JPH04137942A - Data communication equipment - Google Patents

Abstract

PURPOSE:To attain efficient data transmission by automatically selecting a line exchange service and a packet exchange service in response to the traffic of a transmission reception data so as to send a data. CONSTITUTION:A data path changeover circuit 1 makes management of traffic of a transmission data and sends a decreasing state of the transmission data quantity to a control circuit 5 when a transmission data quantity for a consecutive specified time reaches a prescribed threshold below. Upon the receipt of a data path setting end notice from a packet exchange data transmission reception circuit 3, the control circuit 5 gives a command of transmission to the packet exchange data transmission reception circuit 3. Then the control circuit 5 gives a command of stop of data transmission reception to a line exchange data transmission reception circuit 2. When the traffic of the transmission data is decreased, the mode is switched from the line exchange service into the packet exchange service. Thus, the data is efficiently sent.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention is applied to a data communication device that transmits data via an rsDN network.

〔overview〕

The present invention enables data transmission to be performed efficiently in a data communication device by automatically switching between a circuit switching service and a packet switching service to perform data transmission according to the amount of traffic of transmitted and received data.

[Conventional technology]

FIG. 2 is a block diagram of a conventional data communication device.

Conventionally, data communication devices have a method of using a circuit switching service when transmitting data via an ISDN network;
There is a method using packet switching services. Circuit-switched services are suitable for transmitting large amounts of data continuously, while packet-switched services are suitable for transmitting small amounts of data sporadically over long periods of time. . Therefore, before starting normal data transmission, the user selects either the circuit switching service or the packet switching service depending on the type of use. Furthermore, even if existing terminal adapters and other equipment are compatible with both circuit-switched and packet-switched services, users have to decide whether to use circuit-switched or packet-switched services before transmitting data. I had to choose what to do.

In FIG. 2, when performing data communication using the ISDN circuit switching service, a terminal is connected to the terminal interface 6A and connected to a far-end data communication device via the ISDN network. Thereafter, the transmitted data is sent to the circuit-switched data transmitting/receiving circuit 2 according to, for example, the CCITT (International Telegraph and Telephone Consultative Committee) recommendations.

V.110 compliant speed conversion or CCITT Recommendation;
V, 120-compliant protocol conversion,
It is sent to the ISDN network via the ISDN line interface circuit 4. Further, the received signal is inversely converted from the TSDN interface 7 via the ISDN line interface circuit 4 in the line-switched data transmitting/receiving circuit 2, and is sent to the terminal interface 6A as received data.

When performing data communication using the ISDN packet switching service, a terminal is connected to the terminal interface 6B and connected to a far-end data communication device via the ISDN network. After that, the transmitted data is L A P D (Link＾ccess Pro
cedure on the D channel,
CCITT recommendation.

0.921 compliant) into a packet signal according to ■S
It is sent to the ISDN network via the DN line interface circuit 4 and the ISDN interface 7.

The ISDN line interface circuit 4 performs conversion between the circuit switched data transmitter/receiver circuit 2 and the packet switched data transmitter/receiver circuit 3 and the ISDN interface 7 in accordance with CCITT Recommendation 1.430.

The control circuit 8 also complies with CCITT recommendation 1.440.1.
Call control is performed in accordance with 441.1.450.1.451.

That is, conventional data communication devices need to use separate terminal interfaces when using circuit switching services and when using packet switching services, and cannot switch the services used during data transmission.

[Problem to be solved by the invention]

However, in such conventional data communication devices, the amount of data transmission traffic is not necessarily constant during a series of data transmission procedures, such as when accessing a host computer from a terminal using a time sharing system. Therefore, in such cases, using a line switching service will shorten the time it takes to upload or download files, but has the disadvantage of increasing line usage charges. Furthermore, although the usage fee is lower when using a packet switching service, there is a drawback that throughput decreases when sending and receiving large amounts of data.

The present invention solves the above-mentioned drawbacks, and provides a data communication device that can automatically switch between a circuit switching service and a packet switching service according to the amount of traffic of transmitted and received data, and can efficiently transmit data. With the goal.

[Means to solve the problem]

The present invention provides a circuit-switched data transmitting and receiving circuit that performs speed conversion or protocol conversion of transmitted and received data, a packet-switched data transmitting and receiving circuit that performs protocol conversion of transmitted and received data, a terminal interface connected to a terminal, and the circuit-switched data transmitting and receiving circuit. and an ISDN interface means connected between the packet-switched data transmission/reception circuit and the ISDN network, and a control circuit for performing call control of the circuit-switched data transmission/reception circuit and the packet-switched data transmission/reception circuit. In the above, the terminal interface is provided in common for the circuit switching service and the packet switching service, and the terminal interface is connected to the circuit switching data transmitting/receiving circuit or the packet switching data transmitting/receiving circuit under the control of the control circuit. The data path switching circuit includes a traffic information notification means for providing traffic information to the control circuit based on the amount of transmitted data, and the control circuit receives the traffic information or the data path switching request of the destination data communication device. Based on the above data path switching circuit, circuit switching data transmission/reception circuit, packet switching transmission/reception circuit, and I
The present invention is characterized in that it includes means for controlling the SDN interface means to automatically switch between the line-switched data transmitting/receiving circuit and the packet-switching transmitting circuit.

Further, in the present invention, the traffic information notification means is configured to reduce the amount of transmitted data when the amount of transmitted data for a specified period of time is equal to or less than a predetermined threshold when data communication is performed using a circuit switching service. Traffic information is given to the control circuit, and when data communication is performed using a packet switching service, traffic information indicating that the amount of transmitted data increases when the amount of transmitted data continues for the specified time exceeds the predetermined threshold value. may include means for providing.

[Effect]

A terminal interface is provided commonly for circuit switching services and packet switching services.

The data path switching circuit connects this shared terminal interface to the circuit-switched data transmission/reception circuit or the packet-switched data transmission/reception circuit under the control of the control circuit. The data path switching circuit is a traffic information notification means that provides traffic information to the control circuit based on the amount of transmitted data. The control circuit controls the data path switching circuit, circuit switching data transmission/reception circuit, packet switching transmission/reception circuit, and RS based on the above traffic information or the data path switching request of the destination data communication device.
A DN interface means is controlled to automatically switch between a circuit-switched data transmitting/receiving circuit and a packet-switching transmitting circuit.

In addition, the traffic information notification means transmits traffic information of a decrease in the amount of transmitted data to the control circuit when the amount of transmitted data for a specified period of time is below a predetermined threshold when data communication is performed using a circuit switching service. and provides traffic information of an increase in the amount of transmitted data when the amount of transmitted data or the amount of received data continues for the specified period exceeds the predetermined threshold when data communication is performed using a packet switching service. This is desirable.

As described above, it is possible to automatically switch between the circuit switching service and the packet switching service according to the amount of traffic of transmitted and received data, and data transmission can be performed efficiently.

〔Example〕

Embodiments of the present invention will be described with reference to the drawings. 1st
The figure is a block diagram of a data communication device according to an embodiment of the present invention. In FIG. 1, the data communication device includes a circuit-switched data transmitting/receiving circuit 2 that performs speed conversion or protocol conversion of data, a packet-switched data transmitting/receiving circuit 3 that performs protocol conversion of transmitted and received data, and a terminal interface 6 connected to a terminal. , circuit-switched data transmitting/receiving circuit 2, packet-switching data transmitting/receiving circuit 3, ISDN, l! 1
It comprises an ISDN line interface circuit 4 and an ISDN interface 7 as ISDN interface means connected between the circuit and the control circuit 5 that performs call control of the circuit-switched data transmitting/receiving circuit 2 and the packet-switching data transmitting/receiving circuit 3. .

Here, the feature of the present invention is that the terminal interface 6 is provided in common for the circuit switching service and the packet switching service, and the common terminal interface 6 is connected to the circuit switching data transmitting/receiving circuit 2 under the control of the control circuit 5. Alternatively, the data path switching circuit 1 is provided with a data path switching circuit 1 connected to the packet-switched data transmitting/receiving circuit 3, and the data path switching circuit 1 provides traffic information notification means for providing traffic information to the control circuit 5 based on the amount of transmitted data. The control circuit 5 controls the data path switching circuit 1, the line-switched data transmitting/receiving circuit 2, the packet-switching data transmitting/receiving circuit 3, and the ISDN interface based on the traffic information or the data path switching request of the destination data communication device. The present invention is characterized in that it includes means for controlling the circuit 4 to automatically switch between the circuit-switched data transmitting/receiving circuit 2 and the packet-switching data transmitting circuit 3.

In addition, the traffic information notification means controls traffic information of a decrease in the amount of transmitted data when the amount of transmitted data for a specified period of time is less than or equal to a predetermined threshold when data communication is performed using a circuit switching service. means for supplying traffic information to the circuit 5 to increase the amount of transmitted data when the amount of transmitted data for the specified period of time exceeds the predetermined threshold when data communication is performed using a packet switching service; include.

The operation of the data communication device having such a configuration will be explained.

In Figure 1, when using a circuit switching service,
Transmission data manually input from the terminal interface 6 is subjected to speed conversion or protocol conversion in the line-switched data transmission/reception circuit 2 via the data path switching circuit 1, and is sent to the ISDN interface 7 via the ISDN line interface circuit 4.

Conversely, transmission data from the far-end data communication device received from the ISDN interface 7 is sent to the line-switched data transmitting/receiving circuit 2 via the ISDN line interface circuit 4.
The data is then speed-converted or protocol-converted and sent to the terminal interface 6 as received data through the data path switching circuit 1.

In addition, when using a packet switching service, the transmission data input from the terminal interface 6 is protocol-converted by the packet switching data transmitting/receiving circuit 3 via the data path switching circuit 1 into a signal conforming to the packet switching service of the ISDN network. ISDN line interface circuit 4
It is sent to the ISDN interface 7 through the ISDN interface 7.

Conversely, transmission data from the far-end data communication device received through the ISDN interface 7 is
The packet-switched data transmission/reception circuit 3 performs protocol conversion through the N-line interface circuit 4, and the data is sent to the terminal interface 6 as received data via the data path switching circuit 1.

Hereinafter, a detailed explanation will be given step by step.

First, when data communication is performed using a circuit switching service, the transmitted and received data is transmitted through the terminal interface 6, the data path switching circuit 1, the circuit switching data transmission/reception circuit 2, and the ISD.
Data is transmitted via the N line interface circuit 4 and the ISDN interface 7.

At this time, the data path switching circuit 1 manages the traffic of transmission data. It has a predetermined threshold value, and when the amount of transmitted data for a specified period of time becomes less than the predetermined threshold value, it notifies the control circuit 5 that the amount of transmitted data has decreased.

At this time, the control circuit 5 first performs a call connection by packet switching via the ISDN line interface circuit 4 in order to switch from the circuit switching mode to the packet switching mode. Thereafter, a request is made to the packet-switched data transmitting/receiving circuit 3 to set up a data path by packet-switching.

Upon receiving the data path setting completion notification from the packet-switched data transmitting/receiving circuit 3, the control circuit 5 switches the data path switching circuit 1 to the data path switching circuit 1.
It instructs the terminal interface 6 to stop sending the transmission data received from the terminal interface 6 to the line-switched data transmission/reception circuit 2 and to send it to the packet-switched data transmission/reception circuit 3.

Thereafter, the control circuit 5 instructs the line-switched data transmitting and receiving circuit 2 to stop transmitting and receiving data.

After receiving the notification of completion of stopping data transmission/reception from the circuit-switched data transmission/reception circuit 2, the control circuit 5 disconnects the call using the circuit-switched service through the ISDN circuit interface circuit 4. Furthermore, after the data received from the line-switched data transmitting/receiving circuit 2 is completed, the data path switching circuit 1 switches the receiving data path to the packet-switched data transmitting/receiving circuit 3 side, and transfers the received data from the packet-switched data transmitting/receiving circuit 3 to the terminal interface. Send to 6. In this way, when the amount of transmission data traffic decreases, the circuit switching service is switched to the packet switching service.

Conversely, when transmitting data using a packet switching service, the data path switching circuit monitors the amount of transmitted data, and if the amount of transmitted data exceeds a predetermined threshold in a specified time, it will be detected as described earlier. Switch from packet-switched service to circuit-switched service using the same procedure as above.

Further, when the received data traffic changes, the far-end data communication device initiates switching of line services according to the above-described means. Therefore, for example, when a far end requests a call connection using a packet switching service while transmitting data using a circuit switching service, the control circuit 5 performs call setup using the packet switching service.
The packet exchange data transmission/reception circuit 3 sets up a data path by packet exchange. After that, data path switching circuit 1
switches the transmission data path from the circuit-switched data transmitting/receiving circuit 2 to the packet-switching data transmitting/receiving circuit 3. The line-switched data transmitting/receiving circuit 2 disconnects the data path in accordance with a request from a far-end data communication device.

Thereafter, the control circuit 5 disconnects the call based on the circuit switching service. After the received data from the line-switched data transmitting/receiving circuit 2 is completed, the data path switching circuit 1 switches the receiving data path to the packet-switching data transmitting/receiving circuit 3 side. In this way, switching from circuit switching service to packet switching service is performed.

A similar procedure is used to switch from packet-switched service to circuit-switched service.

Note that when switching the receiving data path, the circuit-switched data transmitting/receiving circuit 2 and the packet-switching data transmitting/receiving circuit 3
In order to compensate for each received data, the data received before the data path switching circuit 1 establishes a data path with the terminal interface 6 is buffered to prevent data loss.

〔Effect of the invention〕

As described above, the present invention has the excellent effect of being able to automatically switch between the circuit switching service and the packet switching service depending on the amount of traffic of transmitted and received data, and efficiently transmitting data.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a data communication device according to an embodiment of the present invention. FIG. 2 is a block diagram of a conventional data communication device. DESCRIPTION OF SYMBOLS 1...Data path switching circuit, 2...Line switching data transmission/reception circuit, 3...Packet switching data transmission/reception circuit,
4...ISDN line interface circuit, 5.8...
・Control circuit, 6.6A, 6B...terminal interface, 7...ISDN interface

Claims (1)

[Scope of Claims] 1. A line-switched data transmitting and receiving circuit that performs speed conversion or protocol conversion of transmitted and received data, a packet-switched data transmitting and receiving circuit that performs protocol conversion of transmitted and received data, a terminal interface connected to a terminal, and the above-mentioned line. Exchange data transmission/reception circuit and packet exchange data transmission/reception circuit and I
In a data communication device comprising an ISDN interface means connected to an SDN network, and a control circuit that performs call control of the circuit-switched data transmitting/receiving circuit and the packet-switching data transmitting/receiving circuit, the terminal interface is connected to the circuit-switched service and a data path switching circuit provided commonly for the packet switching service and connecting the shared terminal interface to the circuit switching data transmission/reception circuit or the packet switching data transmission/reception circuit under the control of the control circuit; The circuit includes traffic information notification means for providing traffic information to the control circuit based on the amount of data to be transmitted, and the control circuit switches the data path switching circuit to the line switching based on the traffic information or a data path switching request from the destination data communication device. A data communication device comprising means for automatically switching between the line-switched data transmitter-receiver circuit and the packet-switched transmitter circuit by controlling a data transmitter-receiver circuit, a packet-switched transmitter-receiver circuit, and an ISDN interface means. 2. The traffic information notification means transmits the traffic information of a decrease in the amount of transmitted data when the amount of transmitted data for a specified period of time is below a predetermined threshold when data communication is performed using a circuit switching service. means for providing traffic information to a control circuit to increase the amount of transmitted data when the amount of transmitted data for the specified period of time exceeds the predetermined threshold when data communication is performed using a packet switching service; 2. The data communication device according to claim 1.