JP2754987B2 - Data transmission method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission system,
In particular, the present invention relates to a data transmission system in which one master station communicates with a plurality of slave stations by polling.

[0002]

2. Description of the Related Art Conventionally, as this kind of data transmission system,
There is a polling selection method. In this method, 1
When one master station transmits data to a plurality of slave stations, data is transmitted by designating the address of each slave station at a predetermined timing. Further, when a plurality of slave stations transmit data to the master station, each slave station is not allowed to transmit the data on its own, and upon receiving polling (call) transmitted from the master station at a predetermined timing. Has been sent. In this case, when there is no data to be transmitted to the master station, empty data is transmitted.

[0003]

In the conventional data transmission method described above, even when there is no data to be transmitted to the master station,
The polled slave station must respond with empty data. For this reason, when there are many slave stations with a small amount of transmission data, the time for transmitting empty data increases, and thus there is a problem that the transmission efficiency of the transmission channel decreases.

An object of the present invention is to provide a data transmission system capable of reducing transmission of empty data and improving transmission efficiency of a transmission channel.

[0005]

A data transmission system according to the present invention is a data transmission system in which one master station communicates with N slave stations (N is an integer of 2 or more) by polling. has a number of transmission channels less than the number N of the slave station, when empty to the transmission channel has occurred, for the channel assignment to the slave station that the transmission channel is not allocated polls, then polls for data transmission to the slave station that the transmission channel is allocated, repeated polling for polling and the data transmission for the channel assignment. Also, the slave station to which the transmission channel is not assigned, when transmission data occurs, sends a response requesting channel assignment when receiving polling for the channel assignment, and the transmission channel is assigned. When there is no transmission data, the slave station transmits a response indicating the end of data transmission when receiving the polling for the data transmission.

[0006]

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

FIG. 1 shows an embodiment of the present invention.
The case where one master station communicates with five slave stations is shown.

Here, the number of transmission channels smaller than the number of slave stations is set in consideration of the frequency of communication and the allowable waiting time of the slave stations. In this embodiment, two transmission channels ch1 and c
h2 is set.

First, the master station performs a channel assignment process 11
Execute This is the transmission channel ch for the slave station.
This is a polling process for assigning 1 and ch2. It is assumed that, for example, the slave stations 1 and 5 have data to be transmitted. First, a channel assignment poll Pc1 is transmitted to the slave station 1. The slave station 1 having the transmission data receives the polling Pc1 and sends out a response Rc1 requesting channel assignment. The master station that has received the response Rc1 assigns the transmission channel ch1 to the slave station 1.

Next, a channel assignment poll Pc2 is sent to the slave station 2. The slave station 2 without transmission data is
Upon receiving the polling Pc2, it sends out a response Rc2 that does not require channel assignment. The master station having received the response Rc2 sends a channel assignment polling Pc3 to the slave station 3. The slave station 3 having no transmission data sends out a response Rc3 not requesting channel assignment. The master station that has received the response Rc3 sends a channel assignment polling Pc4 to the slave station 4. Similarly, the slave station 4 without transmission data also has
A response Rc4 not requesting channel assignment is transmitted. The master station having received the response Rc4 sends a channel assignment polling Pc5 to the slave station 5. The slave station 5 having the transmission data receives the polling Pc5 and sends out a response Rc5 requesting channel assignment. The master station receiving the response Rc5 assigns the transmission channel ch2 to the slave station 5.

The master station that has completed such channel assignment processing thereafter executes data transmission processing 21 and receives data via the transmission channel assigned to each slave station.

First, a data polling Pd1 is sent to the slave station 1. The slave station 1 sends out a data response Rd1 in response to the polling Pd1. Next, a data polling Pd5 is sent to the slave station 5 to send a data response Rd.
5 is received. In this case, no polling is performed for the slave stations 2, 3 and 4 to which no channel has been assigned. Also, since all the transmission channels are allocated, the slave stations 1, 5
Is repeatedly executed.

When there is no more data to be transmitted in the slave station 1, when the data polling Pd1 is received, a response Re1 indicating the end of data transmission is transmitted. The master station receives the response Re1 and transmits the transmission channel ch.
Channel allocation processing 1 for releasing the channel 1 to be an empty channel and allocating the transmission channel ch1 that has become an empty channel.
Execute Step 2. Now, the slave station 2 responds to the channel allocation polling Pc2 by requesting a channel allocation.
When the master station transmits c2, the master station sets the transmission channel ch1 to the slave station 2
Then, the data transmission processing 22 for the slave stations 2 and 5 is executed.

In this way, by repeating the channel assignment processing when an empty channel occurs and the data transmission processing to the slave station to which the channel has been assigned, data transmission can be performed using the transmission channel efficiently. .

[0015]

As described above, according to the present invention, the number of transmission channels smaller than the number of slave stations is set in consideration of the frequency of communication of the slave stations, the allowable waiting time, and the like. If this occurs, a channel assignment process is performed for a slave station to which a transmission channel has not been assigned, and then data transmission processing has been performed for a slave station to which a channel has been assigned. By repeating the channel assignment process and the data transmission process for the slave station to which the channel has been assigned, it is possible to reduce the waste due to the response of the empty data as in the related art, thereby improving the data transmission efficiency of the transmission channel.

The present invention can be applied to data collection in a star network, a local area network, a remote monitoring and control device, and the like.

[Brief description of the drawings]

FIG. 1 is a diagram showing one embodiment of the present invention.

[Explanation of symbols]

 11, 12 Channel allocation processing 21, 22 Data transmission processing Pc1 to Pc5 Channel allocation polling Pd1 to Pd5 Data polling Rc1 to Rc5 Channel allocation response Rd1 to Rd5 Data response Re1 to Re5 Data end response

Claims (2)

(57) [Claims] 1. One master station is N stations (N is an integer of 2 or more)
In the data transmission method of performing communication by polling with the slave station, the master station has a number of transmission channels smaller than the number N of the slave stations, and the transmission channel is empty. case, polls for channel assignment to the slave station that the transmission channel is not allocated, then polls for data transmission to the slave station that the transmission channel is allocated And repeating the polling for the channel assignment and the polling for the data transmission. 2. The data transmission method according to claim 1, wherein the slave station to which the transmission channel has not been assigned requests a channel assignment when receiving polling for the channel assignment when transmission data occurs. The slave station to which the transmission channel is assigned transmits a response indicating the end of data transmission when the polling for the data transmission is received when there is no more data to be transmitted. Data transmission method.