JPH09233090A - Atm exchange - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize an exchange to which an identifier for signal virtual channel, that is, a gate array is efficiently assigned. SOLUTION: In the case of setting a signal virtual channel, a communication terminal equipment 2 sends a setting request cell to request setting of a signal virtual channel to a designated channel, a terminal container means 12 extracts a setting request cell from the designated channel and sends the cell with channel contained position information added thereto to a signal virtual channel management system 112. Then the signal virtual channel management system 112 sets the signal virtual channel between a call processing control system 111 and the communication terminal equipment 2 and cells are exchanged by informing the identifier of the signal virtual channel.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ATM switching device, and more particularly to a broadband ISDN (Broadband-Integreted Servo).
vices Digital Network) for improving the call control unit of the network of the ATM switching device.

[0002]

2. Description of the Related Art Conventionally, in the protocol processing section of the ATM adaptation layer, AAL1, AAL3 / 4, AA
When L5 is to be realized by one gate array, VCIs (virtual channel identifiers) are equally assigned to the gate arrays. Therefore, even in the relatively infrequently used meta-signaling used for recognizing the terminal only at the time of starting and ending the terminal, the SVC which is frequently used like the call processing signal line used in the call processing of the terminal is used.
Similar to (Virtual channel for signal), VCI is always assigned to the gate array. Therefore, when allocated to meta-signaling, there are areas that are rarely used,
That would limit other uses.

Since the resources of the gate array are evenly allocated to all the SVCs in this way, when a multimedia terminal or the like is accommodated in a switch in the future, the number of terminals will increase or the number of lines per terminal will increase. When the number of terminals increases, the number of terminals that can be accommodated is limited, and there is a possibility that efficient communication cannot be performed by an ATM switch that requires high-speed call processing.

[0004]

As described above, in the conventional ATM switching apparatus, virtual channel identifiers are assigned to all gate arrays, so that the number of terminals that can be accommodated is limited and high-speed call processing is required. There was a problem that the exchange could not perform efficient communication.

The present invention solves this problem and realizes an ATM switching apparatus in which a virtual channel identifier is efficiently assigned to a gate array by sharing one gate array for signals that are rarely used. The purpose is to do.

[0006]

In order to achieve the above object, the present invention involves a terminal accommodating means for accommodating a communication terminal, a call processing control means for controlling a call processing with the communication terminal, and a call processing. In an ATM switching apparatus having signal virtual channel control means for setting / releasing a signal virtual channel and for setting communication by cell exchange, cells input from a fixed line that is fixedly determined are transferred to other lines. Line identifying means for distinguishing from the cell input from the communication terminal is provided, and when setting the signal virtual channel, the communication terminal sends a setting request cell requesting the setting of the signal virtual channel to the designated line, and the terminal accommodating means. Extracts the setting request cell from the designated line, adds line accommodation position information, and sends it to the signal virtual channel control means, and the signal virtual channel control means A virtual signal channel is set between the call processing control means and the communication terminal based on the setting request cell to which the line accommodation position information is added, and the signal virtual channel is set to the call processing control means and the communication terminal. It is characterized in that cell exchange is performed by notifying the channel identifier.

[0007] Further, it has a plurality of terminal accommodating means, and the signal virtual channel control means identifies a setting request cell to which the line accommodating position information from the plurality of terminal accommodating means is added, for each terminal accommodating means. It is characterized by doing.

According to the present invention, by inputting a cell for requesting setting of a virtual channel for signaling from a terminal to a switching device through a specific designated line and rewriting it into a cell format effective only in the switching device, the gate array is used. We can plan effective use of resources.

[0009]

DETAILED DESCRIPTION OF THE INVENTION An ATM switching apparatus according to the present invention will be described in detail below with reference to the accompanying drawings. FIG.
It is a block diagram showing a configuration of an ATM switching apparatus according to an embodiment of the present invention.

A processing unit (node processor unit: NPU) for controlling the inside of the node is included in the ATM switching apparatus 1.
11, a terminal accommodating means (trunk package: TP) 12 accommodating each terminal 2, and a switch means (ATM switch: SW) 13 for controlling connection of lines in a node are included.

Further, the processing unit (NPU) 11 includes a call processing control system (SCS) 111 for performing call processing and a signal virtual channel management system (SMG) 112 for setting and releasing a signal virtual channel. ing.

The terminal accommodating means (TP) 12 has a port processor (p) for controlling the inside of the terminal accommodating means (TP).
P) 121 is included, and the port processor (pP) 121 is included.
Knows the mounting position of its own board.

Furthermore, the gate arrays (GA) 113 and 122 mounted on the processing unit (NPU) 11 and the terminal accommodating means (TP) 12 identify cells coming in from a fixedly determined line. It can be transferred to higher-level software.

FIG. 2 is a signal transfer diagram at the start of a call in the embodiment of FIG. According to FIG. 1 and FIG.
The exchange of signals between each device at the start of a call will be described.

When the terminal 2 requests a signal virtual channel for performing call processing, the terminal sends out a cell requesting a signal virtual channel to this fixedly determined line.

A gate array (GA) 122 on the terminal accommodating means (TP) 12 identifies a cell input from a determined line and is a port processor (pP) 1 located at a higher level.
Transfer to 21. The port processor (pP) 121 adds the terminal accommodation means (T) to the message part of the transferred cell.
The position information in which P) 12 is mounted is written, and the processed cell is sent to a fixed line between the processing unit (NPU) 11 and the terminal accommodating means (TP) 12.

The gate array (GA) 113 on the processing unit (NPU) 11 identifies a cell requesting the setting of a signal virtual channel that has entered from a fixedly determined line and identifies the signal virtual channel management system ( SMG)
Transfer to 112. The signal virtual channel management system (SMG) 112 analyzes the received message, recognizes the terminal accommodating means (TP) 12 accommodating the terminal 2, and controls the switch means (SW) 13 to control the call processing control system. A signal virtual channel is set between the (SCS) 111 and the terminal 2. Then, the signal virtual channel management system (SMG) 112 notifies the VPI / VCI value of the set signal virtual channel to the call processing control system (SCS) 111, and the signal virtual channel management system (SMG) 112 The VPI / VCI value of the signal virtual channel is notified to the terminal 2 using a line fixedly determined between the terminals 2. After that, the call processing control system (SCS) 111 and the terminal 2 perform call processing using this signal virtual channel.

FIG. 3 shows a configuration example in the case where a plurality of terminals 2 are connected to one node in the present invention and a terminal accommodating means (TP) 12 exists for each one of the terminals 2.

Each of the terminals 2-1 and 2-2 has a terminal accommodating means (T
P) 12-1 and 12-2 are connected by fixed lines. In addition, terminal accommodation means (T
P) 12-1, 12-2 and the processing unit (NPU) 11 are connected n: 1 by a fixed line.
A VPI / VCI value that is the same as the VPI / VCI value of the gate array (GA) 113 on the side of the processing unit (NPU) 11 that is fixedly determined is used.

FIG. 4 is a signal transfer diagram at the start of a call in the embodiment of FIG. According to FIG. 3 and FIG.
The exchange of signals between each device at the start of a call will be described.

The cell requesting the setting of the virtual channel for the signal transmitted from the terminal 2-2 is the terminal accommodation means (TP) 12
-2, the accommodation position information of the terminal 2-2 is added to the message by the port processor (pP) 121-2. Then, the terminal accommodating means (TP) 12-2 sends out the cell to the fixedly determined line of the processing unit (NPU) 11. The processing unit (NPU) 11 transfers the cell transmitted from each terminal accommodating means (TP) 12 to the signal virtual channel management system (SMG) 112. The signal virtual channel management system (SMG) 112 analyzes the received message and stores the terminal 2-2 in the terminal accommodating means (TP) 12-2.
And the switch means (SW) 13 is controlled to set a virtual signal channel between the call processing control system (SCS) 111 and the terminal 2-2. The signal virtual channel management system (SMG) 112 notifies the VPI / VCI value of the set signal virtual channel to the call processing control system (SCS) 111, and the signal virtual channel management system (SMG) 112 is fixed. Each terminal accommodating means (TP) 12 using the line determined by
The virtual channel setting response cell for signal is transmitted to. Each terminal accommodating means (TP) 12 analyzes the received cell, extracts the position information included in the message, and compares it with the position information of its own board so that the terminal 2 can recognize the received cell. The VPI / VCI value of the signal virtual channel is notified using the line fixed to the terminal 2 after being corrected to the cell format. If the received cell has position information different from the position information of its own board, the terminal accommodating means (TP) 12 discards the received cell.

[0022]

As described above, according to the present invention, the terminal accommodating means for accommodating the communication terminal, the call processing control means for controlling the call processing with the communication terminal, and the setting of the virtual channel for the signal accompanying the call processing. In an ATM switching apparatus having signal virtual channel control means for releasing and setting communication by cell exchange, cells input from a fixed line that is fixedly decided are called cells input from other lines. A line identification means for distinguishing is provided, and when setting the signal virtual channel, the communication terminal sends a setting request cell requesting the setting of the signal virtual channel to the designated line, and the terminal accommodation means extracts the setting request cell from the designated line. And sends the line accommodating position information to the signal virtual channel control means, and the signal virtual channel control means performs call processing based on the setting request cell to which the line accommodating position information is added. It sets the signal virtual channel between the control means and the communication terminal performs cell switching by notifying the identifier of the signal for the virtual channel to the communication terminal a call processing control unit.

At this time, it has a plurality of terminal accommodating means, and the signal virtual channel control means can identify the setting request cell to which the line accommodating position information from the plurality of terminal accommodating means is added for each terminal accommodating means. I did it.

By doing so, the signal virtual channel setting request cell from the communication terminal is performed on the designated line,
Since the cell is rewritten to a cell format that is valid only in the exchange, it is possible to effectively use the signal virtual channel identifier, that is, the gate array, the number of terminals that can be accommodated is limited, and high-speed call processing is required. It is possible to solve the problem that efficient communication cannot be performed by a simple ATM exchange.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of an ATM switching apparatus of the present invention.

FIG. 2 is a signal transfer diagram at the start of a call in the embodiment shown in FIG.

FIG. 3 is a block diagram showing another embodiment of the ATM switching apparatus of the present invention.

FIG. 4 is a signal transfer diagram at the start of a call in the embodiment shown in FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ATM switching device 2 Communication terminal 11 Processing device 12 Terminal accommodation means 13 Switch means 111 Call processing control system 112 Virtual channel management system for signals 113 and 122 Gate array 121 Port processor

Claims (2)

[Claims] 1. A terminal accommodating means for accommodating a communication terminal, a call processing control means for controlling call processing with the communication terminal, and a virtual signal channel control for setting / releasing a virtual signal channel for the call processing. In an ATM switching apparatus having means for setting communication by switching cells, a line identification means for distinguishing a cell input from a fixedly fixed designated line from a cell input from another line is provided. When setting the signal virtual channel, the communication terminal sends a setting request cell requesting the setting of the signal virtual channel to the designated line, and the terminal accommodating means extracts the setting request cell from the designated line. And sends the line accommodating position information to the signal virtual channel control means, and the signal virtual channel control means adds the line accommodating position information to the setting request section. Based on the above, a signal virtual channel is set between the call processing control means and the communication terminal, and cell switching is performed by notifying the call processing control means and the communication terminal of the identifier of the signal virtual channel. An ATM switching device characterized by performing. 2. A plurality of terminal accommodating means are provided, and the signal virtual channel control means identifies a setting request cell to which the line accommodating position information from the plurality of terminal accommodating means is added, for each terminal accommodating means. The ATM switching apparatus according to claim 1, wherein