JP2551144B2 - Traffic monitoring equipment - Google Patents

Description

The present invention relates to a subscriber line circuit of an electronic exchange, and more particularly to an AT.
The present invention relates to a traffic monitoring device capable of adjusting the inflow amount of cells containing user information transmitted from an M terminal to a switch.

[Conventional technology]

Conventionally, the subscriber line circuit of an electronic exchange does not have a function of measuring or adjusting the transmission rate of user information. This is an ATM (Asynchronous Transfer Mod
e) Because there was no exchange system and, of course, no ATM terminal, it did not require such a function. That is, in conventional communication by circuit switching, the bandwidth to be used is fixed to a fixed value, so traffic control is not required after the bandwidth is allocated at the time of setting a connection from a subscriber terminal such as a telephone set. Yes (for example, “Industrial Technology Seminar T-2073“ Broadband ISDN Trend ””, published by Japan Industrial Technology Center, June 27, 1988)
Sun, page 11).

[Problems to be Solved by the Invention]

By the way, the ATM switching system uses voice from low speed to high speed,
This is a method for transferring information such as data and images in fixed length packets with headers called cells. Therefore,
The amount of cells sent from an ATM terminal to the ATM switching network is variable, so unless the traffic control of cells is performed, there is a risk that the ATM switching network will be congested by cells overflowing in the ATM switching network. .

However, as described above, since there has not been an ATM terminal in the past, there is no subscriber line that can measure or adjust the transfer rate of user data sent from the subscriber terminal to the electronic exchange. Then, with the advent of the ATM switching system, a subscriber line having such a function was required.

The present invention has been made to solve the above-mentioned drawbacks, and an object of the present invention is to provide a traffic monitoring device capable of adjusting the amount of cells flowing into an ATM switching network.

[Means for solving the problem]

In order to achieve the above-mentioned object, a traffic monitoring device of the present invention is provided between an ATM terminal and an exchange, and a gate circuit for switching whether to pass a cell containing user information sent from the ATM terminal. And a counting means for counting the number of cells transferred from the ATM terminal to the exchange per unit time, and a connection when a subscriber line is newly accommodated in the exchange or a subscriber already accommodated makes a connection. And a reference value setting means for setting a first reference value and a second reference value, which represent the number of cells transferred per unit time, which serves as a reference for opening and closing the gate circuit, and a count value of the counting means is the first reference. And a track monitoring circuit which gives a closing instruction to the gate circuit when the value exceeds the value and gives an opening instruction to the gate circuit when the count value falls below the second reference value.

〔Example〕

 Next, the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the traffic monitoring apparatus of the present invention.

As shown in FIG. 1, the traffic monitoring device 1 is arranged in a subscriber line circuit 2 that accommodates a subscriber line. The traffic monitoring device 1 is provided between the ATM terminal 3 and the exchange 4. In addition, between the ATM terminal 3 and the exchange 4, a cell 10 is a fixed-length packet with a header for information such as voice, data, and images from low speed to high speed.
0 is transmitted.

The traffic monitoring device 1 is composed of a gate circuit 11 and a traffic monitoring circuit 12. Gate circuit 11
Is opened / closed in response to a command from the traffic monitoring circuit 12 to control the flow of the cell 100 flowing between the ATM terminal 3 and the exchange 4. The traffic monitoring circuit 12 constantly counts the number of cells 100 transferred from the ATM terminal 3 to the exchange 4, and when the transfer number C of the cells 100 per unit time exceeds a preset reference value C1, the gate circuit. It is configured to issue a closing order to 11. Further, the traffic monitoring circuit 12 is configured to issue an opening command to the gate circuit 11 when the number C of transfers of the cell 100 per unit time becomes smaller than a preset reference value C2.

 The operation of such an embodiment will be described.

FIG. 2 is an explanatory view shown for explaining the operation of the embodiment of the present invention. In FIG. 2, the vertical axis represents the transfer rate C of the cell 100, and the horizontal axis represents the time t. In the figure, X is an actual transfer rate of the cell 100, and C1 and C2 are preset reference values. C1 is set larger than C2. Also, the relationship between the transfer speed and the gate circuit 11 is shown.

First, the traffic monitoring circuit 12 constantly counts the number of cells 100 transferred from the ATM terminal 3 to the exchange 4 to constantly monitor the transfer rate C of the cells 100.

Since the transfer rate C of the cell 100 is equal to or lower than the preset reference value C1 in the period t _{0 to} t ₁ , the traffic monitoring circuit 12 issues an opening command to the gate circuit 11. This keeps the gate circuit 11 open so that the cell 10
0 flows into the exchange 4.

In the period t ₁ , since the transfer rate C of the cell 100 exceeds the preset reference value C 1, the traffic monitoring circuit
12 issues a closing command to the gate circuit 11. As a result, the gate circuit 11 is closed so that the cell 100 cannot flow into the exchange 4.

In the period t _{1 to} t ₂ , the transfer rate C of the cell 100 becomes equal to or lower than the preset reference value C1 but does not fall below the preset reference value C2. Therefore, the traffic monitoring circuit 12
Remains issuing a close command to gate circuit 11.
This keeps the gate circuit 11 closed so that the cell 100
Does not flow into the exchange 4.

After period t ₂ , the number of transfers of cell 100 per unit time C
Becomes smaller than a preset reference value C2, the traffic monitoring circuit 12 issues an opening command to the gate circuit 11.
As a result, the gate circuit 11 is opened, and the cell 100 is allowed to flow into the exchange 4 again.

In this way, the traffic monitoring circuit 12 sets the reference value to 2
This is because it is more stable than determining the opening / closing of the gate circuit 11 with one reference value. The values of the reference values C1 and C2 are set when the subscriber first receives the subscriber line in the exchange 4, or when the subscriber makes a call and requests the connection to the exchange 4.

〔The invention's effect〕

INDUSTRIAL APPLICABILITY As described above, the present invention measures the transfer rate of cells sent from the ATM terminal to the exchange, and based on this, opens and closes the gate circuit to adjust the amount of cells flowing into the ATM switching network. There is. Furthermore, when a subscriber line is newly accommodated or a subscriber requests connection, the first reference value, which represents the number of cells transferred per unit time, which is the reference for opening / closing the gate circuit, and the second reference value. When you set. Thereby, for example, the reference value can be set according to the transfer amount of each subscriber or the transfer amount requested by the connection, and the gate circuit can be appropriately opened and closed. In addition, by providing two of the first reference value and the second reference value, there is an effect that the opening / closing cycle of the gate circuit becomes long and stable opening / closing control can be performed.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is an explanatory diagram shown for explaining the operation of the embodiment. 1 ... Traffic monitoring device, 3 ... ATM terminal, 4 ... Switch, 11 ... Gate circuit, 12 ... Traffic monitoring circuit.

Claims (1)

(57) [Claims] 1. A gate circuit provided between an ATM terminal and an exchange, which switches whether or not to pass a cell containing user information sent from the ATM terminal and a cell sent from the ATM terminal to the exchange. Counting means for counting the number of transfers per unit time, and for opening and closing the gate circuit when a new subscriber line is accommodated in the exchange or when a subscriber already accommodated makes a request to the exchange to make a connection. Reference value setting means for setting a first reference value and a second reference value representing the number of cells transferred per unit time serving as a reference; and when the count value of the counting means exceeds the first reference value, A track monitoring circuit which gives a closing instruction to the gate circuit and gives an opening instruction to the gate circuit when the count value falls below the second reference value. Monitoring device.