JPH07321831A - Data transfer system - Google Patents

Abstract

PURPOSE:To solve data collision in data re-transmission while improving the working efficiency of a transmission line by setting a re-transmission timer value in the collision of transmission data by making correspond to the quantity of data to be transferred on the transmission line of a LAN in a data transfer system in which one transmission line is used by plural transmission/reception stations. CONSTITUTION:A monitoring station 1 performs the broadcast transmission of a warning message by the degree of working ratio obtained by calculating from the quantity of total transfer data on the transmission line 3 to the transmission line 3 at every prescribed time. The transmission/reception station 2, when receiving an advice message from the transmission line 3, sets the re-transmission timer value according to the warning message, and re-sends the transmission data at a delay time limit by a set re-transmission timer value when collision occurs when the transmission data is sent out.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a local area network (hereinafter referred to as L
The present invention relates to a data transfer system in AN), and more particularly to a data transfer system in which a plurality of transceiver stations transfer data using one transmission path.

[0002]

2. Description of the Related Art Conventionally, in this type of data transfer system, as described in JP-A-59-204345, in data communication by the CSMA / CD system, a transceiver station sends transmission data to a transmission line. Based on empirical information such as the usage status and collision status of the transmission path obtained at the time of transmission, the re-transmission timing of the collision transmission data is set.

FIG. 5 is a functional block diagram showing a conventional example. As shown in FIG. 5, the transmission / reception station 4 connected to the transmission line 3 includes a reception control unit 4 that takes in transfer data from the transmission line 3.
1. A communication control unit 42 that instructs reception and storage of data to be taken in from the reception control unit 41 to the transmission / reception station 4 and an instruction to send data that is transmitted from the transmission / reception station 4, a received data and data to be sent, and the like. A memory 43 for storing, a transmission control unit 44 for controlling data transmission to the transmission line 3 in response to an instruction from the communication control unit 42, and a transmission control unit 44 for receiving a data transmission instruction from the communication control unit 42 and transmitting the transmission data.
The back-off control unit 45 for notifying the user is provided.

Next, with reference to FIGS. 5 and 6, the case where transmission data is generated and transmitted to the transmission line 3 will be specifically described. FIG. 6 is a flow chart for explaining the main operation procedure of the transceiver station 4 shown in FIG. When the transmission / reception station 4 generates transmission data (procedure 401), the communication control unit 42 notifies the reception control unit 41 and the transmission control unit 44 of this. With this notification, the transmission control unit 44 prepares to send the transmission data.
On the other hand, the reception control unit 41 knows that the transmission data has been generated, and
Is checked (procedure 402). In the case of being unusable (CS in use of the transmission path), the reception control unit 41 notifies the backoff control unit 45 of the transmission path unusable information. When the back-off control section 45 receives the unusable information, the back-off control section 45 updates the memory of the retransmission timer information for setting the transmission timing of the transmission data (step 403) and returns to the step 402.
Waits for the availability information of the transmission line 3.

When the transmission line 3 is usable in the procedure 402, the reception control unit 41 notifies the transmission control unit 44 of the availability information and causes the transmission data to be transmitted (procedure 404). When the transmitted transmission data collides with other transfer data on the transmission path 3 and cannot be transmitted, the reception control unit 41 detects this (procedure 405) and stops transmission of the transmission data to the transmission control unit 44. (Procedure 406) and the back-off control unit 45 is notified. When the back-off control unit 45 receives the collision information, it updates the memory of the retransmission timer information (procedure 407) and starts the operation of the retransmission timer (procedure 408). When the time limit of the retransmission timer has come and the operation has ended (procedure 409),
The back-off control unit 45 notifies the transmission control unit 44 of a retransmission instruction of the transmission data, and the procedure returns to the transmission data transmission start procedure 402 in waiting.

When there is no collision in procedure 405, the transmission control unit 44 completes the transmission of transmission data (procedure 410).

[0007]

In the above-mentioned conventional data transfer method, the backoff control unit provided in each transmitting / receiving station increases the retransmission timer value required due to the increase in the number of collisions in the transmission path. Since it is controlled by experience information such as in-use information of the transmission path obtained at the time of transmission, collision information on the transmission path, etc., each of a large number of transmitting and receiving stations must have control means for the retransmission timer, which is complicated. There is a problem. In addition, even if the traffic on the network increases rapidly and there is a high probability of collision when sending transmission data, some retransmission data is in use on the transmission path or until a re-transmission timer is acquired until experience is gained. Since the increase in the value cannot be realized, the response to the rapid increase in traffic is delayed,
In the worst case, there is a problem that transmission becomes temporarily impossible.

An object of the present invention is to simplify the functions of a large number of transmitting / receiving stations, and to optimize the control timing of the retransmission timer value.

[0009]

A data transfer method according to the present invention is a data transfer method in a local area network having a collision detection function, in which all transfer data on a transmission line are received and the amount of data received at a predetermined time. A advisory message having network usage rate information calculated from, a monitoring station that sends out to the transmission path, and a retransmission timer value that determines the retransmission time of the collision transmission data when the advisory message is received from the transmission path. , A transmitter / receiver station set according to the usage rate information included in the advice message.

The monitoring station sends the advice message by broadcasting a predetermined number of times over a predetermined time, and the advice message represents a plurality of ranks in which the usage rate of the transmission path is divided into stages. Further, the monitoring station creates a warning cancellation message for a low usage rate up to a predetermined value and sends it to the transmission path, and the transceiver station receiving the advice cancellation message sets the retransmission timer value to an initial predetermined value. Update setting.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention will be described with reference to the drawings.

FIG. 1 is a functional block diagram showing an embodiment of the present invention. The data transfer method shown in FIG. 1 is provided with one monitoring station 1. This monitoring station 1 is provided in one local area network (LAN), and is connected to one transmission path 3 together with a plurality of transceiver stations 2, which is different from the data transfer system shown in FIG. is doing.

The monitoring station 1 includes a data receiving / accumulating section 11 and a LAN.
Usage rate calculation unit 12, corresponding message selection unit 13, transmission message confirmation unit 14, advice message transmission control unit 15,
And a broadcast transmitter 16. The data reception / accumulation unit 11 receives and stores all transfer data in the LAN within the time designated by the LAN usage rate calculation unit 12 from the transmission path 3, and sends out the accumulated and collected data amount. LA
The N usage rate calculation unit 12 notifies the data reception / accumulation unit 11 of the start time of data reception and then the end time, and receives the amount of data collected within this time.

Next, the LAN usage rate calculation unit 12 calculates the occupancy of the transmission path 3 from the received data amount to obtain the LAN usage rate, and sends this usage rate to the corresponding message selection unit 13. The corresponding message selection unit 13 determines the rank type corresponding to the usage rate (for example, rank 0 to rank 7).
It stores multiple types of advisory messages according to
The advisory message corresponding to the usage rate received from the N usage rate calculation unit 12 is taken out as a corresponding message and sent to the transmission message determination unit 14.

The transmission message determining unit 14 stores and stores the last one sent advisory message as a transmission message, and compares the stored transmission message with the corresponding message received from the corresponding message selecting unit 13. If there is a difference in comparison, the transmission message confirming unit 14 updates the stored transmission message with the corresponding message, confirms the updated advice message as the transmission message, and sends it.

The advice message transmission control unit 15 sends the received transmission message to the broadcast transmission unit 16 together with a transmission instruction. The broadcast transmission unit 16 transmits the instructed transmission message by broadcast transmission a predetermined number of times over a predetermined time so that all the transmission / reception stations 2 can surely receive it.

As shown in FIG. 1, the transmitting / receiving station 2 includes an advisory message receiving section 21, a rank identifying section 22, a retransmission timer value storage section 23, a retransmission timer driving section 24, a data transmitting section 25, and a transmission data collision. The detector 26 is provided.
The advice message receiving unit 21 selects and extracts the advice message from the data and the message received from the transmission path 3, and sends it to the rank identifying unit 22. Rank identification unit 22
Identifies the rank type from the received advisory message and notifies the retransmission timer value storage unit 23 of the identified rank type.

The retransmission timer value storage unit 23 stores in advance in the storage area the rank type of the monitoring station 1, for example, the timer type corresponding to ranks 0 to 7 as a retransmission timer value. The retransmission timer value storage unit 23 takes out the retransmission timer value from the storage area according to the rank type received from the rank identification unit 22, and notifies the retransmission timer driving unit 24 of it.

The retransmission timer drive unit 24 stores the received retransmission timer value, and when receiving the transmission data collision notification from the transmission data collision detection unit 26, counts the time limit until the start of retransmission with the stored retransmission timer value. . The retransmission timer drive unit 24 starts the retransmission operation of the transmission data when the time limit of the retransmission timer expires. It should be noted that, when the retransmission timer driving unit 24 receives the retransmission timer value while the retransmission timer is in operation, the retransmission timer driving unit 24 calculates the remaining value of the retransmission timer and determines whether or not the timer time period has ended.

The data transmission unit 25 also receives one of the transmission requests for transmitting the transmission data from the retransmission timer drive unit 24.
When the transmission data collision detection unit 26 receives the data or message in which a collision occurs from the transmission line 3, the transmission data collision detection unit 26 notifies the retransmission timer drive unit 24 of this as collision information.

Next, with reference to FIGS. 1 and 2, the flow of operation up to the transmission of the advisory message in the monitor station 1 constituting the data transfer system of the present invention will be described. In the monitoring station 1, the data reception / accumulation unit 11 receives and accumulates all transfer data from the transmission path 3 (procedure 101).

Further, the data receiving / accumulating unit 11 notifies the amount of accumulated data at every predetermined time according to an instruction from the LAN usage rate calculating unit 12, then deletes the accumulated data, and then starts receiving the transfer data again. . The LAN usage rate calculation unit 12 instructs the data reception and storage unit 11 to collect the data amount every predetermined time (procedure 102), and calculates the LAN usage rate from the transfer data allowable amount of the transmission line 3 (procedure 10).
3) Then, the calculated value is sent to the corresponding message selection unit 13.

The corresponding message selecting unit 13 selects (step 104) and extracts the corresponding advisory message of the rank corresponding to the received usage rate value from the storage area that is stored and stored for each rank in advance, and the transmission message confirming unit. Send to 14.

The transmission message confirming unit 14 temporarily stores the received corresponding message and compares it with the contents of the storage area for storing and storing the advice message previously transmitted to the transmission path 3 as a transmission message (step 105). If the comparison result is not different, the transmission message confirming unit 14 (step 10)
6), discard the temporarily stored corresponding message (procedure 10
7) Do.

If there is a difference in the procedure 106, the transmission message confirming unit 14 updates the transmission message stored in the storage area with the temporarily stored corresponding message (procedure 1).
08), and sends the updated transmission message to the advice message transmission control unit 15. The advice message transmission control unit 15 repeatedly transmits the received transmission message to the broadcast transmission unit 16 for a predetermined time or a predetermined number of times. The broadcast transmission unit 16 converts the advice message, which has become the transmission message, into the advice message transmission control unit 1
In accordance with the instruction of 5, broadcast transmission is performed to the transmission path 3 (procedure 109).

Next, with reference to FIG. 1 and FIG. 3 together, an operation procedure for receiving the advisory message in the transceiver station 2 will be described. In the transceiver station 2, the advice message receiving unit 21 receives the advice message by broadcast transmission from the transmission path 3 (procedure 201) and sends it to the rank identifying unit 22. The rank identifying unit 22 identifies the rank type of the message from the received advice message (procedure 202) and sends it to the retransmission timer value storage unit 23. Retransmission timer value storage unit 23
Extracts the retransmission timer value corresponding to the received rank type from the storage area (step 203) and sends it to the retransmission timer drive unit 24.

When the retransmission timer driving unit 24 receives the retransmission timer value, it checks whether the retransmission timer is in operation (procedure 20).
4) Then, when it is not operating, the stored retransmission timer value is updated (step 205). During operation, the retransmission timer drive unit 24 calculates the remaining value of the retransmission timer (procedure 206) and updates the stored retransmission timer value (procedure 207) to obtain the new value and the residual value of the retransmission timer value. Comparison (procedure 208)
To do.

When the new value of the retransmission timer is larger than the remaining value,
The retransmission timer drive unit 24 continues the operation of the retransmission timer until the end due to the time limit of the new value (procedure 209). When the new value of the retransmission timer is not larger than the remaining value in step 208, the retransmission timer drive unit 24 ends the time limit of the retransmission timer (step 210).
Let

FIG. 4 is a flow chart for explaining the operation procedure when the transceiver station 2 in FIG. 1 generates transmission data. The data transmission unit 25 investigates whether transmission is possible to the transmission line 3 (procedure 302) when a transmission data transmission request is generated (procedure 301), and starts transmission in the transmission possible state (procedure 30).
3) Do.

Transmission data collides on the transmission path 3 (procedure 30
4) If not, the transmission of the transmission data ends normally (step 305).

When a collision occurs in step 304, the transmission data collision detector 26 detects this collision and the retransmission timer driver 2
Notify 4. Upon receiving the notification of the collision, the retransmission timer driving unit 24 extracts the stored retransmission timer value from the storage area (procedure 306), and starts the operation of the retransmission timer with the retransmission timer value as a time limit value (procedure 307).

The retransmission timer drive unit 24 constantly checks whether or not the retransmission timer value is updated while the retransmission timer is operating (step 308).
Then, when the retransmission timer value is extracted by newly receiving the advice message, the retransmission timer value is updated (procedure 309) according to the procedure 203 described with reference to FIG.

Further, the retransmission timer drive unit 24 investigates the presence or absence of the forced termination of the time period generated in the procedure 210 described with reference to FIG. 3 (procedure 310), and if the forced termination state does not occur, finally The retransmission timer ends at the time limit value set by the set transmission timer value (procedure 311), and the procedure of the flow is the procedure 301 of the retransmitted procedure of the transmission data which has been waiting starts.
Return to.

In the data transfer system according to the present invention, one monitoring station 1 calculates the transfer data amount in the LAN and obtains the usage rate of the LAN. Since it is not necessary to calculate the usage rate of, the transceiver station 2 can be simplified.

Further, the monitoring station 1 calculates the LAN usage rate every time a predetermined time elapses, so that the LAN usage rate can be obtained in a short time in response to a sudden change in transfer data in the LAN.
Therefore, the retransmission timer value applied in the collision of the transmission data can be changed in a short time according to the change in the traffic of the transmission data. Therefore, even if the LAN usage rate increases rapidly, it is possible to reduce the possibility of re-collision when transmitting the transmission data by increasing the retransmission timer value. Furthermore, L
By reducing the retransmission timer value even if the AN usage rate sharply decreases, the colliding transmission data can be retransmitted in a short time, so that the efficiency of LAN data transfer can be improved.

Further, since the monitoring station 1 broadcasts the advisory message to the transmission path 3 and simultaneously sends it to all the transmitting / receiving stations a plurality of times, the delay of reception can be minimized and the reliability can be increased. .

In the above embodiment, it has been explained that the monitoring station is one station with one LAN as shown in FIG. 1, but there may be a plurality of monitoring stations including the backup station, and therefore at least one monitoring station may be provided. Also, the amount of data that is the basis for calculating the usage rate is
Although the amount of data received and stored within a predetermined time has been described, it may be a time value until the fixed storage capacity is filled up from zero. There may be one type of advisory message and one type of rank, but multiple types are desirable. In the case of one type of advisory message, the advisory cancellation message is required.
If there are multiple advice messages, one of them can be used as the advice cancellation message.

[0038]

As described above, according to the present invention, one monitoring station calculates the amount of transfer data on the transmission line and
By obtaining the usage rate of 1, the calculation of the usage rate of the LAN is not required for each of the many transmission / reception stations provided in the LAN, so that the transmission / reception station can be simplified.

Further, since the monitoring station calculates the LAN usage rate each time a predetermined time elapses, the LAN usage rate is notified to the transmitting / receiving station in a short time in response to a sudden change in the amount of transfer data on the transmission path. It is possible to change the retransmission timer value applied in the collision of transmission data according to the traffic change of the transmission data. Therefore, by increasing the retransmission timer value for a sudden increase in transfer data and creating a blank state on the transmission path, the possibility of re-collision in sending out transmission data is reduced, and even if a sudden decrease occurs Since the blank value on the transmission path can be reduced by decreasing the timer value, the retransmission timer value setting can be optimized.

Further, since the monitoring station broadcasts the LAN usage rate to the transmitting / receiving station, it is possible to secure a shortened time until the setting of the retransmission timer of the transmitting / receiving station is changed.

[Brief description of drawings]

FIG. 1 is a functional block diagram showing an embodiment of the present invention.

FIG. 2 is a flow chart illustrating a procedure of sending an advisory message from the monitoring station shown in FIG.

FIG. 3 is a flowchart illustrating a procedure of receiving an advisory message from the transceiver station shown in FIG.

FIG. 4 is a flowchart illustrating a transmission data transmission procedure of the transceiver station shown in FIG.

FIG. 5 is a functional block diagram showing a conventional example.

FIG. 6 is a flowchart showing an example of a transmission data transmission procedure of the transceiver station shown in FIG.

[Explanation of symbols]

 1 Monitoring Station 2 Transmitting / Receiving Station 3 Transmission Line 11 Data Reception / Storage Section 12 LAN Utilization Calculation Section 13 Corresponding Message Selection Section 14 Transmission Message Confirmation Section 15 Advice Message Transmission Control Section 16 Broadcast Transmission Section 21 Advisory Message Reception Section 22 Rank Identification Section 23 Retransmission timer value storage unit 24 Retransmission timer drive unit 25 Data transmission unit 26 Transmission data collision detection unit

Claims (4)

[Claims] 1. A data transfer method in a local area network having a collision detection function, wherein an advisory message having network usage rate information calculated from the amount of data received at a predetermined time after receiving all transfer data on a transmission path is transmitted. A monitoring station that sends out on the transmission line and a transceiver station that sets a retransmission timer value that determines the retransmission time of the collision transmission data when the advice message is received from the transmission line according to the usage rate information that the advice message has. A data transfer method comprising: 2. The data transfer method according to claim 1, wherein the monitoring station sends the advisory message by broadcast transmission a predetermined number of times over a predetermined time. 3. The data transfer method according to claim 1, wherein the advice message represents a plurality of ranks in which the usage rate of the transmission path is divided into stages. 4. The monitoring station creates a warning cancellation message for a low usage rate up to a predetermined value and sends it to the transmission path, and the transceiver station receiving the advice cancellation message sets the retransmission timer value to an initial value. 2. The data transfer method according to claim 1, wherein the data transfer method is updated and set to a predetermined value.