KR20010055214A - Method for reporting a transferred user message in a switching system - Google Patents

Abstract

PURPOSE: A method for verifying transmission of a user message in a switching system is provided to automatically notify an error in a message transmission by using a No. 7 signaling method to an operator, thereby providing the reliability and the convenience in operating the switching system. CONSTITUTION: A telephony processor confirms the corresponding firmware number by analyzing a user message transmitted from an MMC(Man and Machine Command) processing part and notifies the confirmed corresponding firmware number to the MMC processing part. If an error message is generated, the telephony processor notifies the error message result to the MMC processing part. The user message provided to the telephony processor is transmitted to a firmware. A firmware device analyzes the user message for confirming the corresponding signaling terminal number and notifying the corresponding signaling terminal number to the MMC processing part. If an error message is generated, the firmware device notifies the error message result to the MMC processing part.

Description

Method of verifying user message transmission in exchange system {METHOD FOR REPORTING A TRANSFERRED USER MESSAGE IN A SWITCHING SYSTEM}

The present invention relates to a method for verifying user messages of an exchange system, and more particularly, to a method for verifying user message transmission of an exchange system capable of confirming whether information transmission is successful in software.

When the exchange system performs the message transmission using the No. 7 signaling method from the host system to the counterpart system, it is essential to check the data managed in the system for the accurate transmission of the message.

In order to perform such a process, in a conventional exchange system, a terminal between each equipment is installed to directly check the link connection and information transmission between devices. In other words, a separate terminal is installed between the main processor (MP), the telephony processor (TP), the firmware (firmware: F / W), and the trunk in the exchange system to determine whether the signal transmission was successful. Was confirmed in hardware.

As described above, in the conventional exchange system, a signal transmission confirmation process must be necessarily accompanied, and thus some problems have been raised. In other words, the conventional system system is complicated and cumbersome to check whether the signal transmission is successful, and the cost of using the terminal increases.

Accordingly, the present invention has been made to solve the above-described problem, by creating a user message from a MMC (Man & Machine Command) (firmware: F / W) number and signal terminal (Signalling) The purpose of the present invention is to provide a method for verifying user message transmission of an exchange system that can verify information transmission success by verifying Terminal (ST) number.

In order to achieve the above object, the present invention provides a user message of an exchange system for transmitting an arbitrary user message created by an MMC processor to a message transfer part (MTP) composed of a telephony processor (TP) and firmware. A transmission verification method, comprising: analyzing a user message sent to a telephony processor to check a corresponding firmware number, and notifying the MMC processing unit of the checked firmware number; Notifying the MMC processor of an error message result when an error message occurs as a result of analysis of a user message transmitted to the telephony processor; Transmitting a user message provided to a telephony processor to firmware; Analyzing the user message transmitted to the firmware to confirm the corresponding signal terminal number, and notifying the MMC processing unit of the corresponding signal terminal number to be confirmed; As a result of analysis of the user message transmitted to the firmware, if an error message occurs, providing an error message result to the MMC processing unit provides a method for verifying user message transmission of the exchange system.

1 is a schematic functional block diagram of an exchange system for performing a method for verifying user message transmission according to the present invention;

2 is a flowchart of a user message transmission verification process of an exchange system according to a preferred embodiment of the present invention;

3 is a routing label structure constituting a user message in accordance with the present invention.

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

100: operator terminal

102: MMC (Man & Machine Command) processing unit

104: message transfer part

105: Telephony Processor

106: firmware device (firmware)

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a schematic functional block diagram of an exchange system for performing a method for verifying user message transmission according to the present invention. The operator terminal 100, a MMC (Man & MachineCommand) processing unit 102, and a message transfer unit are shown. MTP) 104.

As shown, the operator terminal 100 is operated by the operator operating the switching system, and outputs the various information transmitted through the message transmitter 104 and the MMC processing unit 102 to the outside.

The MMC processing unit 102 is a device for inputting data programmed by an operator to the message transmitting unit 104 using the above-described operator terminal 100. The MMC processing unit 102 generates an arbitrary user message according to the present invention and generates a message. Input to the transmission unit 104. In addition, the MMC processor 102 is equipped with operations, storage, and call processing related blocks (not shown), and transmits various types of information transmitted from the message transmitter 104 to the operator terminal 100.

The message transmitting unit 104 is composed of a telephony processor (TP) 105 and a firmware device (firmware (F / W)) 106, and receives a user message provided from the MMC processing unit 102 to play a game. It performs the role of transmitting to.

The telephony processor 105 in the message transmission unit 104 is a processor that connects the lower device, that is, the firmware device 106 that is responsible for the lowest function of the exchanger and the upper processor. The user message is received and analyzed, information about each device, that is, the number of the corresponding firmware device is checked, and the corresponding firmware number data is returned to the MMC processing unit 102. In addition, when an error occurs while processing the user message from the MMC processing unit 102, the telephony processor 105 returns the error cause to the MMC processing unit 102 and transmits the user message to the firmware device 106. .

Hereinafter, with reference to the above-described configuration, with reference to the flow chart of Figure 2 attached to the user message transmission verification process of the exchange system according to a preferred embodiment of the present invention will be described in detail.

First, in order to confirm local data of the telephony processor 105 and the firmware device 106 in the MMC processor 102, an arbitrary user message is created and transmitted to the telephony processor 105.

The telephony processor 105 analyzes the user message transmitted from the MMC processing unit 102 to check the corresponding firmware number, and notifies the MMC processing unit 102 of the confirmed firmware number.

Such user message analysis may be performed with reference to a routing label structure as shown in FIG. 3. That is, any user message is a 4-bit Signaling Link Selection Code (SLS), a 14-bit Origin Point Code (OPC), and a 14-bit Destination Signal Point Code (Destination). Point Code: DPC), you can check the firmware number by analyzing these codes.

In addition, when an error message occurs as a result of analyzing the user message transmitted to the telephony processor 105, the MMC processing unit 102 notifies the error message result. The reason for the occurrence of such an error message may include the fact that the state of the power is inaccessible or that the power signal point to signal link information managed by the message transmission unit 104 does not match. Those skilled in the art will readily know.

At this time, the error message and the corresponding firmware number from the above-described MMC processing unit 102 are provided to the operator terminal 100, so that the corresponding firmware number and signal terminal number can be displayed to the outside. As can be, a detailed description thereof will be omitted.

Meanwhile, the user message provided to the telephony processor 105 is transmitted to the firmware device 106, and the firmware device 106 sends the user message in the same manner as the user message analysis process performed by the telephony processor 105 described above. Analyze

That is, the firmware device 106 confirms the corresponding Signaling Terminal (ST) number through the user message analysis process as described above, and notifies the MMC processing unit 102 of the confirmed Signaling Terminal number.

In addition, when an error message occurs as a result of the analysis of the user message transmitted to the firmware device 106, the MMC processing unit 102 is notified of the error message result.

Similarly, such an error message and the corresponding signal terminal number may also be displayed externally through the operator terminal 100.

As described above, the present invention is implemented so that the operator can know whether the message transmission to the power is normally performed through the result of the MMC processing, and if the error occurs, what causes.

Accordingly, the present invention is effective in providing reliability and convenience to the operation of the exchange by automatically notifying the operator in advance of abnormal operation of the exchange system, that is, when no message transmission using the No. 7 signaling method occurs. have.

Claims (2)

A user message created by a Man & Machine Command (MMC) processor is composed of a Telephony Processor (TP) and firmware (F / W) (Message Transfer Part: MTP). In the user message transmission verification method of the exchange system to transmit to the Analyzing the user message transmitted to the telephony processor to confirm a corresponding firmware number, and notifying the MMC processor of the identified firmware number; Notifying the MMC processor of an error message result when an error message is generated as a result of analysis of a user message transmitted to the telephony processor; Transmitting a user message provided to the telephony processor to the firmware; Analyzing the user message transmitted to the firmware to confirm a corresponding Signaling Terminal (ST) number, and notifying the MMC processing unit of the corresponding Signaling Terminal number to be confirmed; And if the error message occurs as a result of analysis of the user message transmitted to the firmware, notifying the MMC processor of the error message result. The method of claim 1, The user message is a user of an exchange system comprising an origination point code (OPC), a destination point code (DPC), and a signaling link selection code (SLS). How to verify message transmission.