JPH0630503B2 - Packet relay transmission device - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a packet relay transmission device used in loop type, bus type, opposite type transmission systems and the like.

2. Description of the Related Art FIG. 3 shows the configuration of a conventional packet relay transmission device. In FIG. 3, reference numeral 1 is a high-speed backbone transmission line, which is connected to the optical / electrical conversion unit 2. A packet relay transmission unit 3 is connected to the relay transmission unit 4 or the packet transmission unit 5 of about 10 Mb / s.

Next, the operation of the above conventional example will be described. In FIG. 3, the packet relay transmission unit 3 performs high-speed backbone transmission of the supervisory control information and the circuit switching control information, which are the information from the relay transmission unit 4, and the packet data from each terminal via the photoelectric conversion unit. Send to path 1.

As described above, also in the above-mentioned conventional packet transmission device, the packet transmission can be used as the common line signaling for the circuit switching control information, and the packet transmission line 5 for each terminal can be accommodated in the high-speed backbone transmission line 1.

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention However, in the above-mentioned conventional packet relay transmission device, the number of packet relay transmission units 3 corresponding to the number of destination physical channels is required, and the circuit switching system control information and the packet data are mixed. There was a problem that it could not be received.

The present invention solves such conventional problems,
An object of the present invention is to provide an excellent packet relay transmission device capable of receiving circuit switching system information and packet data in a mixed manner.

Means for Solving the Problems The present invention provides a packet multiplex transmission unit to achieve the above object, and mixes a data bucket from a terminal and information used in a common line signaling system, and uses a plurality of packet transmission lines as a backbone. It is configured to be accommodated in the transmission line.

Action The present invention has the following actions due to the above-mentioned configuration. That is, the packet multiplex transmission unit can sort the packet data received from the high-speed backbone transmission line according to the destination address, and can also integrate the data from each physical channel and send it to the high-speed backbone transmission line.

Embodiment FIG. 2 shows the structure of an embodiment of the present invention. In the figure, 6 is a high-speed backbone transmission line, for example, 100 Mb / s
It is a packet transmission line of a certain degree or a hybrid transmission line of packet circuit switching, and is connected to the photoelectric conversion unit 2. The photoelectric conversion unit 2 is connected to the packet multiplex transmission unit 8 via the transmission line 7 of, for example, about 98 Mb / s. The packet multiplex transmission unit 8 is connected to the n packet relay transmission units 3,
One of them is used for circuit switching and is connected to the terminal via the relay transmission unit 4 and the signal line 12. Others are connected to the terminal via the packet transmission line 5 for packet switching.

FIG. 1 shows the structure of the packet multiplex transmission unit 8. Reference numerals 13 and 23 are reception data buses for passing data from the backbone transmission line 6, and reference numeral 14 is a reception buffer. The decoder 16 reads from the transmission data which packet relay transmission unit 3 the data from the backbone transmission line 6 is to be sent to,
Select from n select signals 18. 17 is a reception confirmation signal, 19 is an enable signal, 20 is a clock, 21
Is a reception end signal. Reference numerals 22, 24, 25 are internal buses. The transmission data buses 26 and 31 correspond to the packet relay transmission unit 3, and the coder 29 can identify the source packet relay transmission unit 3 from the transmission request signal 28 and inserts it into the data. Reference numeral 30 is a transmission end signal. Reference numeral 32 is an address counter, and 33 is a frame synchronization circuit, which controls a frame.

Next, the operation of the above embodiment will be described. In the above embodiment, the received packet from the high-speed backbone transmission line 6 is
It is received by the packet multiplex transmission unit 8 via the electrical conversion unit 2 and the transmission line 7 of about 98 Mb / s. In the packet multiplex transmission unit 8, the reception data is sent to the reception buffer 14 via the reception data bus 13. The transmission / reception control unit 15 sends the reception confirmation signal 17 to the internal bus 22, and the reception buffer 14
The address of the destination packet relay transmission unit 3 is placed on the select signal 18 corresponding to the destination packet relay transmission unit 3 via the decoder 16 and distributed to the destination (physical channel). At the same time as the select signal 18, the enable signal 19, the clock 20 and the reception end signal 21 are sent to the internal bus 22. The reception data of the reception buffer 14 is sent to the internal bus 24 via the reception data bus 23.

Further, the network monitoring control information from the signal line 6 and the packet data from the packet transmission line are respectively sent to the packet multiplex transmission unit 8 via the packet relay transmission unit 3. In the packet multiplex transmission unit 8, the transmission packet data is sent to the transmission buffer 27 via the internal bus 25 and the transmission data bus 26.

The transmission / reception control unit 15 discriminates the packet relay transmission unit 3 which is the transmission source (physical channel) from the transmission request signal 28 and inserts the transmission address into the packet data in the transmission buffer 27 via the coder 29. The transmission end signal 30 from the internal bus 25 recognizes that the transmission data has ended. The packet data in the transmission buffer 27 is sent to the backbone transmission line 6 via the transmission data bus 31, the transmission line 7, and the optical / electrical conversion unit 2.

As described above, according to the above-described embodiment, the packet multiplexing transmission unit 8
Is capable of distributing a packet received from the backbone transmission line 6 to a destination physical channel and transmitting it, and receiving network control information from the signal line 6 and packet data from the packet transmission line 5 in a mixed manner. It has the advantage of being able to. Also,
This has the effect that some of the plurality of channels can be used as common signal lines.

EFFECTS OF THE INVENTION As is apparent from the above-described embodiments, the present invention enables mixed transmission and reception of circuit switching system control information and packet data, so that some of a plurality of channels are co-communicated between relay transmission devices. It has the effect that it can be used as a line.

[Brief description of drawings]

FIG. 1 is a block diagram of essential parts of a packet relay transmission device according to an embodiment of the present invention, FIG. 2 is a block diagram for explaining the overall configuration of the device, and FIG. 3 is a configuration of a conventional packet relay transmission device. It is a block diagram showing. 3 ... Packet relay transmission unit, 5 ... Packet transmission line, 6
...... Basic transmission line, 8 ...... Packet multiplex transmission unit, 13, 2
3 ... Receive data bus, 14 ... Receive buffer, 15 ...
... Transmission / reception control unit, 16 ... Transmission buffer, 22, 24,
25 ... internal bus, 26,31 ... transmission data bus, 2
7 ... Send buffer.

Claims (1)

[Claims] 1. A common packet multiplex transmission unit and a plurality of physical channels used as an interface between a backbone transmission line having a plurality of channels formed by time division and a plurality of physical channels having different addresses. A plurality of corresponding packet relay transmission units, wherein the packet multiplexing transmission unit includes a transmission data bus and a reception data bus connected to the backbone transmission line via a transmission buffer and a reception buffer, respectively, and some of the plurality of channels. And a transmission / reception control unit for decoding a part of the received data to obtain network control information of the circuit switching system by using as a common signal line. Distributed to and sent out from the physical channels of the above, and addresses are attached to the packets sent from multiple physical channels, and integrated into the backbone transmission line. It adapted to deliver Te packet relay devices.