JPH0681152B2 - Transmission line multiplexing method - Google Patents

Description

TECHNICAL FIELD OF THE INVENTION The present invention relates to a multiplexing system of a transmission line connecting a computer and its terminal.

[Technical background of the invention]

Conventionally, the connection between a computer and its terminal is 1 as shown in FIG.
It was performed using a modem or the like on the transmission line of 1 to 1.
That is, the computers 2 and 3 installed in the computer room 1 are connected to the terminals 7 to 12 installed in the terminal room (sales counter, etc.) 6 via the modem 4, the transmission line 5, and the modem 4. There is.

[Problems of background technology]

In the above-mentioned conventional transmission line between a computer and a terminal, a line that has not been duplexed in advance is said to be unavailable until human repair work is completed if a failure occurs in the transmission line. There was a flaw. In addition, in the case of a line with duplicated transmission lines, if a failure occurs, the communication between the computer and the terminal can be secured using the backup transmission line, which is very effective, but the backup transmission There is a drawback that cost performance deteriorates because the road is not always used.

[Object of the Invention]

In view of the above-mentioned drawbacks, an object of the present invention is to enable accurate communication with a partner even if a backup transmission line is not provided,
An object of the present invention is to provide a transmission line multiplexing method capable of multiplexing between a computer and a terminal while maintaining good cost performance.

[Outline of the present invention]

In the present invention, in a system in which a plurality of computers and a plurality of terminals are connected by a plurality of transmission lines, a destination is designated by a destination, and a data transmission is performed, a connection is made to one end of the plurality of transmission lines. And a first transmission line which is connected to the plurality of computers and couples the required transmission lines of the plurality of transmission lines with the required computers of the plurality of computers by a predetermined time division channel to perform data transmission. The multiplexer is connected to the other ends of the plurality of transmission paths and is also connected to the plurality of terminals, and at a predetermined time between the required transmission paths of the plurality of transmission paths and the required terminals of the plurality of terminals. A second transmission path multiplexer for performing data transmission by combining the divided channels, wherein the first transmission path multiplexer and the second transmission path multiplexer have a failure on the transmission path side. Fault detection to detect And a channel allocating means for allocating a new time division channel in an idle state for the transmission path corresponding to the transmission path side where the failure detection means has detected the occurrence of failure, and data acquisition of the time division channel data based on the destination address. The above object is achieved by the provision of interface means for transmitting the data to the corresponding computer or terminal.

Example of Invention

An embodiment of the present invention will be described below with reference to the drawings. FIG. 2 is a block diagram showing an embodiment of a data transmission system to which the transmission line multiplexing system of the present invention is applied. Multiple calculators
21 to 23 are transmission line multiplexers 24 and transmission devices (modems, etc.) 25
~ 27, transmission lines 28, 29, 30, transmission devices (modems, etc.) 31 to 33
And the terminals 35 to 37 via the transmission line multiplexer 34. The transmission path multiplexer 24 is configured by connecting the computer interfaces 242 to 244 and the transmission device interfaces 245 to 247 to the bus 100 connected to the control unit 241. Computer interfaces 242-244 are connected to computers 21-23, and transmission device interfaces 245-2
The 47 is connected to the transmission devices 25, 26 and 27. The transmission line multiplexer 34 connects the terminal interfaces 342 to 344 and the transmission device interface 34 to the bus 200 connected to the control unit 341.
5 to 347 are connected. The terminal interfaces 342 to 344 are connected to the terminals 35 to 37, and the transmission device interfaces 345 to 347 are connected to the transmission devices 31 to 33.

The transmission devices 25 to 33 have a transmission circuit and a reception circuit such as a modem. The control units 241 and 341 generate timing for multiplexing and monitor each transmission device. The computer and terminal interfaces 242 to 244 and 342 to 344 have transmission and reception buffers. Interface for transmission equipment 24
5 to 247, 345 to 347 are data serial / parallel conversion,
Phase correction is performed between the timing generated by the error detection and control units 241 and 341 and the timing of the transmission devices 25 to 27 and 31 to 33. The internal buses 100 and 200 are used for time division multiplexing.

Next, the operation of this embodiment will be described. The internal bus 100 of the transmission line multiplexer 24 is time-division multiplexed as indicated by 300 in FIG. 3 according to the channel number generated by the control unit 241. For example, when transmitting data from the computer 21 to the terminal 37, the transmission data from the computer 21 is input to the transmission buffer (not shown) of the computer interface 242. The computer interface 242 acquires the empty channel zero of the internal bus 100 and starts outputting data at the timing indicated by 301 in FIG. If the transmission device interface corresponding to channel zero is 245, the transmission device interface 245 parallel / serial converts the contents of channel zero to the transmission device 25 side at the transmission timing generated by the control unit 241, and outputs the converted contents. At this time, when the number of transmission words is larger than the number of transfer words that enter one time slot on the internal bus 100, the computer interface 242 outputs the remaining data when the next channel zero comes and finishes outputting all the data. Open channel zero. The data output by the transmission device interface 245 is sent to the transmission device 25, the transmission path 28, the transmission device 31, and the transmission device interface 345. The transmission device interface 345 is the internal bus 200 of the transmission line multiplexer 34.
The data to which the destination addressed to the terminal 37 has been added (added by the computer 21) is serial / parallel converted and output. Then, looking at the destination of this data, the interface for the terminal
The 344 starts to take in the data output from the transmission device interface 345, and if data remains, it takes in the rest at the timing of the next channel. The internal bus 200 is also time-division multiplexed by the control unit 341. The terminal interface 344 outputs this to the terminal device 37 when data starts to enter its reception buffer (not shown). In addition,
The data transmission operation from the terminal 35, 36, 37 side to the computer 21, 22, 23 side is also the same as the above operation, only the terminal and the computer are replaced.

Next, it is assumed that an abnormality has occurred in the transmission path 28 or the transmission devices 25 and 31. Then, the control unit 241 stops the generation of the channel number of the corresponding zero channel. In this case, the computer interface 242 that receives the output of the computer 21 is the internal bus 100.
When there is an empty channel other than the above zero channel, data is transmitted using this empty channel. Therefore, the data from the computer 21 can be sent to the terminal 37 in the same manner as above by using another transmission line without using the transmission line 28. That is, in this embodiment, if there is an abnormality in the transmission path or the like, the degenerate operation can be performed and the recovery of the abnormal portion can be waited for.

According to this embodiment, the data of the computers 21 to 23 are output to the transmission lines 28 to 30 via the time-division multiplexed bus 100 in the transmission line multiplexer 24, and the received data are also transmitted. Terminal 35 via the time-division-multiplexed bus 200 in the multiplexer 34.
By outputting to 37, when the abnormality occurs in the transmission line, the generation of the time division channel in the bus 100 corresponding to the transmission line is stopped, and the above data is transmitted using another channel. The backup transmission line 1
It is not necessary to install one line for each line, and one line may be installed for a plurality of transmission lines, and the transmission lines can be multiplexed with good cost performance. In addition, computer interfaces 242-244 and terminal interfaces
Since 342 to 344 have buffers for transmission and reception, the transmission speeds of the transmission devices 25 to 27 and 31 to 33 can be set arbitrarily. Further, since the abnormal line is automatically prohibited from use as described above, maintainability and manageability can be improved.

It should be noted that the present invention can be similarly applied to an optical transmission line by wavelength multiplexing if the transmission device is exchanged, and has the same effect.

〔The invention's effect〕

As described above, according to the transmission line multiplexing method of the present invention, the transmission line multiplexers are provided at both ends of the plurality of transmission lines that connect the plurality of computers and the plurality of terminals, and the respective transmission lines are multiplexed. Since the data transmission is performed by each computer, each computer and each terminal can be coupled by any of the plurality of transmission paths, and plural-to-plural bidirectional data transmission can be accurately performed. Then, in the case of a failure on the transmission path side, by assigning the time division channel related to the idle state in place of the channel of the failure transmission path, between the required computer and terminal via the new transmission path, Data can be transmitted without providing a spare transmission path, and there is an effect that a computer and a terminal can be multiplexed while maintaining good cost performance.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an example of a conventional data transmission system using a transmission line, and FIG. 2 is a configuration diagram showing an embodiment of a data transmission system to which the transmission line multiplexing system of the present invention is applied. FIG. 3 is an operation timing chart of the transmission line multiplexer in FIG. 21, 22, 23 ...... Computer 24, 34 ...... Transmission line multiplexer 25,26,27,31,32,33 ...... Transmission device 28,29,30 ...... Transmission line 35,36,37 ...... Terminal , 200, 300 ...... Bus 241, 341 ...... Control unit 242, 243, 244 …… Computer interface 245, 246, 247, 345, 346, 347 …… Transmission device interface 342, 343, 344 …… Terminal interface

Claims (1)

[Claims] 1. A system in which a plurality of computers and a plurality of terminals are connected by a plurality of transmission lines, and a partner is designated by a destination address given from the computer or the terminal to perform bidirectional data transmission. A predetermined time division channel connected between one end of the plurality of transmission lines and the plurality of computers and between the required transmission lines of the plurality of transmission lines and the required computers of the plurality of computers. And a first transmission line multiplexer that performs data transmission, and is connected to the other ends of the plurality of transmission lines and is also connected to the plurality of terminals, and a required transmission line of the plurality of transmission lines. A second transmission line multiplexer for performing data transmission by coupling with a required terminal of the plurality of terminals by a predetermined time division channel, and the first transmission line multiplexer and the second transmission line multiplexer. Multiple transmission lines The optimization device includes failure detection means for detecting a failure on the transmission path side, and channel allocation means for allocating a new time division channel in an idle state for the transmission path corresponding to the transmission path side where the failure detection means has detected the failure occurrence. , Interface means for fetching the data of the time-division channel and transmitting the corresponding data to the corresponding computer or terminal based on the destination address given from the computer or the terminal for this data. And transmission line multiplexing method.