KR100480462B1 - Apparatus And Method For Testing Signaling Message Processing In No.7 Signaling Network - Google Patents

Abstract

The present invention is a signal message processing performance test in No.7 signal network to test and measure the signal message processing performance of the message transmission unit without a separate commercial test equipment by using the message transfer unit test user unit in No.7 signal network The present invention relates to an apparatus and a method, and in the case of using a separate test equipment, since the signal message distribution function is not performed, it is not suitable for testing a signal message processing performance at a signal endpoint and requires expensive test equipment. In the case of using the loopback signal link in another method, the reliability of the test result is low because the system under test and the virtual test equipment are located in the same system, and the signal message processing performance is different from that of the actual system. The test had a problem of being inadequate .

Therefore, the present invention defines a message transfer unit test user unit and a performance test related message on the No.7 signaling network protocol to process a performance test related message like a general signal message, thereby allowing the message in the message transfer unit even during signal network operation. Signal message processing performance tests such as discrimination, distribution, and routing can be performed in real time to ensure the stability and reliability of the signal network, and the cost of performance test can be reduced by not using external test equipment. It becomes possible.

Description

No.7 Apparatus And Method For Testing Signaling Message Processing In No.7 Signaling Network

The present invention relates to a signal message processing performance test in No.7 signal network, and more particularly, to test and measure the signal message processing performance of a message transfer unit without a separate commercial test equipment by using a message transfer unit test user unit. .7 relates to an apparatus and method for testing signal message processing performance in a signaling network.

In general, the No.7 signaling method, which is a common line signaling method, is a signaling method that transmits various control signals for providing call connection between subscribers and various communication services or operating and managing a communication network. Signaling point (SP; Signaling Point) for sending, receiving, or transmitting a signal message generated by the signal and a signal link (SL; Signaling Link), which is a logical information transmission link between the signal points, There is a Signaling Transfer Point (STP) for transmitting a message for sending or receiving a signaling message, and the corresponding signaling endpoint includes an originating point (OP) originating the signaling message and a destination point (the destination of the signaling message). DP; Destination Point).

In addition, as shown in FIG. 1, the protocol hierarchy of the No. 7 signal network includes: a message transfer unit (MTP), which is a network service unit that distributes signal transmission control, error correction, and security measures for the signal network; Message Transfer Part (SCCP), Signaling Connection Control Part (SCCP), and User Part, which is a user part designed individually according to application fields such as telephone exchange and data exchange (TC-UP; Transaction Capability User Part, or SCCP) User part), integrated information and communication network user part (ISUP; ISDN User Part) and telephone user part (TUP; Telephone User Part), including mobile communication network and intelligent network user part (not shown). consist of.

Here, the message transfer unit performing the routing and distribution function of the signal message, as shown in the accompanying drawings, the signal message processing unit 21 performing the signal message routing and determination and distribution function, and reliable signal message transfer as shown in FIG. For this purpose, it consists of a signal network manager 22 which maintains the correspondence between the signal network specifications (ie, signal link, signal link set, signal point, signal route) and performs the signal network shape management function. Performance test methods of the transmission unit include a method using a separate commercial test equipment, and a method of loop-backing the signal link to re-receive the signal message transmitted by the test object.

First, referring to the attached drawings 2 and 3 with reference to the method of using a commercial test equipment, the test equipment transmits the signal message as shown in Figure 4 to the system to be tested, the test target system received After analyzing the routing label of the corresponding signal message and retransmitting it to the test equipment, the signal message processing performance of the message transfer part of the corresponding test target system is tested, and (a) of FIG. (B) is a diagram showing a logical connection structure, the destination code of the routing label is 'B' and the origin code is 'C' when the signal message is transmitted from the test equipment to the system under test. System A sends the received signal message back to the test equipment with signal 'B' to start signal message processing performance. It is.

However, since the performance test using the test equipment performs only the signal message discrimination and routing functions in the signal message processing step, it performs the signal message distribution function, which takes an important part in the signal message processing performance of the signal endpoint, not the signal relay point. As a result, useful performance tests can be performed on signal relay points, but they are not suitable for signal message processing performance tests on other signal endpoints and require expensive test equipment.

Next, a method of using the loopback signal link will be described with reference to FIG. 5, which is mainly used when there is no other system to interwork with the No. 7 protocol as in the early stage of system development. In general, the transmission port is directly connected to the reception port of the user, but the signal message processing performance of the message transmission unit is tested in a manner in which the user receives the signal message transmitted by the virtual test equipment. (A) is a diagram showing the actual loopback connection structure, (B) is a diagram showing a logical connection structure, the signal that the signal point B, C located in the virtual test equipment in the system under test A as the destination point After sending the message and receiving it again, if the signal point is determined to be the virtual test equipment by the signal point code value, the corresponding signal message The routing label information of the system is forcibly changed to test the signaling message processing performance.

Therefore, the performance test using the loopback signal link has low reliability of the test results because the system under test and the virtual test equipment are located in the same system, and both routing and distribution of the signal message can be performed in the signal message processing step. In addition, it is not suitable for signal message processing performance test of the system operating in the actual No.7 signal network because it is slightly different from the signal system processing method such as the coercion of the signal message to pass through the virtual test equipment. There was this.

The present invention has been made to solve the problems described above, and its purpose is to define a message transfer unit test user unit and a performance test related message on the No.7 signal network protocol, and then perform a corresponding performance test related message as a general signal message. By processing, the signal message processing performance test such as message identification, distribution and routing in the message transfer unit can be performed in real time even during the operation of the signal network.

Another object of the present invention is to perform a signal message processing performance test in real time without a separate external test equipment, to reduce the performance test cost and to ensure the stability and reliability of the signal network.

A feature of the present invention for achieving the above object is a number. A test message for generating a predetermined performance test message having a message serial number and generation time information in a signal message processing performance test apparatus in a seven signal network. A generating unit; A message transmitter which transmits the performance test message generated by the test message generator to a lower message transfer unit and transmits the message to the called party; A message receiver which receives a performance test message through the message transmitter; When the test message generation unit is controlled to transmit a performance test request message to the called point and then receives a performance test response message corresponding thereto, the signal message processing performance is improved using the serial number and generation time information of the corresponding performance test response message. It includes a performance test management unit to measure.

Here, the test message generation unit may include a message serial number for testing whether a signal message is lost or guaranteed, a message generation time for testing a signal message processing delay, a heading code indicating a message type, a call point, and a destination point. And generating a performance test request message or a performance test response message including a routing label with information and a service information octet indicating that the message is a signaling message for a test user unit. After copying the message serial number and the generation time of the performance test request message is recorded in the corresponding field, the originating point of the corresponding performance test request message as the called point, and the called point as the originating point, respectively, characterized in that it is generated .

When the performance test response message is received, the performance test manager calculates a difference between a current reception time and a generation time of a corresponding performance test response message, and measures a signal message processing delay time. Characterized by checking the serial number of the performance test response message has been characterized in that it checks whether the signal message loss and order, and characterized in that it measures the signal message processing capacity per unit time by generating and transmitting a large number of performance test messages.

According to another aspect of the present invention, in the signal message processing performance test method of No.7 signal network, a performance test request message having a message serial number and generation time required for the signal message processing performance test is generated and received through a message transfer unit. Transmitting to the point side; When a performance test request message of which the final destination is a local station is generated, generating a corresponding performance test response message and transmitting the performance test request message to a calling point through the message transfer unit; When the performance test response message of the final destination is received, the method includes measuring a signal message processing performance by analyzing the generation time and serial number of the corresponding performance test response message.

At this time, the performance test request message, characterized in that it comprises the origin and destination information, the corresponding performance test request message generation time, and the message serial number counted each time a new performance test request message is generated.

In addition, the present invention, if the performance test message is received in the message transfer unit of each signal point to analyze the routing label to determine whether the final destination is a mark; Routing the received performance test message to a signal network when the final destination is not a local station; In the case where the final destination is the own station, the message transfer unit test user unit may further include checking a heading code of the received performance test message to determine whether it is a performance test request message or a performance test response message.

On the other hand, the process of generating and transmitting the performance test response message, copying the message serial number and the generation time of the received performance test request message to the performance test response message as it is, and the originating point of the performance test response message and The called point is characterized by generating a performance test response message corresponding to the performance test request message by recording the called point and the originating point of the performance test request message, respectively.

The measuring of the signal message processing performance may include: measuring a signal message processing delay time by extracting message generation time information of a received performance test response message and calculating a time difference from a current reception time; Checking the message serial number of the received performance test response message and checking the continuity of the serial number to check for loss and misorder of the signal message.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

In the No. 7 signal network according to the present invention, a message message processing performance test of a message transfer unit is performed using a message transfer unit test user part (MTPT) defined in a user unit of a protocol layer. Delivery part test user part is defined in the recommended standard, but its role and usefulness are not currently defined. As shown in FIG. 1, the user part of the message delivery part is the same level as TC, ISUP, TUP, etc. .

2, the signal message processing operation of the message transfer unit will be described in more detail. When a signal message is transmitted from the signal endpoint to the signal network, the user unit (UP level 4) requests the signal message transfer from the user to the message transfer unit. The message routing unit 21-3 converts a predetermined signal message according to a signal message transfer request of the user unit and transmits it to a signal network. On the other hand, when the signal end point receiving the signal message receives the message message through the lower level (MTP level 2) to the message transfer unit, the message determination unit 21-1 analyzes the corresponding signal message to determine whether the destination is a mark. When the destination point is the own station, the received signal message is transmitted to the message distribution unit 21-2 to perform a series of signal message processing procedures for transferring to the upper user part.

In addition, the message transfer unit test user, which is the subject of the signal message processing performance test, as illustrated in FIG. 6, is attached to the test message generator 61, the message transmitter 62, the message receiver 63, and the performance. The test management unit 64 is provided.

The test message generating unit 61 tests the message serial number and the signal message processing delay for testing whether the signal message is lost or not assured as shown in FIG. 7 attached to the control of the performance test management unit 64. A service information octet indicating that the message is generated for a message, a heading code indicating a message type, a routing label having origination point and destination information, and a signal message for the message delivery unit test user unit 60. Generate and send a performance test message including a message to the message transmission unit 62, wherein the generated performance test message types include a performance test request message and a performance test response message, the corresponding performance test response message is received performance test Copy the message serial number and creation time of the request message and record it in the corresponding fields. It generates and records the origination point of the performance test request message to the destination point.

The message transmitter 62 transmits the performance test message generated by the test message generator 61 to the message transfer unit to transmit the corresponding performance test message to the called party, and the message receiver 63 transmits the message transfer unit from the originating side. The performance test message received through the transfer to the performance test management unit (64).

The performance test management unit 64 controls the test message generator 61 to transmit the performance test request message to the called point and then receives a corresponding performance test response message when the corresponding performance test response message is received and the performance test. Signal message processing delay time is measured using message generation time information of response message, and signal loss and order are checked using message serial number of received performance test response message, and a large amount of performance test message is generated. And the signal message processing capacity per unit time by transmitting and receiving. In case of receiving the performance test request message, the message serial number and the generation time of the received performance test request message, the originating point and the destination information are extracted, and then transferred to the test message generator 61 to transmit the current test request. The test message generating unit 61 is controlled to generate and transmit a performance test response message corresponding to the message.

In the following, the signal message processing performance test operation using the message transfer unit test user unit 60 having the above-described configuration is attached. Incoming call is received at the signal point A which is the originating point of the general No. 7 signal network as shown in FIG. The case where a signal message is transmitted to the signal point F, which is a point, will be described. At this time, the originating point (A) and the destination point (F) is directly connected as shown in (a) of FIG. 8, or signal relay points such as signal points B, C, D, E in the middle as shown in (b) of FIG. In the case of via the signal relay point, the signal message processing performance of the signal route including the signal point may be tested, and the message transfer unit and the message transfer unit test user unit 60 may be tested at each signal point. The interlock has a structure as shown in FIG. 9.

That is, the performance test response message corresponding to the performance test request message received at the destination F received a performance test request message, which is a signal message, is transmitted from the originating point A of FIG. By retransmitting to the originating point A side, the signal message processing performance is tested. At this time, the time difference is calculated from the transmission time of the performance test request message, which is a test message, to the time of receiving the performance test response message. Delay time can be measured, and the loss and order of the signaling message can be checked by assigning the message serial number when sending the performance test request message and checking the message serial number when receiving the corresponding performance test response message. By generating a large number of these test messages, it is possible to measure the capacity of signal message processing per unit time. The.

Signal message processing performance test operation using the message transfer unit test user unit 60 in the No. 7 signal network according to the present invention will be described in more detail with reference to FIG. 10.

First, in order to test the signal message processing performance of the message delivery unit, the message delivery unit test user unit 60 of the signal point A, which is the originating point, generates a performance test request message that becomes one signal message and transmits the signal to the message delivery unit. The performance test request message is transmitted to the signal point F, which is the called point, through the network, and the originating point of the generated performance test request message is the signal point A, and the called point is the signal point F. Record the current time generated in the message creation time field, and the message serial number starts from '0' and records the value increased by '1' each time (transmission) of a new performance test request message.

When the message transfer unit of each signal point in the signal network receives the performance test message which is a signal message from the signal network (step S11), the routing message is analyzed for the signal message received by the message determination unit 21-1. Then, it is checked whether or not the final destination is a mark (step S12).

At this time, if the final destination of the signal message is not the own station, the signal routing unit 21-3 transmits the received signal message to the signal network to perform the signal relay function (step S18).

However, when the final destination of the currently received signal message is a local station, the message is delivered to the message distribution unit 21-2 to perform a predetermined message distribution function. In this case, the signal message received from the signal network is a signal message of the message transmission unit. Since it is a performance test message for processing performance test, it is distributed to the upper message transfer unit test user unit 60 (step S13).

Accordingly, the performance test management unit 64 of the message transfer unit test user unit 60 receives the corresponding signal message, that is, the performance test message through the message receiving unit 63, and then checks the heading code field to receive the currently received signal message. It is checked whether is a performance test request message or a performance test response message (step S14).

If it is confirmed that the currently received signal message is a performance test request message, the performance test management unit 64 controls the test message generator 61 to generate a performance test response message (step S15), and then sends the message transmission unit. By transmitting to the message transfer unit through 62, the performance test response message corresponding to the originating party that originally transmitted the performance test request message is transmitted (step S16). At this time, the test message generator 61 performs the performance test request message. The message serial number and the generation time of the message are copied to the performance test response message as it is, and the originating point and the terminating point of the performance test response message are recorded by recording the incoming and outgoing points of the performance test request message, respectively. It will generate a performance test response message corresponding to.

However, when it is confirmed that the currently received signal message is a performance test response message, the performance test management unit 64 analyzes the corresponding performance test response message, that is, the signal using the generation time and serial number of the performance test response message. Message processing performance is measured (step S17).

That is, the message transfer unit test user unit 60 having received the performance test response message extracts the message generation time information of the corresponding performance test response message and compares it with the current reception time to calculate the time difference, thereby delaying the signal message processing. In addition, time is measured, and the message serial number of the currently received performance test response message is checked to confirm the continuity of the serial number.

In addition, the message transfer unit test user unit 60 may generate and transmit a large amount of performance test messages for a predetermined time to measure the signal message processing capacity per unit time.

On the other hand, the embodiment according to the present invention is not limited to the above, it can be carried out by various alternatives, modifications and changes within the scope apparent to those skilled in the art with respect to the present invention.

As described above, the present invention defines a message transfer unit test user unit and a performance test related message on the No.7 signal network protocol to process a corresponding performance test related message like a general signal message, thereby delivering a message even during signal network operation. Signal message processing performance tests such as message identification, distribution and routing in the department can be performed in real time.

In addition, the present invention by performing the signal message processing performance test in real time without a separate external test equipment, not only can reduce the performance test cost but also to ensure the stability and reliability of the signal network.

1 is a diagram illustrating a protocol hierarchy of a general No. 7 signal network.

FIG. 2 is a block diagram showing the detailed configuration of a message delivery unit in FIG. 1; FIG.

3 is a diagram illustrating a network connection structure for signal message processing performance test using a conventional commercial test equipment.

4 is a diagram showing a signal message structure in a general No. 7 signal network.

5 is a diagram illustrating a network connection structure for a signal message processing performance test using a conventional loopback signal link.

Figure 6 is a block diagram showing the detailed configuration of the message transfer unit test user unit that is the subject of the signal message processing performance test according to the present invention.

7 illustrates a performance test message structure used in the present invention.

FIG. 8 is a diagram illustrating a No. 7 signal network configuration for explaining a signal message processing performance test operation using the message transfer unit test user unit according to the present invention; FIG.

9 is a diagram illustrating an interworking structure of a message transfer unit and a message transfer unit test user unit in the present invention.

10 is a flowchart illustrating a signal message processing performance test operation using a message transfer unit test user unit in No. 7 signal network according to the present invention.

Explanation of symbols on the main parts of the drawings

60: message delivery unit test user unit 61: test message generation unit

62: message transmitter 63: message receiver

64: performance test management unit

Claims (11)

In the signal message processing performance test apparatus in the seven signal network, A test message generator for generating a predetermined performance test message having a message serial number and generation time information; A message transmitter which transmits the performance test message generated by the test message generator to a lower message transfer unit and transmits the message to the called party; A message receiver which receives a performance test message through the message transmitter; When the test message generation unit is controlled to transmit a performance test request message to the called point and then receives a performance test response message corresponding thereto, the signal message processing performance is improved using the serial number and generation time information of the corresponding performance test response message. And a performance test management unit for measuring. A signal message processing performance testing apparatus in a seven signal network. The method of claim 1, The test message generating unit may include a message serial number for testing whether a signal message is lost or guaranteed, a message generation time for testing a signal message processing delay, a heading code indicating a message type, and origin and destination information. And a performance test request message or a performance test response message including a routing label having the service information and a service information octet indicating that the message is transmitted to the test user unit. tester. The method according to claim 1 or 2, The test message generating unit copies the message serial number and the generation time of the performance test request message received when the performance test response message is generated, and records the corresponding message in the corresponding field. A signal message processing performance testing apparatus for a seven signal network, characterized in that for generating and recording each as a source. The method of claim 1, When the performance test management message is received, the performance test response message calculates a difference between a current reception time and a generation time of a corresponding performance test response message, and measures signal message processing delay time. Signal tester performance test device in network. The method of claim 1, And the performance test management unit checks the serial number of the received performance test response message and checks whether the signal message is lost or misordered. The signal message processing performance test apparatus of the seven signal networks. The method of claim 1, And the performance test management unit generates and transmits and receives a large number of performance test messages to measure signal message processing capacity per unit time. In the signal message processing performance test method in the seven signal network, Generating a performance test request message having a message serial number and a generation time required for a signal message processing performance test, and transmitting the message to a called party through a message transfer unit; When a performance test request message of which the final destination is a local station is generated, generating a corresponding performance test response message and transmitting the performance test request message to a calling point through the message transfer unit; A signal in the Seven Signaling Network, comprising: measuring a signal message processing performance by analyzing a generation time and a serial number of a corresponding performance test response message when a final destination point is received. Message processing performance test method. The method of claim 7, wherein The performance test request message includes source and destination information, a corresponding performance test request message generation time, and a message serial number counted each time a new performance test request message is generated. Signal message processing performance test method. The method of claim 7, wherein When the performance test message is received in the message transfer unit of each signal point, analyzing the routing label to determine whether the final destination is a mark; Routing the received performance test message to a signal network when the final destination is not a local station; And checking the heading code of the received performance test message in the message transfer unit test user unit to determine whether the final destination is a performance test request message or a performance test response message. Signal message processing performance test method in network. The method of claim 7, wherein In the process of generating and transmitting the performance test response message, the message serial number and the generation time of the received performance test request message are copied to the performance test response message as it is, and the origin and destination points of the performance test response message are A number test method comprising: recording a reception point and an origination point of a performance test request message, respectively, to generate a performance test response message corresponding to the performance test request message. The method of claim 7, wherein The measuring of the signal message processing performance may include: extracting message generation time information of a received performance test response message and calculating a time difference from a current reception time to measure a signal message processing delay time; Checking the message serial number of the received performance test response message and checking the continuity of the serial number to determine whether the signal message is lost or misordered. Performance test method.