of received messages, the SSC 121 proceeds from step 308 to step 310 and proceeds to step 309. After formatting the IPC node state information stored in the above-described IPC node information table, the IPC node state information formatted in step 311 is output and the operation ends.

The IPC node status information output from the SSC 121 is transmitted to the operator through the operator terminal 100 via the MMP (110).

As described above, according to the present invention, when the operator requests the status output of the IPC node, the IPC node is expanded by checking and outputting the status of the IPC node using a value obtained by grasping the number of IPC nodes currently provided in the exchange. Even if the IPC node status output program is not updated on the system status controller, the IPC node status can be accurately identified.

Claims (2)

In the exchange, the processor is controlled by using the communication control processor (CIP) 131 provided in the communication unit (CIPCU, 130) between the system state control unit (SSC) 121 and the central processor provided in the operation maintenance processor (OMP) 120. In a method for outputting an IPC node status, When the inter-processor communication node status output is requested from an operator, determining a maximum number of subscriber matching boards (ASS) mounted at the exchange; Calculating the number of received messages to be received from the communication control processor (131) in consideration of the identified maximum number of subscriber registration boards and the system shape in the exchange; Requesting a state of an interprocessor communication node to the communication control processor 131 when the calculation is completed; If the message is received from the communication control processor (131) by the request, increasing the number of received messages; Comparing the number increased in the increasing step with the number of received messages calculated in the calculating step; Analyzing and storing interprocessor communication node information received from the communication control processor 131 if the number of received messages is not greater than the increased number as a result of the comparison; After performing the storing step, returning to the increasing step; As a result of the comparison, if the number of messages to be received is greater than the increased number, formatting and outputting the inter-processor communication node information stored in the storing step; Output method. The method of claim 1, And wherein said determining step identifies the maximum number of subscriber matching boards by using information on the subscriber matching boards last mounted in the switch.