JPS6024747A - Priority communication method - Google Patents

Abstract

PURPOSE:To speed up the transfer of data signals in an emergency by giving the prescribed priorty to the special data signal in a data communication system of CSMA/CD access method. CONSTITUTION:Plural stations consistig of the communcation control equipment 10 and data processor 11 are connected to the same transmission line 12, and the data signal from the processor 11 is transmitted to the transmission line 12 through the series/parallel conversion part 5 by control of the control part 8. Data signal conditions in the transmission line are detected by the carrier detection part 6 and collision detection part 7, and the control part 8 watches that the transmission line is busy. If urgent data transmission is necessary, the urgent transmission is reset because collision is removed when the other station succeeds to transmit the data signal for the specified transmitting period according to the prescribed priority, detecting collision and stop this transmission.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of the Invention] The present invention relates to a priority communication system, and in particular to a C8MA/CD
(Carrier 5ense Multiple Ac
cesV/Co11ision])ection
) relates to a priority communication system in which data transmission from each station is controlled according to a predetermined priority order in a data communication system applying the access method.

[Prior art]

Conventionally, as shown in FIG. 1, in order to send and receive data information via the same transmission path 4, a communication control device 1-1
and A station 1 consisting of a data processing device 1-2, three stations 2 consisting of a communication control device 2-1 and a data processing device 2-2, a communication control device 3-1 and a data processing device 3-2.
In a data communication system in which a network access method based on the C8MA/CD access method is applied, the data communication system is configured with multiple stations including 0 stations 3, etc. consisting of , assuming that there are two stations coupled to the transmission path 4, A station 1 and 3 station 2, the data transmission status from each station to the transmission path 4 is shown, and FIG. Network access to the transmission line 4 from each station is performed through the procedure shown in the flow chart for data transmission. In FIG. 2 (bJ), the horizontal axis corresponds to time, and the vertical axis corresponds to the transmission path length of the data signal on the transmission path.

First, to explain the case of Goose, using FIG. 5, station A 1 requests data transmission to transmission path 4, monitors the flow of data signals on transmission path 4, and determines if transmission path 4 is not busy. In this case, the A station 1 obtains temporary use of the transmission line 4 and starts data transmission. In FIG. 2(b), the data signal transmitted from A station 1 is transmitted through signal transmission line 1.
03 on the transmission path and reaches the third station 2, and at this point, the third station 2 detects that the A station 1 is transmitting data to the transmission path 4. As a result, the third station 2 does not transmit data to the transmission path 4 until the data transmission from the A station 1 is completed.

That is, at the time when the third station 2 detects data transmission from the A station 1, the right to use the transmission path 4 of the A station 1 is established, and the A station 1 continues to transmit data. When the data transmission of A station 1 is completed, A station 1 relinquishes the right to use the transmission line 4 at this point.
Reached station 2.

When the kB station 2 detects that the data transmission from the A station 1 has been stopped, the third station 2 determines that the A station 1 has given up the right to use the transmission line 4 at this point.

Start data transmission if necessary. Next, case H will be explained using FIG. 5.

If station A obtains the temporary right to use the transmission path 4 and starts data transmission, and further KB station 2 also obtains the temporary right to use it and starts full data transmission after a specific time, the data signal from 3 stations 2 is transmitted via the transmission line 4, and at the time the signal transmission line 108 reaches the A station 1.

Station A 1 detects a collision of data signals on the transmission path. At this point, station A 1 relinquishes the right to use the transmission path 4 after further transmitting the minimum necessary data signal called a jam, in order to let other stations detect the collision of data signals, and transmits the right to use the transmission path 4, and uses the specified random number table. transmission will be suspended until a specific time determined by, etc. Then, after the specified time has elapsed, the transmission procedure is executed from the beginning and retransmission is performed. If a collision occurs again during this retransmission process, the above procedure is executed again until the data transmission is completed.7'( is repeated until the number of times specified by the network system. In b), % 101 and 102 respectively indicate the time period in which station A 1 is transmitting data signals, and the hatched part in 102 is
It represents the time period of the collision detected at station 1.

Note that 105, 106 and 107 indicate signal transmission lines indicating the transmission state of data signals transmitted from A station 1, respectively, and are OFF; similarly, 108, l: and 109 indicate signals transmitted from 3 stations 2. It represents a transmission line.

However, in the conventional priority communication method mentioned above,
Regardless of the content of the data signals that each station is trying to transmit, once a collision occurs during data transmission, data transmission must be stopped during a specific time period determined by a random number table, etc. First, it has the disadvantage that extremely inconvenient situations occur when transferring urgent data signals.

[Purpose of the invention]

The purpose of the present invention is to eliminate the above-mentioned drawbacks, and to provide C8MA/
In a data communication system to which a network access method using the CD access method is applied, it is possible to speed up the transfer of urgent data signals, etc. by assigning a predetermined priority to specific data transmission signals. The purpose is to provide a preferential communication method.

[Structure of the invention]

The priority communication system of the present invention is formed by a predetermined plurality of stations, and is configured using C8MA/CD (Carrier sense Multi
lple Access/Co11ision Det
In a data communication system that applies an access method, when transmitting urgent data, etc., even in a situation where a data collision occurs on the transmission path in response to the urgent transmission, it is necessary to maintain a predetermined priority for the data, etc. Data transmission is controlled such that the emergency transmission is continued for a specific transmission duration defined in accordance with the above, and when the collision is canceled within the transmission duration, the emergency transmission is restarted anew. Each of the plurality of stations is provided with a data transmission control means for controlling the transmission of data.

[Embodiments of the invention]

Hereinafter, the present invention will be explained in detail with reference to the drawings.

In the ivy diagram, the communication control device 10 includes a serial/parallel conversion section 5, a carrier detection section 6, a collision detection section 7, a control section 8 and an OR circuit 9, and a data processing device 11.

In FIG. 3, the transmission line 12 or the data processing device 11
The data signals inputted to the communication control device 10 from the controller 8 are converted into serial or parallel data signals via the serial/parallel converter 5 under the control of the controller 8, and then sent to the data processing device 11 or the transmission line. Sent to 12th. The state of the data signal on the transmission path 12 is detected by the carrier detection section 6 and the collision detection section 7, and this detection signal is monitored by the control section 8 to determine the state of the data signal between the transmission path 12 and the serial/parallel conversion section 5. Controls the sending and receiving of signals. Further, the usage state of the transmission path 12 is displayed by the output of the OR circuit 9 that generates the logical sum of the detection output of the carrier detection section 6 and the detection output of the collision detection section 7. The control unit 8 is outputted from the carrier detection unit 6 and the collision detection unit 7 as described above. A state monitoring signal of the data signal on the transmission line 12 is input to control the transfer of data signals between the transmission line 12 and the communication control device 10 while monitoring whether or not the transmission line 12 is busy. As an essential requirement of the invention, the control unit 8Vc is equipped with data transmission control means for preferentially transmitting data signals given a predetermined priority to the transmission path 12 via a predetermined procedure. . As a control function for priority transmission of data signals, for example, when there is a data signal that particularly requires urgent transmission, even in a state where a data signal collision occurs on the transmission path 12, the data signal that requires urgent transmission is The emergency transmission is continued for a specific transmission duration defined in accordance with a predetermined priority for signals, and when the collision is canceled within the transmission duration, the emergency transmission is restarted. It is executed by restarting. Below, Figures 4(a) and (
The operation of network access to which the present invention is applied will be explained with reference to b) and FIG.

FIGS. 4(a) and 4(b) show five cases in which, in the data communication system to which the present invention is applied, the stations connected to the transmission line 12 are three stations, A station and B station.
The state of data transmission from both stations B to the transmission path 12 is shown, "!, fC. FIG. 6 corresponds to FIGS. 4(a) and (b). The flow chart when transmitting data from station A is shown. .A station requests data transmission to the transmission line 12, and if the transmission line 12 is not busy, the A station obtains a temporary right to use the transmission line 12 and starts transmitting a data signal.The conventional example described above. As in the case of , when it is detected that the transmission line is in use by all other stations on the transmission line, the right to use the transmission line 12 of the %A station is established, and data signal transmission continues normally. .Next, regarding the case where data signal collision occurs on the transmission path, Fig. 4(a) and (b)
) and FIG. 6.

In the case of case 1 in FIG. The signal passes through the transmission line 1
17.

In this case, the A station detects a collision on the data signal transmission path at the time the signal transmission line 117 reaches the A station. If the transmission of data signals from station A requires priority transmission, station A transmits the data signals for the transmission duration T determined by the following formula (1) according to the priority after collision detection. However, when station B interrupts data transmission within the minimum transmission duration time Tm due to collision detection, station A detects a data signal collision caused by station B's data transmission stop within the transmission duration time T. Detects release,
Restart priority transmission from the beginning.

T-Tm+2PA*Td(1) In the above formula, Tm is the minimum transmission duration, which is the percentage of time required for each station on the network to reliably detect a collision.
PA is the data transmission priority of station A, and Td is the transmission path delay time, which is the time required for a data signal to be transmitted from one end of the network to the other. On the other hand, A on the transmission path
, and B monitor the transmission path, detect whether or not the transmission path is in use, and do not transmit data signals on the transmission path. Therefore, as mentioned above, when station A resumes data transmission, station A establishes the right to use the transmission path.
All data signals can be transmitted normally. In addition,
If data signal collisions continue to occur even after the transmission duration time has elapsed, station A suspends data transmission. Furthermore, when there is no need for priority transmission, station B suspends data transmission after the minimum transmission duration time, and when priority transmission is necessary, it establishes the right to use the transmission path using the same procedure as for station A. perform an action. Note that the signal transmission line 118 in FIG. 4 indicates the data signal transmitted from the B station immediately before the B station interrupts data transmission, and the signal transmission line 115 indicates the data signal that is to be retransmitted from the A station. Signal transmission line 1
16 shows a data signal transmitted from the A station immediately before the A station stops data transmission.

If both stations A and B require the same data transmission priority, both stations A and B continue transmitting for a predetermined transmission duration time, as shown in case ■ in Figure 4. However, data transmission is interrupted because the data signal collision state is not resolved, and the data transmission procedure is restarted from the beginning after a predetermined time determined by a random number table, etc., as in the case of the conventional method. fix. In FIG. 4, signal transmission lines 119 and 120 indicate data signals transmitted from station A, and signal transmission lines 121 and 122 indicate data signals transmitted from station B. Also, Figure 4 (
What is shown in a) is Case E and Case ■. Time periods 111 and 11 during which data transmission from station A continues
3 and time periods 110 and 112 during which data transmission from station B continues, and the time periods indicated by diagonal lines are the collision periods of data signals detected at stations A and B, respectively. It represents.

〔Effect of the invention〕

As explained in detail above, the present invention provides smooth transmission of urgent data signals by giving priority to each station connected to the same transmission path in relation to the transmission of a predetermined data signal. The effect is that it can be implemented.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing part of a data communication system to which a conventional C8MA/CD access method is applied;
Figures (a) and (b) are state diagrams of data transmission from stations A and B in the conventional data communication system, and Figure 3 shows the main parts of one station in the data communication system to which the present invention is applied. 4 is a state diagram of data transmission from stations A and B in the data communication system to which the present invention is applied, and FIGS. 5 and 6 are diagrams showing the conventional priority communication system and the present invention, respectively. Each station 751
12 is a flow chart when transmitting data. In the figure, 1...A station, 2...B station, 3...0 station, 1-1, 2-1, 3-1
, 10...Communication city control device, 1-2.2-2
．． 3-2.11...Data processing device, 4.12
...Transmission line, 5...Serial/parallel conversion section,
6...Carrier detection unit, 7...Collision detection unit, 8...Control unit, 9...Logic logic circuit. Volume 1 page l + Graduation 3 times Y 3■

Claims (1)

[Claims] A C3MA/CD (Car
rier 5ense Multiple Accesses
s/Co11ision Detection) In a data communication system that applies the access method, when transmitting urgent data, etc., even in a situation where data collision occurs on the transmission path in response to the emergency transmission,
The emergency transmission is continued for a specific transmission duration defined in accordance with a predetermined priority regarding the data, etc., and when the collision is canceled within the transmission duration, the emergency transmission is continued. A priority communication system characterized in that each of the plurality of stations is provided with a data transmission control means for controlling data transmission so as to restart data transmission.