JP2008166876A - Communication network system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication network system capable of automatically providing information necessary for the management of a network. <P>SOLUTION: A data transmitting/receiving means 11 transmits diagnosis request data from a management communication station 1 to another communication station and receives diagnosis response data returned from the communication station to the management communication station 1. Respective switches 3A, 3B, 3C add address information to the diagnosis response data. A connection relation recognition means 12 recognizes connection relation between the communication station on the basis of the address information added to the diagnosis response data. A connection relation display means 13 graphically displays the connection relation between the communication stations which is recognized by the connection relation recognition means 12. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a communication network system including a plurality of communication stations connected to each other via a network.

A communication network system configured by connecting a plurality of communication stations to each other via a network is known. As the shape of the network, various forms are used. For example, a management communication station is arranged at the base end of a tree-like network and a terminal communication station is arranged at the end of the network. In this case, a switch for automatically selecting a route can be arranged at the branch point of the network as well as functioning as a relay station.
JP 2005-184842 A

  However, in the conventional communication network system, the connection relationship between each communication station and relay station in the network cannot be automatically displayed graphically, or the failure location cannot be graphically displayed. For this reason, drawing for showing connection relations necessary for network management is performed manually, and complicated engineering work is required. Also, when a failure occurs in the network, an operation for determining the failure location is required.

  An object of the present invention is to provide a communication network system capable of automatically providing information necessary for network management.

In a communication network system including a plurality of communication stations connected to each other by a network, the communication network system of the present invention transmits diagnosis request data from the management communication station on the network to another communication station, and the communication station Data transmission / reception means for receiving the returned diagnosis response data at the management communication station, and information for specifying the communication station through which the diagnosis request data or the diagnosis response data passes, the diagnosis request data or the diagnosis at the communication station The information adding means for finally giving the information to the management communication station using the diagnosis response data by adding to the response data, and based on the information given to the management communication station, the network And a connection relationship recognition means for recognizing the connection relationship between communication stations in the network. .
According to this communication network system, when exchanging the diagnosis request data and the diagnosis response data, the connection relation between the communication stations is recognized based on the information specifying the communication station through which the data passes. Can be provided.

  Connection relation display means for graphically displaying the connection relation between the communication stations recognized by the connection relation recognition means may be provided.

  You may provide the abnormal location recognition means which recognizes the location which produced the abnormality in connection based on the change of the connection relationship between the said communication stations in the said connection relationship recognition means.

  You may provide the abnormal location display means which displays the said location recognized by the said abnormal location recognition means graphically.

  The communication station may include a switch that selects a connection route corresponding to the communication station requested to be connected.

  The format of the diagnosis request data and the diagnosis response data conforms to IEEE 802.3 Type Field, and a MAC address may be used as the information.

  According to the communication network system of the present invention, when the diagnosis request data and the diagnosis response data are exchanged, the connection relationship between the communication stations is recognized based on the information specifying the communication station through which the data passes. Can be provided.

  Hereinafter, an embodiment of a communication network system according to the present invention will be described with reference to FIGS.

  FIG. 1 is a block diagram showing a configuration of a communication network system according to the present embodiment.

  As shown in FIG. 1, the communication network system 10 of the present embodiment is based on a management communication station 1 and has a communication station 2a, a communication station 2b, a communication station 2c, a communication station 2d, a communication station 2e, a communication station 2f, The communication station 2g and the communication station 2h are configured as a tree-shaped communication network arranged at each end. In addition, a switch 3A, a switch 3B, and a switch 3C functioning as relay stations are arranged at branch points of the communication network.

  Further, the management communication station 1 transmits diagnostic request data from the management communication station 1 to other communication stations, and the data transmission / reception means 11 for receiving the diagnostic response data returned from the communication station at the management communication station 1; Based on the address information added to the diagnostic response data, the connection relation recognition means 12 for recognizing the connection relation between the communication stations, and the connection for graphically displaying the connection relation between the communication stations recognized by the connection relation recognition means 12 Based on the change in the connection relation between the communication stations in the relation display means 13 and the connection relation recognition means 13, the abnormal place recognition means 14 for recognizing the place where the connection is abnormal and the abnormal place recognition means 14 are recognized. And an abnormal part display means 15 for graphically displaying the abnormal part.

  Further, the switch 3A, the switch 3B, and the switch 3C function as an information adding unit that gives address information to the management communication station 1 by adding its own address to the diagnosis request data in the switch.

  Next, the operation of the communication network system 10 will be described.

  After the communication stations are connected by the communication path, the management communication station 1 connects the communication station 2a, the communication station 2b, the communication station 2c, the communication station 2d, the communication station 2e, the communication station 2f, the communication station 2g, and the communication station 2h. Communication for initial setting of the switch 3A, the switch 3B, and the switch 3C is sequentially executed.

  At this stage, the switch 3A, the switch 3B, and the switch 3C do not recognize the relationship between the connection position of each switch and the communication station to be connected, and try communication while sequentially switching each switch. Search for a route that enables connection with each communication station.

  For example, when the management communication station 1 requests the switch 3A to communicate with the communication station 2a, the switch 3A sequentially communicates with the communication station 2a while changing the connection position of the switch. To find the connection position of the switch for successful communication. When the connection position of the switch 3A is “path 5” and “path 1”, since communication with the communication station 2a is successful, the communication path corresponding to the management communication station 1 is set as “path 5”. The communication path corresponding to the station 2a is registered as “path 1”. In FIG. 1, numbers surrounded by circles indicate communication path numbers extending from the switches.

  Similarly, when the management communication station 1 requests the switch 3A to communicate with the communication station 2c, the switch 3A sequentially changes the connection position of the switch while communicating with the communication station 2a. Try to communicate. When communication with the communication station 2c is requested via the switch 3A, the switch 3B sequentially tries communication with the communication station 2a while changing the connection position of the switch. As a result, the switch 3A sequentially registers the communication path corresponding to the communication station 2c as “path 2”. The switch 3B registers the communication path corresponding to the management communication station 1 as “path 4” and the communication path corresponding to the communication station 2c as “path 1”.

  Such processing is performed between the management communication station 1 and all communication stations (communication station 2a, communication station 2b, communication station 2c, communication station 2d, communication station 2e, communication station 2f, communication station 2g, and communication station 2h). When communication is performed for all switches (switch 3A, switch 3B, and switch 3C), the relationship between the communication destination and the communication path to be selected is registered for each switch.

  FIG. 2 shows a communication path table registered in each switch in this way. In the communication network system 10, since each communication station and each switch are defined as a communication station address (MAC address), the management communication station 1 is preliminarily provided with the communication station 2a, the communication station 2b, the communication station 2c, the communication The MAC addresses of the station 2d, the communication station 2e, the communication station 2f, the communication station 2g, and the communication station 2h are registered, and in each switch, the communication station that is the communication destination is grasped via the MAC address (see FIG. 2).

  Next, in the communication network system of the present embodiment, exchange of diagnosis request data and diagnosis response data is executed according to IEEE 802.3 Type Field.

  First, from the data transmitting / receiving means 11 of the management communication station 1, all other communication stations, that is, the communication station 2a, the communication station 2b, the communication station 2c, the communication station 2d, the communication station 2e, the communication station 2f, the communication station 2g, A diagnosis request packet is transmitted to the communication station 2h, the switch 3A, the switch 3B, and the switch 3C.

  The switch 3A, the switch 3B, and the switch 3C form a communication path toward the transmission destination indicated in the diagnosis request packet by referring to the table of FIG. Further, in the switch 3A, the switch 3B, and the switch 3C, the information adding unit adds its own MAC address to the diagnosis request packet and relays it.

  Next, the communication station that has received the diagnosis request packet puts its own MAC address and the MAC address added to the diagnosis request packet on the diagnosis response packet, and sends this diagnosis response packet back to the management communication station 1. Similar to the diagnosis request packet, the diagnosis response packet reaches the management communication station 1 via a communication path formed by the switches 3A, 3B, and 3C.

  Next, the connection relation recognition unit 12 of the management communication station 1 determines the communication station 2a, the communication station 2b, the communication station 2c, the communication station 2d, the communication station 2e, from the MAC address recorded in the received diagnostic response packet. Recognizes the connection relationship of the communication station 2f, the communication station 2g, the communication station 2h, the switch 3A, the switch 3B, and the switch 3C.

  FIG. 3A shows address information recorded in a diagnostic response packet returned from each communication station. Here, the MAC address added by the switch 3A is displayed as “A”, the MAC address added by the switch 3B is “B”, and the MAC address added by the switch 3C is displayed as “C”.

  As shown in FIG. 3A, the address information includes information from the management communication station 1 to each communication station (communication station 2a, communication station 2b, communication station 2c, communication station 2d, communication station 2e, communication station 2f, communication station). 2g, the communication station 2h, the switch 3A, the switch 3B, and the switch 3C) switches (switch 3A, switch 3B, and switch 3C) arranged in the communication path are shown as an array of MAC addresses together with the order. For example, it is shown that only the switch 3A is present in the communication path to the communication station 2a. Further, it is shown that the switch 3A and the switch 3B are sequentially interposed in the communication path to the communication station 2c.

  Based on such address information, the connection relationship recognition unit 12 recognizes the connection relationship of each communication station, and the connection relationship display unit 13 draws according to the connection relationship of each communication station recognized by the connection relationship recognition unit 12. Executes processing and graphically displays connection relationships. FIG. 4A conceptually shows the display contents, and the actual connection relationship shown in FIG. 1 is expressed.

  Such exchange of the diagnosis request packet and the diagnosis response packet is regularly executed. When an abnormality such as a failure occurs in the communication network system 10, the connection relation recognized by the connection relation recognition unit 12 changes due to the communication abnormality. For example, when an abnormality occurs in the communication path 5 (FIG. 1), communication via the communication path 5 is disabled as shown in FIG. Cannot be received, and the address information is the same as when the network does not exist ahead of the communication path 5.

  When the connection relation recognized by the connection relation recognition unit 12 changes, the abnormal part recognition unit 14 recognizes the fault part based on the presence / absence of reception of the diagnostic response packet and the change of the address information, and the abnormal part display unit 14 is abnormal. Display the location graphically. FIG. 4B conceptually shows the display contents, and in this example, a case where an abnormality occurs in the communication path 5 (FIG. 1) and communication is disabled is expressed. Here, on the display indicating the connection relationship (FIG. 4A), the location where the abnormality occurred and the range where communication is not possible are represented.

  In the above embodiment, the switch 3A, the switch 3B, and the switch 3C add their own addresses to the diagnosis request packet, but may add their own addresses to the diagnosis response packet.

  As described above, according to the communication network system of the present invention, when exchanging the diagnosis request data and the diagnosis response data, the connection relationship between the communication stations is recognized based on the information specifying the communication station through which the data passes. Therefore, the connection relationship can be provided automatically. In addition, when a change in connection relationship between communication stations is monitored, an abnormality occurrence location can be automatically extracted. For this reason, the engineering burden required for network management can be greatly reduced.

  The scope of application of the present invention is not limited to the above embodiment. The present invention can be widely applied to a communication network system including a plurality of communication stations connected to each other by a network.

The block diagram which shows the structure of the communication network system of one Embodiment. The figure which shows the table of the communication path registered with each switch. It is a figure which shows the address information recorded on the diagnostic response packet returned from each communication station, (a) is a figure which shows the example at the time of normal, (b) shows the example at the time of abnormality occurrence, respectively. It is a figure which shows the display content of a connection relation notionally, (a) is a figure which shows the example at the time of normal, (b) shows the example at the time of abnormality occurrence, respectively.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Communication management station 11 Data transmission / reception means 12 Connection relation recognition means 13 Connection relation recognition means 14 Abnormal location recognition means 15 Abnormal location display means 3A Switch (information addition means)
3B switch (information adding means)
3C switch (information adding means)

Claims (6)

In a communication network system comprising a plurality of communication stations connected to each other by a network,
Data transmission / reception means for transmitting diagnostic request data from the management communication station on the network to another communication station, and receiving diagnostic response data returned from the communication station at the management communication station;
Information identifying the communication station through which the diagnosis request data or the diagnosis response data passes is added to the diagnosis request data or the diagnosis response data in the communication station, and finally the diagnosis response data is used to Information adding means for giving the information to the management communication station;
A connection relationship recognition means for recognizing a connection relationship between communication stations in the network based on the information given to the management communication station;
A communication network system comprising: The communication network system according to claim 1, further comprising a connection relationship display unit that graphically displays a connection relationship between the communication stations recognized by the connection relationship recognition unit. 3. The communication network according to claim 1, further comprising an abnormality location recognition unit that recognizes a location where an abnormality has occurred in the connection based on a change in the connection relationship between the communication stations in the connection relationship recognition unit. system. The communication network system according to claim 3, further comprising: an abnormal location display unit that graphically displays the location recognized by the abnormal location recognition unit. The communication network system according to any one of claims 1 to 4, wherein the communication station includes a switch that selects a connection path corresponding to a communication station requested to be connected. The communication according to any one of claims 1 to 5, wherein a format of the diagnosis request data and the diagnosis response data conforms to IEEE 802.3 Type Field, and a MAC address is used as the address. Network system.

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