JPS60259036A - Network constitution managing system - Google Patents

Abstract

PURPOSE:To grasp the station constitution in a network by inquiring about sequentially a station number of adjacent stations from an adjacent station of a managing station. CONSTITUTION:The management station 3 and general stations 2 are connected by a ring transmission line 1 and each next upstream station number is stored in a storage device 4. The management station 3 inquires about the next upstream station number of the next upstream station #8 to the next upstream station #8 and when a number #2 is recognized, the next upstream station number is inquired about to the station #2. The command response is repeated until the own station number #5 is obtained as the response and the entire network constitution is recognized.

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention relates to a network having a ring-shaped take transmission path, and the present invention relates to a network having a ring-shaped take transmission path, and a new addition of a station to the network,
The present invention relates to a method for grasping the configuration of stations within a network, which is suitable for network configuration management when leaving, moving, etc.

[Background of the invention]

Does each station in a conventional ring-type network have a function to know the station number one station upstream of its own station (here, upstream means upstream in the take transmission direction of the ring-shaped transmission line)? Since the ring did not have the function of knowing all the station numbers within the ring, each station had the disadvantage that it was not possible to know what stations existed within the ring.

Note that each station learns the number of the station next upstream from its own station in the following manner.

Any station in the network sends a reconfirmation frame (tentative name) to all stations in the network. The frame stores a frame transmission source station number, type information indicating a reconfirmation frame, and reception information for distinguishing whether or not the frame has been received. The frame sending source sends the received information without receiving it.

On the other hand, the station that has received the reconfirmation frame marks the frame's reception information as having been received and sends it downstream. Here, you can know the number of the next upstream stage gin as follows. That is, for a station that has received a reconfirmation frame with no received information, the source station number of the frame becomes the next upstream station number.After that, the station that receives the reconfirmation frame becomes 0.

Sends a new reconfirmation frame. As a result of the above, the next upstream stage number of each station is known and turned over in a Tigi-chain manner.

[Purpose of the invention]

A first object of the present invention is to provide a station in a ring network with the ability to know all stations existing in the network. A second object of the present invention is as follows.

The purpose of the present invention is to provide the above functions not only for one ring network (single ring) but also for a network formed by connecting multiple ring networks (multiple rings).

[Summary of the invention]

A ring-type network is a serial system in which data transmission lines are connected seamlessly without branching. Therefore, in the present invention, if all the stations in this network know the next upstream station number of the station, they can determine the presence in the net 2 by sequentially tracing from any stage on to the upstream station. It is unique in that it manages western network training in single rings and multiple rings based on the idea that all stations can be known.

[Example of results of invention]

The present invention will be explained in detail below using examples.

An example of the network configuration is shown in FIG. In FIG. 1, 1 is a ring-shaped transmission path, 2 is a general C managed station (hereinafter abbreviated as ST), 3 is a management ST, and 4 is a next upstream ST number storage mechanism. Each station knows the number of the next upstream station in the direction of the data transmission path, ie, the next upstream adjacent station number. This number is stored in the next earth flow S pre-storage mechanism 4 of each station.

FIG. 2 shows an example of the structure of the network configuration management frame. In Fig. 2, 51 is the start period (S D
: 5tart D'elrmter), 52
is the destination address (DA)
Address). The destination address 52 should be 2 bytes of information, and all bits in these 2 bytes should be 1.
This means that the address is addressed to all STs in the ring network, and when there is even 1 bit of 0 in the 2 bytes, it means that the address is addressed to a specific (individual) 8T indicated by the 2-byte value.

53 is the source address (SA: 5sourceAdd
ress), 54 is a frame type display (FO: Frame
Q7L/-Racial display 5 which is e Control)
If 4 is 1 byte of information, the value of that 1 byte is “1”
In this case, it means the search frame of the representative ST for configuration management (hereinafter referred to as configuration management frame 11), and when the value is 2', it means the notification frame of the representative ST for configuration management (hereinafter referred to as configuration management frame 12). If the value is 3'', it means the timing of the next upstream ST fragrance (configuration management frame 13), and if the value is 4', it means the response of the next upstream 8T fragrance (configuration management frame). 14).

55 is in 7 home (I: Informat
This is, for example, 300-byte information (which can be set arbitrarily in the range of 0 to 300 bytes) that stores information to be processed by the destination 8T ablication program at the destination 8T. 56 is F OS (F'rame CheckSeq
57 is an end limiter (ED:
EnaDf is mIp. Each ST can be identified as a frame between the start delimiter 51 and the entry limiter 570.

Particularly, Configuration Management 7v-Mom 14 I (Informa
-tion) The information includes the next upstream station number for the station that responded to the frame.An example of command/response for understanding the network configuration is shown in Figure 3. 206 is the transmission (command) of the configuration management frame 13, and 21 is the configuration management frame 1.
4 transmission (response) is shown. In this embodiment, one management station is provided to manage the overall configuration of the network. 0 management station ≠ 5 is configured for the station with station number ≠ 8 stored in the frozen soil flow S front storage mechanism 4 of its own station. The 0 station that sends the management frame (configuration management frame 13)≠8 returns the configuration management frame 14 as a response. ) is regarded as the station number of the next upstream station after station 4P8.

Next, configuration management frame 1 for this station +2
Send 3. Thereafter, the management station can learn the existence of all the stations in the ring network along with their arrangement order by continuing until the management station's station number is returned as a response.

An example of application of the present invention to a network consisting of a plurality of rings is shown in FIG. In Figure 4, each ring (s1
-3) Connected by +11J song connection mechanism 5. One management station in the network,
Consider the case where the entire configuration of the entire network is to be managed.

Command for understanding the configuration of the network/
An example of the response is shown in FIG. In FIG. 5, 22 indicates transmission of the configuration management frame 11 (command), and 23 indicates transmission of the configuration management frame 12 (response). In this case, the problem is how to know the stations that exist in rings other than the own ring. Regarding this point, proceed as follows.

The management station sends a frame for configuration management (configuration management frame 11) to all stations in the network. Among the stations that have received the frame, only the station that is obligated to respond (a configuration management representative station is determined in advance) responds with the configuration management frame 12. If the management station receives a configuration management frame 12 from a configuration management representative station in the same ring, the management station sends one of them fs configuration grasp 1. Next, the management station sends a configuration management frame 13 to the configuration management representative station.From now on, commands/responses for configuration understanding will be used in the case of a single ring (see Figure 3). ). Note that this method of understanding the configuration of a network consisting of multiple rings can also be applied to a single ring.

〔Effect of the invention〕

According to the present invention, in a network consisting of a single ring or multiple rings, E-L can centrally handle changes in the network configuration due to new additions, withdrawals, movements, etc. of stations from the network from any station. There are effects that can be understood. In other words, it is possible to clarify which stations currently exist in the network, in what ring and in what order the old stations are lined up.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an example of the configuration of a child network consisting of one ring, and the second diagram is a diagram showing an example of the configuration of a configuration management frame exchanged between a management station and a managed station to understand the configuration. Figure 3 is a command/response time chart, Figure 4 is a diagram showing an example of the configuration of a network consisting of multiple rings, and Figure 5 is an understanding of the configuration when the present invention is applied to a network consisting of multiple rings. This is a command/response time chart for. 2 General ST, 3: Management ST Ka / Fu J warehousing 2 Figure 3 Wa procedural amendments, Japanese eyo July 1 Indication of the case of the Commissioner of the Japan Patent Office 1982 Patent Application No. 19921 Name of the invention Network configuration management Name of the patent applicant (510) Matsu Shikikai Minister Hitachi Manufacturer Manufacturer Address Address: Hitachi, Ltd., 10-5 Marunouchi-chome, Chiyoda-ku, Tokyo Tel: 11! H2+2-IIIN
Contents of correction

Claims (1)

[Claims] 1. In a ring network consisting of stations that know the station numbers of adjacent stations, a management station that attempts to know the stations existing in the network is adjacent to the management station. The process of inquiring the station number of the @contacting station, and the process of inquiring the adjacent station number of each station that responded when the station that was connected to the station responds with the station number adjacent to the station in question. A network configuration management method characterized in that the process is repeated until the momentary connection station number becomes equal to the station number of the management station. 2. The network includes an initiating station that initiates the inquiry for the neighboring station number. The management station is characterized in that the management station performs the adjustment of the adjacent station number from the starting station, and repeatedly queries the adjacent station number until the responded adjacent station number becomes equal to the station number of the starting station. The net soak configuration management method in Section 1.