JPH07121010B2 - Multiplex transmission control system - Google Patents

Description

DETAILED DESCRIPTION [Overview] The present invention relates to a multiplex transmission control method for transmitting information for circuit switching and information for packet switching in a mixed manner, and for the purpose of effectively using a transmission band. In a multiplex transmission control system that transmits mixed information for packet and packet switching, a terminal unit and a switching network are provided with a container memory for storing allocation information or vacancy information of a container of the minimum transmission unit, The exchange terminal device makes a transmission request to the exchange network, allocates a number of containers corresponding to the bandwidth of the transmission request by the exchange network, sets allocation information of the containers in the container memory, and stores the container memory in the container memory. The information for circuit switching is transmitted using the container according to the content, and the packet switching terminal device sets the empty container notified from the switching network in the container memory. Then, the information for packet exchange is transmitted using the empty container, and the exchange network is configured to exchange information from the terminal device according to the contents of the container memory in the exchange network.

[Industrial application field]

The present invention relates to a multiplex transmission control system for transmitting circuit switching information and packet switching information so that they can be mixed.

In the wideband switching system, a method is adopted in which circuit switching information and packet switching information are mixed and transmitted on the same transmission path. In such a transmission method, it is desired to effectively utilize the transmission band.

[Conventional technology]

As a typical switching system, there are a circuit switching system and a packet switching system. For example, in the circuit switching system, the available bandwidth is divided into time slots, information is transmitted in each time slot, and transmitted. In the packet switching system, if the available bandwidth is unused, the unused bandwidth is used entirely to transmit the packetized information.

FIG. 9 is an explanatory diagram of a transmission system, and a plurality of terminal devices 51
-1 to 51-m are respectively connected to the down transmission path 54 and the up transmission path 55 between the remote device 53 and the terminating device 52, and the remote device 53 is connected to the exchange 56. In the case of a broadband switching network, the plurality of terminal devices 51-1 to 51-m have a mixture of circuit switching and packet switching, and the downlink transmission path 54 and the uplink transmission path 55 have information for circuit switching. And packet exchange information are transmitted in a time division multiplexed manner.

Thus, in the conventional example in which the information for circuit switching and the information for packet switching are simultaneously transmitted, for example, as shown in FIG. 10, the effective use of the frame to which the frame signal F is added at the head is used. Bands are divided in advance according to the band used for circuit switching and the band used for packet switching, and an empty time slot for circuit switching is allocated at the request of the terminal device for circuit switching, and a terminal for packet switching. The device will transmit information using the allocated bandwidth for packet switching.

In the remote device 53 and the exchange 56, processing is performed corresponding to the circuit switching and the packet switching in the preliminarily divided frames, and the circuit switching and the packet switching are performed.

[Problems to be solved by the invention]

As described above, in order to multiplex and transmit information for circuit switching and packet switching, the effective use band is fixedly divided into circuit switching and packet switching in advance, for example,
Even if the band for circuit switching is unused, it cannot be used for packet switching. Similarly, even if the band for packet switching is unused, it cannot be used for circuit switching. Therefore, there is a drawback that the use efficiency of the effective use band is low.

An object of the present invention is to effectively use a transmission band.

[Means for solving problems]

The multiplex transmission control system of the present invention adaptively divides the effective use band for circuit switching and packet switching, and will be described with reference to FIG.

In a multiplex transmission control method for transmitting information for circuit switching and packet switching, respectively, in the terminal device 1 and the switching network 2, a minimum transmission unit, for example, 1 byte or a plurality of bytes is used as a container, and this container is used. The container memories 3 and 4 for storing the allocation information or the blockage information are provided, and in the case of the circuit switching terminal device, a transmission request is made to the switching network 2,
The switching network 2 allocates a number of containers corresponding to the bandwidth of the transmission request, sets this container allocation information in the container memory 3, and sends the information for circuit switching using the container according to the contents of this container memory 3. In the packet switching terminal device, an empty container notified from the switching network 2 is set in the container memory 3, and packet switching information is sent using this empty container. The information exchange process from the terminal device 1 is performed according to the contents of the container memory 4.

[Action]

Since a container is allocated in response to a request from the circuit switching terminal device in accordance with a required band, when there are empty containers, a plurality of circuit switching terminal devices can transmit information. In addition, the packet switching terminal device can use all the empty containers and can prevent collision and transmit information. Therefore, it is possible to adaptively allocate containers for circuit switching and packet switching. Note that it is also possible to secure the containers that can be used in the circuit switching terminal device by limiting the maximum number of containers that can be used in the packet switching terminal device.

〔Example〕

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

FIG. 2 is a block diagram of the essential parts of one embodiment of the present invention.
Is a terminal device, 12 is a control unit, 13 is a container memory, 14 is a comparison unit, 15 is a memory (FIFO), 21 is a switching network, 22 is a control unit,
23 is a container memory, 24 is a selector, 25 and 26 are memories (F
IFO).

A minimum transmission unit such as a 1-byte unit or a 10-byte unit is divided into containers for the effective use band, and container numbers 0 to n are assigned. Corresponding to the container numbers 0 to n, the container memory 13 has areas of addresses 0 to n, and the container number 0
Set to NPT for circuit switching or PT for packet switching corresponding to ~ n. In the NPT for circuit switching, the circuit switching terminal equipment is the switching network 21.
Is requested from the bandwidth used by the switching network 21 and is allocated from the switching network 21, and the rest is a PT for packet switching.

Further, the setting information is read from the container memories 13 and 23 in synchronization with the container, and the setting information read from the container memory 13 is added to the comparison unit 14 to change the switching type information of the terminal device 11, for example, for circuit switching. The comparison match signal is added to the NPT, added to the memory 15, and the information to be transmitted at that timing is sent from the memory 15 to the transmission path. Further, the setting information read from the container memory 23 of the switching network 21 is added to the selector 24, the container information of the circuit switching NPT and the packet switching PT is separated and added to the memories 25 and 26, respectively. It is sufficient for the memories 15, 25 and 26 to have a capacity of one frame.

For example, when the circuit switching terminal device requests the switching network 21 to use bandwidths corresponding to three containers, if container numbers 0 to 2 are allocated from the switching network 21, the terminal device 11
The NPT for circuit switching is set in addresses 0 to 2 of the container memory 13 as shown in the figure. In addition, 0 in the container memory 23 of the exchange network 21
Set up NPT for circuit switching at ~ 2 address as shown.
The comparison unit 14 compares the setting information read from the container memory 13 with the setting information NPT of the exchange type of the terminal device 11, and adds a comparison match signal to the memory 15. Since the memory 15 sends the information to the transmission line by the comparison match signal, as shown in the upper format, the information for circuit switching is inserted into the containers with the container numbers 0 to 2, and the container numbers 3 to
Information for packet exchange is inserted into the container of n corresponding to the band and transmitted.

In the switching network 21, the selector 24 is controlled according to the setting information read from the container memory 23, and the information of container numbers 0 to 2 is added from the selector 24 to the memory 25 as information for circuit switching.

Also, the comparison unit 14 in the packet switching terminal device is added with the switching type setting information PT and the setting information read from the container memory 13, and the comparison match signal is added to the memory 15, so that the circuit switching Information can be transmitted using a band other than NPT. Also in the switching network 21, NP for circuit switching
Information on bands other than T will be added to the memory 26 via the selector 24.

In the above-described embodiment, information is sent from the terminal device 11 to the switching network 21, but when sending information from the switching network 21 to the terminal device 11, similarly, the container memory 23 of the switching network 21 is sent.
And the container memory 13 of the terminal device 11 to the circuit switching NP
By setting T, the terminal device 11 can separate and receive the circuit switching information with the same configuration as the configuration in the switching network 21.

FIG. 3 shows a case where the information for circuit switching and the information for packet switching are transmitted in a mixed manner. Information for circuit switching a, b, c, d is stored in the memory 15 of the circuit switching terminal device. , e, f, g are set, information h, i, j, k for packet switching is set in the memory 16 of the packet switching terminal device, and container numbers 0 to 2, from the switching network to the circuit switching network terminal device. When 10 to 13 are assigned and information is sent from the memories 15 and 16 to the transmission line according to the setting information read from the container memory (not shown), the container numbers 0 to 2 are transmitted on the transmission line as shown in the figure. Circuit switching information a, b, c is inserted into the container number, packet switching information h, i, j, k is inserted into the container numbers 3 to 6, container numbers 7 to 9 are empty, and the next container number Ten
The information d, e, f, and g for circuit switching is inserted in ~ 13, and it becomes empty after the next container number 14.

In the switching network, the container is selected by the selector 24 according to the setting information read from the container memory (not shown), and the circuit switching information is added to the memory 25.
The output of this memory 25 is the information for circuit switching a, b, c, d, e, f,
g, and since the information for packet exchange is added to the memory 26, the output of this memory 26 becomes the information h, i, j, k for packet exchange. That is, even if the information for circuit switching is divided, the circuit 25 can be continuously used in the frame by using the memory 25.

If there are multiple circuit switching terminal devices, the container memory 1
By adding the terminal device number as the setting information NPT of 3,23, the container can be easily specified.

FIG. 4 is a block diagram of essential parts of another embodiment of the present invention.
31 is a circuit-switched or packet-switched terminal device, 32 is a control unit,
33 is a container memory, 34 and 35 are comparison units, 36 and 37 are memories (FIFO), 38 is a collision detection unit, 41 is a switching network, 42 is a control unit,
43 is a container memory, 44 is a selector, 45-1 to 45-9,46
-1 to 46-k are memories (FIFO).

This embodiment shows a case where a control signal is transmitted between the terminal device 31 and the switching network 41 by using a container of fixed allocation, and FIG. 5 shows an example of its transmission format. That is, F is a frame signal for synchronization added to the head of the frame, and container numbers 0 to 0 next to the frame signal F
8 is used as a control area, and other container numbers 9 to 2100 are used as information areas for carrying information for circuit switching and packet switching. Further, the container number 0 in the control area is set as a common control area (D ₀ channel) on which a control signal common to each terminal device is mounted, and the container numbers 1 to 8 are mounted on the control signals corresponding to the terminal device numbers 1 to 8. the individual control areas (D ₁ to D ₈ channels).

Therefore, for example, 0 which is common to each terminal device is written in address 0 of the container memories 33 and 34, and terminal device numbers 1-8 corresponding to 8 terminal devices are written in addresses 1-8. The terminal device number that uses the container numbers 9 to 2100 is written in the address 9 to 2100.

The comparison unit 34 in the terminal device 31 stores 0 in the container memory 33.
The terminal device number read from address 8 is compared with the set terminal device number, and when they match and match, the control signal written in the memory 37 is sent to the transmission path. Further, the comparison unit 35 compares the terminal device number read from the other addresses 9 to 2100 of the container memory 33 with the set terminal device number, and when they are compared and coincident,
The information written in the memory 36 is sent to the transmission path. That is,
The line switching information is placed on the container corresponding to the address of the container memory 33 in which the own terminal device number is written and transmitted. In that case, since the container number 0 is common to each terminal device, when the collision detection unit 38 detects that the control signals are simultaneously transmitted from a plurality of terminal devices, information from the memories 36 and 37 and Stop sending control signals. The collision detection unit 38 can be realized by a configuration similar to the collision detection means in the CSMA / CD (carrier detection multiple access collision detection) system.

In the switching network 41, the selector 44 is controlled in accordance with the terminal device number read from addresses 0 to 2100 of the container memory 43, and the control information transmitted by the containers of container numbers 0 to 9 is stored in the memories 45-1 to 45-1. It is distributed to 45-9 and transferred to a call processing unit (not shown). Information on the containers with other container numbers 9 to 2100 is stored in the memories 46-1 to 46-
It is distributed to k and is exchanged for circuit switching and packet switching.

FIG. 6 is a diagram for explaining the procedure for assigning a terminal number, in which the terminal device is connected to a transmission line, the power is turned on, and a terminal device number request is made to the switching network. This terminal number request is sent using the D ₀ channel. In the switching network, the terminal device number is confirmed using the D ₀ channel, and when the terminal device responds using the D _i (i = 1 to 8) channel, it is judged whether or not the terminal device can be connected and the connection is possible. In this case, the terminal device number is assigned using the D ₀ channel, and when connection is impossible, the fact is notified using the D ₀ channel.

FIG. 7 is a diagram for explaining the communication procedure of the circuit-switched terminal device, in which control signals other than when transmitting information for circuit switching are transmitted using the D _i channel assigned to the terminal device. Therefore, when the circuit-switched terminal device to which the D ₁ channel is assigned makes a call, the circuit-switched terminal device information and the usage request band information are sent to the switching network using the D ₁ channel.

In the switching network, the number of containers corresponding to the band is compared with the number of unused remaining containers according to the requested bandwidth information, and when the number of remaining containers is equal to or larger than the number of remaining containers, the assigned container number Response signal including ACK
And transmitting to the terminal device using the D ₁ channel, the address of the container memory 43 corresponding to the assigned container number, write the number of the terminal device using a D ₁ channel. The assigned container numbers in this case are not consecutive numbers, but can be distributed and assigned as in the case shown in FIG.

The terminal device receives this response signal ACK and writes the own terminal device number in the address of the container memory 33 corresponding to the assigned container number. Then, the partner number is transmitted on the D ₁ channel. The switching network sends a calling signal to the partner terminal device based on this partner number, and also sends a ringing signal to the calling terminal device on the D ₁ channel. When the partner terminal device responds to the call, a connection signal is sent to the calling terminal device on the D ₁ channel, and the information for circuit switching is transmitted between the terminal devices by the container having the assigned container number.

When this communication ends, the terminal device sends a disconnection signal to the switching network using the D ₁ channel, and resets the own terminal device number written in the container memory 33 to 0. In the switching network, the terminal signal number in the container memory 43 is returned to 0 by this disconnection signal, and the number of remaining containers is corrected. Then, the disconnection response signal ACK is sent to the terminal device on the D ₁ channel.

Figure 8 is a communication procedure explanatory diagram of the packet switched terminal device, when, for example, D ₃ channels to the packet switch terminal is allocated, as in the case described above, the packet switched terminal device information using the D ₃ channels And calling information including the requested bandwidth information is sent to the switching network.

The switching network, determines the throughput from the number of remaining containers, the results were sent to the terminal in response signal ACK with D ₃ channels, then a connection signal is sent to the terminal device using the D ₃ channels.

In the terminal device, the setting terminal device number added to the comparison unit 35 is 0.
Then, the terminal unit number read from addresses 9 to 2100 of the container memory 33 is added to the comparison unit 35, 0 of the read terminal unit number is identified, and the information for packet switching is sent from the memory 36 to the transmission line. And communicate. In this case, other packet switching terminal devices also use the container corresponding to the reading terminal device number of 0 to send the packet switching information, which may cause a collision. Therefore, when the collision detection unit 38 detects the collision, the transmission of information from the memory 36 is stopped.

By the end of the communication, sent to the switching network a disconnect signal using a D ₃ channels, switching network transmits a response signal ACK with D ₃ channel, whereby the communication is completed.

In the above-described embodiment, the bandwidth used by the plurality of circuit-switched terminal devices is wide, and most of the containers are occupied for circuit switching, which may reduce the throughput for packet switching. In order to deal with such a case, it is possible to control so as to secure the minimum number of containers for packet switching. In addition, for packet-switched terminal devices in which fluctuations in throughput are not allowed, it is possible to control communication using a container assigned in the switching network, as in the communication procedure of circuit-switched terminal devices. It is possible.

〔The invention's effect〕

As described above, the present invention provides a circuit switching terminal device,
Container allocation information such as a container number from the switching network 2 is set in the container memory 3, and information for circuit switching is sent out using a container according to the contents of this container memory 3. Since the information for packet switching is sent out by using the empty container set to, the switching network 2 only needs to manage the number of containers on the transmission line, and performs circuit switching and packet switching. It is possible to efficiently control mixed multiplex transmission.

[Brief description of drawings]

FIG. 1 is an explanatory view of the principle of the present invention, FIG. 2 is a block diagram of an essential part of an embodiment of the present invention, FIG. 3 is an explanatory view of a multiplex transmission state of an embodiment of the present invention, and FIG. FIG. 5 is a block diagram of an essential part of another embodiment of the invention, FIG. 5 is an explanatory view of a transmission format of another embodiment of the present invention, and FIG.
FIG. 7 is a diagram for explaining the communication procedure of the circuit switching terminal device, FIG. 8 is a diagram for explaining the communication procedure of the packet switching terminal device, FIG. 9 is a diagram for explaining the transmission system, and FIG. 10 is a frame diagram for explaining the conventional example. 1 is a terminal device, 2 is a switching network, 3 and 4 are container memories, 11
Is a terminal device, 12 is a control unit, 13 is a container memory, 14 is a comparison unit, 15 is a memory (FIFO), 21 is a switching network, 22 is a control unit,
23 is a container memory, 24 is a selector, 25 and 26 are memories (F
IFO).

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location 9466-5K H04L 11/02 Z (56) References JP-A-50-151414 (JP, A) Special features Kai 59-86351 (JP, A) JP 61-187497 (JP, A) JP 63-288540 (JP, A) JP 60-148250 (JP, A)

Claims (1)

[Claims] 1. In a multiplex transmission control system for transmitting information for circuit switching and information for packet switching in a mixed manner, a container of a minimum transmission unit is allocated to a terminal device (1) and a switching network (2). A container memory (3, 4) for storing information or block information is provided, and the circuit switching terminal device makes a transmission request to the switching network (2), and the transmission request band is set by the switching network (2). Allocating a corresponding number of containers, setting the allocation information of the containers in the container memory (3), sending the information for circuit switching using the container according to the contents of the container memory (3), and packet switching. The terminal device sets an empty container notified from the switching network (2) in the container memory (3) and sends information for packet switching using the empty container, and the switching network (2) Within the switching network (2) The multiplex transmission control system, characterized in that the information exchange process from the terminal device (1) is performed according to the contents of the container memory (4).