JPH08331136A - Atm cell interface and atm cell transmission system using the same - Google Patents

Abstract

PURPOSE: To effectively use a line and to reduce the cost by providing an ATM cell interface between the time division multiplex line of a line switching machine and an ATM transmission line connected to an ATM switching machine. CONSTITUTION: This interface is the ATM cell interfaces 131, 133 and 142 packaged on the line switching machines 13, 14 in a network system provided with plural line switching machines 13, 14 and a line switching network 17 connected between the line switching machines 13, 14. The interface is provided with an ATM line interface which transmits/receives a signal between the ATM transmission lines, a frame terminating/cell synchronizing circuit which terminates a transmission frame from the ATM line and samples a cell and also, establishes synchronism, and a speed conversion circuit which absorbs difference of transmission speed of the time division multiplex lines of the line switching machines 13, 14. Also, it is provided with a time division switch interface to transmit/receive the ATM cell between the time division multiplex lines of the line switching machines 13, 14, a synchronous circuit which takes the cell synchronism of the ATM cell transmitted from the time division multiplex lines of the line switching machines 13, 14, and a frame generation circuit which generates the transmission frame of the ATM line.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cell transmission system between ATM exchanges, and more particularly to a cell transmission system utilizing a circuit switching network.

[0002]

2. Description of the Related Art Conventionally, in a network having both a circuit switch and an ATM switch, time-division multiplexed signals are transmitted between the circuit switches by using a circuit switch network connected between the circuit switches. An ATM cell exchange network connected between ATM exchanges is used for transmission of ATM cells between them, and two types of networks, a circuit exchange network and an ATM exchange network, have been constructed.

A hybrid type time division multiplexing system has also been proposed in which, in a time division transmission line, information on a circuit switching mode and information on a storage switching mode such as an ATM cell are time division multiplexed and coexisted for transmission (eg, JP-A 64-77
No. 332, etc.).

In this hybrid type time division multiplexing system,
When the subscriber circuit accommodated in the hybrid switching concentrator / multiplexer accommodates both the circuit switching mode and the ATM mode and the circuit switching mode information and the ATM mode information are preset by the concentrator / multiplexer. It is to be multiplexed and transmitted in the time slot for the circuit switching mode and the time slot for the ATM mode of the division multipath. Among these, the ATM mode time slot shares the ATM mode data from a plurality of subscriber circuits, and when the ATM mode data is transmitted on one path, the ATM mode data is transmitted on the other path. Competition control is performed between routes so that they are not used. As a result, by multiplexing all the ATM lines accommodated in the hybrid exchange concentrator / multiplexer into one ATM line, a plurality of VPIs can be obtained.
An ATM cell having / VCI (virtual path identifier / virtual channel identifier) can be transmitted by one time division line.

[0005]

In the above-mentioned conventional technique, when a plurality of circuit exchanges and a plurality of ATM exchanges are installed, the circuit exchanges are connected by a circuit exchange network and the ATM exchanges are connected by an ATM exchange network. It is necessary to install two types of networks, such as a circuit switching network and an ATM switching network, such as connection, which makes maintenance and operation troublesome and costly, and cannot effectively use the line. There is a problem that the cost becomes high.

Further, in the hybrid type time division multiplex system, since the ATM cell time slot is shared by a plurality of routes, the contention control circuit becomes complicated, and at the transmitting side, it is inputted from each subscriber circuit. Since multiple ATM cells are multiplexed on one transmission line, multiple VPI / VCs can be used on the transmission line.
The cell with I is transmitted. For this reason, the ATM cell sent on the opposite side is replaced with the V cell in the header of the ATM cell.
In order to control which subscriber circuit out of a plurality of subscriber circuits is output according to the value of PI / VCI, it is necessary to have an ATM switch in the hybrid exchange concentrator / multiplexer circuit. There is a problem that the configuration and control method become very complicated.

The present invention has been made in view of the problems of the above-mentioned conventional techniques, and it is possible to effectively use the line and reduce the cost without complicating the circuit configuration and the control method. It is an object of the present invention to realize an ATM cell interface capable of realizing the above and an ATM cell transmission system using the interface.

[0008]

The ATM cell interface of the present invention is used in a network having a circuit switch and an ATM switch, and is provided between a time division multiplex path in the circuit switch and an ATM transmission line connected to the ATM switch. Which are provided in the ATM cell interface, the ATM line interface transmitting and receiving signals through the ATM transmission line, the time division switch interface transmitting and receiving signals through the time division multiplex line, the ATM line interface and the time division switch A speed conversion circuit provided between the ATM line interface and the ATM line interface, and a speed conversion circuit provided between the ATM line interface and the speed conversion circuit for converting the transmission speed of the received signal into the transmission speed of the transmission line. Extracts cells by terminating the transmission frame and synchronizes the extracted cells An ATM cell, which is provided between the frame termination / cell synchronization circuit which is established and sent to the speed conversion circuit, and the time division switch interface and the speed conversion circuit, and which is transmitted from the time division multiplex via the time division switch interface. Is provided between the cell synchronization circuit for performing cell synchronization and the speed conversion circuit and the ATM line interface, and the transmission frame is generated by the output of the cell synchronization circuit whose transmission speed is converted by the speed conversion circuit to generate the ATM line interface. And a frame generation circuit for sending to the ATM transmission line via the ATM transmission line.

The ATM cell transmission system of the present invention is a network system comprising a circuit switch and an ATM switch, and the time division multiplex path in the circuit switch and the ATM transmission line connected to the ATM switch are as described above. Configured A
It is characterized in that it is connected through a TM cell interface.

[0010]

In the ATM cell interface of the present invention constructed as described above, since the speed conversion circuit for converting the transmission speed of the received signal into the transmission speed of the transmission path is provided, the transmission speed of the signal is increased. It is possible to connect the time division multiplex path and the ATM transmission path which are different from each other.

For transmission from the ATM transmission line to the time division multiplex line, the speed conversion is performed by the above speed conversion circuit after the cell is extracted and established by the frame termination / cell synchronization circuit. Regarding the transmission from the time division multiplex path to the ATM transmission path, the speed is converted by the speed conversion circuit after the cell synchronization is achieved by the cell synchronization circuit, and the transmission frame is generated by the frame generation circuit.

[0012]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a block diagram showing the overall construction of an embodiment of the present invention.

The ATM exchange 11 sends AT to the ATM exchange 12 through an ATM interface (not shown).
The M cell is switched to the ATM interface 111 and output to the ATM transmission line 15. This ATM
The cell is the AT of the circuit switch 13 through the ATM transmission line 15.
It is input to the M cell interface 131.

At the ATM cell interface 131, ATM cell-time division multiplex conversion described later is performed, and
TM cell interface 131 and line interface 1
41 and 41 are connected to the time division switch by the time division multiplex and switched.

Between the line exchange 13 and the line exchange 14,
Respectively connected by the circuit switching network 17 via the line interface 132 and the line interface 141,
In the line exchange 14, the line interface 141 and the AT
The M cell interface 142 is connected by a time division switch, the ATM cell is subjected to time division multiplexing-ATM cell conversion which will be described later in the ATM cell interface 142, and the ATM switch 1 uses the ATM transmission line 16.
2 is transmitted.

The ATM cells sent from the ATM switch 12 to the ATM switch 11 are also transmitted in the same manner as the ATM cells sent from the ATM switch 11 to the ATM switch 12.

Further, in the circuit switching equipment 13, when ATM cells are transmitted to a plurality of routes such as ATM cells to the circuit switching equipment 14 and a circuit switching equipment (not shown), for example, the ATM cell interface 131 and the ATM cell interface 131 are used. Multiple ATM cell interfaces are used, such as cell interface 133.

ATM cell interface 131 and ATM
The case where the cell interface 133 is used will be described. The ATM cell interface 131 is the circuit switch 1.
3 is connected to the line interface 132 by a time division switch, and the
It is connected to the TM cell interface 142.

The other ATM cell interface 133 is connected to another circuit switch by a time-division switch of the circuit switch 13 by a line interface package (not shown), or is connected to the AT by a time-division switch of the circuit switch.
It is connected to the M cell interface 132.

The line interface 132 includes an ATM cell interface 131 and an ATM cell interface 1
It accommodates two or more routes, such as 33, and is connected to the line interface 141 of the line exchange 14 via the line exchange network 17. One path of the line interface 132 is an ATM cell interface 1
42, and the other route of the line interface 132 is tandem-connected to another line exchange (not shown) via the line interface 143. ATM cells are transmitted using the line exchange network.

Next, the operations of the ATM cell interface 131, the ATM cell interface 133 and the ATM cell interface 142 will be described in detail.

FIG. 2 is a block diagram showing the structure of the ATM cell interface. The ATM cell interface 21 shown in FIG. 2 is the ATM cell interface 131, ATM cell interface 133 and ATM shown in FIG.
2 is a detailed circuit configuration of the cell interface 142, and the ATM transmission line 28 is an ATM transmission line 1 shown in FIG.
5 and ATM transmission line 16. In addition, the time division multiplex path 29 includes the circuit switch 13 and the circuit switch 14.
1 is a time division multiplex path for connecting to a time division switch not particularly shown.

The ATM transmission line 28 transmits data in a standardized format such as SONET or block coding method. When this is received by the ATM line interface 22, the overhead on the transmission line is terminated by the frame terminating / cell synchronizing circuit 23, and when cell synchronization is achieved, it can be divided into 53-byte ATM cells.

In the speed conversion circuit 24, the ATM transmission line 28
When the transmission rate of the time division multiplex path 29 is different, the transmission rate of the ATM cell is converted, and a cell called an empty cell containing no valid data is inserted between the valid cells. Also, speed conversion is performed by extracting empty cells.

The speed-converted ATM cells are sequentially transmitted by the time-division switch interface 25 to the time slots that can be used by the ATM cell interface 21 in the time-division multiplex path 29 connected thereto.

FIG. 3 is a conceptual diagram of ATM cell transmission in the time division multiplex, and the time division multiplex 31 shows the time slots of the time division multiplex transmitted and received in the time division multiplex 29 of FIG. Is.

The time division multiplex path 31 includes T1, T2, T3,
One frame is composed of T4, T5, ..., Tn. Each of T1 to Tn is a time division time slot, and the ATM cell 32 is an AT called a header.
It is divided into M cell destination information and a data portion called a payload, which are H1 to H5 and P1 to P48.
Is represented.

FIG. 3 shows a case in which, out of the time slots T1 to Tn of the time division multiplex, the time slots that can be used by the ATM cell interface are T1 to T4.

First, the ATM cell 32 is connected to the time division multiplex path 31.
When the data is transmitted to the ATM cell 32 in the time slots T1 to T4 of the first frame of the time division multiplexing path 31,
H4 is transmitted, and H5 and P of the ATM cell 32 are sent to the time slots T1 to T4 of the second frame of the time division multiplex 31.
1 to P3 are transmitted, P4 to P7 of the ATM cell 32 are transmitted to the third frame of the time division multiplex path 31, and the information of the ATM cell 32 is sequentially used in the time division multiplex path 31. Can be sent to a time slot that can be used.

Next, from the time division multiplex path 29 in the opposite direction, A
The operation of the time division switch interface 25 at the time of taking out the TM cell will be described. In the time division multiplex path 29, data is sent according to the format of the time division multiplex path 31 shown in FIG.
The time slot used by the ATM cell interface 21 for each frame (T in the case shown in FIG. 3)
1 to T4) information is extracted and the data of each frame is connected to restore the ATM cell data.

Since the restored ATM cell data is in a state where the delimiter between the ATM cell and the ATM cell is not known as it is, cell synchronization is performed by the cell synchronization circuit 26. For cell synchronization, regarding the 5 bytes of the header portion of the ATM cell, the result of the CRC operation of the first 4 bytes is contained in the 5th byte, and the bit stream of the ATM cell is sequentially CRC operated, By specifying the header part, it is divided into 53-byte ATM cells.

This ATM cell is subjected to speed conversion by the speed conversion circuit 24. The speed conversion is performed by the time division multiplex path 29 and
If there is a difference in speed from the M transmission line 28, this is performed to absorb the difference, and the speed is converted by inserting / deleting empty cells.

The rate-converted ATM cell is converted into a standardized format such as SONET or block coding by the frame generation circuit, and sent out to the ATM transmission line 28 by the ATM line interface 22.

[0035]

Since the present invention is configured as described above, it has the following effects.

According to the first aspect of the present invention, the ATM between the ATM exchanges is realized by mounting the ATM switch on the circuit exchange in the network having the circuit exchange and the ATM exchange.
It becomes possible to transmit cells on a time division multiplex path and to transmit between stations using a circuit switching network. As a result, where two types of networks, a circuit switching network and an ATM switching network, are required, it is possible to construct a network only with the circuit switching network. Therefore, the line can be effectively used, and the cost can be reduced without complicating the circuit configuration and the control method.

In addition, when an ATM switching network is added to a place where a circuit switching network has already been constructed to construct a network, it is possible to use the existing circuit switching network to transmit ATM cells. There is.

Further, even when the destination of the ATM cell is a plurality of routes, the ATM cell interface is used for a plurality of routes, and the transmission route is set for each route by the time division switch. It is not necessary to perform switching based on the address information in the header, and there is an effect that the circuit and the control method can be configured very easily.

According to the second aspect of the invention, there is an effect that a transmission system having the above effect can be realized.

[Brief description of drawings]

FIG. 1 is a block diagram showing the overall configuration of an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of an ATM cell interface unit according to the present invention.

FIG. 3 is an AT in a time division multiplex according to an embodiment of the present invention.
It is a conceptual diagram which shows the transmission state of M cell.

[Explanation of symbols]

11,12 ATM switch 13,14 Circuit switch 15,16,28 ATM transmission line 17 Circuit switching network 21,111,112,121 ATM interface 22 ATM line interface 23 Frame termination / cell synchronization circuit 24 Speed conversion circuit 25 Time division switch Interface 26 Cell synchronization circuit 27 Frame generation circuit 29 Time division multiplex path 131, 133, 143, 142 ATM cell interface 132, 141 Line interface

Claims (2)

[Claims] 1. An ATM cell interface used in a network comprising a circuit switch and an ATM switch, the ATM cell interface being provided between a time division multiplex path in the circuit switch and an ATM transmission line connected to the ATM switch. An ATM line interface for transmitting / receiving a signal via a channel, a time division switch interface for transmitting / receiving a signal via a time division multiplex line, and a received signal provided between the ATM line interface and the time division switch interface. A speed conversion circuit for converting the transmission speed into a transmission speed of a transmission path, and a transmission frame provided between the ATM line interface and the speed conversion circuit, terminating a transmission frame from the ATM line interface and extracting a cell and extracting the transmission frame. A frame end / seer that establishes cell synchronization and sends it to the speed conversion circuit. A synchronization circuit, a cell synchronization circuit provided between the time division switch interface and the speed conversion circuit, for performing cell synchronization of the ATM cells sent from the time division multiplex via the time division switch interface; A frame generation circuit that is provided between the circuit and the ATM line interface, generates a transmission frame by the cell synchronization circuit output whose transmission speed is converted by the speed conversion circuit, and sends the frame to the ATM transmission line through the ATM line interface; ATM cell interface characterized by having. 2. A network system comprising a circuit switch and an ATM switch, wherein a time division multiplex path in the circuit switch and an ATM transmission line connected to the ATM switch are provided via an ATM cell interface according to claim 1. An ATM cell transmission system characterized by connection.