KR100491660B1 - Method for data transmission in ATM system - Google Patents

Abstract

The present invention relates to a method for transmitting data in an ATM system that can prevent AAL5 type ATM cell confusion by setting one byte that distinguishes each ATM terminal in a 48-byte payload field. The present invention relates to an ATM system by inserting a header for distinguishing ATM terminals to prevent AAL5 type ATM cell confusion that may occur when using an AAL5 type ATM cell in an ATM system. When a pass uses a single pass (one VPI / VCI), the ATM terminals connected to the ATM switch can transmit AAL5-type ATM cell data without ATM cell confusion.

Description

Method for data transmission in ATM system

The present invention relates to a method for transmitting data in an ATM system that can prevent AAL5 type ATM cell confusion by setting 1 byte that distinguishes each ATM terminal in a 48 byte payload field. In particular, in order to prevent AAL5 type ATM cell confusion that may occur when using an AAL5 type ATM cell in an ATM system, a single path between ATM switches is provided by inserting a header that can distinguish ATM terminals. By using a pass (one VPI / VCI), ATM terminals connected to an ATM switch can transmit AAL5 type ATM cell data without ATM cell confusion.

In general, in ATM (Asynchronous Transfer Mode) systems, if the current path between ATM switches uses a single pass, that is, one VPI / VCI, the ATM terminals connected to the ATM switch transmit data. If an AAL5 type ATM cell is used, an ATM cell confusion may occur in the ATM switch. Referring to FIG.

1 is a diagram illustrating a connection configuration between an ATM terminal and an ATM switch according to the prior art.

First, the ATM system is composed of ATM terminals #A to #C (10, 20, 30) and ATM terminals # 1 to # 3 (60, 70, 80) to ATM switch X (40) and ATM switch Y (50). For the convenience of description, the connection method of the above configuration is one of a connection method between terminals used in a PVC (Permanent Virtual Connection, ATM switching network, etc.). It is called a connection method).

As shown in the drawing, each terminal 10 to 30, 60 to 80 is a virtual path identifier / virtual channel identifier (VPI / VCI); virtual path identifier / virtual channel identifier, and destination information included in a header of an ATM cell. (For example, ATM terminal #A (10) has a value of VPI: 100, VCI: 100, and ATM switch X (40)). And the ATM switches X 40 and Y 50 communicate with a value of 100 for VPI and 200 for VCI.

If the application program (AP) of ATM terminal #A (10) is ATM terminal # 1 (60), the AP of ATM terminal #B (20) is ATM terminal # 2 (70). Assuming that the transmission is as follows.

When ATM terminal #A (10) and ATM terminal #B (20) transmits an ATM cell to ATM switch X (40), the ATM switch X (40) is transmitted to the ATM switch Y (50) Send ATM cell. However, a problem occurs because the VPI and VCI are set to 100/200 when transmitting an ATM cell from ATM switch X 40 to ATM switch Y 50. Therefore, the ATM switch Y 50 cannot distinguish between the ATM cell transmitted by the ATM terminal #A 10 and the ATM cell transmitted by the ATM terminal #B 20.

Therefore, if the path between ATM switches is a single pass, that is, ATM terminals connected to an ATM switch using a single VPI / VCI to transmit data, an ATM cell confusion occurs in an ATM switch when an AAL5 type ATM cell is used. ) Has a problem that occurs.

Accordingly, the present invention is proposed to solve the above problems of the prior art,

It is an object of the present invention to add an AAL5 type ATM cell that can occur when using an AAL5 type ATM cell in an ATM system by adding a header 1 byte that distinguishes each ATM terminal to a 48 byte payload field. Cell Confusion can be prevented, and if the path between ATM switches uses a single pass (one VPI / VCI), the ATM terminals connected to the ATM switch can read AAL5 type ATM cell data without ATM cell confusion. An ATM system provides a data transmission method for transmission.

The present invention for achieving the above object,

Transmitting the value of VPI / VCI (/) at the ATM terminal #A and the terminal number A of the ATM terminal together with the data to the ATM switch #X;

Transmitting the traffic to another ATM switch (#Y) by converting the value of the VPI / VCI in the ATM switch (#X) that has received the terminal number (A) and data;

Converting the traffic into a VPI / VCI value mapped to the ATM terminal by referring to a mapping table at another ATM switch #Y;

After the conversion, the method comprises the step of transmitting the traffic from another ATM switch #Y to another ATM terminal # 1.

Hereinafter, a preferred embodiment of the "data transmission method in the ATM system" of the present invention according to the above technical concept will be described in detail with reference to the accompanying drawings.

First, in order to solve the above problem, the present invention provides a header of 1 byte in an ATM 48-byte payload (a portion in which data from a higher layer is inserted in a transmission frame of a SDH (Synchronous Digital Hierarchy)). header) is added to each ATM AAL5 cell, as shown in FIG.

2 is a block diagram of a ATM 48 bytes payload according to the present invention in which a 1-byte header is added to each ATM AAL5 cell.

As shown in this figure, the SN (Sequence Number) field serves to detect an ATM cell transmission sequence error by having values of 0 and 1 sequentially, and the role of the terminal number (TN) field is an ATM switch. Used to distinguish each terminal connected to.

Detailed description thereof will be described with reference to FIG. 3, where the connection method applies the PVC method as shown in FIG. 1, and each terminal number (#) is predetermined, and each terminal has its own. I know the terminal number (#). That is, each terminal has its own number (#) set in advance.

3 is a diagram illustrating a data transmission process in an ATM system according to the present invention, wherein an ATM terminal #A (100) is connected to an ATM terminal # 1 (600) via an ATM switch #X (400) and a #Y (500). In communication, it is assumed that ATM terminal #B 200 communicates with ATM terminal # 2 700 via ATM switch #X 400 and #Y 500.

As shown in FIG. 3, in the data sending process, first, the ATM terminal #A 100 has a value of 100/100 of the VPI / VCI and a terminal number # of the ATM terminal #A 100. Is transmitted along with the data to the ATM switch #X (400).

The ATM switch #X 400 that receives this converts the value of VPI / VCI to 100/200 and transmits traffic to the ATM switch #Y 500.

The ATM switch #Y 500 which receives this is converted to 100/300 which is a value of VPI / VCI mapped with the terminal #A 100 by referring to a mapping table 500.

After the conversion, ATM switch #Y 500 forwards the traffic to ATM terminal # 1 600.

Similarly, the data transmission process of the ATM terminal #B (200) and #C (300) and the ATM terminal # 2 (700) and # 3 (800) is performed in the same manner as the above method.

On the other hand, when communicating for the data transmission is first subjected to a series of signaling (signaling) process, and the process is described with reference to the accompanying drawings, as follows.

4 is a diagram illustrating a signaling process before performing communication according to FIG. 3.

As shown here, in step S11, ATM terminal #A transmits VPI / VCI of ATM terminal #A, terminal number (#) of ATM terminal #A, and VPI / VCI information of ATM terminal # 1 to ATM switch #X. do.

After the data transmission, in step S12 the information of the VPI / VCI of ATM terminal #A is recorded in a mapping table.In step S13, after the recording, the ATM switch #X is the terminal # of ATM terminal #A and the ATM terminal. The VPI / VCI information of # 1 is transmitted to the ATM switch #Y.

In step S14, the ATM switch #Y records the VPI / VCI information of the terminal # and the ATM terminal # 1 of the ATM terminal #A in the mapping table.In step S15, the ATM switch #Y receives the ATM terminal # 1 after the recording. Send a ready signal to confirm that it is ready.

If ATM # 1 is ready to receive as a result of the check, a start signal is transmitted to ATM switch #Y in step S16.

Next, in step S17, the ATM switch #Y transmits the VPI / VCI of the ATM terminal #A and the terminal # information of the ATM terminal # 1 to the ATM switch #X, and in step S18, the ATM switch #X is the ATM terminal #. It receives the VPI / VCI of A and the terminal # information of ATM terminal # 1 and records the terminal # of ATM terminal # 1 that is symmetric to the VPI / VCI of the corresponding ATM terminal #A in the table.

Next, in step S19, if the ATM switch #X transmits a start signal indicating that data may be sent to the ATM terminal #A, data transmission starts.

In addition, the signaling process of ATM terminal #B and ATM terminal #C and ATM terminal # 2 and ATM terminal # 3 is also transmitted as described above.

Meanwhile, in case of signaling between MCCA board and BCP board inside BTS in IMT-2000 system, if the size of data transmitted from each channel to BCP exceeds 40 bytes (including channel header), The ATM AAL5 cell confusion, which is illustrated in FIG. 1, may occur, and the ATM AAL5 cell confusion may occur even when there is a problem in timing between boards communicating using AAL5.

For example, as shown in Figure 5, the target ID (Target ID) has a value of 0 to 35 to distinguish the MCCA when transmitting a signal from the MCCA to the BCP, a value of 36 when transmitting a signal from the BCP to the MCCA Has

According to this type of addressing scheme, each MCCA is distinguished when the size of the data that is burned from the channel to the BCP exceeds 40 bytes (including the channel header), but the ATM AAL5 cell confusion that 64 channels of the MCCA transmit may occur. (The information currently transmitted to the BCP by the channel card of the MCCA is about 180 bytes at most.) Therefore, when the BCP receives the AAL5 cell by transmitting the unique number of each channel set in advance by allocating 1 byte as the header field in the payload as described in FIG. Data transmitted from each channel can be distinguished and processed, and there is no need for a separate signaling procedure.

According to the above-described "transmission method of data in ATM system" according to the present invention, when the path between ATM switches uses a single pass, that is, one gang of VPI / VCI, the ATM terminals connected to the ATM switch can transmit AAL5 type ATM cell data to ATM cells. It has the advantage of being able to transmit without Cell Confusion.

1 is a view showing a connection configuration between an ATM terminal and an ATM switch according to the prior art,

2 is a diagram illustrating a configuration in which a 1-byte header is added to each ATM AAL5 cell in an ATM 48-byte payload according to the present invention.

3 is a diagram illustrating a data transmission process in an ATM system according to the present invention;

4 is a diagram illustrating a signaling process before performing communication according to FIG. 3;

FIG. 5 is a diagram illustrating an MCCA board, a BCP configuration, and an address scheme in a BTS according to an embodiment of the present invention.

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

100, 200, 300 ..... ATM terminals #A, #B, #C

400, 500 ..... ATM Switch #X, #Y

450, 550 ..... Mapping Table

600, 700, 800 ..... ATM terminals # 1, # 2, # 3

Claims (2)

In a data transmission method of an ATM system having an ATM terminal (#A, # 1) and an ATM switch (#X, #Y), Transmitting a value of a virtual path identifier / virtual channel identifier (VPI / VCI) and a terminal number (A) of the ATM terminal together with data to an ATM switch (#X) at an ATM terminal (#A); Transmitting the traffic to another ATM switch (#Y) by converting the value of the VPI / VCI in the ATM switch (#X) that has received the terminal number (A) and data; Converting the traffic into a VPI / VCI value mapped to the ATM terminal by referring to a mapping table in another ATM switch (#Y); And after the conversion, transmitting the traffic from another ATM switch (#Y) to another ATM terminal (# 1). A signal processing method performed before data transmission in an ATM system having an ATM terminal (#A, # 1) and an ATM switch (#X, #Y), ATM terminal (#A) displays the VPI / VCI of ATM terminal (#A), the terminal number (#) of ATM terminal (#A), and the VPI / VCI information of another ATM terminal (# 1). Transmitting to; After receiving the transmitted data, the ATM switch (#X) records the information of the VPI / VCI of the ATM terminal #A in the mapping table, and then replaces the terminal number # of the ATM terminal #A with another ATM terminal (#). Transmitting the VPI / VCI information of 1) to another ATM switch #Y; Recording VPI / VCI information of a terminal number # of an ATM terminal #A and another ATM terminal # 1 in a mapping table at another ATM switch #Y receiving the transmitted information; Transmitting a ready signal for checking whether an ATM switch (#Y) is ready to receive from another ATM terminal (# 1) after writing to the mapping table; If the check result indicates that another ATM terminal (# 1) is ready to receive and transmits a start signal to the ATM switch (#Y), the ATM switch (#Y) and the VPI / VCI of the ATM terminal (#A) Transmitting terminal number # information of another ATM terminal # 1 to an ATM switch #X; At the ATM switch (#X) receiving the information, the terminal number (#) of another ATM terminal (# 1) symmetrical with the VPI / VCI of the corresponding ATM terminal (#A) is recorded in the mapping table, and the ATM terminal (#A). Transmitting data when the data transmission start signal is transmitted to the data transmission method in the ATM system.