KR100359214B1 - Device and method for testing data transmission between api block and api block - Google Patents

Abstract

The present invention is an apparatus and method for testing data transmission between API blocks, and more particularly, when transmitting and receiving API blocks between ATM switches when testing data transfer between API blocks using an ATM switch, whether or not an integrated whole service path is normally operated. The present invention relates to an API block data transmission test apparatus and method for enabling identification, and the API block data transmission test apparatus and method according to the present invention provide a smooth transmission of AAL5 data and an ATM service without disconnection of service in an online state. In addition to ensuring maximum stability, this has the effect of improving the quality of ATM service and providing users with higher quality mobile communication services.

Description

Apparatus and method for data transfer between APPI blocks {DEVICE AND METHOD FOR TESTING DATA TRANSMISSION BETWEEN API BLOCK AND API BLOCK}

The present invention relates to an apparatus and method for testing data transfer between blocks (APIs), and more particularly, to API block data using an Asynchronous Transfer Mode (ATM) switch. The present invention relates to an API block data transmission test apparatus and method for connecting a transmitting / receiving side API block between ATM switches to determine whether an integrated whole service path is normally operated.

In the conventional API block data transmission test method, when an AAL (ATM Adaptation Layer; AAL) 5 data transmission test command is received from an operator, the transmitting end in the API block sends AAL5 test data corresponding to the AAL5 data transmission test command. The AAL5 test data generated and output to the ATM switch and looped back from the ATM switch was received by the receiver in the API block and used to determine whether the test path of the system is in normal operation.

However, when the data transmission of the API block is tested using the conventional method as described above, a typical problem of limited data testing of only a part of the transmission intervals of the system, since the transmitter and the receiver are configured in the same API block, That is, there is a problem that the data transmission test function cannot be performed for the other API blocks connected to the ATM switch. As a result, the data transmission test function cannot be provided for the entire service path of the system, thereby failing to provide a stable ATM service. There was a problem.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to enable the identification of the normal operation of the entire service path including the transmit / receive API block and the ATM switch. The present invention provides an apparatus and method for testing data transfer between API blocks to ensure smooth transmission of AAL5 data and maximum stability and quality of ATM service without service interruption.

In order to achieve the above object, the API block data transmission test apparatus of the present invention receives an AAL5 data transmission test command from an operator terminal, outputs a corresponding AAL5 test data generation source, and inputs a test result value. A main processor that displays the operator through the operator terminal upon receipt;

The AAL5 test data generation source is input from the main processor and the corresponding AAL5 test data is generated. When the received AAL5 test data is input again, the AAL5 test data is compared with the transmitted AAL5 test data and the test result is compared. A transmitting API block outputted to the main processor;

After receiving the AAL5 test data from the transmitting API block, the AAL5 test data is compared with the source for generating AAL5 test data transmitted from the main processor, and the test result is output to the main processor and the AAL5 test is performed. A receiver API block for retransmitting data to the transmitter API block; And

The AAL5 test data generated by the sending API block is passed between the sending API block and the receiving API block to the receiving API block, and the AAL5 test data output from the receiving API block is transmitted. It is characterized by consisting of an ATM switch unit to pass to the side API block.

Meanwhile, in the API block data transmission test method according to the present invention, the main processor receives an AAL5 data transmission test command from the operator terminal and outputs a corresponding AAL5 test data generation source to the transmitting API block. First step;

A second step of generating the AAL5 test data by the transmitting API block and outputting the AAL5 test data to the receiving API block through the ATM switch unit;

A third step of the receiving API block comparing the AAL5 test data inputted from the transmitting API block with the source for generating AAL5 test data inputted from the main processor and outputting the test result value to the main processor;

A fourth step of retransmitting the AAL5 test data, which has been compared and tested by the receiving API block, to the transmitting API block through the ATM switch unit; And

And a fifth step of comparing the transmitted AAL5 test data with the transmitted AAL5 test data and outputting the test result to the main processor.

1 is a functional block diagram showing the configuration of an API block data transmission test apparatus according to an embodiment of the present invention;

2 is an operation flowchart showing a method for testing data transmission between API blocks according to an embodiment of the present invention;

3 is an operation flowchart showing in detail the first step of the API block data transmission test method according to an embodiment of the present invention,

4 is an operation flowchart showing in detail the second step of the API block data transmission test method according to an embodiment of the present invention,

5 is an operation flowchart showing a third step in detail among the API block data transmission test method according to an embodiment of the present invention,

6 is an operation flowchart showing the fourth step in detail among the API block data transmission test method according to an embodiment of the present invention,

FIG. 7 is an operation flowchart showing a fifth step in detail among the API block data transmission test method according to an embodiment of the present invention.

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

100: main processor 200: sender API block

210: embedded transmitter side processor 220: transmitter side AAL5 division and recombination unit

300: receiving side API block 310: receiving side AAL5 segmentation and recombination unit

320: internal processor processor 400: ATM switch unit

Hereinafter, an apparatus and method for testing data transmission between API blocks according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram of an API block data transmission test apparatus according to an embodiment of the present invention, the API block data transmission test apparatus according to an embodiment of the present invention includes a main processor (100); A transmitting-side API block 200 having a transmitting-side embedded processor 210 and a transmitting-side AAL5 splitting and recombining unit 220; A receiving API block 300 having a receiving AAL5 splitting and recombining unit 310 and a receiving internal processor 320; And an ATM switch unit 400.

The main processor 100 receives the AAL5 data transmission test command from the operator terminal 1 and sends the corresponding AAL5 test data generation source in the transmitting side API block 200 and the internal processor 210 in the transmitting side API block 200. The operator terminal 1 is outputted to the receiver embedded processor 320 in the receiver API block 300, and receives test result values from the receiver embedded processor 320 and the transmitter embedded processor 210. It serves to display to the operator.

Here, the source for generating AAL5 test data output from the main processor 100 means source data for generating test data for the data size and data content requested by the operator through the operator terminal 1.

Meanwhile, the transmitting side embedded processor 210 in the transmitting API block 200 receives a source for generating AAL5 test data from the main processor 100 and generates corresponding AAL5 test data, and then transmits the corresponding AAL5 test data. The AAL5 split and recombine unit 220 outputs the AAL5 test data from the transmitting AAL5 split and recombine unit 220, and then compares the test result with the AAL5 test data. Output to 100.

Here, the AAL5 test data generated by the transmitter-side embedded processor 210 is in the form of packet data.

In addition, the transmitting side AAL5 segmentation and recombination unit 220 in the transmitting side API block 200 receives the AAL5 test data from the transmitting side embedded processor 210 and divides the AAL5 test data into ATM cells to convert the AAL5 test data. While outputting to the ATM switch unit 400, and receives the ATM cell from the ATM switch unit 400, converts the ATM cell to AAL5 test data and outputs the same to the transmitting-side embedded processor 210.

Here, the transmitting AAL5 splitting and recombining unit 220 may split the AAL5 test data in the form of packet data into ATM cells, and conversely, the ATM cell may be recombined into the AAL5 test data in the form of packet data.

Meanwhile, the receiving side AAL5 splitting and recombining unit 310 in the receiving side API block 300 receives an ATM cell from the ATM switch unit 400 and simultaneously recombines and converts the ATM cell into AAL5 test data. Outputting the AAL5 test data from the receiving side embedded processor 320 and splitting the AAL5 test data into ATM cells and outputting the AAL5 test data to the ATM switch unit 400. do.

In addition, the receiving side embedded processor 320 in the receiving side API block 300 receives the AAL5 test data from the receiving side AAL5 splitting and recombining unit 310 and simultaneously stores the AAL5 test data in the main processor 100. After comparing the AAL5 test data generation source output from the AAL5 test data generation source, the test result value is output to the main processor 100, and the comparative test AAL5 test data is output to the receiving side AAL5 partitioning and recombination unit 310. It plays a role.

On the other hand, the ATM switch unit 400 is connected between the transmitting side API block 200 and the receiving side API block 300, the AAL5 test data generated in the transmitting side API block 200, the receiving side API While passing to block 300, the AAL5 test data output from the receiving API block 300 is passed to the transmitting API block 200.

Next, a description will be given of the API block data transmission test method according to an embodiment of the present invention using the API block data transmission test apparatus having the above configuration.

2 is an operation flowchart illustrating a method for testing data transfer between API blocks according to an embodiment of the present invention.

First, the main processor 100 receives the AAL5 data transmission test command from the operator terminal 1, and then outputs the corresponding AAL5 test data generation source to the transmitting side API block 200 (S1).

In this case, the first step S1 will be described in more detail with reference to FIG. 3.

As shown in FIG. 3, the main processor 100 receives an AAL5 data transmission test command from the operator terminal 1 (S1-1).

Thereafter, the main processor 100 sets a test path according to the AAL5 data transmission test command (S1-2).

Subsequently, the main processor 100 outputs a source for generating AAL5 test data containing the data size and data content corresponding to the AAL5 data transmission test command to the internal processor 210 in the transmitting API block 200. (S1-3).

Then, the transmitting side API block 200 generates AAL5 test data and simultaneously outputs the AAL5 test data to the receiving side API block 300 through the ATM switch unit 400 (S2).

In this case, the second step S2 will be described in more detail with reference to FIG. 4.

As shown in FIG. 4, the embedded processor 210 in the transmitting API block 200 receives a source for generating AAL5 test data from the main processor 100 and simultaneously receives corresponding AAL5 test data. To generate (S2-1).

Thereafter, the transmitting-side embedded processor 210 outputs AAL5 test data in the form of packet data to the transmitting-side AAL5 partitioning and recombining unit 220 in the transmitting-side API block 200 (S2-2).

Subsequently, the transmitting AAL5 splitting and recombining unit 220 divides and converts the AAL5 test data in the form of input packet data into an ATM cell (S2-3).

Thereafter, the transmitting side AAL5 splitting and recombining unit 220 outputs an ATM cell to the receiving side API block 300 through the ATM switch unit 400 (S2-4).

Meanwhile, the receiving API block 300 compares the AAL5 test data input from the transmitting API block 200 with the source for generating AAL5 test data input from the main processor 100 and compares the test result value. Output to the main processor 100 (S3).

In this case, the third step S3 will be described in more detail with reference to FIG. 5.

As shown in FIG. 5, the receiving side AAL5 splitting and recombining unit 310 in the receiving side API block 300 receives an ATM cell through the ATM switch unit 400 (S3-1).

Thereafter, the receiving side AAL5 splitting and recombining unit 310 converts the ATM cell received through the ATM switch unit 400 into AAL5 test data in the form of packet data (S3-2).

Subsequently, the receiving side AAL5 splitting and recombining unit 310 outputs AAL5 test data in the form of packet data to the receiving side embedded processor 320 in the receiving side API block 300 (S3-3).

In this case, the receiving side embedded processor 320 receives a source for generating AAL5 test data from the main processor 100 (S3-4).

Thereafter, the receiving side embedded processor 320 compares the AAL5 test data generation source input from the main processor 100 with the AAL5 test data received from the receiving AAL5 splitting and recombining unit 310 and then compares the AAL5 test data. The test result is output to the main processor 100 (S3-5).

Meanwhile, the receiving side API block 300 retransmits the AAL5 test data that has been compared and tested to the transmitting side API block 200 through the ATM switch unit 400 (S4).

In this case, the fourth step S4 will be described in more detail with reference to FIG. 6.

As shown in FIG. 6, the receiving side AAL5 splitting and recombining unit 310 receives the AAL5 test data compared and tested from the receiving side embedded processor 320 (S4-1).

Thereafter, the receiving side AAL5 splitting and recombining unit 310 splits the AAL5 test data in the form of packet data into ATM cells and converts them (S4-2).

Subsequently, the receiving AAL5 splitting and recombining unit 310 outputs an ATM cell to the transmitting AAL5 splitting and recombining unit 220 in the transmitting API block 200 through the ATM switch unit 400 (S4). -3).

Then, the transmitting API block 200 compares the returned AAL5 test data with the previously transmitted AAL5 test data and outputs the test result to the main processor 100 (S5).

In this case, the fifth step S5 will be described in more detail with reference to FIG. 7.

As shown in FIG. 7, the transmitting side AAL5 division and recombination unit 220 receives an ATM cell through the ATM switch unit 400 (S5-1).

Thereafter, the transmitting AAL5 splitting and recombining unit 220 recombines and converts the ATM cell into AAL5 test data having a packet data structure (S5-2).

Subsequently, the transmitting AAL5 splitting and recombining unit 220 outputs AAL5 test data to the transmitting internal processor 210 (S5-3).

Then, the transmitting-side embedded processor 210 compares the re-input AAL5 test data and the previously transmitted AAL5 test data and outputs the test result to the main processor 100 (S5-4).

As described above, according to the apparatus and method for data transmission test between API blocks according to the present invention, when the API block data transmission test using an ATM switch is performed, the transmitting and receiving API blocks are connected to each other between the ATM switches to normal the integrated service path. It enables the identification of operation and ensures the smooth transmission of AAL5 data and the stability of ATM service without any service disconnection while online, and also improves the quality of ATM service. There is an excellent effect that can provide a high mobile communication service.

In addition, by testing the entire service path with the internal test function without separate external test equipment, there is an excellent effect of reducing the incurred charges on the test equipment.

Claims (9)

A main processor that receives an AAL5 data transmission test command from an operator terminal and outputs a corresponding AAL5 test data generation source, and displays a test result value to an operator through the operator terminal when a test result value is input; The AAL5 test data generation source is input from the main processor and the corresponding AAL5 test data is generated. When the received AAL5 test data is input again, the AAL5 test data is compared with the transmitted AAL5 test data and the test result is compared. A transmitting API block outputted to the main processor; After receiving the AAL5 test data from the transmitting API block, the AAL5 test data is compared with the source for generating AAL5 test data transmitted from the main processor, and the test result is output to the main processor and the AAL5 test is performed. A receiver API block for retransmitting data to the transmitter API block; And The AAL5 test data generated by the sending API block is passed between the sending API block and the receiving API block to the receiving API block, and the AAL5 test data output from the receiving API block is transmitted. Apparatus for testing data transmission between API blocks, characterized in that the ATM switch to pass to the side API block. The method of claim 1, The transmitting API block receives the source for generating AAL5 test data from the main processor and generates corresponding AAL5 test data, and compares the AAL5 test data with the previously transmitted AAL5 test data when the AAL5 test data is input again. A transmitter-side built-in processor which outputs the test result value to the main processor; And After receiving the AAL5 test data from the internal processor of the transmitting side, the AAL5 test data is converted into an ATM cell and outputted to the ATM switch unit, and after receiving the ATM cell from the ATM switch unit, the ATM cell is converted into AAL5 test data. And a transmitting side AAL5 splitting and recombining unit configured to output to the transmitting side embedded processor. The method of claim 1, The receiving side API block receives an ATM cell from the ATM switch unit and simultaneously converts the ATM cell into AAL5 test data, converts the ATM cell into AAL5 test data, and divides the AAL5 test data into an ATM cell after receiving AAL5 test data. A receiving side AAL5 splitting and recombining unit output to the ATM switch unit; And While receiving AAL5 test data from the receiving AAL5 splitting and recombining unit, the AAL5 test data is compared with the AAL5 test data generation source output from the main processor, and the test result is output to the main processor. And a receiver-side embedded processor configured to output the AAL5 test data to the receiver AAL5 partitioning and recombination unit. A first step of the main processor receiving an AAL5 data transmission test command from the operator terminal and outputting a corresponding AAL5 test data generation source to the transmitting API block; A second step of generating the AAL5 test data by the transmitting API block and outputting the AAL5 test data to the receiving API block through the ATM switch unit; A third step of the receiving API block comparing the AAL5 test data inputted from the transmitting API block with the source for generating AAL5 test data inputted from the main processor and outputting the test result value to the main processor; A fourth step of retransmitting the AAL5 test data, which has been compared and tested by the receiving API block, to the transmitting API block through the ATM switch unit; And And a fifth step of comparing the AAL5 test data transmitted by the transmitting API block with the AAL5 test data transmitted first, and outputting the test result value to the main processor. The method of claim 4, wherein The first step may include steps 1-1 in which the main processor receives an AAL5 data transfer test command from the operator terminal; A first step 1-2 in which the main processor establishes a test path according to an AAL5 data transfer test command; And An API comprising the first to third steps of outputting, by the main processor, the source for generating AAL5 test data containing the data size and content corresponding to the AAL5 data transmission test command to the internal processor in the transmitting API block; Test method of data transmission between blocks. The method of claim 4, wherein The second step may include steps 2-1 of the transmitting-side embedded processor in the transmitting API block receiving the source for generating the AAL5 test data from the main processor and generating corresponding AAL5 test data; A step 2-2 of the sending-side embedded processor outputting AAL5 test data in the form of packet data to the sending AAL5 splitting and recombining unit in the sending API block; A step 2-3 of dividing and converting the AAL5 test data in the form of packet data into which the transmitting side AAL5 division and recombination unit is input into an ATM cell; And And transmitting and outputting an ATM cell to the receiving API block through the ATM switch unit. The method of claim 4, wherein The third step may include steps 3-1 of a receiving side AAL5 division and recombination unit receiving the ATM cell through the ATM switch unit in the receiving API block; Step 3-2 of the receiving side AAL5 splitting and recombining unit converting the ATM cell received through the ATM switch unit into AAL5 test data in the form of packet data; Step 3-3 of the receiving side AAL5 partitioning and recombining unit outputting AAL5 test data in the form of packet data to a receiving side embedded processor in the receiving API block; Steps 3-4, wherein the receiving side embedded processor receives a source for generating AAL5 test data from the main processor; And A third step in which the receiving side embedded processor compares the AAL5 test data generation source input from the main processor with the AAL5 test data input from the receiving AAL5 splitting and recombining unit and outputs the test result to the main processor; API data transmission test method characterized in that consisting of -5 steps. The method of claim 4, wherein The fourth step may include: a 4-1 step of receiving, by the receiving side AAL5 division and recombination unit, the AAL5 test data which has been compared and tested by the receiving side embedded processor; A step 4-2 of the receiving side AAL5 partitioning and recombining unit splitting and converting AAL5 test data in the form of packet data into an ATM cell; And And a fourth step of the receiving side AAL5 dividing and recombining unit outputting an ATM cell to the transmitting side AAL5 dividing and recombining unit in the transmitting API block through the ATM switch unit. The method of claim 4, wherein The fifth step may include: a fifth step in which the transmitting side AAL5 division and recombination unit receives an ATM cell through the ATM switch unit; Step 5-2 of the transmitting AAL5 partitioning and recombining unit to recombine and convert an ATM cell into AAL5 test data of a packet data structure; Step 5-3 of the transmitting-side AAL5 splitting and recombining unit outputting AAL5 test data to the transmitting-side embedded processor; And Data transmission between API blocks is performed by the transmitting-side embedded processor comparing the re-input AAL5 test data with the previously transmitted AAL5 test data and outputting the test result to the main processor. Test Methods.