JPS6359137A - Communication system - Google Patents

Abstract

PURPOSE:To attain transmission/reception between the terminal equipment of a public network and the terminal equipment of a private network even if the address of a terminal equipment of the private network is not clear from the terminal equipment of the public network by registering the address information of terminal equipment to a communication equipment from the terminal equipment. CONSTITUTION:The DTE address and the extension address of a communication server 3 are inputted and stored in a memory 23 so as to transmit/receive the information not including an extension address from a terminal equipment 2. When an 'incoming call' packet is received from a packet exchange network 1 and no extension address is included, whether or not a registration table having an incoming call DTE address exists in the memory 23 is checked. When the DTE address and its extension address are registered in the table of the memory 23, the extension address corresponding to the DTE address is added to the 'incoming call' packet and the result is issued to the LAN 7. The terminal adaptor 5 in the LAN 7 checks the extension address of the incoming call packet and fetches a packet equal to the extension of the connected terminal equipment 6 and sends the result to the equipment 6.

Description

[Detailed Description of the Invention] [Field of Application in Business A] The present invention relates to a communication system that connects a public line network and a private line network to transmit and receive data.

[Prior Art] Conventionally, in a communication system that connects a public network and a private network, data terminal equipment (DTE) within the private network is controlled using an extension address within the private network. There was a drawback that when communicating from the public network, the terminal on the public network could not communicate unless it supported the extension address of the DTE on the private network.

[Problems to be Solved by the Invention] The present invention has been made in view of the above-mentioned conventional example, and is a communication method that allows communication from a public network to a terminal device of a private network without giving an address in the private network. The purpose is to provide a system.

[Means for Solving the Problems] In order to solve the above problems, the communication system of the present invention has the following configuration.

That is, it is a communication system in which a public line network and a private line network are connected via a communication device to perform communication, and a terminal control device interposed between a private line of the private line network and a terminal device has an address from the terminal device. The communication device includes an instruction means for instructing the communication device to transmit information, and the communication device includes a storage device that stores the address information and the address information of the terminal control device in association with each other.

[Function] In the above configuration, addresses can be registered from the terminal device in the private network, and communication can be performed without giving the address of the terminal in the private network from the public network.

[Embodiments] Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

[Description of Communication System (Fig. 1) Fig. 1 is a block diagram of a communication system according to an embodiment of the present invention.

In the figure, 1 is a public line packet switching network that supports, for example, the x.25 protocol. 2 is packet exchange wJ
This is a terminal device connected to 1, which does not have a function to support extension addresses of a private network such as a local area network (LAN). 3 is a communication server that controls the connection between the packet switching network 1 and the LAN 7; 4 is a transmission line of the LAN 7; 5 is a terminal adapter that connects and controls the transmission line 4 and the terminal device 6; it is provided with a switch 5-1 that instructs the communication server 3 to transmit address information from the terminal device 6; 6 is a terminal device connected to LAN7, L
Inputs and outputs information to AN7.

[Configuration diagram of communication server (FIG. 2)] The second is a configuration diagram of the communication server 3 of this embodiment, in which the same parts as in FIG. 1 are indicated by the same symbols.

In the figure, 20 is a transmission/reception control unit that controls data transmission and reception to the transmission path 4 of the LAN 7, and 21 is an interface control unit that controls the interface between the packet exchange gJ1 and the communication server 3. 22 is a CPU configured with, for example, a microprocessor, which controls the communication server 3;
It operates according to the control program. 23 is CPU22
This is a memory that serves as a work area for temporary storage of various data.

[Terminal adapter configuration diagram (Figure 3)] Figure 3 shows the LA
This is a configuration diagram of the terminal adapter 5 connected to the terminal adapter N, and the same parts as in FIG. 1 are indicated by the same symbols.

In the figure, 30 is a transmission/reception control unit that performs transmission and reception with the transmission line 4 within the LAN 7, and 31 is an interface control unit that performs interface control between the terminal adapter 5 and the terminal equipment 6. 32 is a CPU that controls the terminal adapter 5 and data on the LAN 7, and operates according to a control program stored in the ROM. 33 is a memory as a work area of the CPU 32, which has tables etc. which will be described later.
Temporary record of various data 1. Do Q etc. The switch 5-1 instructs the communication server 3 to transmit address information from the terminal device 6, as will be described later.

[Explanation of the flowchart of the terminal adapter (FIGS. 4 and 5)] FIG. 4 is a flowchart of the process of receiving data from the terminal device 6 by the terminal adapter 5.

First, in step S1, the type of X, 25 packet received from the terminal device 6 is checked. If it is a "calling" packet, the process advances to step S2 to check whether the switch 5-1 of the terminal adapter 5 is on.

When the switch 5-1 is off, normal data transmission processing is performed, but when the switch 5-1 is on, the process advances to step S3, and a code indicating that the X and 25 packets are table registration information is added. It is transmitted to the communication server 3 via the LAN 7.

Figure 5 shows the L sent from the terminal adapter 5 to the communication server.
This is the format of the AN packet.

50 is a control code indicating that it is registration table creation information, and 51 is a part in which x and 25 calling packets, which are information data from the terminal device 6, are mounted.

[Explanation of X, 25 calling packet (FIG. 6)] The sixth is a format diagram of the x, 25 calling packet shown at 51 in FIG.

Assume now that each piece of data is composed of 1 byte. The upper 8 bits of 60 are the general format identifier, and the lower 4 bits are the logical channel group number.

61 is a logical channel number, 62 is a packet type identifier, and a calling code is loaded at the time of transmission. The upper 8 bits of 63 are the calling DTE address length, and the lower 4 bits are the called address length. Reference numeral 64 is an area in which the called DTE address is loaded, and the destination DTE address to which connection is permitted by the terminal adapter 5 and the terminal device 6 is loaded. 65 is the calling DTE address, 66 is the facility length, 67 is the facility, and 68 is first select data, which is a part in which the terminal adapter number is mounted in the first select.

[Explanation of communication procedure (Fig. 7)] Fig. 7 shows the terminal device 6, terminal adapter 5, and communication server 3.
FIG. 2 is a diagram showing a communication procedure with FIG. 1, and parts common to FIG.

At 70, the terminal device 6 sends a call packet CR (Con-ne
ction Request) is issued to the terminal adapter 5. The terminal adapter 5 checks this calling packet, and when the switch 5-1 is on, issues a calling packet as a registration information report packet shown in FIG. 5 to the communication server 3 at 71. Based on this, the communication server 3 creates a registration table and stores the call disconnection packet CI (C1ear
Identification). When the terminal adapter 5 receives the CI, it transmits the CI to the terminal device 6. When the terminal equipment 6 receives the CI, it transmits the CF (C1ear
Confirm) is issued and the procedure ends.

[Explanation of registration table of communication server (Figure 8)]] Part 8
2 is a diagram showing an address registration table in the memory 23 of the communication server 3. FIG.

80 is LAN 7 seen from terminal device 2 of packet switching network 1
The DTE address registration area of the terminal device 6, 81 is the DTE address registration area of the terminal device 6.
This is an extension address registration area in LAN 7 of TE.

As described above, this information is manually inputted from the terminal device 6 and transmitted from the terminal adapter 5 to the communication server 3 when the switch 5-1 of the terminal adapter 5 is turned on. By manually storing these DTE addresses and extension addresses in the memory 23, the communication server 3 is able to send and receive information from the terminal device 2 that does not include an extension address.

[Description of operation for receiving incoming call packets (FIG. 9)] FIG. 9 is a flowchart showing the operation for receiving incoming call packets stored in the ROM of the CPU 22 of the communication server 3.

When an "incoming call" packet tt is received from the packet switching network 1, the process proceeds to step SIO, where the "incoming" packet is transferred to the LAN.
Check whether it contains the extension address of 7. If an extension address has been added, the process advances to step S15 and is transmitted to the LAN 7, but if no extension address is included, the process advances to step S11, where it is checked whether a registration table with the called DTE address exists in the memory 23. If there is no registration in step S12, the process proceeds to step 313, where error processing such as sending a communication failure message to the terminal device 2 is performed. When the DTE address and its extension address are registered in the table of the memory 23, the process advances to step S14, and the DTE address is registered in the table of the memory 23.
The extension address corresponding to the address is added to the "young call °" packet. Then, in step 515, it is issued to the LAN 7.

LAN? Then, the terminal adapter 5 checks the extension address of the incoming call packet, captures the packet equal to the extension address of the connected terminal device 6, and sends it to the terminal device 6.
Send to. As a result, extension addresses cannot be determined manually.
Alternatively, communication between the terminal device 2 of the packet switching network 1 and the terminal device 6 of the LAN 7, which do not know the extension address, becomes possible.

As described above, according to this embodiment, since the address information of the terminal in the private network can be manually registered from the terminal in the private network, the terminal in the public network that makes a call from the public network to the private network can address the address information in the private network. This has the effect of allowing you to make calls without being aware of it.

[Effects of the Invention] As described above, according to the present invention, even if the address of the private network terminal within the private network is unknown from the viewpoint of the public network terminal, transmission and reception between the public network terminal and the private network terminal is possible. It has the effect of allowing you to do this.

[Brief explanation of the drawing]

Fig. 1 is a 4R diagram of a communication system according to an embodiment of the present invention, Fig. 2 is a block diagram of a communication server of this embodiment, Fig. 3 is a block diagram of a terminal adapter, and Fig. 4 is a terminal of the terminal adapter. Flowchart for receiving calling packets from the device; Figure 5 is a diagram showing an example of the packet format sent from the terminal adapter to the communication server; Figure 6 is the X in Figure 5;
7 is a diagram showing the communication procedure, FIG. 8 is a configuration diagram of a registration table of DTE addresses and extension addresses in the memory of the communication server, and FIG. 9 is a diagram showing the present embodiment. 1, which is a flowchart diagram of incoming call packet reception processing of the communication server of FIG. In the figure, 1...Packet switching network, 2...Terminal equipment, 3
... Communication server, 4... Transmission path, 5... Terminal adapter, 5-1... Switch, 6... Terminal equipment, 7.
...LAN. 20... Transmission/reception control unit, 21... Interface control unit, 22... CPU, 23... Memory, 3o...
・Transmission/reception control unit, 31...interface control unit, 3
2...CPU, 33...Memory. Patent originator Canon Co., Ltd. No. 31M Fig. 4 Fig. 5 071 Wei 1 [ Fig. 6 Fig. 7 Fig. 8 Fig. 9

Claims (1)

[Claims] A communication system that performs communication by connecting a public line network and a private line network via a communication device, wherein a terminal control device interposed between the private line of the private line network and a terminal device receives address information from the terminal device. The communication device includes an instruction means for instructing the communication device to transmit, and the communication device includes a storage device for storing the address information and the address information of the terminal control device in association with each other, and the communication device includes a storage device for storing the address information and the address information of the terminal control device in correspondence with each other. A communication system, characterized in that the communication system is capable of registering information in the communication device.