KR100328182B1 - Method for detecting link status of remote alarm pannel unit in a mobil communication exchange - Google Patents

Abstract

The RAPU link alarm detection method of the mobile communication switch according to the present invention detects the link alarm of the RAPU using a TD bus connected to the SAMP controlling the RAPU and uses the same for outputting an alarm message, thereby controlling the RAPU when a hardware failure of the switch system occurs. When the SAMP detects an alarm, the alarm processing structure and flow for the corresponding alarm can be simplified, so that the alarm can be processed quickly and accurately. Therefore, it is possible to efficiently perform the state management of the RAPU to perform a stable exchange service.

Description

Method for detecting link status of remote alarm pannel unit in a mobil communication exchange

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication exchange, and in particular, by accurately grasping the failure state of a remote alarm panel unit (RAPU), which indicates a current alarm state of a mobile communication exchange, the safety of the exchange system. The present invention relates to a method for detecting an RACA link alarm using a TD-bus in a mobile communication switch.

All exchanges are physically connected by using relay lines to other networks or other stations to provide call processing between subscribers located in their home country and other networks or subscribers located in other countries, and provide maintenance functions for such relay lines. The same is true for exchanges.

In general, a method for transmitting a signal for controlling a call service between exchanges includes individual channel signaling (CAS) and common channel signaling (CCS). Individual signaling means that the signal related to each call is transmitted through the call line as in the Loop Decadic or R2 signal. This means that the signal is transmitted to the call through the signal line. All exchanges use one of the above R2 or No.7 signaling schemes to exchange information with other stations in order to provide call services between their own subscribers and subscribers of other countries.

In most exchanges, as one of maintenance functions, relay signals transmitted and received between other stations and local exchanges according to the signaling method used for the inter-station relay call generated by the operator by occupying a specific relay call resource designated by the host's operator at the time of request and registration. There is a function that prints out detailed information about them.

Hereinafter, a general wired switch will be described with reference to the accompanying drawings.

FIG. 1 is a schematic block diagram of a typical small-capacity wireline exchange. The small-capacity exchanger performs a centralized call processing function with a telephony control subsystem (TCS) 50, which is a subsystem for performing distributed call processing. It consists of an Interconnection Network Subsystem (INS) 60, which is a subsystem, and a Central Control Subsystem (CCS) 70, a subsystem that performs centralized operation and maintenance functions.

Each TCS 50 has a Telephony Control Processor (TCP) 51 which is a control unit for call flow control, statistical measurement, collection and reporting, billing measurement and reporting.

The CCS 70 is an OMP (Operation and Maintenance Processor) 71 which is a control unit for overall system maintenance, network management, billing, statistics, and database management, and a Human Machine which is a control unit for operator terminal management. Processor 72).

When an alarm occurs in the hardware equipment of such an exchange system, an alarm message is output to convey it to the operator. At this time, the RAPU device is driven in order to easily recognize the alarm condition from the exchanger and a long distance. In general, the RAPU drives the alarm state through the visible audible.

Here, the RAPU is connected to the exchange with an RS-232 cable. This RS-232C cable is in abnormal status, or through RAPU link alarm, it is possible to provide stable exchange service by grasping the status of the RAPU itself that determines the alarm of the exchange system.

Hereinafter, an alarm detecting apparatus and a method of a remote alarm driving panel unit in a mobile communication switch according to the related art will be described with reference to the accompanying drawings.

2 is a block diagram of an alarm detecting apparatus for a remote alarm driving panel unit in a mobile communication switch according to the prior art, and FIG. 3 is a diagram illustrating an alarm detection method for a remote alarm driving panel unit in a mobile communication switch according to the prior art. It is a figure which shows the operation flowchart.

First, as shown in FIG. 2, when the hardware and software alarm occurs in the exchange, the RAPU operation in the mobile communication exchange is performed by a failure management unit in an operation maintenance processor (hereinafter referred to as OMP) 100. (Fault Management: hereinafter referred to as FLM) 101, and the FLM 101 outputs an alarm message. At this time, the FLM 101 moves to the Subsystem Alarm Maintenance Interface (SAMI) 111 in the Subsystem Alarm Maintanance Processor (hereinafter referred to as SAMP) 110. An audible alarm drive is required, which is referred to as a Remote Alarm Control Board Assembly (RACA), which is a RAPU (130, 131, 132) control device that is duplicated in the SAMI 111 of the SAMP 110. (120, 121) to drive the RAPU (130, 131, 132).

In general, in the mobile switching center, alarms are classified into Critical, Major, and Minor, and the RAPUs 130, 131, and 132 also have three levels of red, yellow, and green colors. Will trigger an alarm.

It also generates audible alarms at the same time, driven by three classes.

Referring to FIG. 3, a method of detecting a RAPU link alert of a switch according to the related art using a loop back test will be described.

As shown in FIG. 2, the RAPUs 130, 131, and 132 link alerts write a specific value in the memory of the RACAs 120 and 121 in the SAMP 100, and the RACAs 120 and 121 write the RAPUs 130, 131, After communication with 132, the same value is recorded in the memory upon success. If the memory is read again after 16msec and the value is the same, it is determined that the link of the RAPUs 130, 131, and 132 is normal, and the value of the memory is different. Uses a loopback test to generate a link alert.

If such a loop back test fails three or more times consecutively, the SAMI 111 reports to the FLM 101, and the FLM 101 generates a link alert.

A detailed method of the loop back test is shown in the RAPU (130, 131, 132) link alarm aggregation method using the loop back test of FIG.

As shown in FIG. 3, when the SAMI 111 block is executed, the rapu_timer_pd procedure is executed.

The rapu_timer_pd calls as many rapu_timer_setting procedures as the mounted number of RAPUs 130, 131, and 132 with a time difference of 160 msec.

Each rapu_timer_setting procedure called at intervals of 160 msec calls rapu_lbt_write_task, which is a 3 sec infinite iterative procedure, for the loop back test of each of the mounted RAPU130, 131, and 132.

The rapu_lbt_write_task procedure writes a writebuff value to the memory of the RACAs 120 and 121 when the situation of the RACAs 120 and 121 is normal and calls rapu_lbt_read_task after 16 msec.

The RACA 120, 121 then writes a value equal to the writeBiff value in its memory if it is normal after communicating with the PAPUs 130, 131, 132. The rapu_lbt_read_task procedure, which is called after 16msec, reads the memory values of RACA (120, 121) and writes them to the ReadBuff. If it is the same as compared with the previously written WriteBuff, it moves to the next 3sec operation. However, if the comparison value is different, if three consecutive values are different, the RAPU (130, 131, 132) link alarm is reported to the FLM, and the alarm is generated.

After all, in the mobile communication switch according to the prior art, the link alarm detection method of the RAPU writes a specific value into the memory of the RACA that manages the operation of the RAPU in the SAMI in the SAMP, and the RACA communicates with the RAPU through the RS-232C. In case of success, the same value is recorded in the memory and the memory is read again after 16msec. If the value is the same, the link of the RAPU is determined to be normal. If the value of the memory is different, the loop back test method is used.

However, this loop back test does not provide reliable service because the RS-232C cable between the RAPU and the RACA is not an actual link alarm due to the distance or physical factors. There is a problem that can not be.

Accordingly, the present invention has been made to solve the above problems according to the prior art, an object of the present invention by accurately grasping the failure state of the RAPU itself indicating the current alert state of the mobile communication exchange, The present invention provides a method for detecting an RACA link alarm in a mobile communication switch to ensure reliability.

A feature of the RACA link alarm detection method in a mobile communication switch according to the present invention for achieving the above object is a mobile communication including a main processor, a subprocessor, a subprocessor status and an alarm manager, a main processor alarm manager, and a fault manager. A method for detecting a link alarm of a remote alarm drive panel unit in an exchange, the method comprising: periodically reading the state of the remote alarm drive panel unit by using the TD bus in the sub-processor state and an alarm manager to compare the previous alarm value with a previous value; Reporting alarm data to a main processor alarm management unit of the main processor when the current read state value and the previous state value are different from each other as a result of the comparison; Analyzing, by the main processor alarm management unit, the reported alarm data value and storing it in a database and simultaneously reporting the problem to the failure management unit; Generating an alarm according to the reported alarm data value.

In addition, another feature of the present invention is a link alarm of a remote alarm drive panel unit in a mobile communication exchange having a main processor, a sub processor, a sub processor status and alarm manager, a main processor alarm manager, a fault manager and a remote alarm drive management board. A detection method, comprising: calling a Read Alarm Data_pd procedure when the subprocessor state and the alarm manager are operated; When a Read Alarm Data_pd procedure is called, reading a value of ALM_ACC_ADDR indicating a remote alarm driving panel unit link state of the remote alarm driving management board by using a TD bus and storing it in a buffer; Inputting the buffer values sequentially into ALM_BUFF [AccFlag] to read a data value stored in the buffer three times and determine a continuous alarm state; Logically computing the three input data values and the ALM_TBL value which is the previous alarm state, inputting an operation result value into ALM_TBL, and then calling an AlarmChangeCheck_pd procedure; Comparing the ALM_STS_TBL value which is a current alarm state with the newly input ALM_TBL value in the called procedure; As a result of the comparison, if there is a change in status, the failure management unit reports it and generates an alarm. If there is no change in the comparison result, the read alarm data_pd procedure is called and the process is repeated.

1 is a view schematically showing the block configuration of a typical wired switch,

2 is a block diagram of a link alarm detection device of a remote alarm driving panel unit in a mobile communication switch according to the prior art;

3 is a flowchart illustrating an operation of a link alert detection method of a remote alert driving panel unit in a mobile communication switch according to the prior art;

4 is a block diagram of a detection device applied to a link alarm detection method of a remote alarm driving panel unit in a mobile communication switch according to the present invention;

5 is a flowchart illustrating an operation of a link alert detection method of a remote alert driving panel unit in a mobile communication switch according to the present invention;

<Explanation of symbols for main parts of drawing>

100: operation correction processor 101: failure management unit

110: system alarm maintenance processor 111: system alarm maintenance interface

112: subprocessor status and alarm management unit

120, 121: remote alarm drive management board

130, 131, 132: remote alarm drive panel unit

Prior to the description of the present invention, the technical principles of the present invention will be described.

The present invention relates to a method of collecting link alarms of a RAPU driving a switch visual and audible alarm using a Telephony Device Bus (TD-bus).

The mobile communication exchange is designed as a distributed control system, so that the processors perform their own functions, and according to the functions, the mobile communication switch is divided into a main processor (MP) and a sub processor (PP), and various devices are provided in the PP. Is connected by TD bus.

By using this TD-bus, the Peripheral Processor Status and Alarm Handling (PPSAH), a software block that collects various status management and alarms on the PP, periodically reads the RAPU link status. In other cases, the result is reported as the upper MP. In the upper MP, FLM, a software block that manages the alarm data reported by PPSAH in the main processor alarm handling (MPAH), a software block that manages alarms of the device and the PP itself, is stored in a database. It will generate an alert message and save it to disk. Meanwhile, the RAPU drives the RAPU link alarm lamp by itself.

Hereinafter, a method for detecting an RACA link alert in a mobile communication switch according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a block diagram of a detection apparatus applied to a method for detecting a RAPU link alert in a mobile communication switch according to the present invention, and FIG. 5 is a flowchart of an operation of the method for detecting a RAPU link alert in a mobile communication switch according to the present invention. The figure which shows.

First, as shown in FIG. 4, the status is periodically read from the PPSAH 112 of the SAMP 110, which is a software block that collects the PP status and the alarm, and compared with the previous value to report the MP in other cases.

The alarm data reported by the PPSAH 112 in the MPAH of the upper MP is analyzed and stored in the database, and the alarm data is reported to the FLM 101 of the OMP 100 which is the alarm general software block. The reported FLM 101 will generate a link alert.

In the specific method using the TD bus as shown in FIG. 5, when the PPSAH 112 block is executed, the ReadalarmData_pd procedure is called, and the ReadAlarmData_pd is the RAPU 130, 131, 132 of the RACA 120, 121. The ALM_ACC_ADDR value indicating the link status is read using the TD-bus and written to rBuff.

Subsequently, rBuff values are input in order to ALM_BUFF [AccFlag] to read data three times and determine continuous alarm status. AccFlag repeats 0-2. If ALM_BUFF [AccFlag] is called A, B, and C, respectively, and ALM_TBLDMF P is the previous alarm state, the output of 3 shift state is shown in Equation 1 below, and the result is shown in Table 1 below. same.

P A B C OUT P A B C OUT 0 0 0 0 0 (P) One 0 0 0 0 0 0 0 One 0 (P) One 0 0 One 1 (P) 0 0 One 0 0 (P) One 0 One 0 1 (P) 0 0 One One 0 (P) One 0 One One 1 (P) 0 One 0 0 0 (P) One One 0 0 1 (P) 0 One 0 One 0 (P) One One 0 One 1 (P) 0 One One 0 0 (P) One One One 0 1 (P) 0 One One One One One One One One 1 (P)

Here, O is a value at which the RAPU 130, 131, and 132 links are normal, and 1 is an abnormal value at the RAPU 130, 131, and 132 links.

As shown in Table 1 above, the RAPU (130, 131, 132) link alert can be reflected only if three consecutive state changes are maintained.

After entering this output into ALM_TBL, call the AlarmChangeCheck_pd procedure. The called procedure compares the current alert state ALM_STS_TBL with the newly entered state ALM_TBL to report an alert to the FLM 101 if there is a change in state, and the FLM 101 alerts the RAPU (130, 131, 132) link. Generates. At this time, if there is no change, the RAPU (130, 131, 132) link alarm can be detected by periodically repeating the above operation by calling the ReadAlarmData_pd procedure again after 80 msec.

In the RAPY link alarm detection method of the mobile communication switch according to the present invention as described above, by detecting the link alarm of the RAPU using the TD bus connected to the SAMP controlling the RAPU, it is used to output an alarm message, thereby causing a hardware failure of the switch system. When the SAMP controlling the RAPU detects an alarm when an alarm occurs, the alarm processing structure and flow for the corresponding alarm are simplified, and thus there is an advantage in that it can be processed quickly and accurately. Therefore, the state management of the RAPU can be efficiently performed to perform a stable exchange service.

Claims (3)

In the link alarm detection method of a remote alarm drive panel unit in a mobile communication switch having a main processor, a sub processor, a sub processor status and an alarm manager, a main processor alarm manager, and a fault manager, Periodically reading the state of the remote alarm driving panel unit by using the TD bus and comparing the state with the previous value by the sub processor state and the alarm managing unit; Reporting alarm data to a main processor alarm management unit of the main processor when the current read state value and the previous state value are different from each other as a result of the comparison; Analyzing, by the main processor alarm management unit, the reported alarm data value and storing it in a database and simultaneously reporting the problem to the failure management unit; And generating an alarm in accordance with the reported alarm data value. In the link alarm detection method of a remote alarm drive panel unit in a mobile communication switch having a main processor, a sub processor, a sub processor status and an alarm manager, a main processor alarm manager, a fault manager, and a remote alarm drive management board, Invoking a Read Alarm Data_pd procedure when the subprocessor status and alarm manager is operated; When a Read Alarm Data_pd procedure is called, reading a value of ALM_ACC_ADDR indicating a remote alarm driving panel unit link state of the remote alarm driving management board by using a TD bus and storing it in a buffer; Inputting the buffer values sequentially into ALM_BUFF [AccFlag] to read a data value stored in the buffer three times and determine a continuous alarm state; Logically computing the three input data values and the ALM_TBL value which is the previous alarm state, inputting an operation result value into ALM_TBL, and then calling an AlarmChangeCheck_pd procedure; Comparing the ALM_STS_TBL value which is a current alarm state with the newly input ALM_TBL value in the called procedure; If there is a change in the result of the comparison, it is reported to the failure management unit to generate an alarm, and if there is no change of the result of the comparison, the step of repeating the process by calling the Read Alarm Data_pd procedure RAPU link alarm detection method of mobile communication switch. The method of claim 2, And a logical operation of the three input data values and the ALM_TBL value in the previous alarm state using the following equation. Where A, B, and C are ALM_BUFF [AccFlag] values, and P is an ALM_TBL value in a previous alarm state.