KR920009154B1 - Apparatus and method for transmitting/receiving control data of optical transmission system - Google Patents

Abstract

The circuit is to minimize delay time necessary for relay station to relay or to receive optical signal using a data selecting unit and switching data. The circuit includes a data selecting unit (15) for selecting switching control data (D1) and switching control data (SD) according to selection data and for sending the selected data to an electric to optical converter (18), and a controller (13) for sending selection signal (S) to the selecting unit (15) when no switching request signal is detected from received data and for sending switching control data (SD) to the selecting unit (15) when switching request signal is detected.

Description

Transfer control data transmission / reception circuit and method of optical transmission device

1 is a network configuration diagram of an optical transmission device.

2 is a block diagram of a conventional optical transmission device.

3 is a transmission data format.

4 is a conventional switching control flow diagram.

5 is a block diagram of an optical transmission device according to the present invention.

6 is a control flowchart of the optical transmission device according to the present invention.

7 is a transmission timing diagram for explaining the present invention.

* Explanation of symbols for the main parts of the drawings

10: optical / electric converter 12: demultiplexer

13 controller 15 selector

16: multiplexer 18: all-optical converter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical transmission apparatus, and more particularly, to a transfer control data transmission / reception circuit and method for realizing a maximum relay distance within a limited switching time in an inter-station optical transmission apparatus.

In general optical transmission equipment, for example, in an inter-station optical transmission device, switching control refers to controlling the relay of data including data for controlling whether the received data is to be received by the local station or to another relay station. Say.

1 is a network configuration diagram of an optical transmission device to which a relay station composed of an optical transmission device between a station and a station is connected.

When transmitting data from station # 1, the transfer control data including the information data to be transmitted and the address of the receiving relay station to receive the transmission data is formatted into a transmission format, and the formatted data is transmitted in an optical / optical manner. It converts and transmits to the relay station # 2. The relay station # 2, which has received data transmitted by the pre- / optical conversion in the station # 1, compares the address included in the received data with its own address and receives and processes the information data if the same is the same. Otherwise, the relay station # It transmits to 3 to relay.

In this case, the optical transmission apparatus as the relay station is shown in FIG.

FIG. 2 is a block diagram of a conventional optical transmission apparatus, which optically / pre-converts a received pre / optical conversion signal Oin, and transfers control data D1 and information data D2w from the pre / converted signal. Optical-Electic (hereinafter referred to as O / E) converter 10 for separately outputting a demultiplexer for demultiplexing and outputting information data D2 output from the O / E converter 10. multiplexer (hereinafter referred to as " DEMUX ") 12 and an address included in the switching control data D1 output from the O / E converter 10 and its own unique address stored therein, and are compared with each other. A controller 14 for controlling the transfer of the switching control data D3, a multiplexer 16 for multiplexing the data to be transmitted and outputting the information data D4, and the controller 14 of the controller 14 The transfer control data D3 and the data D4 of the MUX 16 are synthesized and transferred. The E / O converter 18 converts and outputs a signal into an optical signal as an electric-optic (hereinafter referred to as E / O).

3 is a format of transmission data, which includes a flag, an address unit for designating a receiving relay station, a control unit carrying control data, an information unit carrying information data, two FCSs, a full leg, and the like. Control frame format.

In the third diagram, the data on the address unit and the control unit are switching control data D1, and the data on the information unit is information data D1.

4 is a switching control flowchart of the controller 14 shown in FIG.

First, a dynamic example of FIG. 2 will be described with reference to FIGS. 3 and 4.

After the information data and transfer control data to be transmitted in the station # 1 are formatted in the format as shown in FIG. 3, the optical signal is converted into an all-optical conversion (electric signal is converted into an optical signal for transmission to an optical transmission path such as an optical fiber). When Oin is output, the optical signal Oin transmitted from the end station # 1 is input to the O / E converter 10 in the relay station # 2.

At this time, the O / E converter 10 in the relay station # 2 converts the input optical signal Oin into an electrical signal, and separates the information data D2 and the transfer control data D1 from the converted signal. To the DEMUX 12 and the controller 14.

The controller 14 which has received the transfer control data D1 outputted from the O / E converter 10 compares the address in the transfer control data D1 with the address of the receiving station (its relay station as its own). If the two addresses are the same as the result of the comparison, it is determined that it is the address of the own station, and if it is not, the received information data D2 is received. If not, the received information data D2 is stored, and then retransmitted to the transfer control data D3. Do it.

The transfer control data D3 to be retransmitted is input to the E / O converter 18 which inputs the data D4 from the MUX 16. The E / O converter 18 synthesizes the transfer control data D3 and the data D4, converts the converted data into an optical signal, and transmits the converted signal to the relay station # 3.

At this time, in the system as shown in FIG. 1, factors for determining the transfer time include (1) transmission speed of transfer control data, (2) propagation delay time between each relay station or between end station and relay station, (3) transfer control data processing time, (4 ) There are factors such as the length of transfer control data, but the processing time of double transfer control data takes the largest weight.

The transfer control data in the optical transmission apparatus as shown in FIG. 2 is transmitted as the data as shown in FIG. 3 using a frame format (frome) of HDLC (High level Data Link control). When retransmitting to the relay station, the data reception time of at least 16 bits is delayed by t time as shown in a of FIG. When this process is repeated at each relay station, there is a significant delay in the overall network as in Figure 1. As a result, the data transfer time becomes long when data is transmitted to the station to which the transfer is desired, which requires a lot of time for the transfer.

Accordingly, an object of the present invention is to provide a switching control data transmission / reception circuit and method for minimizing a delay time for passing through each relay station by broadcasting the transfer data to a relay station of a network by installing a data selector in the optical transmission device.

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

FIG. 5 is a block diagram of the optical transmission device according to the present invention, in which the control data D1 outputted from the O / E converter 10 in the above-described configuration of FIG. The switching control data SD inputted to (14) and outputted from the controller 14 is inputted to the second input terminal of the selector 15, and the selection signal S outputted from the controller 13 is inputted. The configuration except that the output of the selector 15 is connected to the input terminal of the E / O converter 18 by being input to the selection signal terminal of the selector 15 is the same as that of FIG.

6 is a flow chart of the transfer control data transmission and reception control according to the present invention, which receives an transfer control data transmitted from the outside and searches for an internal transfer request signal, and performs an internal transfer in the transfer request signal search step. A transfer control data transmission process for transmitting the transfer control data when it is determined that there is a request signal, and a data bypass for bypassing the received received data to the relay station when it is determined that there is no internal transfer request signal in the transfer request signal search step. It consists of a pass process.

An operation example of the present invention will be described in detail with reference to FIG. 5 and FIG.

As described above with reference to FIG. 2, when the optical signal Oin obtained by combining the information data D2 and the transfer control data D1 is received, the O / E converter 10 converts the received optical signal into an electrical signal. The information data D2 and the transfer control data D1 are separated from the electric signal. At this time, the separated transfer data D1 is input to the selector 15 and the controller 13, and the separated information data D2 is input to the DMUX 12 and demultiplexed.

The controller 13 inputting the transfer control data D2 receives the transfer control data D1 in the process of FIG. 5A, and the controller 13 receiving the transfer data D1 requests an internal transfer. In step 5B, the signal is detected. In other words, it is determined whether the transfer control data of the local station needs to be sent.

In step 5B, if there is no internal transfer request signal, it is determined that it is not necessary to transmit the transfer control data of the own station, so that the controller 13 separates and inputs the transfer control data D1 inputted by the selector 15. Outputs a selection signal S to bypass received data in step 5C.

At this time, the selection signal S output from the controller 13 is in a state of being provided to the selector 15 so that the transfer control data D1 normally received is selectively outputted. Therefore, when there is no transfer request signal therein, the controller 13 is in a state of controlling the selector 15 so that the received transfer control data D1 can be bypassed to the outside.

In the above state, the transfer control data D1 bypassed through the selector 15 is input to the E / O converter 18 together with the transmission information data D4 output from the MUX 16.

The bypass data and the information data D4 input to the E / O converter 18 are formatted as transmission data as shown in FIG. 3, and then are converted into full light and output as an optical signal O _OUT .

If it is determined that there is a transfer request signal therein in step 5B of FIG. 6, the controller 13 outputs the switching control data SD to the selector 15 in step 6D of FIG. A selection signal S for outputting control data SD is output.

At this time, the selection 15 selects the switching control data SD output from the controller 13 in response to the selection signal S output from the controller 13 and outputs it to the E / O converter 18. do. The E / O converter 18 synthesizes the switching control data SD output from the selector 15 with the transmission information data D4 output from the MUX 16, and formats them as shown in FIG. Transmit to the relay station as a signal.

Therefore, when there is an internal transfer request signal, the transfer control data D1 output from the O / E converter 10 is cut off by the selector 15 and the transfer control data SD of the local station is transferred from the selector 15. It is output and sent to another relay station.

Therefore, if the data transmission is configured by the optical transmission device of the present invention to relay data, the time delay between stations is only a propagation delay according to the distance between stations as shown in FIG.

As described above, the present invention provides a data selector in the optical transmission device and transmits the transfer request data of the local station or bypasses the transfer control data received according to the internal transfer request state, thereby eliminating the data transmission delay of the relay station in the optical transmission network. It can be minimized to expand the number of relay stations.

Claims (1)

A photoelectric converter 10 for photoelectric conversion of the all-optical conversion signal Oin received by all-optical conversion into photoelectric conversion data D1 and information data D2, and information data output from the opto-electric converter 10; A demultiplexer 12 for demultiplexing and outputting (D2), a multiplexer 16 for multiplexing transmission information data and outputting multiplexed information data D4, input switching control data and the multiplexer 16 In the transfer control data transmission / reception circuit of the optical transmission device comprising an all-optical converter 18 for synthesizing and outputting the information data D4 outputted from the optical signal to the optical signal, output from the optical / electric converter 10. A selector 15 for inputting the switching control data D1 and the local switching control data SD, which are selected according to the control of the selection signal S and output to the all-optical converter 18; Presence of transfer request signal If the transfer request signal is not present and the transfer request signal is not present, the received transfer control data D1 provides the selection signal S to the selector 15 so as to output the selection output. Controller 13 for inputting switching control data SD to the selector 15 and outputting a selection signal S to the selector 5 so that the switching control data SD is selectively outputted. Circuit. 2. A transfer control data transmission / reception method of an optical transmission device, comprising: a transfer request signal retrieval step of receiving transfer control data transmitted from the outside and searching for an internal transfer request signal; and an internal transfer request at the transfer request signal retrieval step The transfer control data transmission process for transmitting the transfer control data when it is determined that there is a signal, and the data bypass for bypassing the received received data to the relay station when it is determined that there is no internal transfer request signal in the transfer request signal retrieval step. Characterized by consisting of a process.

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