JPH07118714B2 - Terminal status management method - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a terminal state management system in a cluster communication control system, and more particularly to line utilization efficiency for notifying all terminals of the state of each terminal in a cluster. The present invention relates to a terminal state management system in which a transmission system of terminal state management information suitable for improving the terminal state is improved.

[Prior Art] Japanese Patent Laid-Open No. 60-1607 discloses a conventional cluster communication control system.
As described in No. 50, the terminal control device controls the communication of each terminal by the polling control method. In this communication control system, the terminal control device and each terminal have their own unique address information, and only the device whose address content included in the transmission data matches can receive the data. The terminal control unit sends a communication message (frame), which is called polling, to each terminal, and only the terminal that receives this, that is, the terminal whose address content in the polling frame matches, is sent to the terminal control unit or another terminal. Allowed to send data frames for transmission. This is called acquisition of transmission right.

In such a conventional cluster communication control system using the polling control method, the terminal control device manages the terminal by the terminal status management table storing the status of each terminal. The polling frame is sequentially transmitted according to the contents of the terminal management table. On the other hand, each terminal uses the following procedure when performing data transmission with the terminal control device or another terminal. (1) The transmission right is acquired by polling, and (2) the transmission data is embedded in the frame having the destination address and transmitted. (3) Receive a response from the other party, and (4) release the transmission right to the terminal control device. However, if there is no transmission data, (2) above,
Immediately release the transmission right by omitting (3).

In such a communication method, each terminal has a means for knowing the status of terminals in the same cluster, so that it is possible to eliminate unnecessary transmission when the other terminal cannot receive (power off, busy, etc.). Become.

As a method for each terminal to know the terminal status in the same cluster,
The following are listed. That is, all terminals have a common address (called a global address) so that they can receive the data frame in common, and the terminal control device sends the terminal management table to all terminals every time the content of the terminal management table changes. Send information. As a result, each terminal can always know the latest terminal management status of the same cluster, and it is not necessary to repeat wasteful transmission or to query the terminal control device for the status of the transmission partner terminal each time transmission is performed Efficiency is improved.

As a method for collectively transmitting data to a large number of terminals, there is JP-A-57-101933.

In addition, a network without a terminal control device, for example,
Even in a CSMA / CD system LAN, as described in JP-A-60-169252, each terminal broadcasts the status of its own communication device to other communication devices at regular intervals, so that There is known a method for managing the states of all terminals.

[Problems to be Solved by the Invention] The above cluster communication control system has the following problems. That is, when the number of terminals connected in the same cluster increases, for example, 100 terminals, the status of terminals in the same cluster changes frequently when the power of each terminal is turned on / off or when the busy status changes. Become. For example, assuming that the state of each terminal changes at a rate of once per minute, the number of connected terminals changes at a rate of once every 30 seconds in a system of two, for example, but the number of connected terminals is 100. The system changes once every 0.6 seconds.

Therefore, as the number of connected terminals increases, the frequency with which the terminal management table of the terminal management apparatus changes increases, and the frequency with which the line is used for transmitting the management table information also increases. Moreover, since the status management table information of all terminals is always transmitted, the time itself required for one transmission of the management table information becomes longer as the number of connected terminals increases. Therefore, in the system as described above, when the number of terminals increases,
There was a problem that the usage efficiency of the line was significantly reduced.

In addition, even in the method in which each terminal broadcasts the status of its own device to other terminals simultaneously, as the number of connected terminals increases, the time required to transmit status information to all terminals becomes longer and the usage efficiency of the line decreases. There was a problem of doing.

Therefore, an object of the present invention is to provide a terminal management method in which the use efficiency of the line does not significantly decrease even if the number of connected terminals is increased.

[Means for Solving the Problems] In order to achieve the above object, the present invention provides a terminal control device that monitors a communication state of a plurality of terminal devices by a polling method and manages the communication state detected by the monitoring. A terminal control method for controlling the plurality of terminal devices according to the contents of the table stored in a table, wherein a common address different from the unique address of each of the terminal control device and the plurality of terminal devices is set. In the case where the terminal management table is provided to each of the plurality of terminal devices and each of the plurality of terminal devices is also provided with the terminal management table, the contents are updated when the contents of the terminal management table of the terminal control device are updated. Only the table information about the terminal device is transmitted to all the terminal devices with the common address, and when the initialized terminal device is provided, The table information relating to all the terminal devices is transmitted to the initialized terminal device with a unique address of the initialized terminal device.

[Operation] The terminal control device can always grasp the communication state of each terminal by the polling method and detect how the content changes. As a result, the terminal control device
It is possible to select only the changed portion of the terminal management table and broadcast it to all terminals. Also, when a terminal that has initialized itself appears, such as a terminal that has been switched from power off to on, after the initialization processing, request the terminal control device to send the terminal management tables for all terminals. According to this, the terminal control device can surely transmit the terminal management tables for all terminals to the terminal.

According to the present invention, all the information in the terminal management table is not transmitted every time the state changes, so that it becomes possible to shorten the line occupation time and improve the line use efficiency.

EXAMPLES Examples of the present invention will be described below in detail with reference to the drawings.
FIG. 2 is a block diagram of a cluster communication control system according to an embodiment of the present invention.

The terminal control device 10 is located between the host computer 1 and the plurality of terminal devices 21 to 26, and is connected to the host computer 1 and the terminals.
It controls communication with terminals 21 to 26 (vertical distributed communication) and also controls communication between terminals 21 to 26 (horizontal distributed communication). Therefore, the terminal control device 10 has the communication control unit 2,
Each of the terminals 21 to 26 has a storage unit 3 and a data distribution circuit 5.
The transmission right is transferred to and the state is managed. The terminal management table 4 for managing the state of the terminal is located in a part of the storage unit 3.

The data distribution circuit 5 in the terminal control device 10 has a function of distributing the data signal from the host computer 1 to the lines connected to the terminals 21 to 26, and the terminals communicate with each other. It has the function of redistributing the data signal sent on the line connected to the other line to other lines.

The terminals 21 to 26 individually have a communication control unit 30 and a storage unit 31 as shown only for the terminal 26. The storage unit 31, like the storage unit 3 of the terminal control device 10, stores a terminal management table.

Next, a time chart showing a basic procedure for communication between the terminals 21 to 26 or with the terminal control device 10 is shown in FIG.

FIG. 3A shows terminal A (hereinafter WS-A) to terminal B.
This is an example of data transmission to (hereinafter, WS-B). When a polling frame (POL) 103 is sent from the terminal control unit (hereinafter, NC) to WS-A, WS-A has transmission data and returns to the NC with a response frame (RSP) 104 that it is waiting. To do. Upon receipt of the RSP frame 104, the NC transmits a frame (SND (ACK)) 105 to the effect that the transmission right is permitted, to the WS-A. WS-A transmits a data frame (SND (DATA)) 106 to which the address of WS-B of the other party to be transmitted is given to WS-B without going through NC. WS-B returns a response frame (RSP) 107 to the effect that it has been received, to WS-A, and WS-A sends a response frame (RSP) 108 to the effect that the transmission right is to be released to the NC, and a series of data is returned. Complete.

Next, when WS-A is powered on and is in the initial state,
FIG. 3B shows an example of transmitting the data of the terminal state management information when -B is in the power off state. The NC sends the POL frame 110 to WS-A as the polling order. WS-
A responds to the NC with the RSP frame 111 that the initial state has been entered. NC is WS-in the contents of the internal terminal management table
SND (SNT) frame to update the information about A and send the updated information to all terminals as data
Broadcast 112. This frame 112 is WS-A, WS-B
Are received at the same time, and the terminal management table in each terminal is updated. As a result, each terminal can recognize that WS-A is now in the initial state and can be transmitted to WS-A.

Also, for the next POL frame 113 to WS-A, WS-A
Returns an NRQ frame 114 to request the NC to send a terminal management table. The NC sends the entire terminal management table inside it to the WS-A (that is, with a unique address attached to the WS-A) by the SND (NMT) frame 115, and the WS-A notifies that it has received the RSP. Respond with frame 116.

On the other hand, NC sends WS-B to POL frame 117 as polling order.
, The WS-B is turned off and no response is returned, and the NC sends no response (NORES
P) 118 can be recognized. NC is WS-of the terminal management table
In addition to updating the contents related to B, only the updated table contents related to WS-B are sent as SN to all terminals.
D (SNT) frame 119 is sent all at once. By receiving this frame 119, WS-A can rewrite the information about WS-B in the terminal management table information written in the storage unit 31 and know that it cannot be transmitted to WS-B.

FIG. 1 (a) shows the general format of the data transmission frame described in FIG. This frame 200 has a start flag (F) 201, a destination address (A) 202, and a command (C).
203, data (I) 204, frame check sequence code (FCS) 205 and end flag (F) 206.
The format of the frame 200 is the same as the international standard HDLC (High Level Data Link Control Format).

FIG. 1 (b) shows a frame format for transmitting all information of the terminal management table regarding all terminals to a certain terminal after the initialization processing when the certain terminal is turned on,
FIG. 1 (C) shows a frame format for transmitting only a part of the information (update information) of the terminal management table regarding the terminal to all terminals when the terminal state changes.

When the terminal is turned on, the terminal management table information in the cluster is not held in the terminal, so it is necessary to transmit the entire table information to the terminal. On the other hand, when the terminal is turned off, it is only necessary to notify the other terminals of that fact, so that only the information for that terminal is broadcast to all terminals. Therefore, as shown in FIGS. 1 (b) and 1 (c), the frame format has different contents and the length of the data part. That is, the start and end frames 301, 401, 307, and 407 are the same as those in FIG. The destination address 302 is the address A of the terminal requesting transmission of the terminal management table, and 402 is the global address GA. Further, the command units 303 and 403 become the transmission command SND. Note that, unlike FIGS. 1A and 1B, in FIGS. 1B and 1C, the subcommand units 304 and 404 are provided, and whether they are all terminal management table transmission NMT or specific terminal management table transmission SNT, respectively. Are distinguished. The data sections 305 and 405 are all terminal management table information and specific terminal management table information of a part thereof, respectively.

FIG. 4 shows an example of the format of the terminal management table 500.
In the figure, for example, when the total number of terminals is 64, the address of each terminal is a value obtained by adding a fixed value to the terminal numbers # 1 to # 64. That is, if the fixed value is "3F", the address of the # 1 terminal is "40", and the # 2 terminal is "41". In this table 500, the management table length per terminal is represented by 2 words (= 4 bytes).

2 ³ bits 501 from 2 ^15-bit high word is a system reservation, the lower two byte 506 represents the mnemonic of the terminal name. 2 ² bit (NOT BUSY POL) 502 is a terminal busy status monitoring bit, and is set to '1' in the busy status. By prolonging the polling cycle to the busy terminal, it is possible to prevent unnecessary transmission of polling frames and improve the line usage efficiency. NOT BUSY POL Bit 50
When 2 is '1', the polling cycle becomes longer. The terminal controller 10 checks this NOT BUSY POL bit 502 to determine the polling operation. 2 ^1- bit (READY POL) 503 is a power-on / off monitoring bit of the terminal. When the power is off, the READY POL bit 503 becomes '1' and the polling cycle becomes longer. 2 ⁰ bit (AT POL) 504 is a transmission right request monitoring bit from the terminal. The terminal is not busy (NOT BU
When the power is turned on (the READY POL bit is 0) from the state where the SY POL bit is 0), this AT POL bit 504 becomes "1". READY POL bit 503 and NOT BUSY POL bit 502
When any of the above becomes "1", the AT POL bit 504 becomes "0", and in this case, the polling cycle becomes longer.

It should be noted that in the above description, the terminal management table 500 has only contents relating to all terminals connected to the terminal control device 10, but the terminal control device 10 is also regarded as a kind of terminal, and its state is written in the table. It goes without saying that it can be used in a complicated manner. As a result, it becomes possible for the terminal side to act on behalf of the state management of the terminal control device 10.

As in the present embodiment, not only the terminal control device, but also other terminals can immediately know the states of the terminals and the terminal control device that form the cluster system, and the useless transmission frame transmission Not only to prevent
It becomes possible to shorten the line monopolization time required for network management to achieve the purpose.

[Effects of the Invention] According to the present invention, it is possible to reduce the line-occupancy time and improve the efficiency of network management, which are indispensable when realizing inter-terminal communication, so the line use efficiency is improved and the number of connectable terminals is increased. And the reduction of transmission cost can be realized.

[Brief description of drawings]

FIG. 1 is a diagram showing an example of a transmission frame format used in the terminal management system of the present invention, FIG. 2 is a block diagram of a cluster communication control system to which the present invention is applied, and FIG. 3 is a terminal management system of the present invention. FIG. 4 is a time chart showing the data transmission procedure, and FIG. 4 is a diagram showing the configuration of the terminal management table. 10 ... Terminal control device, 21-26 ... Terminal device, 4,500 ... Terminal management table, 305 ... All terminal management table information, 405 ... Specific terminal management table information.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Tetsuo Oura, 292 Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Inside the Microelectronics Equipment Development Laboratory, Hitachi, Ltd. (72) Inventor Yuji Saeki Horiyamashita, Hadano-shi, Kanagawa No. 1 Hitate Seisakusho Co., Ltd. Kanagawa factory (56) Reference JP-A-59-53924 (JP, A) JP-A-61-251343 (JP, A)

Claims (2)

[Claims] 1. A terminal control device monitors a communication state of a plurality of terminal devices by a polling method, stores the communication state detected by the monitoring in a terminal management table, and stores the plurality of terminal devices according to the contents of the table. A terminal control method for controlling a plurality of terminal devices, each of the plurality of terminal devices being provided with a common address different from a unique address of each of the terminal control device and the plurality of terminal devices. Also, in the one provided with the terminal management table, when the content of the terminal management table of the terminal control device is updated, only the table information on the updated terminal device is added with the common address. When the terminal device which is transmitted to the terminal device and which is initialized is provided, the terminal device which is initialized is related to all the terminal devices. A terminal state management method, wherein the table information is transmitted with a unique address of the initially set terminal device. 2. The terminal management table stores not only the communication states of all the terminal devices but also the communication states of other terminal control devices. Terminal state management method.