JPS6191749A - Terminal control system - Google Patents

Abstract

PURPOSE:To decrease the frequency of transmission processing and to remove the redundancy of control data by monitoring the function and sequence relation of terminal control data, and storing data in a buffer memory successively the final moment when it is judged logically that the data should be transmitted logically. CONSTITUTION:A terminal control data monitoring module 8 while monitoring the function and order relation of terminal control data removes redundant parts in the data as much as possible and stores them in the buffer area (data buffer) 7 successively until it is judged logically that the control data should be transmitted or until respective terminal control data generating modules 61, 62, 63 and 64 request transmission evidently. The terminal control data having redundancy removed are taken out of the buffer area 7 for the 1st time when a transmission chance comes and transmitted to a terminal 91 at a time.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a terminal control method for a terminal control program in an online computer system.

[Conventional technology]

FIG. 4 is an explanatory diagram showing a conventional example of this type of terminal control system. The terminal control program is 3132, ---, 3
n and each terminal 9□, 9□, ---, 9n, and a set of terminal control data generation module group 4 (terminal control data generation module 4□+'2 +'3 +'4 +--1) ), and in response to the input/output request of the user program 1, the one that matches the connected terminal type is called via the terminal input/output control program 2, and each time the terminal control data is generated, each Send to terminal.

By the way, conventionally, the terminal control data generation module 'I
+'2 +43 +44 +--1, emphasis was placed on generating terminal control data according to each function, and elimination of redundancy in terminal control data was considered secondary. Generally, the terminal control data generation module group 4
The terminal control data generated by the terminal control data has redundancy when viewed over a certain period of time, but in a method that does not centrally manage terminal control data, the more complex the terminal control, the more difficult it is to configure the interface between the terminal control data generation modules. No matter how much effort is made, it becomes rapidly difficult to reduce redundancy, and furthermore, since the transmission processing is distributed among many modules, the terminal control data generation trigger and the transmission trigger generally coincide, resulting in an increase in the number of transmissions.

This poor data transmission rate will be specifically explained. Figure 3 (1) shows user program 1 to terminal control program 3.
This is the content of text T which is an output request to 1, and in response to this output request, terminal control data module 'l +42 +43 +44 of terminal control data generation module group 4
Figure 4 (2) in order.

Terminal control data D shown in C3), (4), and (5),
D2. It is assumed that D3D4 (shaded areas) are generated. Terminal control data D2,0. The contents of text rABC...'', rXY...'' are added to the text and transmitted. Then, as a part of the terminal control data D2, terminal control data D3 is added to the terminal control data Dl.
However, all of the terminal control data D4 has redundant parts (in the figure,
11F7th part) exists.

Each terminal control data generation module 41.42 +434
4, when the terminal control data Dl +02, D3 +04 is generated, it is normally transmitted to the terminal 81 immediately, so all transmission processing is performed for each of the terminal control data D1, 02, D3, D4, and these terminal control data D
Since the mutual relationship between I +02 and o3+04 is not monitored, the redundant portion included in the terminal control data [)2 +04 cannot be detected, and all the terminal control data D, , D2 . D3D
4 will be sent.

[Problem that the invention seeks to solve]

As described above, conventional terminal control programs have the drawback of poor data transmission efficiency because they do not have a mechanism for collectively managing terminal control data.

Therefore, an object of the present invention is to provide a terminal control method that improves the efficiency of data transmission to the terminal.

[Means for solving problems]

The present invention includes a terminal control data monitoring module and a buffer area, and the terminal control data monitoring module monitors the function and order relationship of the terminal control data, and logically transmits the terminal control data until the final opportunity to send it. The data is sequentially stored in a buffer area without being transmitted to the terminal, thereby reducing the number of times of transmission processing, and eliminating redundancy in the terminal control data during storage.

〔Example〕

Embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a diagram showing an embodiment of the terminal control method according to the present invention. The difference from the conventional example shown in FIG. 6 (terminal control data generation module s, , 8
2 +63.84 +---), there is also a buffer area 7 that stores the terminal control data generated by the terminal control data generation module group 6, and a buffer area 7 that collectively manages these terminal control data and functions of the terminal control data. The terminal control data monitoring module 8 monitors the order relationship and sequentially multiplies M data into the buffer area 7 without transmitting the terminal control data until the final opportunity to logically transmit the data is reached.

Next, the operation of the terminal input/output control system of this embodiment will be explained.

When receiving an input/output request from the user program 1, the terminal input/output control program 2 passes control to the terminal control program 51 according to the type of the connected terminal 91. At n6, terminal control data generation module 6□,
6□+63 +64 - Generates terminal control data according to the function assumed by m-, and requests the terminal control data monitoring module 8 to output the terminal control data.The terminal control data monitoring module 8 logically has to transmit the control data. or each terminal control data generation module s, , e2. Until transmission is explicitly requested from e3.64, the functions and context of the terminal control data are monitored, and redundant parts of the data are eliminated as much as possible while being sequentially stored in the buffer area 7. The terminal control data from which redundancy has been removed in this manner is taken out from the buffer area 7 only when a transmission opportunity occurs, and is transmitted all at once to the terminal 9.

Next, an example of the terminal control data processing operation by the terminal control data monitoring module 8 will be described with reference to FIG.

As in the case of FIG. 4, the user program 1 issues a request to output the text T shown in FIG. 2 (1) to the terminal input/output control program 2, and in response, Terminal control data generation module 6□+
62 +63 Figure 2 (2), (3), in order from Is4
Terminal control data Dl lD2 + shown in (4) and (5)
D3.04 shall be generated respectively. Therefore, redundant parts (shaded parts in the figure) exist in a part of the terminal control data D2 with respect to the terminal control data Dl, and in all of the terminal control data D4 with respect to the terminal control data D3. In addition, terminal control data D3. It is assumed that data D is logically required to be transmitted after terminal control data DID2.

(1) Upon receiving the terminal control data D, the terminal control data monitoring module 8 stores the terminal control data D as shown in FIG. 3(2) in the empty buffer area 7 shown in FIG. 3(1). .

(2) When receiving the terminal control data D2, the terminal control data monitoring module 8 receives the terminal control data D
2 is compared with the terminal control data D, redundant parts are deleted and stored in the buffer area 7 as shown in FIG. 3 (3).
A part of the text "ABC..." is stored in the buffer area 7.

(3) When receiving the terminal control data D3, the terminal control data monitoring module 8 has
Recognizing that it is necessary to transmit the contents stored in the terminal 31, the data (Fig. 3 (3)) is extracted from the buffer area 7, the buffer area 7 is emptied as shown in Fig. 4 (4), and the terminal 31 Send to.

・When the transmission is completed, the terminal control data monitoring module 8
stores the received terminal control data D3 as shown in FIG. 3 (5).

(4) When receiving the terminal control data D4, the terminal control data monitoring module 8 receives the terminal control data D
4 is compared with the terminal control data D3, redundant parts are deleted and stored in the buffer area 7 as shown in FIG. 3 (6), and then part of the text T "xY..." is stored. After that, these data are transmitted in the same manner as in (3).

As a result of the above, the total amount of data transmitted to the terminal 81 is reduced, and the number of times of data transmission processing is also reduced, so that data transmission efficiency is improved. Note that the redundancy elimination rate changes depending on the level of redundancy detection logic of the terminal control data monitoring module 16. In general, a relatively simple detection logic can be expected to have a sufficient effect, but if necessary, the detection logic may be made stricter to the extent that the overhead of detection processing is not excessive to improve the redundancy elimination rate.

〔Effect of the invention〕

The present invention monitors the function and order of terminal control data using a terminal control data monitoring module, and calculates the number of transmission processing times by sequentially storing data in a buffer area without transmitting it until the final opportunity that logically requires transmission occurs. At the same time, the redundancy of the control data is eliminated at the time of cover loading, so that the efficiency of data transmission to the terminal can be improved in terms of both the total amount of data and the overhead of the transmission operation.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an example of a terminal control method according to the present invention, FIG. 2 is a diagram showing an example of text and terminal control data,
FIG. 3 is a diagram showing a state in which text and terminal control data are sequentially stored in the buffer area 7 of FIG. 1, and FIG. 4 is a diagram showing a conventional example of the terminal control system. 1... User program 2... Terminal input/output control program 5□, 52 +----*""... Terminal control program 6... Terminal control data generation module group 61 +"2
+'3 +64 +... Terminal control data generation module 7... Buffer area 8... Terminal control data monitoring module Figure 1 (2) Z at D7 (4) 2 at D3 and Z Figure 2 Figure 3 Figure 4

Claims (1)

[Claims] A terminal input/output control program that takes charge of terminal input/output processing independent of the physical attributes of the terminal, and a terminal input/output control program that completely absorbs the physical attributes of the terminal and is combined with the terminal input/output control program through a common interface regardless of the terminal type. , a built-in terminal control data generation module group that generates terminal control data specific to the connected terminals according to the assigned functions, and transmits these terminal control data to the terminal as is or by adding it to text. In a terminal control method that is configured by a group of terminal control programs that control a terminal and performs input/output with a terminal connected online to a host computer system, the buffer area for accumulating the terminal control data and the terminal control data generation module are provided. The terminal control data generated in the group is managed collectively, the functions and order relationships of the terminal control data are monitored, and the terminal control data is sequentially sent to the buffer area without transmitting it until the final opportunity to logically transmit it. A terminal control method characterized by comprising a terminal control data monitoring module that accumulates terminal control data.