JPS63166338A - Network control system - Google Patents

Abstract

PURPOSE:To constitute a network excellent in responsiveness by providing a data communication channel and a polling control channel independently so as to minimize the effect of the polling control on the data communication channel. CONSTITUTION:While a transmitter 3-l of a slave station sends a data packet frame (packet l) 14 onto a data communication channel 1, a transmitter 3 being a master station continues to send a transmission enable frame (El+1, El+2,...Em) 15 in a predetermined order till an affirmative response frame (Am) 16 is returned from a slave station through a transmission line acquisition channel 12. When the affirmative response frame (Am) 16 comes, a transmitter 3-m sending the affirmative response frame (Am) 16 acquires the transmission right. The transmitter 3-m awaits it that the data communication channel 11 is idle and starts sending a data packet frame (packet m) 14 immediately after the channel is idle. Thus, the time used for the polling control required for a conventional system is eliminated.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a network control system, and particularly to a local area network control system that performs polling type communication.

[Conventional technology]

FIG. 2 is a diagram showing the configuration of a conventional network of this kind, where 4 is a common channel used for data communication and polling control, 5a is a main station among a large number of transmission devices, and 5b is the remaining slave station. ing. This traditional polling method
The transmission device serving as the master station 5a sequentially grants transmission rights to the transmission devices serving as the slave station 5b, and the slave station 5b uses the same shared channel 4 to transmit a data packet frame when the transmission right is granted. Ta.

In the case of such a conventional method, as shown in FIG. 6(b), the master station 5a starts polling after transmitting the data packet frame 14, and the slave station 5b, which has a transmission request, sends the transmission permission frame 15. After receiving the uke.

A data packet frame 14 is transmitted. For this reason, a time (t, +j2 in FIG. 6(b)) used for polling control is always required between the data and get frames 14. This time increases further as the number of connected transmission devices (total number of master station 5a and slave station 5b) increases and is accumulated, so that a data packet frame to be transmitted by a certain transmission device is ready.

The response time from the arrival of the transmission permission frame 15 to the end of transmission becomes longer.

[Problem that the invention seeks to solve]

The conventional polling network control method described above uses the same channel for data communication and polling control, so as the number of transmission devices connected to a shared transmission path increases, the number of channels used for polling control increases. As the proportion of channel capacity increases, the proportion of channel capacity used for data communication decreases, leading to problems such as increased overhead and slow response speed due to accumulation of polling control time during high traffic. there were.

Therefore, the present invention aims to solve the above-mentioned problems of the conventional technology, eliminate the accumulation of polling time, improve response speed, and construct a network with excellent responsiveness.

[Means for solving problems]

According to the present invention, in a network in which a plurality of transmission devices are connected to a shared transmission path and a polling method is used as a transmission path access method, a data communication channel and a polling control channel that can communicate independently are provided, and the polling control means for performing polling control using a data communication channel until one transmission device other than the transmission device currently transmitting acquires the right to transmit; - A network control method is obtained which is characterized by including means for transmitting a Zokerato frame.

〔Example〕

Next, two aspects of the present invention will be explained with reference to the drawings.

FIG. 1 is a system diagram of an embodiment of the present invention, which includes two channels (data communication channel 1 and transmission path acquisition channel 2Lf for transmission control) that can communicate independently, and a large number of transmission devices (main station 3a and a large number of slave stations 3b). The data communication channel 1 is used for transmitting and receiving data and 9-frame frames 14 between transmission devices, and the transmission path acquisition channel 2 is used for the main station 3a that performs polling control.
This is used to control polling between the transmission device that will become the master station 3a and the transmission device that will become the slave station 3b that performs data communication under the control of the master station 3a.

FIG. 6(,) shows a schematic diagram of an example of signals on a channel during network operation according to the present invention, in which 14 is a data packet frame, 15 is a permission to send frame, 16 is an acknowledgment frame, and 17 is a negative acknowledgment frame. It shows.

FIG. 3 is a block diagram showing an example of the functions of the transmission device 3 according to the embodiment of the present invention, in which it is possible to take in a data log frame 14 addressed to the own station from the data communication channel 1, a data communication transmitting/receiving circuit unit 6 for transmitting a data frame 14 on the data frame 1;
A carrier detecting section 7 detects that the data communication channel 1 is vacant, and a data packet frame 14 is sent to the data communication transmitting/receiving circuit section 6 according to signals from the carrier detecting section 7 and the polling control section 10. a transmitting/receiving buffer/transmitting/receiving control section 9 that receives and receives data/Gukeratframe 14 from the transmitting/receiving circuit section 6;
a transmission path acquisition transmitting/receiving circuit section 8 that transmits and receives frames for polling control on the transmission path acquisition channel 2;
It is composed of a polling control section 10.

FIG. 4 is a diagram showing the operation of the transmission device 3 serving as a main station in an embodiment of the present invention. Although the operation for the master station to perform data communication is not included in FIG. 4, data communication by the master station is also possible by performing the same operations as the slave station.

FIG. 5 is a diagram showing the operation of the transmission device 3 which is a slave station in an embodiment of the present invention.

Next, the operation of the embodiment of the present invention will be explained.

In the embodiment of the present invention, as shown in FIGS. 1 and 4,
Since there are independent channels for data communication and polling control, each transmission device 3 performs polling control in parallel while transmitting the data/Pket frame 14 to determine which transmission device 3 should transmit the second one. becomes possible. As shown in FIG. 6(a), while the transmission device 3-1 is transmitting the data packet frame (IEKET) 14 onto the data communication channel 1, the transmission device 3-1 uses the transmission path acquisition channel 12. The transmission device 3, which is the main station 3a.

Transmission permission frame (Et+1 'Et+21'・-
Em) 15 continues to be sent in the determined order until acknowledgment frames (Am) 16 are returned from the slave. When an acknowledgment frame (Am) 16 is received, the transmission device 3-m that transmitted the acknowledgment frame (Am) 16
has acquired the right to transmit. Transmission device 3- that has obtained the right to transmit
m waits until the data communication channel 11 becomes free.

Data packet frame (bucket) as soon as it becomes available
Start sending 14. This eliminates the time that would otherwise be used for polling control. At the start of transmission of the data frame (packet m) 14, the transmission device 3-m loses the transmission right. The main station transmission device 3 is the transmission device 3-
When it is confirmed that m has lost the transmission right, that is, that the transmission of data frames ()gkesoto m) 14 has started, transmission permission frames (sent + IEm + 2...' En + 1 + En) 15 are sent in a certain determined order.
continues to be output until the acknowledgment frame (An) 16 is returned from the slave transmission device 3. Thereafter, the same sequence is repeated.

〔Effect of the invention〕

As explained above, the present invention has independent data communication channels and polling control channels.

By minimizing the impact of polling control on data communication channels? - It has the effect of eliminating ring time accumulation, improving response speed, and configuring a network with high efficiency and excellent responsiveness from low to high loads.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an embodiment of a network according to the present invention, and FIG. 2 is a block diagram of a conventional network. FIG. 3 is a functional block diagram of an example of the transmission device shown in FIG. 1, FIG. 4 is an operational schematic diagram of an example of the transmission device that becomes a master station in the present invention, and FIG. 5 shows a transmission device that becomes a slave station in the present invention. FIG. 6(a) is a schematic diagram of an example of the operation of an example of the device, and FIG.
) is a schematic diagram of signals on a channel during network operation according to the conventional method. Explanation of symbols: 1...N channel for data communication. 2... A temple channel for acquiring a transmission path, 3... Transmission device. 3a... Master station t 3 b... Slave station, 4... Shared channel, 6... Transmission/reception circuit section for data communication, 7...
carrier detection unit, 8...transmission path acquisition transmitting/receiving circuit unit;
9... Transmission/reception/gusofa/transmission/reception control unit, 10...-
Polling control unit, 11... Signal on the data communication channel, 12... Signal on the transmission path acquisition channel, 1
3...Signal on the shared channel, 14...Data packet frame. 15... Transmission permission frame, 16... Acknowledgment frame, 17... Negative response frame. Figure 3 Figure 4

Claims (1)

[Claims] 1. In a network in which multiple transmission devices are connected to a shared transmission path and a polling method is used as a transmission path access method, a data communication channel and a polling control channel that can communicate independently are provided, and the polling control channel is used. A means for performing polling control until one transmission device other than the transmission device currently transmitting acquires the right to transmit, and a transmission device with the right to transmit detects that the data communication channel is empty and sends out a data packet frame. A network control method characterized by comprising means for: