KR100329353B1 - Method for tracing trunk signal of large capacity exchange - Google Patents

Abstract

The present invention is to provide a R2 / NO.7 signaling relay signal tracking function method of the small-capacity exchange, the present invention is the type of relay call resources registered and R2 / NO.7 relay for the router (router) Information about the child process of the Operation & Maintenance Processor (OMP) or Telephony Control Processor (TCP) to perform signal tracking is stored in a database (DataBase) managed by OMP, and R2 to the router from the relay call processing block of TCP. /NO.7 Whenever the result of relay signal tracking function is reported, TCP information collection and output unit requests necessary information to OMP data processing and function control unit so that control by sequential output function processing and output count is possible. If the data is initialized due to the TCP information collection and restart of the output unit, there is a function of tracking the registered R2 / NO.7 relay signal. By performing the validation function to be retried at the same time also ensure that the registered relay call tracking features of a particular processor can be made continuously.

Description

Method for tracing trunk signal of large capacity exchange}

The present invention relates to a small capacity wired switch, and in particular, when performing the relay signal tracking function of the R2 / NO.7 signal system to output the relay signal tracking results by the maximum number of outputs specified by the operator to prevent waste of resources due to unnecessary output, The relay of a small-sized exchange that provides continuous relay signal tracking even when a specific call control processor (TCP) is restarted by storing information about the relay signal tracking function registration in a local memory rather than managing it. It relates to a signal tracking function method.

In general, a method for transmitting a signal for controlling a call service between exchanges includes channel associated signaling (CAS) and common channel signaling (CCS). Individual signaling means that each call-related signal is transmitted through the call line, as in the existing Loop Decade or R2 signaling, and the common line signaling method uses the call line and the signal line like the NO.7 signaling method. 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 telephony services between their own subscribers and subscribers of other countries.

In most exchanges, as a maintenance function, relays are transmitted / received between other stations and local exchanges according to the signaling method used for inter-station relay calls generated by occupying a specific relay call resource designated by the host's operator when requested and registered by the operator. There is a function to output detailed information about the signals. This is called the R2 / NO.7 relay signal tracking function.

The R2 / NO.7 relay signal tracking function allows the operator to output the cause information of the incomplete call and related relay call resource information through the operator terminal when a large number of incomplete calls occur in the system operation. Allows you to take appropriate action.

1 shows a block configuration of a general small capacity exchanger.

As shown, the small capacity exchanger includes: a Telephony Control Subsystem (TCS) 50, which is a subsystem for performing distributed call processing functions; An Interconnection Network Subsystem (INS) 60, which is a subsystem for performing a centralized call processing function; It consists of a Central Control Subsystem (CCS) 70 which is 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 includes an operation and maintenance processor (OMP) 71 which is a control unit for system-wide maintenance, network management, billing, statistics, and database management; A human machine processor (HMP) 72, which is a control unit for operator terminal management, is provided.

2 is a flowchart illustrating a conventional R2 / NO.7 relay signal tracking function method performed in such a general small capacity exchange.

As shown, when the R2 / NO.7 signaling relay signal tracking function registration command is input from the operator, the data processing and function control unit (CTPM) 2 checks whether or not the function can be registered for the input resource. If possible, transmitting the function execution start request to the information collecting and outputting unit (CTPS) 3 (10-15); Receiving the function execution start request, the CTPS 3 executes a child process for performing a function (16-19); When the tracking function for the occupied relay call resource is checked and the tracking function for the registered resource is performed and the result is reported by the relay call processing unit (TKC / TPC) 4, the CTPS 3 performs the tracking function. Outputs to the operator, and compares the maximum number of outputs stored in the local memory of the CTPS (3) with the current number of outputs. Transmitting steps 23-29 and 32-35 from the CTPS 3 to the CTPM 2; When the R2 / NO.7 signaling relay signal cancel function cancellation command is input from the operator, the CTPM (2) sends a child process stop request for performing the function to the CTPS (3) to stop the child process, the relay signal The process of updating the database managing the tracking function information (36-43) was performed.

The R2 / NO.7 relay signal tracking function method of the conventional small capacity exchange is as follows.

When the R2 / NO.7 signaling relay signal tracking function registration command is input to the command processing unit (EC) 1 which receives and processes the R2 / NO.7 signaling relay signal tracking function registration / cancellation command from the operator, the EC ( 1) transmits a relay signal tracking function registration request to the CTPM 2 (10, 11). The CTPM 2 then accesses a database managing the relay signal tracking function information, and checks whether the function can be registered with respect to the input relay call resource (13). As a result, if registration is possible, the function performance start request is transmitted to the CTPS 3 (14, 15), and upon receiving the request, the CTPS 3 transmits a response to the CTPM 2 to the function performance start request. . Since the CTPM 2 performs a control function for the signal tracking function for each Telephony Control Processor (TCP) regardless of the registered relay call resource type, the CTPM 2 checks whether a response signal is received from all TCPs (20). ). Thus, upon receiving response signals from all TCPs, the CTPM 2 updates the database (21) and then transitions to the waiting state (22).

In addition, after receiving the request for starting the relay signal tracking function from the CTPM 2, the CTPS 3 stores the received information (17), executes a child process to perform the tracking function for the request, and then transitions to the standby state. (18,19)

Meanwhile, the TKC / TPC 4 performing the relay call processing function checks the tracking function of the relay call resource occupied, performs the tracking function for the registered resource, and transmits the tracking function result to the CTPS 3. (23-29, 32).

TCP's CTPS (3) outputs this tracking function result to the operator (33). Since the TCP CTPS 3 has a local memory for managing the relay signal tracking function registration information, the maximum number of outputs stored in this local memory and the current number of outputs are compared (34). Thus, if the current output number and the maximum output number are the same, the tracking function is requested to the CTPM 2 (35).

Thus, multiple TCPs collecting relay call tracking information exist in the exchange, and the conventional R2 / NO.7 relay signal tracking function provides control functions for the signal tracking function for each TCP regardless of the registered relay call resource type. Perform. Each TCP has a local memory for managing the relay signal tracking function registration information. Therefore, when the relay call tracking function is performed for routers distributed in multiple TCPs, the R2 / NO.7 signal tracking function is performed independently of each other regardless of each TCP. It was difficult to control the output to be as accurate as the number of outputs of the tracking function.

Since the same R2 / NO.7 relay signal tracking function registration information is distributed in the local memory of several TCPs, the information stored in the local memory of the TCP is deleted when a specific TCP restarts. Inconsistency occurred between the local memory of TCP. Therefore, after checking the registration of the tracking function for the relay call through the database search of the CTPM (2) in the relay call processing unit (TKC / TPC) (4), even though the tracking information is reported to the CTPS (3), CTPS (3) The local memory search result of the () could not be found, so the trace information was ignored.

In addition, when an R2 / NO.7 signaling relay signal cancel function cancel command is input from the operator (36), the CTPM (2) sends a child process stop request for performing the function to the CTPS (3) of each TCP to execute the child process. Stop (37-41), update the database for managing the relay signal tracking function information (42), and output a cancellation result message of the relay signal tracking function to the operator (43).

The conventional relay signal tracking function method registers the R2 / NO.7 relay signal tracking function when the CTPM 2 is restarted due to abnormal processor operation while the R2 / NO.7 relay signal tracking function is registered. Do not check. Therefore, the information on the JOB during execution in the local memory of the CTPS 3 and the information on the JOB in the CTPM 2 are inconsistent. Thus, information about JOB that is not actually executed remains on the operator terminal in the running state.

Therefore, the present invention has been proposed to solve the conventional problems as described above, the object of the present invention is

When performing the relay signal tracking function of R2 / NO.7 signaling method, the relay signal tracking result is output by the maximum number of outputs specified by the operator to prevent waste of resources due to unnecessary output, and information on registration of the relay signal tracking function is stored in local memory. The present invention provides a method of tracking a relay signal of a small-capacity exchange to provide a continuous relay signal tracking function even when a specific call control processor (TCP) is restarted by storing it in a database rather than managing it.

Relay signal tracking function method of the small capacity exchange according to the present invention to achieve the above object,

When the R2 / NO.7 signaling relay signal tracking function registration command is input from the operator, OMP data processing and function control unit (CTPM), which is a control unit for maintenance, network management, billing, statistics and database management throughout the exchange, If it is possible to register by checking whether the function can be registered for the input resource, if the registration is possible, it starts to perform the function with the information collection and output unit (CTPS) of TCP, which is a control unit for call flow control, statistical measurement, collection and reporting, billing measurement and reporting A first process of sending a request;

The CTPS having received the function execution start request, executing a child process for performing a function;

When the tracking function for the occupied relay call resource is checked and the tracking function for the registered resource is performed and the result is reported by the TCP relay call processing unit (TKC / TPC), the CTPM relays the R2 / NO.7 relay. Access the database for managing the signal tracking function registration information, and compare the current tracking function execution number with the maximum number set by the operator, and as a result of the comparison, the current tracking function execution number and the maximum number are the same, or R2 / NO.7 Signaling When a relay signal tracking function cancel command is inputted, the CTPM performs a third process of sending a tracking function stop request to the CTPS.

The third step may include: transmitting a tracking function execution count request to the CTPM when a tracking function execution result is reported from the TKC / TPC; Receiving the tracking function execution count request, accessing a database, increasing the current tracking function execution count by 1 and reporting the count to the CTPS; Receiving the tracking function execution count, the CTPS outputs the tracking function execution result reported from the TKC / TPC to the command processing unit (EC) of the HMP, which is a control unit for operator terminal management, and the CTPM is equal to the current execution count. Comparing the maximum number of times set by the operator; As a result of the comparison, if the current execution count and the maximum execution count are not the same, the tracking function is continuously collected, and the current execution count and the maximum execution count are the same, or the R2 / NO.7 signaling relay signal is traced from the operator. If a function cancel command is input, the CTPM transmits a tracking function stop request to the CTPS, and then updates the database.

Upon restarting the CTPS, generating a child process for performing a function if the relay signal tracking function confirmation request is transmitted as a result of the transmission by transmitting the relay signal tracking function confirmation request registered to the CTMP; And outputting a tracking result message to the command processing unit EC of the OMP when the TKC / TPC reports the execution result of the tracking function to the generated child process.

1 is a block diagram of a general small capacity exchanger,

2 is a flow chart showing a relay signal tracking function method of a conventional small capacity exchange;

3 is a block diagram of a relay signal tracking function performing a small capacity exchange to which the present invention is applied;

4 is a flowchart showing a relay signal tracking function method of a small capacity exchange according to the present invention;

Figure 5 is a flow chart illustrating a relay signal tracking function method for restarting CTPS of a small capacity exchange according to the present invention.

<Explanation of symbols for main parts of the drawings>

50: TCS 51: TCP

60: INS 70: CCS

71: OMP 72: HMP

Hereinafter, the relay signal tracking function method of the present invention small capacity exchange as described above in detail with reference to the accompanying drawings as follows.

3 is a relationship between software blocks executed in TCP 11, OMP 31, and HMP 32, which are main processors for performing the R2 / NO.7 relay signal tracking function of the general small capacity exchanger shown in FIG. Seems.

As shown, the Execution Control Block (EC) 80 is a software block that is executed in the HMP 32 of FIG. 1, and receives a request for registering / canceling a relay call processing function from an operator. It performs a function to transmit to the control unit (CTPM) (85).

The Call Trace & Path setup Manager block (CTPM) 85 is a software block that is executed in the OMP 31 of FIG. 1 and is used for resources requested by an operator transmitted from the EC 80. It checks whether the function can be registered or canceled, and transmits the function execution start request to the information collecting and outputting unit 90 of each TCP 51 according to the result of the checking.

Trunk control block / Telephony user Part Control block (TKC / TPC) 95 is a software block that is executed in each TCP (51) of Figure 1, R2 / NO for the corresponding relay call resources during relay call processing .7 Verifies whether the relay signal tracking function is registered, and performs the relay signal tracking function for the number of relay call resources registered with the tracking result as many times as set by the operator.

The call trace & path setup block (CTPS) 90 is a software block executed in each TCP 51 of FIG. 1, and when the trace function result is reported from the TKC / TPC 95, the CTPM Request the number of tracking functions to be performed at 85 and check whether there is an R2 / NO.7 relay signal tracking function registered to the CTPM 85 at the time of restarting the CTPS so that the continuous relay signal tracking function can be performed. It performs the function.

3 is a flowchart illustrating a relay signal tracking function method of a small capacity exchange according to the present invention.

As shown, when an R2 / NO.7 signaling relay signal tracking function registration command is input from the operator, the CTPM 85 checks whether the function can be registered with respect to the input resource and if it is possible to register, the CTPS 90. A first process (100-105) of transmitting a function execution start request to the network; CTPS (90) receiving the function execution start request includes: a second process (106-109) for executing a child process for performing a function; When the tracking function for the occupied relay call resource is checked, the tracking function for the registered resource is performed, and the result is reported to the relay call processing unit (TKC / TPC) 95, and the CTPM 85 returns to R2 / NO. 7 Access the database for managing the relay signal tracking function registration information, and compare the current tracking function execution number with the maximum number set by the operator, and as a result of comparison, the current tracking function execution number and the maximum number are the same, or from the operator. When the R2 / NO.7 signaling relay signal cancel function cancel command is input, the CTPM 85 performs a third process 114-132 of transmitting a trace function stop request to the CTPS 90.

In the third process 114-132, when the tracking function execution result is reported from the TKC / TPC 95, the CTPS 90 transmits the tracking function execution count request to the CTPM 85 (114-124); ; CTPM 85 receiving the tracking function execution count request accesses a database and increases the current tracking function execution count by 1 and reports it to CTPS 90 (125, 126); Upon receiving the tracking function execution count, the CTPS 90 outputs the tracking function execution result reported from the TKC / TPC 95 to the EC 80, and the CTPM 85 sets the current execution count and the maximum set by the operator. Comparing the number of runs (127, 128); As a result of the comparison, if the current execution count and the maximum execution count are not the same, the tracking function is continuously collected, and the current execution count and the maximum execution count are the same, or the R2 / NO.7 signaling relay signal is traced from the operator. When a function cancel command is input, the CTPM 85 sends a tracking function stop request to the CTPS 90, and then updates the database (129-132).

In addition, FIG. 5 shows the relay signal tracking function registered in the database of the CTPM 85 when the CTPS 90 is restarted, so that the relay signal tracking function is continuously performed even when the specific processor is restarted. The signal tracking function method is shown.

As shown, upon restarting the CTPS 90, the CTPS 90 transmits a relay signal tracking function confirmation request registered with the CTPM 85 to perform the function if the relay signal tracking function registered is found. Creating a child process for the process (140-143); When the tracking function execution result is reported by the TKC / TPC 95 to the generated child process, steps 144 to 146 outputting the tracking result message to the EC.

Referring to the relay signal tracking function method of the small capacity exchange according to the present invention as follows.

When the R2 / NO.7 signaling relay signal tracking function registration command is input from the operator (100), the CTPM 85 checks whether the resource can be registered with the input data or is a resource that has already been registered. (101-103). Therefore, if the check result is a relay call resource that can be registered, the CTPM 85 makes a request to perform a tracking function to the plurality of CTPSs 90 (104, 105). Upon receiving this execution request, the CTPS 90 transmits a response to the CTPM 85, and creates a child process for performing the function.

After receiving a response from a plurality of TCP 51 requesting to perform the tracking function, the child process information of the CTPS 90 of the TCP 51 is stored together with the information on the resources registered in the tracking function in a specific database. do. This database is for managing the R2 / NO.7 signaling relay signal tracking function registration information of the small capacity exchange.

Meanwhile, the TKC / TPC 95 checks whether the R2 / NO.7 relay signal tracking function is registered for all generated calls by accessing the database (114-119). Therefore, if the tracking function of the occupied relay call resource is not registered, the relay signal tracking function execution result for the resource is not reported to the CPTS 90. However, if the confirmation result tracking function is registered, the TKC / TPC 95 reports the tracking result information to the CPTS 90 (123).

The CTPS 90 checks the tracking result information received from the TKC / TPC 95, and when the registration type is a router, the CTPS 90 is stored in the local memory of the CTPS 90 in advance. ) Obtains child process information, and requests the child process the number of times the current tracking function is performed (124).

The child process of the CTPM 85 that has been requested to perform the tracking function searches the database to determine whether the requested tracking function is registered, and increases the current tracking function execution count by one and reports it to the CTPS 90 ( 125,126).

CTPS 90 then outputs the tracking function performance result reported from TKC / TPC 95 to EC 80 (127). When the tracking function execution result is output to the EC 80, the CTPM 85 compares the current tracking function performance count with the maximum performance count set by the operator (128), so that the current performance count and the maximum performance count are not the same. If not, continue tracking function collection. However, as a result of the comparison, if the current execution count and the maximum execution count are the same, the CTPM 85 selects a child process that performs the tracking function in order to minimize the R2 / NO.7 relay signal tracking function registered with the CTPS 90. Request to stop (129).

Also, if a command for canceling the R2 / NO.7 signaling relay signal tracking function is input from the operator during the tracking function, the CTPM 85 registers the R2 / NO.7 relay signal tracking function for the relay call resource designated by the operator. Check the database to see if it exists. Thus, when the function is registered, the CPTM 85 transmits a tracking function performance request to the CTPS 90. CTPS 90 then stops the child process created to perform the registered relay signal tracking function (130). After updating the information of the database, the CTPM 85 outputs a message indicating that the R2 / NO.7 relay signal tracking function is normally canceled on the operator terminal (131, 132). When each processor for performing the relay signal tracking function of the small capacity exchange is normally running, the relay signal tracking function is performed in the same manner as described above.

However, when the relay signal tracking function method for the CTPS 90 is restarted due to the abnormal operation of the TCP 51, the CTPS 90 is operated at the R2 / NO. The search request for the 7 relay signal tracking function is transmitted to the CTPM 85 of the OMP 71 (140). The CTPM 85 of the OMP 71 then searches the database and notifies the CTPS 90 of the TCP 51 detailed information about this if there is a function suspended due to the restart of the CTPS 90 (141, 142). .

The CTPS 90 then drives the child process for performing the tracking function again using the informed information (143), and reports it to the CTPM 85. The CTPM 85 again sends the child process information to the corresponding database. Save it.

In addition, the child process of the CTPS 90 receives and reports the tracking function execution result from the TKC / TPC 95, and the tracking function collection is performed (144 to 145). Accordingly, even when the CPTS 90 is restarted, the relay signal tracking function may be continuously performed on the corresponding relay call resource registered before the restart (146).

As described above, the relay signal tracking function method of the small-capacity exchange according to the present invention outputs the relay signal tracking result by the maximum number of outputs specified by the operator when performing the relay signal tracking function of the R2 / NO.7 signal method. This prevents waste of resources due to output. In addition, the information on registration of the relay signal tracking function is stored in the local memory of TCP, which is provided in a large number of small-capacity exchangers, and not managed for each TCP, but stored in the OMP database. By repeating the registration relay signal tracking function before restarting, it is possible to provide a continuous relay signal tracking function even when a specific call control processor (TCP) is restarted.

Claims (3)

A Telephony Control Processor (TCP), which is a control unit for call flow control, statistical measurement, collection and reporting, billing measurement and reporting; R2 / NO in a small-capacity exchanger with OMP (Operation and Maintenance Processor), a control unit for system-wide maintenance, network management, billing, statistics, and database management, and HMP (Human Machine Processor) for operator terminal management .7 signaling method relay signal tracking function method, When the R2 / NO.7 signaling relay signal trace function registration command is input from the operator, the OMP data processing and function control unit (CPM) checks whether the function can be registered for the input resource. A first step of transmitting a function execution start request to the call trace & path setup block (CTPS) of the TCP; The CTPS having received the function execution start request, executing a child process for performing a function; If the tracking function for the occupied relay call resource is checked, the tracking function for the registered resource is performed, and the result is reported by the TCP (Trunk Control block / Telephony user Part Control block; TKC / TPC). The CTPM accesses a database for managing the R2 / NO.7 relay signal tracking function registration information, and compares the current tracking function execution count with the maximum number set by the operator. If the maximum number is the same or if an R2 / NO.7 signaling relay signal tracking function cancel command is input from the operator, the CTPM performs a third process of sending a request to stop the tracking function to the CTPS. Relay signal tracking function method. The method of claim 1, wherein the third process comprises: Transmitting a tracking function execution count request to the CTPM when the tracking function execution result is reported from the TKC / TPC; Receiving the tracking function execution count request, accessing a database, increasing the current tracking function execution count by 1 and reporting the count to the CTPS; Upon receiving the tracking function execution count, the CTPS outputs the tracking function execution result reported from the TKC / TPC to the command control unit (EC) of the HMP, and the CTPM is executed by the current execution count and the operator. Comparing the set maximum number of executions; As a result of the comparison, if the current execution count and the maximum execution count are not the same, the tracking function is continuously collected, and the current execution count and the maximum execution count are the same, or the R2 / NO.7 signaling relay signal is traced from the operator. And if the function cancel command is input, the CTPM sends a request to stop the tracking function to the CTPS, and then updates the database. The method of claim 1, Upon restarting the CTPS, the CTPS is Transmitting a relay signal tracking function confirmation request registered to the CTMP, and if there is a registered relay signal tracking function, generating a child process for performing the function; And outputting a tracking result message to the command processing unit (EC) of the OMP when a result of performing the tracking function is reported by the TKC / TPC to the generated child process.