JPS63102518A - Line control method - Google Patents

Abstract

PURPOSE:To provide limitless general-purpose properties and extendability to a portable terminal equipment by setting a common communication line between the portable terminal equipment and each equipment and adding an identification code given to an equipment setting a line to data transmitted/received to/from a communication line between the portable terminal equipment and individual equipment on the communication line. CONSTITUTION:When data giving an instruction for switching between a communication line and an equipment 3 is inputted, an identification code representing an equipment 2 is added to the data by an identification code adder 18 and the data is sent to the equipment 2 via a communication controller 15. When the said data is received, the equipment 2 stops the operation, refers to a storage table of the identification codes to allow an identification code setting device 17 to generate command data changing the received data to the identification code of the equipment 3 and sends the result to the portable terminal equipment 1. The data is received by the portable terminal equipment 1, where the identification code of the equipment 3 is set. Just after the setting, the identification code setting device 17 generates data instructing the start to the equipment and sends it to a communication controller 15. Thus, the communication line with the equipment 3 is set.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a method of controlling communication line settings between a portable terminal device and a plurality of different devices to be operated by the portable terminal device.

In order to improve the conventional technology, there is a need for a line control method suitable for the generalization of portable terminal devices and for controlling communication line settings between the portable terminal device and each device.

As a conventional line control method, there is a method of controlling communication line settings using hauling selective on the same communication path.

Problems to be Solved by the Invention However, in the conventional method as described above, when setting up a communication line, the portable terminal device itself identifies the key input for setting up the communication line and uses the identification code of the device to be operated. Since the identification code storage table is referred to and used to perform holing selection for the device, the versatility and expandability of the mobile terminal device is limited depending on the type of internal storage table. It had the following drawback. Furthermore, there is a drawback that the communication line may be set up if a temporary failure occurs in the communication or in the portable terminal device.

The present invention solves the above-mentioned conventional problems, and makes it possible to provide infinite versatility and expandability to a portable terminal device. An object of the present invention is to provide a line control method that enables automatic repair of a communication line when a failure occurs.

Means for Solving the Problems In order to solve the above problems, the line control method of the present invention includes:
In a control method for setting up a bidirectional communication line between a general-purpose portable terminal device that remotely controls a plurality of different device groups and individual devices, common communication between the portable terminal device and each device is provided. A method that establishes a communication line between a mobile terminal device and individual devices on this communication path by adding an identification code given to the device to which the line is to be established to the transmitted and received data. In this case, first,
The mobile terminal device transmits data instructing line switching to the device that is currently configured with the communication line, and upon receiving this data, the device refers to the table regarding identification codes held internally, and then sets the communication line. transmission of the identification code assigned to the device to be transmitted to the mobile terminal device, and here, for the first time, the mobile terminal device changes the identification code to be added to the data to be transmitted thereafter to the new identification code that has been transmitted. The feature is that the line can be switched by

According to the above-described method, the present invention enables a portable terminal device to input an identification code to be added to data to be sent and received during communication line settings by inputting an identification code by key input, and by using the above-mentioned method, without referring to an internal storage table. In order to set the value obtained from the code storage table, for any device group, as long as each device has a common identification code storage table, it is possible to set up and switch communication lines between each device. You can control the termination. Further, by providing a hierarchical structure between the storage tables of identification codes held by each device, it is possible to arbitrarily expand the group of devices with which the portable terminal device can set up a communication line. Furthermore, since the identification code set in the mobile terminal device is set to the identification code transmitted from each device, temporary failures in communication or in the mobile terminal device may cause the Even if the identification code is changed, as long as the device itself has the correct identification code, the identification code in the portable terminal device will be correctly restored.

That is, the communication line can be automatically repaired.

Embodiment Hereinafter, a line control method according to an embodiment of the present invention will be explained with reference to the drawings.

FIG. 1 shows three devices 2. 3. 4 shows the configuration of a system that operates the 4. The portable terminal device l and the three devices 2.3.4 are connected by one data bus 5. The portable terminal device 1 is comprised of a display device 12, a keyboard 13, a line control device 14, and a communication control device 15, as shown in FIG. The line control device 14 further includes a received data identification device 16, an identification code setting device 17, and an identification code adding device 18.

A procedure for switching communication lines in the portable terminal device configured as described above will be explained.

Assume that the portable terminal device 1 is currently setting up a communication line with the A device 2. At this time, the identification code assigned to the device 2 is set and held as the identification code added to the data to be transmitted by the identification code setting device 17. Here, the device that imitates the keyboard is switched to device 3. In other words, communication lines.

When data instructing to switch between the device 3 and the device 3 is input, an identification code indicating the device 2 is added to this data by the identification code adding device 18, and the communication system? It is transmitted to the device 2 via the IO device 15. When device 2 receives this data, it stops operating, refers to the identification code storage table, and
Data that instructs the identification code setting device 17 of the portable terminal device 1 to change the setting to the identification code of the device 3 is created and transmitted to the portable terminal device 1. This data is received by the portable terminal device 1, outputted to the received data discrimination device 16 via the communication control device 15, determined to be not display data, and further outputted to the identification code setting device 17. Thereby, the identification code of the device 3 is set in the portable terminal device 1. Immediately after this, the identification code setting device 17 creates data that instructs the device to start,
It is sent to the communication control device 15. As described above, a communication line with the device 3 is set up.

Even when the input data is display data, the received data discrimination device 16 extracts the added identification code and outputs it to the identification code setting device 17. The identification code setting device 17 compares this identification code with the current value, and if they are different, changes the current value to the newly input identification code. However, in this case, data that instructs startup is not created. As a result, if data is accidentally sent to a stopped device, the stopped device will receive i+! If it is decided to send the identification code of the device to which the communication line has been switched, the communication line with the currently active device can be restored by tracing the history of this communication line switching.

The line control device 14 and the communication control device 15 are realized individually as digital circuits or as software on a one-chip microcomputer.

To enable the portable terminal device 1 to operate a new device, add the new device's identification code to the NRN identification code storage table for any of the devices 2.3.4, and In the identification code storage table of , the identification codes of the previously changed device and itself are set. This allows the portable terminal device to hierarchically set up a communication line with a new device via a single device.

Effects of the Invention As described above, the present invention provides a control method for setting up a bidirectional communication line between a general-purpose portable terminal device for remotely controlling a plurality of different groups of devices and individual devices. A common communication path is set up between the terminal device and each device, and on this communication path, the communication line between the mobile terminal device and each device is given to the device that wants to set up the line for data to be sent and received. At this time, first, the nH that is currently set up the communication line.
The mobile terminal device transmits data instructing line switching to N, and the device that receives this refers to an internally held table regarding identification codes, and then checks the identification code assigned to the device that is setting up the communication line. The code is transmitted to the mobile terminal device, where the code is transmitted to the mobile terminal device for the first time.
Thereafter, the line can be switched by changing the identification code added to the transmitted data to the new identification code that was sent.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a system in which three devices are operated by a portable terminal device by applying the line control method of the present invention, and FIG. 2 is a block diagram of the portable terminal device. 1...portable terminal device, 2. 3. 4...
...Equipment, 5...Data bus, 12...
...Display device, 13...Keyboard, 14...
... Line control device, 15 ... Communication control device, 16 ... Received data discrimination device, 17 ...
...Identification code setting device, 18...Identification code adding device.

Claims (1)

[Claims] In order to bidirectionally communicate data between a general-purpose portable terminal device that remotely controls a plurality of different device groups and each device in the device group, a common device is provided between the portable terminal device and each device. By setting up a communication channel and adding a device identification code assigned in advance to the device for which the communication line is to be set up to the bidirectionally communicated data, the portable terminal device and the individual devices can be connected to each other on the communication path. A line control method for setting up a communication line between devices, the portable device transmitting data instructing switching of the communication line to a first device to which the communication circuit is set among the devices. The first device transmits the data from the terminal device and receives the code, refers to its internal device identification code table, and identifies the second device to which a communication circuit should be set next to the first device in the device group. By transmitting the second device identification code assigned in advance to the device to the portable terminal device, the device identification code added to the data transmitted by the portable terminal device is the same as the first device identification code.
A line control method characterized in that a first device identification code corresponding to the device is switched to a second device identification code corresponding to the second device, and as a result, the communication line is switched.