KR100421846B1 - Method of Managing Data trsnsmitted from Subscriber in the ATM network - Google Patents

Abstract

The present invention relates to a subscriber data processing method using an Asynchronous Transfer Mode (ATM) method, and to reduce the cell payload assembly delay time by applying an ATM cell partial filling method. It relates to a data processing method.

In the present invention, when the inputted subscriber data is mapped to an ATM cell, the inputted subscriber data is recorded in the user data area of the ATM cell as much as a predetermined number of partial padding bytes, and the idle data is stored in the remaining user data area. ) Is recorded.

Description

Method of processing subscriber data using ATM method {Method of Managing Data trsnsmitted from Subscriber in the ATM network}

The present invention relates to a subscriber data processing method using an Asynchronous Transfer Mode (ATM) method, and in particular, an ATM network and a Public Switched Telephone Network (PSTN) are efficiently applied by applying an ATM cell partial filling technique. It relates to a subscriber data processing method for interworking.

In general, the ATM Adaptation Layer 1 (AAL 1) in the ATM scheme is Class A, for fixed speed voice information or existing leased line service, and the information is transmitted at a constant bit rate. Timing relationship between transmitter and receiver is required and provides connection-oriented data communication. In addition, it provides functions such as disassembly and assembly of user information, absorption of cell delay variation, processing of cell loss and cell misinsertion, reproduction of data structures of the receiver at the receiver, and clock frequency reproduction of the transmitter at the receiver. .

Therefore, when interworking with the PSTN and ATM networks, the interworking is performed using the AAL 1 layer.

1 is a block diagram showing the configuration of a subscriber data processing apparatus using a conventional ATM scheme, and FIG. 2 is a diagram illustrating an ATM cell structure of an AAL 1 type according to the prior art.

Referring to FIGS. 1 and 2, a subscriber data processing apparatus using a conventional ATM scheme is largely configured to process subscriber data received from a subscriber station and ATM cells received through an ATM network in the form of data suitable for AAL 1 layer. A first layer processor (2), an ATM header processor (8) for processing the header of the subscriber data or ATM cell, an ATM network interface (9) for interfacing with the ATM network, and the AAL And a processor unit 10 for controlling the one-layer processor and the ATM header processor.

Here, the AAL 1 layer processing unit 2 is a Convergence Sublayer (CS) sublayer processing unit 3 processing the CS sublayer and a Segmentation And Reassembly (SAR) sublayer processing unit 7 processing the SAR sublayer. It is composed.

The CS sublayer processing unit 3 includes a subscriber data reception buffer unit 4 for receiving and storing subscriber data from the subscriber station, a subscriber data transmission buffer unit 5 for storing subscriber data to be transmitted to the subscriber station; And a counter / buffer control section 6 which controls the subscriber data reception buffer section 4 and the subscriber data transmission buffer section 5 and performs a counting function.

The subscriber data processing method using the ATM method in the apparatus according to the related art configured as described above first establishes a call between subscriber terminals by a signaling procedure when transmitting subscriber data to the ATM network.

Subsequently, when the subscriber station 1 transmits the subscriber data, the subscriber station 1 stores the subscriber data in the subscriber data reception buffer unit 4 of the CS sublayer processing unit 3 and reads the stored subscriber data by 47 bytes from the counter / buffer control unit 6. After entering, it is transmitted to the SAR sublayer processing unit (7).

The SAR sublayer processing unit 7 adds 1 byte of AAL 1 header to 47 bytes of subscriber data read from the CS sublayer processing unit 3 to generate a SAR-PDU (Protocol Data Unit; Protocol Data Unit). It transfers to the header processing part 8.

The ATM header processing unit 8 adds a 5-byte ATM header to the SAR-PDU received from the AAL 1 layer processing unit 2, generates an 53-byte ATM cell, and transfers it to the ATM network interface unit 9 to transfer the ATM network. The ATM cell is transmitted.

When the subscriber data is received from the ATM network, the reverse sequence of the transmission method is performed. After each header is interpreted, the header data is removed and the subscriber data is transmitted to the subscriber station.

Here, the CS sublayer processing unit 3 maps the user data to the user data area of 47 bytes from the 53 byte ATM cells when mapping the subscriber data transmitted from the subscriber station 1 to the ATM cell. Send all the stuff. In this case, since 47 bytes of user data must be read from the subscriber data receiving buffer unit 4, a delay occurs.

When matching with the PSTN, the user data is converted into Pulse Code Modulation (PCM) data of 64 Kbps and transmitted from the subscriber station 1 to the subscriber data reception buffer unit 4 every 125 μS. The Cell Payload Assembly Delay is 47 × 125 μS = 5.875 mS. It is delayed by a number of multiplexing devices (MUX) and demultiplexing (DEMUX) devices present on the transmission path, and also delayed by a buffer for absorption of CDV (Cell Delivery Variation) at the receiving side, The total delay is more than 10 mS.

Therefore, when the subscriber station 1 is digital, this delay is not a problem, but in the case of analog, when the subscriber data is delayed and transmitted, an echo or a hollow is generated.

In particular, a delay other than the cell payload assembly delay is a delay that cannot reduce the delay time, and the cell payload assembly delay is the largest factor among the delay factors.

The subscriber data processing method using the ATM method according to the related art records a 47-byte user data area as user data when generating a SAR-PDU, so that the cell payload assembly delay time is considerably longer. There was a problem of degrading call quality by generating echo and hollow at the time of interworking.

An object of the present invention has been devised in view of the above-mentioned problems of the prior art, and the ATM (ATM) for reducing the cell payload assembly delay time by processing the user data area of the subscriber data by applying a partially filled cell scheme. It is to provide a subscriber data processing method using an Asynchronous Transfer Mode.

In order to achieve the above object, the present invention records the input subscriber data in the user data area of the ATM cell as much as a predetermined partial padding byte when mapping the input subscriber data to the ATM cell and idle data in the remaining user data area. (Idle Data) is recorded.

Preferably, when receiving subscriber data mapped to the ATM cell, the header and idle data portions of the subscriber data mapped to the ATM cell are removed, converted into PCM subscriber data, and transmitted to the subscriber station.

The method of mapping the input subscriber data to an ATM cell and transmitting the same to the ATM cell may include recording a partial padding byte number, reading user data by the partial padding byte number, and excluding the partial padding byte number. And recording idle data in the user data area.

The recording of the partial padding bytes may be performed by the processor unit to write the partial padding bytes into a register of the transmission control unit, and reading the user data by the partial padding bytes may be performed by using a counter / buffer. According to the counting of the controller, the step of reading user data by the number of partial padding bytes is performed after reading 1 byte of AAL 1 header from the SN / SNP processing unit.

1 is a block diagram showing the configuration of a subscriber data processing apparatus using a conventional ATM method.

2 is a diagram illustrating an ATM cell structure of an AAL 1 type according to the prior art;

3 is a diagram illustrating an AAL 1 type ATM cell structure according to the present invention;

Figure 4 is a detailed block diagram showing the internal configuration of the counter / buffer control unit according to the present invention.

Explanation of symbols for the main parts of the drawings

2: AAL 1 layer processing unit 3: CS layer processing unit

4: subscriber data reception buffer 5: subscriber data transmission buffer

6: counter / buffer control unit 7: SAR sublayer processing unit

8: ATM header processing unit 9: ATM network interface unit

10: processor unit

Hereinafter, the configuration and operation according to an embodiment of the present invention will be described with reference to the accompanying drawings.

3 is a diagram illustrating an AAL 1 type ATM cell structure according to the present invention, and FIG. 4 is a detailed block diagram illustrating an internal configuration of a counter / buffer control unit according to the present invention.

Referring to Figures 3 and 4, the subscriber data processing apparatus using the ATM method according to the present invention is the same as the configuration of the subscriber data processing apparatus according to the prior art described above. However, the core of the present invention is that a counter / buffer control unit of the subscriber data processing apparatus according to the present invention implements logic capable of controlling the amount of user data to be recorded in the CS-PDU.

The counter of the counter / buffer control unit 6 according to the present invention performs various counting functions by the data input from the processor unit, the buffer control unit controls the operation of the counter, and when transmitting the subscriber data to the ATM network, The user data is read from the subscriber data reception buffer unit 4 according to the counting value, idle data is inserted into the rest of the subscriber data area, and when receiving subscriber data from the ATM network, CS- Idle data is removed from the PDU to extract only the user data and stored in the subscriber data transmission buffer section 5.

The subscriber data processing method in the subscriber data processing apparatus using the ATM scheme configured as described above is as follows.

When transmitting subscriber data to an ATM network, first, a call procedure is established between subscriber stations through a signaling procedure. At this time, whether or not to use the partial fill cell method and how many bytes of user data to use as partial fill cell bytes when the partial fill cell method is used, this value is set to the counter / buffer control unit 6 of the CS sublayer processing unit. Enter it. Subsequently, the subscriber data input by the control of the counter / buffer control unit 6 is stored in the subscriber data reception buffer unit 4. After reading the subscriber data stored in the subscriber data by a predetermined number of partial padding cell bytes, the remaining portion of the user data area fills predefined idle data to generate a 47-byte CS-PDU, and then the SAR sublayer processing unit Transfer to (7).

The SAR sublayer processing unit 7 adds 1 byte of AAL 1 header to 47 bytes of subscriber data received from the CS sublayer processing unit, generates a SAR-PDU, and delivers the SAR-PDU to the ATM header processing unit.

The ATM header processor adds a 5-byte ATM header to the SAR-PDU received from the SAR sublayer processor, generates a 53-byte ATM cell, and transfers the ATM cell to the ATM network interface to transmit the ATM cell to the ATM network.

When the subscriber data is received from the ATM network, the reverse sequence of the transmission method is performed. After each header is interpreted, the header data is removed, the idle data is removed, and the subscriber data is transmitted to the subscriber terminal.

Here, according to the operation of the counter / buffer control unit 6 according to the present invention, the subscriber data stored in the subscriber data is read by a predetermined number of partial filling cell bytes, and the rest of the user data area reads the predefined idle data. The process of generating the 47-byte CS-PDU after filling and transmitting the same to the SAR sublayer processor 7 will be described in detail.

First, the number of partial padding bytes is written by a processor unit into a register in the transmission control unit. The transmission control unit receives a flag signal from the subscriber data reception buffer unit 4 and starts counting. In addition, the first byte of the SAR-PDU is 1 byte from the SN / SNP processing unit 40 because an AAL 1 header including a sequence number (SN) region and a sequence number protection (SNP) region should be added. Read the AAL 1 header of.

Subsequently, the user data is read from the subscriber data reception buffer unit 4 by the number of partial filled cell bytes by the counting. The data of the remaining bytes except for the partially filled cell bytes in the user data area is filled with idle data to generate a 48-byte SAR-PDU. The SAR-PDU generated as described above is transmitted to the SAR sublayer processor 7.

Meanwhile, when receiving subscriber data from the ATM network, a process of removing the header and idle data and transmitting the same to the subscriber station according to the operation of the counter / buffer control unit 6 will be described in detail.

First, the processor unit writes the partially filled cell byte number into a register in the reception control unit. Then, the flag signal is received from the SAR sublayer processor 7 to start counting.

Subsequently, a SAR-PDU of 48 bytes is received from the SAR sublayer processing unit 7.

Since the first 1 byte of the 48-byte SAR-PDU received from the SAR sublayer processing unit 7 is an AAL 1 header composed of an SN area and an SNP area, it is extracted and transmitted to the SN / SNP processing unit 40.

Since the portion excluding the AAL 1 header is a user data region, the counting extracts user data by the number of partial-filled cell bytes from the user data region, and discards the remaining portion of the user data since it is idle data.

When the subscriber data is processed using the partial-filled cell scheme, the cell payload assembly delay time can be adjusted and reduced as necessary. For example, if the amount of partial filling is 20 bytes, the cell payload assembly delay time is 20 × 125 μS = 2.5 mS, and the cell payload assembly delay time is compared with the case where the entire 47-byte user data area is used as user data. Can be reduced.

As described above, the present invention can adjust the cell payload delay time as necessary by using a partially filled cell technique, thereby reducing the cell payload delay time, thereby preventing echoes and hollows, thereby improving call quality. .

Claims (6)

Establishing a call between subscriber stations; Determining whether to use a partial filling scheme for subscriber data to be transmitted from the subscriber station to an ATM network; Setting a number of bytes of user data to be the partial filled cell bytes when the use of the partial filled scheme is determined; When the input subscriber data is mapped to an ATM cell, the input subscriber data is recorded in the user data area of an ATM cell by the predetermined partial padding byte number, and idle data is recorded in the remaining user data area. Subscriber data processing method using the ATM method. The method of claim 1, wherein when receiving subscriber data mapped to the ATM cell, the header and idle data portions of the subscriber data mapped to the ATM cell are removed, converted into PCM subscriber data, and transmitted to the subscriber station. Subscriber data processing method using the Tim. 2. The method of claim 1, wherein the method of mapping the input subscriber data to an ATM cell and transmitting it to an ATM network comprises: recording a partial padding byte number; Reading user data by the number of partial padding bytes; And recording idle data in the remaining user data area except the partial padding byte number. 4. The method of claim 3, wherein the recording of the partial padding byte number is performed by a processor unit to write the partial padding byte number into a register of the transmission control unit. The method of claim 3, wherein the reading of the user data by the number of partial padding bytes is performed according to a counting counter / buffer control unit. 4. The method of claim 3, wherein the reading of the user data by the number of partial padding bytes is performed after reading an AAL 1 header of 1 byte from an SN / SNP processing unit. .