KR100273342B1 - System remote control method - Google Patents

Abstract

PURPOSE: A method for remotely controlling a system is provided to exchange information between a host and a terminal side at high speed by enabling a user to access a UNIX system, which supports an ISDN, and to perform a remote login. CONSTITUTION: A control channel module installs data path to a call detection unit, and outputs a command for an automatic answering to the call detection unit. A communication control unit maintains a standby state till a call signal is inputted. The communication control unit outputs an accept signal or an act command to the call detection unit in case that the call signal is inputted. A data channel module is controlled by a control channel module. Local connection units are connected to the data channel module. A remote user who uses an integrated services digital network performs a login for a system. In case that an execution mode is performed, a data channel connection unit is opened under the control of the data channel module. In case that a transmission mode is performed, data received from the data channel connection unit through the data channel module and the local connection units. A local connection module removes a user procedure. The communication control unit completes an execution state.

Description

System remote control method

1 is a hierarchical comparison of ISDN and OSI.

2 is a schematic diagram of a comprehensive information network.

3 is a block diagram of a channel connection unit according to the present invention.

4 is a signal flow diagram during remote control according to the present invention.

<Explanation of symbols for main parts of drawing>

1: terminal side 2: system

3: Integrated Information Communication Network (ISDN) 4: Channel Connection

11: communication control unit 12: control channel module

13: Data channel module 14: Local connection module

15: call detection unit 16: control channel connection unit

17: data channel connection 18, 19: local connection

The present invention relates to a technology for remotely controlling a system, and in particular, a remote user accesses a UNIX system supporting an integrated information communication network (ISDN) to perform a remote login to a host and a terminal at high speed. The present invention relates to a system remote control method for exchanging information.

Generally, Intergrated Services Digital Network (ISDN) is a communication network that can provide a high speed and stable digital transmission path by using digital technology and can provide a plurality of communication services. Compared to the Open Systems Interconnection hierarchy, as shown in Figure 1, a 144kbps BRI (Basic Rate Interface) or 1.544 Mbps (T ₁ : North America), 2.048 Mbps (E ₁ : European) PRI ( Primary Rate Interface) corresponds to the physical layer of the OSI, the D-Channel link layer corresponding to the LAB-D protocol corresponds to the link layer of the OSI, and the Call Control Protocol corresponds to the network layer of 0SI.

In the general information communication network having such a hierarchical structure, the types of services available due to the strong digital information transmission capability are presented, but there are only a few practical services. Especially, the services for the package data besides the voice information are provided. It is hard to find even more.

In other words, the program that provides the virtual terminal function, which is essential when a user wants to log in remotely to another system in the packet data network, is 0SI vt, TCP / IP telnet, r1ogin, x.25 pad emulation program. Although such existing programs are intended to operate in an in-band signalling type communication network, they cannot be provided to a comprehensive information communication network.

Therefore, if a virtual terminal function is not provided in a comprehensive information communication network, only a function such as file transfer is used, which causes a problem that a user cannot perform a desired task smoothly.

In order to solve this problem, the present invention provides a plurality of data channels (B-) in one control channel (D-channel) through out-of-band signaling or common channel signaling. The invention provides a method for remotely controlling a system for providing a high speed service by controlling a channel), which will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a comprehensive information network, and as shown therein, the system 2 is connected to the integrated information network 3 through a channel connection 4 to remotely connect the system 2 from the terminal side 1. Configure to control.

As shown in FIG. 3, the channel connecting unit 4 connects the control channel connecting unit 16 connected to the integrated information communication network 3 to the call detecting unit 15, and the call detecting unit 15 is connected. The communication control unit 11 connected to the data channel connection unit 17 connected to the integrated information communication network 3, and the local connection units 18 and 19 are sequentially connected to the system 2, The communication control unit 11 controls the data channel module 13 connected to the data channel connection unit 17 by the control channel module 12 connected to the call detection unit 15, and also the local connection unit 18 and the data channel. The local connection module 14 connected to the module 13 is controlled to be controlled.

The operation and effect of the present invention configured as described above will be described in detail with reference to a signal flow diagram in FIG.

When the call detector 15 detects the control information input through the control channel connector 16, the control channel module 12 of the communication controller 11 receives an incoming signal through the call detector 15. In addition to controlling the data channel module 13, the local connection module 14 controls the communication channel between the data channel module 13 and the local connection module 14.

Accordingly, as the remote control signal is output from the terminal side 1, the data sequentially passes through the data channel connection unit 17, the data channel module 13, and the local connection module 14, and then the local connection unit 18 (19). Through the data transmission and reception in both directions with the system (2).

Referring to FIG. 4, the control channel module 12 opens a data path with the call detector 15 after executing a program to initialize a related data structure and variables. Prepares to receive the call signal by outputting a command for an auto-reply.

At this time, the communication control unit 11 performing the ISVT (ISDN virtual terminal) function maintains the standby state until the call signal is input. When the call signal is input, the control channel module 12 receives the received signal (accept call) or An action command is output to the call detection unit 15 to perform a response to the call of the terminal 1.

Here, the ISVT function refers to an integrated information communication network (ISDN) (3) by connecting a local connection unit 18 (19), which is a tty, to the data channel module 13 while controlling the data channel module 13 with the control channel module 12. It is a function that allows a remote user using a) to perform a desired task at high speed by logging in to the system 2 as if it is a local user.

The control channel module 12 branches the virtual area for the next input call signal before enabling the execution mode, and controls the data channel module 13 when the execution mode is performed, thereby controlling the data channel module ( 13, the data channel connection unit 17 is turned on by the control of the control channel module 12, and the local connection module 14 opens the local connection unit 18 by the control of the control channel module 12, and then performs a process such as login. Will run.

At this time, before executing the same process as the login, the local connection 19 which is a slab is opened and the local connection 18 which is the master is determined, and the local connection module 14 uses the UTMP structure to display the opened state of the data path using the UTMP file. Register at

Accordingly, when the transfer mode is entered, the data received by the data channel connection unit 17 through the data channel module 13 and the local connection unit 18 and 19 is read and written to the system, and the data is read from the system 2. By repeating the operation of writing to the channel connection unit 17, bidirectional data transmission and reception are performed.

By performing the above operation, when the user's desired work is finished, the local connection module 14 removes the user process registered in the UTMP, turns off the local connection 18 and 19, and sets the control channel module (the termination mode is set). 12) outputs a hangup message, a deact message, and an exit message to the call detection unit 15 to turn off the communication establishment state, so that the communication control unit 11 terminates the execution state. Done.

Through this operation, the communication control unit 11 provides the user of the terminal side 1 who has accessed the system 2 via the integrated information communication network (ISDN) 3 to the local connection unit 18 (connected to the system 2) ( 19), the system 2 is logged in and then the connection state is turned off to release the online state.

As described in detail above, the present invention enables the user at the terminal side to log in the system to perform a task, thereby enabling smooth information exchange at high speed.

Claims (1)

The first step is to determine the input of the incoming call after initializing the call state, and when the call signal is input in the first step, outputs an acknowledgment message and establishes online communication between the system and the terminal. And a second step of determining whether the job is terminated by logging in and performing the job, and a third step of releasing the registration user and turning off the communication if the job is finished in the second step. System remote control method.