JPH098866A - Asynchronization speed matching communicating system - Google Patents

Abstract

PURPOSE: To unnecessitate the setting change of communication speed for an opposite party side. CONSTITUTION: A terminal equipment control part 22 is provided inside an incoming call side terminal adapter and a control part 30 reports the communication speed of a call originating side which is detected in the incoming call side terminal adapter from a call control message transmitted from the call originating side with a network to a speed control part 32 and data transmitting part 37. The speed control part 32 converts the communication speed of transmission data from the call originating side into the communication speed of the incoming call side and transmits it to an incoming call side communication terminal equipment with a terminal interface part 31. DMAC 38 successively transfers transmission data from the incoming call side communication terminal equipment, which is received by a data receiving part 36, to a data buffer 39 so as to store it, transfers the data to the data transmitting part 37 so as to successively transmit it in accordance with the communication speed of the call originating side, transmits a data transmission stop instruction to the incoming call side communication terminal equipment when a free area in the data buffer 39 is lost and stops data transmission till the free area is obtained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system in a communication network, and more particularly to a communication system in ISDN.

[0002]

2. Description of the Related Art Data communication between communication terminal devices in ISDN is performed via a terminal adapter.

In a closed network such as in-house communication, the communication speed of each communication terminal device is unified, but in an open network such as the commercial Internet, the communication speed of each communication terminal device is unified. Is difficult

Therefore, in the conventional communication system of this type,
According to the communication speed of the partner communication terminal device and its terminal adapter, the communication speed setting of its own communication terminal device and its terminal adapter is changed.

Further, when a plurality of communication terminal devices communicate with the communication control device, a plurality of interfaces corresponding to respective communication speeds are provided on the communication control device side,
Each communication terminal device performs data communication by selecting an interface suitable for its communication speed.

[0006]

However, in the above-mentioned conventional communication system, the communication speed of the partner communication device is checked every time the partner communication terminal device performing data communication is changed, and communication between the own communication terminal device and the terminal adapter is performed accordingly. Since the speed setting has to be changed, there is a problem that a great deal of labor is required.

The present invention is intended to solve such a conventional problem, and an object of the present invention is to provide an asynchronous speed matching communication system in which it is not necessary to change the setting of the communication speed according to the other party. is there.

[0008]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention detects a communication speed of a calling side from a call message from a network to a called side whose communication speed is faster than that of the calling side. Means, data storage means for temporarily storing data, data receiving means for receiving transmission data of the called communication terminal device and sequentially transferring to the data storage means, and data transferred from the data storage means Is transmitted to the calling side according to the communication speed of the calling side detected by the detecting means, and the data received by the data receiving means is sequentially transferred to the data storing means. The data stored in the data transmission unit is sequentially transferred to the data transmission unit according to the communication speed of the calling side detected by the detection unit, and When the empty area of the means is exhausted, a control means for sending a data transmission stop command to the called communication terminal device to stop the data transmission until an empty area is formed in the data storage means, and a network from the calling communication terminal device. Speed conversion means for converting the communication speed of the data transmitted via the terminal to the communication speed of the called side and transmitting the same to the called side communication terminal device.

[0009]

Therefore, according to the present invention, the speed conversion means converts the communication speed of the data transmitted from the calling side communication terminal device into the communication speed of the called side and transmits it to the called side communication terminal device. The detecting means detects the communication speed of the calling side, the data receiving means receives the transmission data of the called communication terminal device, and sequentially transfers the data to the data storing means,
The data stored in the data storage means is sequentially transmitted by the data transmission means in accordance with the communication speed of the calling side,
When the free space of the data storage means is exhausted, the control means sends a data transmission stop command to the called communication terminal device to stop the data transmission until the free space is formed in the data storage means, thereby communicating according to the other party. Data communication can be performed without changing the speed setting.

[0010]

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

In FIG. 1, reference numeral 11 is a host computer.

Reference numeral 12 is a collective type terminal adapter housed in an ISDN (1.5 Mbps interface) and capable of simultaneously performing data communication with a plurality of communication terminal devices.

[0013] 13 is a terminal adapter (TA) accommodated in ISDN (64 kbps interface)
And 16 is a communication terminal device (TE).

In the present embodiment, the communication terminal device 16 is dedicated to making a call and the collective terminal adapter 12 is dedicated to receiving a call. Therefore, the asynchronous speed matching communication method is implemented in the collective type terminal adapter 12.

FIG. 2 shows a collective type terminal adapter 12 and I.
Terminal adapter 13-a, 13-b, or 13- connected to SDN (64 kbps interface)
It is explanatory drawing which shows transmission / reception of the call control message with c.

In FIG. 2, the terminal adapter 13 first sends a "SET UP" message when making a call.

When ISDN (64 kbps interface) receives this message normally, "CALL
The "PROC" message is returned and the "SET UP" message is sent to the collective terminal adapter 12 based on the called number information element of the received message.

When the collective type terminal adapter 12 normally receives the "SET UP" message, the "CA"
LL PROC "message to ISDN (64 kbps)
Interface) and detects the communication speed of the terminal adapter 13 from the lower layer compatibility information element of the received message.

Subsequently, the collective terminal adapter 12 is
Incoming call is displayed on the host computer 11 shown in FIG.
The "ALERT" message is transmitted to the terminal adapter 13 via ISDN (64 kbps interface).

When the host computer 11 responds to the incoming call display, the collective terminal adapter 12
Send the "CONNECT" message to ISDN (64 kbp
s interface) via terminal adapter 13
Send to

The terminal adapter 13 is "CONNE
When a "CT" message is received, ISDN (64 kbp
"CON AKT" message to ISDN (64 kbps interface)
Upon receiving this message, will send back a "CON AKT" message to the collective terminal adapter 12.

With the above, the communication preparation is completed, and the data communication between the collective type terminal adapter 12 and the terminal adapter 13 is started.

FIG. 3 shows the collective terminal adapter 1 described above.
2 is a block diagram showing a configuration of FIG.

In FIG. 3, the collective type terminal adapter 12 controls ISDN (64) for controlling transmission and reception of a call control message to and from ISDN (64 kbps interface).
kbps interface) outgoing / incoming call control unit 27, ISD
An ISDN (1.5 Mbps interface) control unit 28 that controls the transmission and reception of communication data with an N (1.5 Mbps interface), a terminal device control unit 22 that controls the transmission and reception of communication data with the host computer 11 shown in FIG. It is configured by an integrated control unit 21 that integrally controls each control unit.

The ISDN (1.5 Mbps interface) control unit 28 and the terminal device control unit 22 are connected by a highway bus 25, respectively.
bps interface) outgoing / incoming call control unit 27, ISDN
The (1.5 Mbps interface) control unit 28 and the terminal device control unit 22 are connected by a data bus 26.

When the ISDN (64 kbps interface) outgoing / incoming call control unit 27 receives the "SET UP" message shown in FIG. 2, it detects the communication speed and subaddress of the terminal adapter 13 shown in FIG. 1 and sends this information to the data bus 26. It is transmitted to the overall control unit 21 via the.

The integrated control unit 21 includes the terminal adapter 1
It is determined that the communication speed of 3 is slower than the communication speed of the collective terminal adapter 12 and asynchronous communication is performed, and the terminal control unit 22-a, 22-b, or 22-c corresponding to the subaddress of the terminal adapter 13 , The transmission speed of the terminal adapter 13 is transmitted via the data bus 26.

FIG. 4 is a block diagram showing the configuration of the terminal control unit 22.

In FIG. 4, the control unit 30 has a data bus 2
ISDN (64 kbps interface) via 6
The terminal adapter 13 received from the incoming and outgoing call control unit 27
The communication speed information of the speed control unit 3 via the data line 40.
2 and also through the signal line 40 to the data transmitter 37
Send to

The data flow control operation for matching the communication speed is performed by the speed controller 32, the data receiver 36, the data transmitter 37, and the DMAC (Direct Memory Access Controller).
) 38 and the data buffer 39.

The data transmitted from the terminal adapter 13 shown in FIG.
Is input to the speed control unit 32 via the, and converted into the communication speed of the host computer 11 in the speed control unit 32 and transmitted to the host computer 11 via the terminal interface unit 31. Since the communication speed of the terminal adapter 13 is slower than that of the host computer 11, the data buffer is not necessary in this case, and the data is transmitted as it is.

When the data transmitted from the host computer 11 shown in FIG. 1 is input to the data receiving unit 36 via the terminal interface unit 31, the data receiving unit 36
Issues a data transfer request to the DMAC 38.

The DMAC 38 transfers data from the data receiving section 36 to the data buffer 39 in response to this data transfer request.

On the other hand, the data transmitter 37 issues a data transfer request to the DMAC 38 according to the communication speed of the terminal adapter 13 shown in FIG.

In response to the data transfer request, the DMAC 38 transfers data from the data buffer 39 to the data transmitting section 37, and the data transmitting section 37 transmits the transferred data to the terminal adapter 13 via the highway interface section 35 and the like. To do.

Since the communication speed of the host computer 11 is faster than that of the terminal adapter 13, DM
When the data buffer 39 becomes full, the AC 38 sends a data transmission stop command to the host computer 11 via the speed control unit 32, and stops the data transmission until the data buffer 39 becomes empty.

As described above, according to the embodiment of the present invention, the communication speed of the data transmitted from the terminal adapter 13 by the speed control unit 32 is converted into the communication speed of the host computer 11 and transmitted to the host computer 11. The ISDN (64 kbps interface) outgoing / incoming call control unit 27 detects the communication speed of the terminal adapter 13 from the call control message, and the data receiving unit 3
6, the transmission data of the host computer 11 is received and sequentially transferred to the data buffer 39, and this data is sequentially transmitted by the data transmission unit 37 according to the communication speed of the terminal adapter 13. When the empty area of the data buffer 39 is exhausted, the DMAC 38 By sending a data transmission stop command to the host computer 11 and stopping data transmission until an empty area is created in the data buffer 39, data communication can be performed without changing the communication speed setting according to the other party. .

The collective terminal adapter 12 described above is used.
The internal time slots of 1 correspond to the terminal device control unit 22 on a one-to-one basis, but are arbitrarily allocated to the ISDN (1.5 Mbps interface).

[0039]

As is apparent from the above embodiments, according to the present invention, the detecting means detects the communication speed of the calling side, and the data receiving means receives the transmission data of the called communication terminal device. The data stored in the data storage means are sequentially transferred, and the data stored in the data storage means are sequentially transmitted by the data transmission means at the communication speed of the calling side. An effect that data communication can be performed without changing the communication speed setting according to the other party by sending a data transmission stop command to the terminal device and stopping data transmission until an empty area is formed in the data storage means Have.

[Brief description of drawings]

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

FIG. 2 is an explanatory diagram showing transmission / reception of a call control message between a collective terminal adapter and a terminal adapter connected to an ISDN (64 kbps interface) according to an embodiment of the present invention.

FIG. 3 is a block diagram showing a configuration of a collective type terminal adapter in the embodiment of the present invention.

FIG. 4 is a block diagram showing a configuration of a terminal control unit in the collective terminal adapter according to the embodiment of the present invention.

[Explanation of symbols]

11 Host Computer 12 Collective Terminal Adapter 13 Terminal Adapter 16 Communication Terminal 21 General Control Unit 22 Terminal Device Control Unit 25 Highway Bus 26 Data Bus 27 ISDN (64 kbps Interface) Incoming and Outgoing Call Control Unit 28 ISDN (1.5 Mbps Interface) Control Unit 30 control unit 31 terminal interface unit 32 speed control unit 35 highway interface unit 36 data receiving unit 37 data transmitting unit 37 38 DMAC 39 data buffer 40 signal line

Claims (1)

[Claims] 1. A detecting means for detecting the communication speed of the calling side from a call message from the network when the communication speed of the called side is faster than the calling side, and a data storing means for temporarily storing data. A data receiving means for receiving the transmission data of the called communication terminal device and sequentially transferring the data to the data storing means, and a communication speed of the calling side detected by the detecting means for the data transferred from the data storing means And a data transmitting means for transmitting to the calling side in accordance with the above, the data received by the data receiving means are sequentially transferred to the data storing means, and the data stored in the data storing means is detected by the detecting means. The call is transferred to the data transmission means in accordance with the communication speed of the calling side, and when the empty area of the data storage means runs out, the incoming call is received. A control means for sending a data transmission stop command to the communication terminal device to stop data transmission until an empty area is formed in the data storage means, and a communication speed of data transmitted from the calling communication terminal device via the network are set. An asynchronous speed matching communication system, characterized in that a speed conversion means for converting the communication speed of the calling side to the communication terminal device of the called side is provided on the called side.