JP2010226328A - Main distributing frame and dynamic reconfiguration method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a main distributing frame for facilitating mutual connection between network devices and eliminating a connection mistake. <P>SOLUTION: A network device and a configuration device which are installed are firstly connected, then network device information and connected connector number information are obtained, then a desired network device is connected using a media switch in accordance with connection information between network devices. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a main wiring board configuration technique for connecting network devices.

In recent years, with the rapid increase in Internet traffic, network devices have been increasing.
When these network devices are connected to each other, there are cases where they are directly connected by optical fibers or the like, and cases where optical fibers are once aggregated and reconnected via a main wiring board.

  If network devices are physically adjacent, it is better to connect them directly, but if they are physically separated (for example, if the connected network devices are on different floors or are in different buildings) Since it is difficult to connect directly, it is often connected via a main wiring board.

  The configuration of the main wiring board is described in Patent Document 1 and Patent Document 12. FIG. 4 is a diagram showing a configuration example of the main wiring board.

  The main wiring board 100 includes an N * M matrix connector portion 101-n (n = 1, 2,... N * M: hereinafter referred to as a connector portion 101) into which a medium such as an optical fiber is inserted, and a connector portion. A connection module 102 that collects media such as optical fibers from 101 and connects appropriate connectors to each other. The connection module 102 can dynamically connect any two connector units 101.

  The case where the network devices 110 and 111, 112 and 113 in FIG. 4 are connected via an optical fiber will be described. The connector units 101-1 and 101 -N, 101 -N * (M−1) and 101 -N * M are connected in advance by the connection module 102. Thereafter, the network devices 110 and 111 are connected to the connector units 101-1 and 101-N, respectively, thereby completing the connection of the network devices 110 and 111. Further, the network devices 112 and 113 are connected to the connector units 101-N * (M-1) and 101-N * M, respectively, thereby completing the connection between the network devices 112 and 113.

  In this way, network devices can be connected to each other via the main wiring board.

  As a related technique, Patent Document 3 discloses a configuration in which a home device is connected to a main wiring board through a subscriber line.

JP 2004-126481 A JP 2000-32504 A JP 2000-174900 A

  However, in the existing main wiring board, prior to connecting the media and the connector of the network device, it is assumed that the connectors are connected in advance by the connection module. Therefore, if the connector No. is connected by mistake, the corresponding network device cannot be connected. Therefore, human error connection increases as the number of connectors increases.

  SUMMARY An advantage of some aspects of the invention is that it provides a document management system, an information processing apparatus, a document management method, and a program that eliminate a misconnection between a network device and a connector. .

The main wiring board of the present invention is a main wiring board that physically connects a plurality of network devices.
A network device that sends a device information response upon receiving a device information request;
A media connector for connecting a connection cable of the network device;
A media switch that dynamically changes the connection between the media connectors;
Recognizing the network device connection relationship with the media connector,
And a configuration device for determining a connection with a desired network device and controlling the media switch.

The dynamic reconfiguration method of the present invention includes a network device that sends a device information response when a device information request is received;
A media connector for connecting a connection cable of the network device;
A media switch that dynamically changes the connection between the media connectors;
Recognizing the network device connection relationship with the media connector,
A dynamic reconfiguration method in a main wiring board comprising a configuration device that determines a connection with a desired network device and controls the media switch,
The config device is
Search for an empty connector of the media connector,
Instructing the media switch to connect to the empty connector by an empty connector search circuit,
Collecting device information from the network device connected to the empty connector by the device information collecting circuit connected to the empty connector,
Manage network device information and the connection form of the network device,
Corresponding device information and connector number collected by the device information collecting circuit by the configuration information registration circuit,
The media switch control circuit acquires connector connection information from the configuration information registration circuit, and instructs the media switch to connect the connector.

  According to the present invention, it is possible to eliminate a misconnection between a network device and a connector.

It is a figure which shows the main wiring board structure which concerns on embodiment of this invention. It is a figure which shows the operation | movement which concerns on embodiment of this invention. It is a figure which shows the operation | movement which concerns on embodiment of this invention. It is a figure which shows an example of a related main wiring board structure.

  A dynamically reconfigurable main wiring board configuration according to an embodiment of the present invention will be described with reference to FIG.

  The dynamically reconfigurable main wiring board configuration according to the embodiment of the present invention includes a network device 210 and a dynamic reconfigurable main wiring board 220.

  Network devices 210-1 and 210-2 are equipped with device information collection response units 211-1 and 211-2 that respond to device information collection messages from the dynamically reconfigurable main wiring board 220, respectively.

  The dynamically reconfigurable main wiring board 220 includes a media connector 230, an optical switch 240, and a configuration device 250.

The media connector 230 provides a group of N * M matrix connectors, and the signal from each connector is transferred to the port of the optical switch 240.

The optical switch 240 includes a switch control circuit 241 and switches paths based on an instruction from the configuration device 250 to connect between the connectors of the media connector 230 or connect the connector of the media connector 230 and the configuration device 250.

  The configuration device 250 includes an empty connector search circuit 251, an empty connector management table 252, an apparatus information collection circuit 253, a configuration registration circuit 254, and a media switch control circuit 255.

  The empty connector search circuit 251 extracts the empty connector of the media connector 230 from the empty connector management table 252 and instructs the switch control circuit 241 to connect the empty connector and the device information collection circuit 253.

  The device information collecting circuit 253 transfers a device information request message after being connected to the empty connector. When the device information collection circuit 253 receives the received device information request response message after sending the device information request message, the device information collection circuit 253 writes the correspondence between the device information and the connector No. in the configuration registration circuit 254.

  In the configuration registration circuit 254, network device information and network device connection information are registered by provisioning.

  The media switch control circuit 255 refers to the configuration information registration circuit 254 and transfers information for connecting appropriate two network devices 210 to the switch control circuit 241.

  The operation of this embodiment will be described with reference to FIGS. In order to simplify the explanation, it is assumed that the network devices 210-1 and 210-2 are connected using the dynamic reconfiguration main wiring board of the present embodiment.

  First, referring to FIG. 2, in the configuration registration circuit 254, information on the network devices 210-1 and 210-2 and mutual network devices are registered as connection destinations in advance (S201).

  When the network devices 210-1 and 210-2 are installed, the optical fiber of each port is connected to the media connector 230 (S202). At this time, the connection connector may be arbitrary.

  The empty connector search circuit 251 refers to the empty connector management table 252 and sends information for connecting the empty connector of the media connector 230 and the device information collection circuit 253 to the switch control circuit 241 (S203).

  Based on the information from the empty connector search circuit 251, the switch control circuit 241 performs path switching of the optical switch 240 in order to connect the corresponding connector and the device information collection circuit 253 (S204).

  The device information collection circuit 253 stores the connection connector number sent from the empty connector search circuit 251 and sends a device information request to the connected connector (S205). If the device information request response is not received within a predetermined time, unconnected information is sent to the empty connector search circuit 251 (S206).

  The empty connector search circuit 251 that has received the unconnected information obtains the next empty connector information from the empty connector management table 252, and again connects the empty connector and the device information collection circuit 253 to the switch control circuit 241. Is sent (S207). This is repeated thereafter.

  Here, with reference to FIG. 3, the case where the network devices 210-1 and 210-2 are connected to the empty connectors and the device information collecting circuit 253 and the empty connectors are connected will be described.

  After sending the device information request, the device information collection circuit 253 waits for reception of a device information request response for a predetermined time (S301).

  Upon receiving the device information request, the device information collection response circuits 211-1 and 211-2 of the network devices 210-1 and 210-2 send a device information request response (S302).

  When the device information collection response circuit 253 receives the device information request response from the device information collection response circuits 211-1 and 211-2 of the network devices 210-1 and 210-2, the device information collection response circuit 253 sends the device information and empty information to the configuration information registration circuit 254. The connector number notified from the connector search circuit 251 is notified (S303). Also, empty connector connection information is sent to the empty connector search circuit 251 (S304).

  The empty connector search circuit 251 rewrites the empty connector management table 252 and changes the connector information from the empty state to the connected state (S305).

  The configuration information registration circuit 254 searches the received device information and registers the device information and the connection connector information in association with each other (S306).

  Thereafter, the media switch control circuit 255 refers to the configuration information registration circuit 254 and transfers information for connecting the connection connectors of the network devices 210-1 and 210-2 to be connected to the switch control circuit 241 ( S307). Further, the media switch control circuit 255 transfers the connection completion information of the corresponding network devices 210-1 and 210-2 to the configuration registration circuit 254 (S308).

  When receiving the information, the configuration information circuit 254 stores connection completion information of the network devices 210-1 and 210-2 (S309).

  In this way, the network devices 210-1 and 210-2 are connected (S310).

  The connection between the network devices 210-1 and 210-2 is canceled when the configuration registration circuit 254 rewrites the connection completion information to the connection cancellation information.

  At this time, the configuration registration circuit 254 notifies the empty connector search circuit 251 of the connector connected to the media connector 230 of the networks 210-1 and 210-2 as an empty connector. The empty connector search circuit 251 registers the empty connector information in the management table 252.

  In this description, the media switch is the optical switch 240, but it may be a packet switch.

  Further, the message exchange between the device information collection circuit 253 and the device information collection response circuit 211 is based on the device information collection circuit 253, but the device information collection response circuit 211 may be used as a base point. In this case, device information is transferred from the device information collection response circuit 211, and when device information is received from the device information collection circuit 253, a device information reception response is transferred to the device information response circuit 211. The device information collection circuit 253 transfers the connector information and device information to the configuration information registration circuit 254.

  According to the present embodiment described above, media-connector wiring is facilitated since the media of the installed network device can be connected to a desired opposing network device regardless of which connector of the main wiring board is connected. Further, since the counter network device and the connector are selected based on the connected connector and the connected network device information, the possibility of erroneous connection can be greatly reduced.

  Each of the above-described embodiments is a preferred embodiment of the present invention, and various modifications can be made without departing from the scope of the present invention.

210 Network equipment 211 Device information collection response circuit 220 Dynamic reconfiguration main wiring board 230 Media connector 240 Media switch 241 Switch control circuit 250 Config device 251 Empty connector search circuit 252 Empty connector management table 253 Device information collection circuit 254 Configuration information Registration circuit 255 Media switch control circuit

Claims (16)

In the main wiring board that physically connects multiple network devices,
A network device that sends a device information response upon receiving a device information request;
A media connector for connecting a connection cable of the network device;
A media switch that dynamically changes the connection between the media connectors;
Recognizing the network device connection relationship with the media connector,
A main wiring board comprising: a configuration device that determines a connection with a desired network device and controls the media switch. The config device is
Search for an empty connector of the media connector,
An empty connector search circuit for instructing the media switch to connect to the empty connector;
A device information collecting circuit connected to the empty connector and collecting device information from a network device connected to the empty connector;
Manage network device information and the connection form of the network device,
A configuration information registration circuit that associates the device information collected by the device information collection circuit with a connector number;
The main wiring board according to claim 1, further comprising: a media switch control circuit that obtains connector connection information from the configuration information registration circuit and instructs the media switch to connect the connector. The device information collecting circuit includes:
After sending a device information request, if a device information request response is not received after a certain period of time,
The main wiring board according to claim 1, wherein unconnected information is notified to the empty connector search circuit. The device information collecting circuit includes:
After sending a device information request and receiving a device information request response,
The main wiring board according to any one of claims 1 to 3, wherein connection information is notified to the empty connector search circuit. The device information collecting circuit includes:
After receiving the device information notification of the network device, send a device information reception notification,
The main wiring board according to claim 1, wherein connection information is notified to the empty connector search circuit. The configuration information registration circuit includes:
When receiving the connector number and network device information from the device information collection circuit,
The main wiring board according to claim 1, wherein a table for associating the network device information with a connector number is created. The configuration information registration circuit includes:
If the network device connection is canceled,
The main wiring board according to any one of claims 1 to 6, wherein a connector number of the network device is notified to an empty connector search circuit. The empty connector search circuit is
Has an empty connector management table,
When connection information is obtained from the device information collection circuit, the connector number corresponding to the connection information is deleted from the empty connector management table,
The connection number corresponding to the connection information is registered in the connector management table when connection cancellation information is obtained from the configuration information registration circuit. Main wiring board. The media switch is
Physical switches that connect physical cables to each other, or
The main switchboard according to any one of claims 1 to 8, wherein the main switchboard is a packet switch that switches to a unit of information transmitted in a physical cable. A network device that sends a device information response upon receiving a device information request;
A media connector for connecting a connection cable of the network device;
A media switch that dynamically changes the connection between the media connectors;
Recognizing the network device connection relationship with the media connector,
A dynamic reconfiguration method in a main wiring board comprising a configuration device that determines a connection with a desired network device and controls the media switch,
The config device is
Search for an empty connector of the media connector,
Instructing the media switch to connect to the empty connector by an empty connector search circuit,
Collecting device information from the network device connected to the empty connector by the device information collecting circuit connected to the empty connector,
Manage network device information and the connection form of the network device,
Corresponding device information and connector number collected by the device information collecting circuit by the configuration information registration circuit,
A dynamic reconfiguration method characterized in that connector connection information is obtained from the configuration information registration circuit by a media switch control circuit, and a connector connection is instructed to the media switch. The device information collecting circuit includes:
After sending a device information request, if a device information request response is not received after a certain period of time,
The dynamic reconfiguration method according to claim 10, wherein unconnected information is notified to the empty connector search circuit. The device information collecting circuit includes:
After sending a device information request and receiving a device information request response,
The dynamic reconfiguration method according to claim 10 or 11, wherein connection information is notified to the empty connector search circuit. The device information collecting circuit includes:
After receiving the device information notification of the network device, send a device information reception notification,
The dynamic reconfiguration method according to any one of claims 10 to 12, wherein connection information is notified to the empty connector search circuit. The configuration information registration circuit includes:
When receiving the connector number and network device information from the device information collection circuit,
The dynamic reconfiguration method according to claim 10, wherein a table that associates the network device information with a connector number is created. The configuration information registration circuit includes:
If the network device connection is canceled,
The dynamic reconfiguration method according to claim 10, wherein the connector number of the network device is notified to an empty connector search circuit. The empty connector search circuit is
Has an empty connector management table,
When connection information is obtained from the device information collection circuit, the connector number corresponding to the connection information is deleted from the empty connector management table,
The connection number corresponding to the connection information is registered in the connector management table when the connection cancellation information is obtained from the configuration information registration circuit. Dynamic reconfiguration method.

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