JP2006174287A - Link control apparatus, high-order link control device, low-order link control device and communication system using the link control apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To switch a main line and an auxiliary line at high speed. <P>SOLUTION: The present invention relates to a link control apparatus that controls a link in a data link layer in the case of communication line fault, and comprises: a main data input/output port; an auxiliary data input/output port; and a fault detection signal input port, wherein a fault detection signal due to a voltage or reception level reduction is inputted from a media converter connected to the main data input/output port to the fault detection signal input port and transferred to an Ethernet(R) switch element via a controller, thereby instantaneously switching the line to the auxiliary data input/output port. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a device used for data communication, and relates to a link control device, an upper link control device, and a lower link control device that control a link in a data link layer when a communication line fails.

  The present invention also relates to a communication system using a link control device, and more particularly to a communication system using a link control device used for a LAN (Local Area Network) such as Ethernet (registered trademark).

  In recent years, an inter-LAN connection service that connects LANs, which are data communication networks in an office or in a home, over a wide area has attracted attention. In the wide area LAN connection service, for example, a communication service is provided by using a data link layer protocol in an OSI (Open Systems Interconnection) reference model represented by Ethernet (registered trademark). Can build an independent network. That is, a plurality of LANs distributed over a wide area can be handled as the same LAN.

  Since the wide area LAN connection service is provided mainly for business users, there is a strict demand for communication continuity. As one solution to meet such a requirement, there is a method of preparing a plurality of lines used for connection between LANs and switching to another protection line when a failure such as disconnection occurs in the main line. However, in connection between LANs, line switching must be performed in a layer below the data link layer.

  Conventionally, as a method for line redundancy in the data link layer, for example, in the first conventional example, a spanning tree protocol has been used in Ethernet (registered trademark) (for example, see Non-Patent Document 1). The spanning tree protocol is a protocol used to avoid data loops. When Ethernet (registered trademark) bridge devices constituting a network transmit messages to each other, when a network configuration change or failure occurs, it is possible to change to an appropriate configuration.

Further, as a second conventional method, a method has been proposed in which a relay server is arranged in a section where line redundancy is performed, and switching between a main line and a protection line is performed using a routing protocol (see, for example, Non-Patent Document 2). In this method, as shown in FIG. 23, the data link layer frame is transmitted between the upper wired network and the communication terminal by encapsulating the data link layer frame with the relay server in the relay server. By providing another relay server between the communication terminal 20 in FIG. 23, the optical wireless transmitter / receiver 21 and the radio wave client 22, the connection between LANs is also possible.
By Rich Seifert, translated by Akira Mamiya, “Thorough Explanation of LAN Switching,” pp.191-214, Chapter 5, Section 5.2, “Spanning Tree Protocol,” Nikkei Business Publications, Inc. International Conference, Y.Sakurai, et.al., “A study of seamless communication method with the adequate switching between optical and RF wireless LAN”, IEEE International Conference on Consumer Electronics 2003, WPM P3. 19, pp. 264-265, 17-19 June 2003.

  However, in the first conventional example, it takes several seconds to several tens of seconds from the occurrence of a line failure until the path is switched, and it is difficult to switch lines at high speed.

  In the second conventional example, as shown in FIG. 23, it is necessary to prepare a separate relay server and individually convert the IP packet format. However, due to insufficient performance of the relay server, it is not possible to convert the format of all optical wireless high-speed data packets (for example, 1 gigabit per second), and as a result, high-speed data transfer is difficult even using an optical wireless LAN. It is.

  Moreover, an appropriate method for detecting the disconnection of the optical wireless is not shown.

  In addition, when the routing table is static (fixed assignment), when the communication terminal is under the control of another access point, communication cannot be performed as it is, and dynamic routing (routing) When using (automatic table setting), for example, when OSPF (Open Shortest Path Fast) or RIP (Routing Information Protocol) is used as a routing protocol, a route change at the time of a communication line failure usually takes several tens of seconds. Switching is difficult.

  In addition, in the conventional wireless communication system, it is applicable when the relay server and the communication terminal are connected one-to-one, but the relay server and the communication terminal are connected one-to-many like a wireless LAN. If this is the case, the conventional configuration described above cannot be applied.

  The present invention has been made in view of the above points. A communication system using a link control device, an upper link control device, a lower link control device, and a link control device that can switch between a main line and a protection line at high speed. The purpose is to provide.

  FIG. 1 is a principle configuration diagram of the present invention.

The present invention (Claim 1) is an apparatus used for data communication, and is a link control apparatus that controls a link in a data link layer when a communication line fails.
The link control device 100
A data switch element 120;
A controller 130 connected to the data switch element 120;
A first data input / output port 110 connected to the data switch element 120;
A second main data input / output port 150 connected to the data switch element 120;
A second spare data input / output port 140 connected to the data switch element 120;
A failure detection signal input port 160 connected to the controller 130;
With
The data switch element 120 is
When the controller 130 receives a signal indicating that no failure has occurred in the communication line connected to the second main data input / output port 150 via the failure detection signal input port 160, the first The data input from the data input / output port 110 is transferred to the second main data input / output port 150, and the data input from the second main data input / output port 150 is transferred to the first data input / output port 150. Means for transferring to the port 110 and transferring the data input from the second spare data input / output port 140 to the first data input / output port 110;
When the controller 130 receives a signal indicating that a failure has occurred in the communication line connected to the second main data input / output port 150 via the failure detection signal input port 160, the first The data input from the data input / output port 110 is transferred to the second spare data input / output port 140, and the data input from the second spare data input / output port 140 is transferred to the first data input / output port 140. And a means for transferring to the port 110.

The present invention (Claim 2) is the link control apparatus according to Claim 1,
The data switch element 120 is
When the controller 130 receives a signal indicating that no failure has occurred in the communication line connected to the second main data input / output port 150 via the failure detection signal input port, the first Data input from the data input / output port 110 is transferred to the second main data input / output port 150 or the second spare data input / output port 140, and Means for multiplexing data input from the second spare data input / output port 140 and transferring the multiplexed data to the first data input / output port 110;
When the controller 130 receives a signal indicating that a failure has occurred in the communication line connected to the second main data input / output port 150 via the failure detection signal input port 160, the first Data input from the data input / output port 110 is transferred to the second spare data input / output port 140, and data input from the second spare data input / output port 140 is transferred to the first data input / output port 140. And a means for transferring to 110.

The present invention (Claim 3) is an apparatus used for data communication, and is a link control apparatus that controls a link in a data link layer when a communication line fails.
The link control device
A data switch element;
A controller connected to the data switch element;
A first data input / output port connected to the data switch element;
A second main data input / output port connected to the data switch element;
A second spare data input / output port connected to the data switch element;
Fault detection signal input port connected to the controller,
With
The data switch element
Data input from the first data input / output port is transferred to the second spare data input / output port, and data input from the second main data input / output port and the second spare data input / output port Means for multiplexing and transferring to the first data input / output port,
The controller
When the controller receives a signal indicating that the failure of the communication line connected to the second main data input / output port has been recovered via the failure detection signal input port, the second main data input / output port A failure recovery signal for notifying that the failure of the receiving side communication line connected to is recovered, and the failure recovery signal is sent to the second main data input / output port or the first through the data switch element. Means for outputting to two spare data input / output ports;
When the controller receives a signal indicating that a failure has occurred in the receiving communication line connected to the second main data input / output port via the failure detection signal input port, the second main data A failure occurrence signal for notifying that a failure has occurred in the receiving communication line connected to the input / output port is created, and the failure occurrence signal is sent to the second main data input / output port via the data switch element. Or means for outputting to the second spare data input / output port;
When the controller receives a failure recovery signal output from the opposing link control device via the second main data input / output port or the second spare data input / output port, the data switch element Means for controlling the data switch element so as to transfer the data addressed to the opposing link controller out of the data input from the data input / output port to the second main data input / output port;
When the controller receives a failure occurrence signal output from the opposing link control device via the second main data input / output port or the second spare data input / output port, the data switch element Means for controlling the data switch element so as to transfer data addressed to the opposing link control device out of data input from the data input / output port to the second spare data input / output port.

According to the present invention (Claim 4), in the link control device according to Claims 1 to 3,
The second main data input / output port, the second spare data input / output port, or the failure detection signal input port is
A plurality of second main data input / output ports, a plurality of second spare data input / output ports, or a plurality of failure detection signal input ports.

The present invention (Claim 5) is an apparatus used for data communication, and is an upper link control apparatus that controls a link in a data link layer when a communication line fails.
The host link control device
A data switch element;
A controller connected to the data switch element;
A first data input / output port connected to the data switch element;
A second data output port connected to the data switch element;
A third data input / output port connected to the data switch element;
With
The data switch element
Means for transferring data input from the first data input / output port to the third data input / output port and transferring data input from the third data input / output port to the first data input / output port Have
The controller
When the controller receives a failure recovery signal output from the opposing lower-level link control device via the third data input / output port, the data switch element includes the data input from the first data input / output port. Means for controlling the data switch element to transfer data addressed to the opposing lower link control device to a second data output port;
When the controller receives the failure occurrence signal output from the opposing lower link control device via the third data input / output port, the data switch element includes the data input from the first data input / output port, Means for controlling the data switch element to transfer data addressed to the opposing lower link controller to the third data input / output port;
Have

The present invention (Claim 6) is an apparatus used for data communication, and is a lower link control apparatus that controls a link in a data link layer when a communication line fails.
The lower link controller is
A data switch element;
A controller connected to the data switch element;
A first data input / output port connected to the data switch element;
A second data input port connected to the data switch element;
A third data input / output port connected to the data switch element;
Fault detection signal input port connected to the controller,
With
The data switch element
Transferring data input from the first data input / output port to the third data input / output port, and multiplexing the data input from the second data input port and the third data input / output port; Means for transferring to the first data input / output port;
The controller
When the controller receives a signal indicating that the failure of the communication line connected to the second data input port has been recovered via the failure detection signal input port, the controller is connected to the second data input port. A failure recovery signal for notifying that the failure of the communication line is recovered, and outputting the failure recovery signal to the third data input / output port via the data switch element;
When the controller receives a signal indicating that a failure has occurred in the communication line connected to the second data input port via the failure detection signal input port, the controller is connected to the second data input port. Means for generating a failure occurrence signal for notifying that a failure has occurred in a communication line, and outputting the failure occurrence signal to a third data input / output port via a data switch element.

The present invention (Claim 7) includes a data switch element,
A controller connected to the data switch element;
A first data input / output port connected to the data switch element;
A second main data input / output port connected to the data switch element;
A second spare data input / output port connected to the data switch element;
Fault detection signal input port connected to the controller,
A first link control device A and a second link control device B comprising a point-to-point communication system,
A first media converter for converting a medium for transmitting data is connected to the second main data input / output port A and the failure detection signal input port A of the first link controller A,
A second media converter for converting a medium for transmitting data is connected to the second main data input / output port B and the failure detection signal input port B of the second link controller B,
The first media converter and the second media converter are connected via a main line,
The second spare input / output ports A and B of the first link controller A and the second link controller link controller are connected via a spare line,
In the initial state of the communication system,
The data switch element A of the first link control device A is
Data input from the first data input / output port A is transferred to the second spare data input / output port A, and from the second main data input / output port A and the second spare data input / output port A. The input data is multiplexed and transferred to the first data input / output port A.
And the data switch element B of the second link control device B is
Data input from the first data input / output port B is transferred to the second spare data input / output port B, and from the second main data input / output port B and the second spare data input / output port B. By multiplexing the input data and transferring it to the first data input / output port B,
The data input to the first data input / output port A and the first data input / output port B are the data switch element A, the second spare data input / output port A, the spare line, and the second spare data input / output port. B and the data switch element B,
The controller A indicates that the reception failure of the main line connected to the first media converter has been recovered through the first media converter and the failure detection signal input port A, or that no reception failure has occurred. When a signal is received
The controller A of the first link control device A is
A failure recovery signal A for notifying that the reception failure of the main line has been recovered is created, and the failure recovery signal A is sent to the data switch element A, the second main data input / output port A, and the first media converter, And the main line, the second media converter, the second main data input / output port B, and the data switch element B, or the data switch element A and the second spare data input / output port A, and Output to the controller B of the second link control device B via the protection line, the second protection data input / output port B, and the data switch element B,
The controller B
When the failure recovery signal A is received,
Or
Receiving the failure recovery signal A, and the reception failure of the main line connected to the second media converter has been recovered or the reception failure has occurred via the second media converter and the failure detection signal input port B When receiving a signal indicating that
By controlling the data switch element B so that the data switch element B transfers the data input from the first data input / output port B to the second main data input / output port B,
The data input to the first data input / output port B includes the data switch element B, the second main data input / output port B, the second media converter, the main line, and the first media converter, and The data is transferred to the first data input / output port A via the second main data input / output port A and the data switch element A,
The controller B indicates that the reception failure of the main line connected to the second media converter has been recovered through the second media converter and the failure detection signal input port B, or no reception failure has occurred. When a signal is received
The controller B of the second link control device B is
Creating a failure recovery signal B for notifying that the reception failure of the main line has been recovered, and outputting the failure recovery signal B to the controller A of the first link control device A;
The controller A
When the failure recovery signal B is received,
Or
Receiving the failure recovery signal B and the reception failure of the main line connected to the first media converter is recovered via the first media converter and the failure detection signal input port A, or a reception failure occurs. When receiving a signal indicating that
By controlling the data switch element A so that the data switch element A transfers the data input from the first data input / output port A to the second main data input / output port A,
The data input to the first data input / output port A includes the data switch element A, the second main data input / output port A, the first media converter, the main line, and the second media converter, and Transferred to the first data input / output port B via the second main data input / output port B and the data switch element B,
When the controller A receives a signal indicating that a reception failure of the main line connected to the first media converter has occurred via the first media converter and the failure detection signal input port A,
The controller A of the first link control device A is
A failure occurrence signal A for notifying that a reception failure has occurred in the main line is created, and the failure occurrence signal A is sent to the data switch element A, the second main data input / output port A, and the first media converter, And the main line, the second media converter, the second main data input / output port B, and the data switch element B, or the data switch element A and the second spare data input / output port A, and Output to the controller B of the second link controller B via the protection line, the second protection data input / output port B, and the data switch element B,
The controller B
When the failure signal A is received, the data switch element B causes the data switch element B to transfer the data input from the first data input / output port B to the second spare data input / output port B. By controlling
Data input to the first data input / output port B includes the data switch element B, the second spare data input / output port B, the spare line, the second spare data input / output port A, and the data switch element. Transferred to the first data input / output port A via A,
When the controller B receives a signal indicating that a reception failure of the main line connected to the second media converter has occurred via the second media converter and the failure detection signal input port B,
The controller B of the second link control device B is
A failure occurrence signal B for notifying that a main line reception failure has occurred is created, and the failure occurrence signal B is transmitted to the data switch element B, the second main data input / output port B, and the second media converter, And the main line, the first media converter, the second main data input / output port A, and the data switch element A, or the data switch element B and the second spare data input / output port B, and The data is output to the controller A of the first link control device A via the protection line, the second protection data input / output port A, and the data switch element A,
The controller A
When the failure occurrence signal B is received, the data switch element A causes the data switch element A to transfer the data input from the first data input / output port A to the second spare data input / output port A. By controlling
The data input to the first data input / output port A includes the data switch element A, the second spare data input / output port A, the spare line, the second spare data input / output port B, and the data switch element. The data is transferred to the first data input / output port B via B.

The present invention (Claim 8) is a communication system using a link control device,
A data switch element;
A controller A connected to the data switch element A;
A first data input / output port A connected to the data switch element A;
A plurality of second main data input / output ports A connected to the data switch element A;
A plurality of second spare data input / output ports A connected to the data switch element A;
A plurality of failure detection signal input ports A connected to the controller A;
A first link control device A comprising:
A data switch element B;
A controller B connected to the data switch element B;
A first data input / output port B connected to the data switch element B;
A second main data input / output port B connected to the data switch element B;
A second spare data input / output port B connected to the data switch element B;
A failure detection signal input port B connected to the controller B;
A plurality of second link control devices B comprising:
The first link control device A and a plurality of second link control devices B are connected in a star shape,
Each of the plurality of second main data input / output ports A of the first link controller A is connected to a first media converter that converts a medium for transmitting data,
Each of the first media converters is connected to one of the failure detection signal input ports A,
For each of the plurality of second link control devices B, a second media converter for converting a medium for transmitting data is connected to the second main data input / output port B and the failure detection signal input port B,
One of the first media converters and one of the second media converters are connected one-to-one by the main line,
The plurality of second spare input / output ports A of the first link control device A and the second spare input / output ports B of the plurality of second link control devices B are connected to each other via a spare line or a spare network. ,
In the initial state of the communication system,
The data switch element A of the first link control device A is
Data input from the first data input / output port A is transferred to one of the plurality of second spare data input / output ports A based on the destination address information described in the data, and the plurality of second data input / output ports A The data input from the main data input / output port A and the plurality of second spare data input / output ports A are multiplexed and transferred to the first data input / output port A,
And each of the data switch elements B of the second link control device B is
Data input from the first data input / output port B is transferred to the second spare data input / output port B, and from the second main data input / output port B and the second spare data input / output port B. By multiplexing the input data and transferring it to the first data input / output port A,
Data transmitted / received between the first link control device A and the plurality of second link control devices includes the data switch element A, the second spare data input / output port A and the spare line, or the spare network and the second. Forward data input / output port B and data switch element B,
The controller A sends a signal indicating that the reception failure of the main line connected to one of the first media converters has recovered or no reception failure has occurred to the first media converter and the first media converter. When receiving via the failure detection signal input port A to which the media converter is connected,
The controller A of the first link control device A is
A failure recovery signal A for notifying that the reception failure of the main line has been recovered is created, and the failure recovery signal A is sent to the controller B of the second link control device capable of communicating via the main line. The switch element A, the second main data input / output port A to which the first media converter is connected, the first media converter, the main line, and the second connected to the main line Media converter and the second main data input / output port B to which the second media converter is connected and the data switch element B, or the data switch element A and the second spare data input / output Output via one of the ports A, the protection line, the second protection data input / output port B, and the data switch element B,
The controller B
When the failure recovery signal A is received,
Or
Receiving the failure recovery signal A, and the reception failure of the main line connected to the second media converter has been recovered or the reception failure has occurred via the second media converter and the failure detection signal input port B When receiving a signal indicating that
By controlling the data switch element B so that the data switch element B transfers the data input from the first data input / output port B to the second main data input / output port B,
The data input to the first data input / output port B includes the data switch element B, the second main data input / output port B, the second media converter, the main line, and the first media converter, and The data is transferred to the first data input / output port A via the second main data input / output port A and the data switch element A,
The controller B in any of the link control devices B has recovered the reception failure of the main line connected to the second media converter via the second media converter and the failure detection signal input port B, or received the failure. When a signal is received indicating that has not occurred,
The controller B of the second link control device B is
A failure recovery signal B for notifying that the reception failure of the main line has been recovered is created, and the failure recovery signal B is sent to the controller A of the first link control device and the data switch element B and the second main data The input / output port B, the second media converter, the main line, the first media converter, the second main data input / output port A, and the data switch element A, or the data switch element B, And the second spare data input / output port B and the spare line, and the second spare data input / output port A and the data switch element A,
The controller A
When the failure recovery signal B is received,
Or
The first medium is received via the first media converter to which the failure recovery signal B is received and the main line is connected and the failure detection signal input port A to which the first media converter is connected. When receiving a signal indicating that the reception failure of the main line connected to the converter has recovered or no reception failure has occurred,
The data switch element A sends the data addressed to the second link controller B input from the first data input / output port A to the second main data input / output port A that can communicate via the main line. By controlling the data switch element A to transfer,
The data addressed to the second link control device B input to the first data input / output port A is the data switch element A, the second main data input / output port A, the first media converter, and the main Transferred to the first data input / output port B via the line, the second media converter, the second main data input / output port B, and the data switch element B,
The controller A sends a signal indicating that a reception failure of the main line connected to one of the first media converters has occurred to the failure that the first media converter and the first media converter are connected. When received via the detection signal input port A,
The controller A of the first link control device A is
A failure occurrence signal A for notifying that a reception failure has occurred on the main line is created, and the failure occurrence signal A is sent to the controller B of the second link control apparatus capable of communicating via the main line. The switch element A, the second main data input / output port A to which the first media converter is connected, the first media converter, the main line, and the second connected to the main line Media converter and the second main data input / output port B to which the second media converter is connected and the data switch element B, or the data switch element A and the second spare data input / output Output via one of the ports A, the protection line, the second protection data input / output port B, and the data switch element B,
The controller B
When the failure occurrence signal A is received,
By controlling the data switch element B so that the data switch element B transfers the data input from the first data input / output port B to the second spare data input / output port B,
Data input to the first data input / output port B includes the data switch element B, the second spare data input / output port B, the spare line, the second spare data input / output port A, and the data switch element. Transferred to the first data input / output port A via A,
Signal indicating that the controller B in any of the link control devices B has experienced a reception failure of the main line connected to the second media converter via the second media converter and the failure detection signal input port B When you receive
The controller B of the second link control device B is
A failure occurrence signal B for notifying that a main line reception failure has occurred is created, and the failure occurrence signal B is sent to the controller A of the first link control device and the data switch element B and the second main data input. The output port B, the second media converter, the main line, the first media converter, the second main data input / output port A, and the data switch element A, or the data switch element B, and Output via the second spare data input / output port B and the spare line, the second spare data input / output port A and the data switch element A,
The controller A
When the failure occurrence signal B is received,
The data switch element A transfers the data addressed to the second link control device B input from the first data input / output port A to the second spare data input / output port A. By controlling
The data addressed to the second link control device B input to the first data input / output port A includes the data switch element A, the second spare data input / output port A, the spare line, and the second spare data. The data is transferred to the first data input / output port B via the data input / output port B and the data switch element B.

The present invention (Claim 9) is a communication system using the link control device according to Claim 7 above,
The second link control device B is a plurality of second link control devices B,
The second media converter is the same number of second media converters as the second link control device B,
The first link control device A and a plurality of second link control devices B are connected in a star shape,
A first media converter for converting a medium for transmitting data is connected to the second main data input / output port A and the failure detection signal input port A of the first link controller A,
A second media converter for converting a medium for transmitting data is connected to the second main data input / output port B and the failure detection signal input port B for each of the plurality of second link control devices B,
The main line connecting the first media converter connected to the first link control device A and the second media converter connected to each of the plurality of second link control devices B is a main network,
The second main data input / output port A of the first link control device A and the second main data input / output port B of each of the plurality of second link control devices B are the first media converter and the main network. And a second media converter,
The protection line connecting the second protection input / output port A of the first link control device A and the second protection input / output ports B of the plurality of second link control devices B is a protection network,
Controller B
When the failure recovery signal A is received,
Or
Receiving the failure recovery signal A, and the reception failure of the main network connected to the second media converter is recovered or the reception failure occurs via the second media converter and the failure detection signal input port B When receiving a signal indicating that
Of the data input from the first data input / output port B by the data switch element B, the data addressed to the link controller A that has transmitted the failure recovery signal A is sent to the second main data input / output port B. Controlling the data switch element B to transfer,
Controller A
When the failure recovery signal B is received,
Or
Receiving the failure recovery signal B, and the reception failure of the main network connected to the first media converter is recovered via the first media converter and the failure detection signal input port A, or a reception failure occurs. When receiving a signal indicating that
Of the data input from the first data input / output port A by the data switch element A, the data addressed to the link control device B that has transmitted the failure recovery signal B is sent to the second main data input / output port A. Controlling the data switch element A to transfer,
Controller B
When the failure occurrence signal A is received, the data switch element B receives the data addressed to the link controller A that has transmitted the failure recovery signal A among the data input from the first data input / output port B. Control the data switch element B to transfer to the spare data input / output port B
Controller A
When the failure occurrence signal B is received, the data switch element A receives the data addressed to the link controller B that has transmitted the failure recovery signal B out of the data input from the first data input / output port A. The data switch element A is controlled so as to be transferred to the second spare data input / output port A.

The present invention (Claim 10) is an apparatus used for data communication, and is an upper link control apparatus that controls a link in a data link layer when a communication line fails, and an apparatus used for data communication. A communication system comprising a lower link control device for controlling a link in a data link layer at the time of failure,
The host link control device A
Data switch element A;
A controller A connected to the data switch element A;
A first data input / output port A connected to the data switch element A;
A second data output port A connected to the data switch element A;
A third data input / output port A connected to the data switch element A;
With
Lower link controller B
A data switch element B;
A controller B connected to the data switch element B;
A first data input / output port B connected to the data switch element B;
A second data input port B connected to the data switch element B;
A third data input / output port B connected to the data switch element B;
A failure detection signal input port B connected to the controller B;
With
A transmitter is connected to the second data output port A of the upper link controller A,
A receiver is connected to the second data input port B of the lower link controller B,
The transmitter and receiver are connected via the main line,
The third data input / output port A of the upper link controller A and the third data input / output port B of the lower link controller B are connected via a protection line,
In the initial state of the communication system,
The data switch element A of the host link control device A is
Data input from the first data input / output port A is transferred to the third data input / output port A, and data input from the third data input / output port A is transferred to the first data input / output port A. Forward to A,
And the data switch element B of the lower link controller B is
Data input from the first data input / output port B is transferred to the third data input / output port B, and data input from the second data input port B and the third data input / output port B is transferred. Is multiplexed and transferred to the first data input / output port B,
The data input to the first data input / output port A and the first data input / output port B are the data switch element A, the third data input / output port A, the protection line, the third data input / output port B, Transferred via the data switch element B,
When the controller B receives a signal indicating that the reception failure of the main line connected to the receiver has been recovered or no reception failure has occurred via the receiver and the failure detection signal input port B,
The controller B of the lower link controller B
A failure recovery signal B for notifying that the reception failure of the main line has been recovered is created, and the failure recovery signal B is sent to the data switch element B, the third data input / output port B, the protection line, and the third line. The data is output to the controller A of the host link control device A through the data input / output port A and the data switch element A,
The controller A
When the failure recovery signal B is received, the data switch element A controls the data switch element A so as to transfer the data input from the first data input / output port A to the second data output port A. By
The data input to the first data input / output port A includes the data switch element A, the second data output port A, the transmitter, the main line, the receiver, and the second data input port B, And the data switch element B to be transferred to the first data input / output port B,
When the controller B receives a signal indicating that a reception failure of the main line connected to the receiver has occurred via the receiver and the failure detection signal input port B,
The controller B of the lower link controller B
A failure occurrence signal B for notifying that a main line reception failure has occurred is created, and the failure occurrence signal B is sent to the data switch element B, the third data input / output port B, the protection line, and the third line. The data is output to the controller A of the host link control device A through the data input / output port A and the data switch element A,
The controller A
When the failure occurrence signal B is received, the data switch element A controls the data switch element A so as to transfer the data input from the first data input / output port A to the third data input / output port A. By doing
Data input to the first data input / output port A is transmitted to the data switch element A, the third data input / output port A, the protection line, the third data input / output port B, and the data switch element B. To the first data input / output port B.

The present invention (Claim 11) is a communication system using the link control device according to Claim 10,
Lower link control device B is a plurality of lower link control devices B,
The receivers are the same number of second receivers as the lower link controller B,
The upper link control device A and a plurality of lower link control devices B are connected in a star shape,
A main that connects a transmitter connected to the second data output port A of the upper link controller A and a receiver connected to the second data input port B in each of the plurality of lower link controllers B. The line is the main network
The protection line connecting the third input / output port A of the upper link controller A and the third input / output ports B of the plurality of lower link controllers B is a protection network,
Controller A
When the failure recovery signal B is received, the data switch element A receives the data addressed to the lower link controller B that has transmitted the failure recovery signal B from the data input from the first data input / output port A. Controlling the data switch element A to transfer to the second data output port A;
Controller A
When the failure occurrence signal B is received, the data switch element A sends the data addressed to the lower link controller B that has transmitted the failure occurrence signal B out of the data input from the first data input / output port A. The data switch element A is controlled to transfer to the third data input / output port A.

  As described above, the link control device of the present invention can provide a data communication service capable of switching between a main line and a protection line at high speed.

  Further, the communication system of the present invention can provide a data communication service capable of switching between a main line and a protection line at high speed.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

[First Embodiment]
FIG. 2 shows the configuration of the link control apparatus according to the first embodiment of the present invention, and FIGS. 3 and 4 show the configuration of a communication system using the link control apparatus according to the first embodiment of the present invention. Show.

As shown in FIG. 2, each of the first and second link control devices 100 ₁ and 100 ₂ shown in FIG. pair has a first link controller 100 ₁ and the second link controller 100 _2, are connected in a one-to-one.

  2, 3, and 4, the data link layer protocol is assumed to be Ethernet (registered trademark).

  The link control device 100 shown in FIG. 2 includes a first data input / output port 110, a second main data input / output port 150, a second spare data input / output port 140, and a failure detection signal input port 160. , An Ethernet (registered trademark) switch element 120, which is a data switch element, and a controller 130.

  The first data input / output port 110 is connected to the second main data input / output port 150 and the second spare data input / output port 140 via the Ethernet (registered trademark) switch element 120.

  The failure detection signal input port 160 is connected to the controller 130, and the controller 130 is connected to the Ethernet (registered trademark) switch element 120.

  The first data input / output port 110, the second main data input / output port 150, and the second spare data input / output port 140 are ports for inputting / outputting Ethernet (registered trademark) data frames, or An interface, for example, a connector for connecting to a cable or the like, a transmission / reception device (for example, an optical transceiver) for flowing a signal through the cable, a physical layer device (generally called a PHY device, a PHY chip, etc.), etc. It may be configured.

  Since the second main data input / output port 150 is connected to a main line that is normally used, and the second spare data input / output port 140 is connected to a spare line, the second spare data input / output port is connected. The transmission speed 140 may be slower than the transmission speed of the second main data input / output port 150. Therefore, for example, the Gigabit Ethernet (registered trademark) standard “1000BASE-SX” or the like is adopted as the second main data input / output port 150, and Fast Ethernet (registered trademark) is used as the second spare data input / output port. The standard “100BASE-TX” or Ethernet (registered trademark) standard “10BASE-T” may be adopted. The present invention is not limited to the input / output port standard.

  The Ethernet (registered trademark) switch element 120 is a device that performs transfer processing of an Ethernet (registered trademark) data frame based on a destination address thereof, and may be generally referred to as a switch fabric.

  The failure detection signal input port 160 is a port for inputting a failure detection signal output from a media converter (described later in FIG. 3) connected to the second main data input / output port 150, and is connected to a cable or the like. For example, a signal conversion circuit for converting a signal input from a connector, a cable, or the like into a signal form that can be recognized by the controller 130 may be used.

  The controller 130 receives and decodes the failure detection signal input from the failure detection signal input port, and controls the Ethernet (registered trademark) switch element 120 based on the content of the failure detection signal. A CPU (Central Processing Unit) that is a circuit, a random access memory (RAM), a read only memory (ROM), a bus for connecting them, and the like may be used.

  The link control device 100 shown in FIG. 2 converts the data frame input from the first data input / output port 110 into the second main data input / output port 150 or the second data input / output port 150 based on the state of the failure detection signal. Transfer to the spare data input / output port 140. The transfer conditions will be described later.

Communication system shown in FIG. 3, the first link controller 100 _1, the second link controller 100 _2, the first media converter 300 _1, the second media converter 300 _2, modem ₂₀₀ 1, 200 composed of _two.

The first network 500 ₁ is connected to the first data input / output port 110 ₁ in the first link control apparatus 100 ₁ , and the second network 500 ₂ is the first link in the second link control apparatus 500 ₂ . It is connected to the data input-output port 110 _2. The second main data input-output port 150 ₁ of the first link controller 100 ₁ is connected to the first media converter 300 ₁ and the second main data input and output in the second link controller 100 ₂ port 150 ₂ is connected to the second media converter 300 _2. The first media converter 300 ₁ and the second media converter 300 ₂ is connected in one-to-one via a main line 600. The main line 600 for connection may be directly connected by an optical cable, for example. Alternatively, a one-to-one connection may be made wirelessly. Further, it may be a WAN (Wide-Area Network) line such as a dedicated line provided by a communication carrier. The line type for connection is not limited in the present invention.

A second preliminary data input and output ports 140 ₁ of the first link controller 100 _1, the second spare data input-output port 140 ₂ of the second link controller 100 _2, a pair through the protection line 1 Connected with. The protection line for connection may be, for example, a public network 400 such as a telephone network as shown in FIG. In that case, the second spare data input and output ports ₁₄₀ in the first and second link controller ₁₀₀ 1, 100 ₂ 1, 140 _2, if connected to the public network 400 via the modem ₂₀₀ 1, 200 ₂ Good. The line type for connection is not limited in the present invention. However, as the main line 600, it is better to use a line having a higher transmission rate than the standby line 400. This is because the spare line 400 is preferably used when the main line 600 fails, so that it is desirable that the cost for the spare line 400 be small. Usually, the price of a communication device or the cost of a communication line provided by a communication carrier increases as the transmission speed of the line increases.

The media converters 300 ₁ and 300 ₂ are devices that convert a medium for transmitting data. For example, when the main line is connected via a dedicated line provided by a communication carrier, the media converter 300 is connected to the communication medium of the second main data input / output port 150 in the link control device 100 and the dedicated line. Convert communication media. When the main line is connected via a wireless line or the like, the media converter 300 converts the communication medium of the second main data input / output port 150 in the link control apparatus 100 and the communication medium of the wireless line. .

Here, the first and second media converters 300 ₁ and 300 ₂ output a failure detection signal indicating the reception state of the main line 600 as shown in FIG. The failure detection signal output from the first media converter 300 ₁ is input to the failure detection signal input port 160 ₁ in the first link control device 100 ₁ . On the other hand, failure detection signal outputted from the second media converter 300 ₂ is input to the fault detection signal input port 160 ₂ of the second link control unit 100 _2.

The failure detection signal is a signal indicating the reception state of the main line 600 connected to the media converters 300 ₁ and 300 ₁ . The failure detection signal may be, for example, an SD signal (SD: Signal Detection) of the received signal. For example, when a normal signal is received from the main line 600 in the RX (receiving unit) in the first and second media converters 300 ₁ and 300 ₂ in FIG. It may be a signal represented by a binary voltage level so that a low level voltage is output when output is abnormal and reception is abnormal.

More specifically, for example, in the case of a main line that performs communication using light or microwave as a carrier wave, the reception level of the carrier wave is observed on the receiving side of the media converters 300 ₁ and 300 ₂ , and the reception level is a reference value (for example, The value obtained by adding a margin to the minimum reception sensitivity) may be regarded as “normally received”, and the case where the value is below the reference value may be designated as “reception is abnormal”.

Note that when the SD signal is used as a failure detection signal, actually, the state of the reception line is merely monitored (the state of the transmission line is not known by the media converter). That is, the link control devices 100 ₁ and 100 ₂ can only know the state of the reception line. Therefore, the following two methods will be described as methods by which the link control devices 100 ₁ and 100 ₂ detect the state of the main line. Further, how the link control devices 100 ₁ and 100 ₂ transfer the data frame to the main line 600 or the protection line 400 will be described below for each detection method. Method 1:
When a failure occurs on the receiving line, the entire main line is regarded as a failure.

The line failure is assumed to be, for example, disconnection of a line or failure of a transmission device interposed in the middle of the line. Therefore, if the main line 600 is one-core bidirectional, or, if they are laid in the same route in two-core, as the main line 600 shown in FIG. 3, the first media converter 300 receives the ₁ line ( 3, when the main line for the second media converter 300 ₂ to the first media converter 300 ₁₎ fails, the transmission line (Fig. 3 at the same time, a second media from the first media converter 300 ₁ is considered the main line) is also failure towards to the converter 300 _2. Therefore, when a failure occurs in the reception line of the main line 600, the link control apparatus 100 regards the entire main line 600 as a failure and switches to communication using the protection line 400.

Specifically, the link control devices 100 ₁ and 100 ₂ may operate as follows.

  In the link control apparatus 100 of FIG. 2, immediately after startup, and when a failure detection signal indicating that a failure has occurred in the main line is input via the failure detection signal input port 160, the controller 130 detects the failure detection signal. The Ethernet (registered trademark) switch element 120 transfers the data input from the first data input / output port 110 to the second spare data input / output port 140, and the second spare data input / output port 140 is transferred. The input data is set to be transferred to the first data input / output port 110. That is, the Ethernet (registered trademark) switch element 120 is set by the controller 130 so that the link control apparatus 100 uses the protection line.

  2 receives a failure detection signal indicating that a failure has not occurred in the main line via the failure detection signal input port 160, the controller 130 decodes the failure detection signal. , The Ethernet (registered trademark) element 120 transfers the data input from the first data input / output port 110 to the second main data input / output port 150, and the data input from the second main data input / output port 150. Is transferred to the first data input / output port 110 by the controller 130. Alternatively, the second main data input / output port 150 and the second spare data input / output port 140 may be multiplexed and transferred to the first data input / output port 110. In this case, all data frames are transmitted on the main line.

  Alternatively, the controller 130 transfers the data input from the first data input / output port 110 to the second main data input / output port 150 or the second spare data input / output port 140, and Data input from the main data input / output port 150 and the second spare data input / output port 140 may be multiplexed and transferred to the first data input / output port 110. In this case, the data frame is transmitted using the main line 600 and the protection line 400 simultaneously. However, duplication of data frames must be avoided, and the same frame must not be simultaneously sent to the main line 600 and the protection line 400.

・ Method 2:
When a failure occurs in the receiving line, a control signal is used to advertise to the opposite link control device.

As shown in FIG. 4, the main line 650 is a two-core, when it is laid on different paths, in the receiving line (FIG. 4 in the first media converter 300 _1, the second media converter 300 ₂ first even the main line 650 towards the media converter 300 ₁₎ fails, the transmission line (Fig. 4, and directed from the first media converter 300 ₁ to the second media converter 300 ₂ main line) has failed Not necessarily thought. Therefore, when a failure occurs in the reception line on the main line 650, the first and second link control apparatuses 100 receive the received signal on the opposite link control apparatus 100 (that is, the transmission side of the reception line) using a control signal. Notify that the line has failed.

  Specifically, the following may be performed.

(1) Communication start operation via protection line:
FIG. 5 is a flowchart of the operation (1) of the link control device according to the first embodiment of the present invention.

  The link control device 100 shown in FIG. 2 is activated (step 101).

  In the link control apparatus 100, the controller 130 immediately transfers the Ethernet (registered trademark) switch element 120 so that the data input through the first input / output port 110 is transferred to the second spare data input / output port 140. (Step 102). Alternatively, the data input from the second main data input / output port 150 and the second spare data input / output port 140 may be multiplexed and transferred to the first data input / output port 110.

Thereby, the first and second link control apparatuses 100 ₁ and 100 ₂ shown in FIG. 4 start communication via the protection line 400 (step 103).

(2) Communication operation via protection line:
FIG. 6 is a flowchart of the operation (2) of the link control device according to the first embodiment of the present invention.

When the link control apparatus 100 is activated (step 110) and no signal is input to the failure detection signal input port 160 (step 111, No), the Ethernet (registered trademark) switch element 120 operates as described in (1) above. (Step 112). That is, communication is performed between the link control device 100 ₂ and the link control device 100 ₁ using the protection line 400.

(3) Operation when the receiving circuit of the main line 500 is abnormal:
FIG. 7 is a flowchart of the operation (3) of the link control device according to the first embodiment of the present invention.

When the link control apparatus 100 is activated (step 120) and the reception line of the main line 600 is abnormal (step 121, Yes), the fault detection signal input port 160 of the link control apparatuses 100 ₁ and 100 ₂ from the media converter 300 is used. _1, 160 towards the _2, fault detection signal indicating that the main line 600 has failed is output (step 122).

The failure detection signal is received and decoded by the controllers 130 ₁ and 130 ₂ via the failure detection signal input ports 160 ₁ and 160 ₂ (step 123). Thereby, the controllers 130 ₁ and 130 ₂ of the link control apparatus 100 know that the reception line in the main line 600 is abnormal. In this case, the Ethernet (registered trademark) switch elements 120 ₁ and 120 ₂ continue the operation of step 102.

(4) Operation when the receiving line of the main line 600 is normal:
FIG. 8 is a flowchart of the operation (4) of the link control device according to the first embodiment of the present invention. Hereinafter, in FIG. 4, illustrating the link control device which faces the link controller 100 ₁ as the link controller 100 _2.

After starting (step 130), if the reception line of the main line 600 is normal, toward the failure detection signal input port 160 ₁ of the link controller 100 ₁ from the media converter 300 _1, is a failure in the reception line of the main line 600 A failure detection signal indicating that it has not occurred is output (step 131). The failure detection signal is received and decoded by the controller 130 ₁ via the failure detection signal input port 160 ₁ (step 132). Thereby, the controller 130 ₁ of the link control device 100 ₁ knows that the reception line in the main line 600 is normal. To notify the link control unit 100 ₂ facing this information, the controller 130 _1, the receiving-side main line connected to the first media converter 300 ₁ is a control signal for notifying a normal "Failure create a restoration signal "(step 133), the failure recovery signal via the Ethernet switch element 120 ₁ and outputs the second to the spare data input and output ports 140 ₁ (step 134).

  The failure recovery signal is preferably equivalent to an Ethernet (registered trademark) frame format. That is, the first 6-byte destination MAC address, the subsequent 6 bytes indicate the MAC address (source MAC address) of the local station, and the subsequent 2 bytes indicate the type (or length), followed by data.

The above failure recovery signal, from the second preliminary data input and output ports 140 _1, the input of the link controller 100 ₂ opposed through the protection channel 400 second to the spare data input-output port 140 _2, Ethernet (registered R) is inputted to the switching element 120 ₂ (step 135). Ethernet switch element 120 _2, from the destination address of the fault recovery signal, the fault recovery signal detects that a signal addressed to its own link controller, and transfers the fault recovery signal to the controller 130 ₂ ( Step 136).

The controller 130 ₂ receives the failure recovery signal, decrypted, Ethernet switch element 120 _2, the data input from the first data input port 110 _2, the second main data input and output ports to forward to _1502, and sets the Ethernet switch element 120 _2.

The controller 130 _2, the second main data input-output port 150 ₂ data input from, to forward first to the data output port 110 _2, sets the Ethernet switch element 120 ₂ (Step 137).

In Step 137 above, the controller 130 ₂ receives the failure recovery signal refers to the link control unit 100 ₂ of the fault detection signal input port 160 _2, if the received access in the media converter 300 ₂ is normal, the first the data input from the data input-output port 110 _2, to transfer the second to the main data input port 150 _2, the Ethernet may be set (registered trademark) switching element 120 _2. In the above description, the failure recovery signal is transferred using the protection line, but may be transferred using the second main data input / output port 150 and the main line 600.

Incidentally, the same operation as the link controller 100 ₂ is also independently. Thus, an embodiment in which the main line 600 is used only in one direction is possible.

(5) Operation when the receiving line of the main line 600 is abnormal and returns to a normal state:
When the link control apparatus 100 returns to a normal state after the reception line of the main line 600 is abnormal, the link control apparatus 100 performs the same processing as the above (4).

(6) Operation when the receiving line of the main line 600 is normal to transition to an abnormal state:
FIG. 9 is a sequence chart of operation (6) of the link control device according to the first embodiment of the present invention. In the following, a link control unit for generating a failure signal, the first link controller 100 ₁ in FIG. 4, illustrating the opposed link control device as a second link control unit 100 _2.

A failure detection signal indicating that a failure has occurred in the reception line of the main line 600 is output from the media converter 300 ₁ to the failure detection signal input port 160 ₁ of the link control device 100 ₁ (step 140). The failure detection signal is received and decoded by the controller 130 ₁ via the failure detection signal input port 160 ₁ (step 141). Thereby, the controller 130 ₁ of the link control device 100 ₁ knows that the reception line in the main line 600 is abnormal. The controller 130 ₁ is a control signal for notifying that the receiving main line connected to the second main data input / output port 150 ₁ is abnormal in order to notify this information to the link control apparatus 100 ₂ facing the information. It generates a "failure signal" (step 142), the failure signal via the Ethernet (registered trademark) devices 120 ₁ and outputs the second to the spare data input and output ports 140 ₁ (step 143).

  The failure occurrence signal is preferably equivalent to the Ethernet (registered trademark) frame format, similarly to the failure recovery signal.

Failure signal, the second auxiliary data input and output ports 140 _1, the input of the link controller 100 ₂ opposed through the protection channel 400 second to the spare data input-output port 140 _2, Ethernet (registered trademark) inputted to the switch element 120 ₂ (step 144).

Ethernet switch element 120 _2, from the destination address of the fault recovery signal, detects that failure occurrence signal is its own link controller 100 ₂ addressed, and transfers the failure signal to the controller 130 ₂ (step 145 ). Receiving a failure occurrence signal, the controller 130 ₂ of decoding the Ethernet switch element 120 _2, it has been a data input from the first data input port 110 _2, the second preliminary data input and output ports to forward Ethernet setting the switching element 120 ₂ (step 146). Further, data inputted from the second main data input-output port 150 ₂ may be transferred first to the data input-output port 110 _2. Alternatively, it may be discarded. This state is the same as the operation in step 102 described above.

Incidentally, the same operation as the links controller 100 ₁ independently.

In FIG. 4, if the bidirectional link of the main line 600 has a failure at the same time, the first link controller 100 ₁ and the second link controller 100 ₂ may be performed above operation simultaneously. In the above description, the failure recovery signal is transferred using the protection line, but may be transferred using the second main data input / output port 150 and the main line 600.

[Second Embodiment]
In the present embodiment, an example will be described in which the first link control device 100 and n link control devices are connected, and Ethernet (registered trademark) is used as a data link layer protocol.

  FIG. 10 is a configuration diagram of a communication system using the link control device according to the second embodiment of the present invention.

In the figure, the first link control device 100 ₁ has a one-to-many configuration in which a plurality of link control devices (second link control device 100 ₂ , third link control device 100 ₃ ) are connected. .

The link control devices 100 ₂ and 100 ₃ shown in the figure include a media converter 300 ₁ connected to the link control device 100 ₁ and a main network 700 such as a wide area Ethernet (registered trademark) network by the media converters 300 ₂ and 300 _3. Connected through.

  Each link control device has the same configuration as shown in FIG.

  In the communication system shown in FIG. 10, the second main data input / output ports 150 are connected in a one-to-many manner via a network 700 serving as the main line, and the second spare data input / output ports 140 are connected to the standby line. This is different from the first embodiment described above in that it is connected via the network 400. That is, only the architectural differences of the systems. The processing of (1), (4), and (6) in the first embodiment is different for the exchange of a failure detection signal, a control signal, and the like. Only different operations will be described below.

  The operation in the second embodiment will be described below.

(1) Communication start operation via protection line:
The link control devices 100 ₁ , 100 ₂ and 100 ₃ shown in FIG. 10 are activated (step 201).

The link control device 100 ₁ multiplexes the data input from the second main data input / output port 150 ₁ and the second spare data input / output port 160 ₁ immediately after startup, and sends the multiplexed data to the first data input / output port 110 ₁ . Ethernet to be transferred (R) to set the switching element 120 ₁ (step 202). The first and second link control apparatuses 100 ₁ and 100 ₂ and the third link control apparatus 100 ₃ shown in FIG. 10 start communication via the protection line 400 (step 203).

(4) Operation when the receiving line of the main line 600 is normal:
FIG. 12 is a flowchart of the operation (4) of the link control device in the second embodiment of the present invention. Hereinafter, in FIG. 10, but illustrating the link control device which faces the link controller 100 ₁ as the link controller 100 _2, the link control unit 100 ₃ performs the same operation as the link control unit 100 _2.

In the link control device 100 ₁ , after starting (step 230), when the reception line of the main line 600 is normal, the main line is directed from the media converter 300 ₁ to the failure detection signal input port 160 ₁ of the link control device 100 _1. A failure detection signal indicating that no failure has occurred in the 600 reception lines is output (step 231). The failure detection signal is received and decoded by the controller 130 ₁ via the failure detection signal input port 160 ₁ (step 232). Thereby, the controller 130 ₁ of the link control device 100 ₁ knows that the reception line in the main line 600 is normal. To notify the link control unit 100 ₂ facing this information, the controller 130 _1, the receiving-side main line connected to the media converter 300 ₁ is a control signal for notifying a normal "fault recovery signal" create a (step 233), the failure recovery signal via the Ethernet switch element 120 ₁ and outputs the second to the spare data input and output ports 140 ₁ (step 234).

The destination MAC address in this case Ethernet fault recovery signal used in the switch element 120 _1, a broadcast address or, it may be a multicast address.

The above failure recovery signal, from the second preliminary data input and output ports 140 _1, the input of the link controller 100 ₂ opposed through the protection channel 400 second to the spare data input-output port 140 _2, Ethernet (registered R) is inputted to the switching element 120 ₂ (step 235). Ethernet switch element 120 _2, from the destination address of the fault recovery signal, the fault recovery signal detects that a signal addressed to its own link controller, and transfers the fault recovery signal to the controller 130 ₂ ( Step 236).

The controller 130 ₂ receives the failure recovery signal, decodes, Ethernet switch element 120 ₂ is, among the data inputted from the first data input port 110 _2, and transmits the fault recovery signal only data link controller 100 ₁ addressed, to transfer the second in the main data input port 150 _2, and sets the Ethernet switch element 120 _2.

The controller 130 _2, the second main data input-output port 150 ₂ data input from, to forward first to the data output port 110 _2, sets the Ethernet switch element 120 ₂ (Step 237).

  In the above description, the failure recovery signal is transferred using the protection line 400, but may be transferred using the main network 700.

(6) Operation when the main line 600 is normal and transitions to an abnormal state:
In the following, a link control unit for generating a failure signal, the first and the link controller 100 _1, illustrating the opposed link control device as a second link control unit 100 _2, the third link controller 100 ₃ performs the same operation as the second link control unit 100 _2.

  Further, this operation is different from the sequence chart in FIG. 9 shown in the first embodiment described above only in the operation of the opposite link control device in step 146, and only this portion will be described.

The controller 130 ₂ that receives and decodes the failure occurrence signal via the protection line 400 causes the Ethernet (registered trademark) switch element 120 ₂ to generate a failure among the data input from the first data input / output port 110 _2. only the data of the transmitted link controller 100 ₁ addressed signal, to forward second to preliminary data input and output ports 140 _2, Ethernet (registered trademark) to set the switching element 120 ₂ (step 146).

  Note that in the Ethernet (registered trademark) element 120, as means for knowing the link control device that has transmitted the failure occurrence / recovery signal, the source MAC address of the signal may be referred to.

[Third Embodiment]
FIG. 13 is a configuration diagram of the link control device according to the third embodiment of the present invention. FIG. 14 shows a configuration of a communication system using the link control device according to the third embodiment of the present invention. The link control apparatus 100 shown in FIG. 13 has a plurality of pairs of second main data input / output ports 150 and second spare data input / output ports 140, and also has a plurality of failure detection signal input ports 160. In the communication system shown in FIG. 14, the first link control device 100 ₁ -the second link control device 100 ₂ and the first link control device 100 ₁ -the third link control device 100 ₃ are a pair. 1 is connected in a star configuration.

In the example of FIG. 14, the first link controller 100 ₁ second link control unit 100 _2, the third link controller 100 ₃ indicates an example that is connected, the first link controller 100 _The maximum number of link control devices connected to ₁ is the same as the number of second main data input / output ports 150.

  In FIGS. 13 and 14, the data link layer protocol is Ethernet (registered trademark).

  The link control apparatus 100 shown in FIG. 13 includes the first data input / output port 110, the plurality of second main data input / output ports 150, and the same number of second spare data as the second main data input / output ports 150. The input / output port 140, the same number of failure detection signal input ports 160 as the second main data input / output port 150, an Ethernet (registered trademark) switch element 120 as a data switch element, and a controller 130 are configured.

  The first data input / output port 110 is connected to the plurality of second main data input / output ports 150 and the plurality of second spare data input / output ports 140 via the Ethernet (registered trademark) switch element 120. The plurality of failure detection signal input ports 160 are connected to the controller 130, and the controller 130 is connected to the Ethernet (registered trademark) switch element 120.

  Examples of each device / port are the same as those in the first embodiment.

In the third embodiment, the first link controller 100 _1, the second main data input-output port 150, a second spare data input and output ports 140 are multiple, and these ports, the first the second, third, which is connected to the link control unit 100 _1, ..., a second main data input-output port 150 in the link controller of the N, connected to the second preliminary data input and output ports 140 are respectively one-to-one Is done. That is, the architecture of the communication system is a star configuration.

Operation, an operation of the shown in the first embodiment described above (1) to (6), the first link controller 100 ₁ and the second link controller 100 _2, the first link controller 100 ₁ and the third link control device 100 ₃ , the first link control device 100 ₁ and the Nth link control device 100 _N are independently performed, and the contents thereof are the same as in the first embodiment. It is.

For example, when the first link controller 100 ₁ and the communication between the second link controller 100 _2, the first link controller 100 ₁ Ethernet switch element 120 _1, the first data of the data inputted from the input-output port 110 _1, the data of the second link control unit 100 ₂ destined, the second link control unit 100 ₂ and connected to the main data input and output ports 150 ₁ and, preliminary data entry set to forward to the output port 140 _1. This operation is the same as that of a general switching hub.

Incidentally, a plurality of second auxiliary data input and output ports 140 in the first link controller 100 _1, as shown in FIG. 15, may be constituted by one common preliminary data input and output ports 170. Communication system that time, the common pre-data output port 170 and each link controller ₁₀₀ 2, 100 ₃ of the second auxiliary data input-output port ₁₄₀ 2, 140 ₃ modem ₂₀₀ 2 as shown in FIG. 16, 200 ₃ is connected. In this case, it is not necessary to prepare a plurality of backup lines 400, and an economical communication system or link control device can be provided.

Furthermore, fault detection signal input port 160 ₁ of the first link controller 100 _1, as shown in FIG. 17, may be a common fault detection signal input port 180. In this case, in order to identify which media converter 300 outputs the failure detection signal input to the common failure detection signal input port that can be provided by the link control device, for example, the failure detection signal is modulated into the failure detection signal. And the identifier of the media converter may be embedded in the modulated signal.

  The second main data input / output port, the second spare data input / output port, and the failure detection signal input port may be combined in different numbers.

[Fourth Embodiment]
FIG. 18 shows the configuration of the upper and lower link control apparatuses in the fourth embodiment of the present invention. FIG. 19 shows a configuration of a communication system using the link control device according to the fourth embodiment of the present invention, which is an example using the link control device shown in FIG.

  In the present embodiment, the upper link control apparatus 100A is connected to the second data output port 112A that connects a high-speed downlink (link for transferring data from the upper link control apparatus to the lower link control apparatus) and bidirectionally. The lower link control device 100B has a pair of third data input / output ports 113A for connecting links, and the lower link control device 100B connects third data input ports 114B for connecting high-speed downlinks and third data for connecting bidirectional links. A pair of input / output ports 113B and a failure detection signal input port 160B are provided, and the upper link control device 100A and the lower link control device 100B are connected one to one.

  Thus, a line providing a high-speed downlink can be used as an access line used for Internet connection, for example. Actually, lines such as ADSL (Asynchronous Digital Subscriber Line) are used that have a higher data transfer speed than that of the uplink. This is because a server / client type application is often used as a general usage of the Internet, and therefore, downstream traffic tends to be larger than upstream. In FIG. 18 and FIG. 19, the data link layer protocol is assumed to be Ethernet (registered trademark).

  Examples of each device / port are the same as those in the first embodiment. However, the second data output port can only output data, and the second data input port can only receive data. Further, since the upper link control apparatus does not receive a high-speed downlink, there is no failure detection signal input port.

  As an operation, since the main line in the first embodiment described above is a downlink-only line, the reception of the failure detection signal and the generation of the control signal are performed only by the lower link control apparatus 100B.

  Hereinafter, communication between the upper link control apparatus 100A and the lower link control apparatus 100B will be described based on the operations (1) to (6) in the first embodiment described above.

(1) Communication start operation via protection line:
The upper link control device 100A and the lower link control device 100B are activated.

  In the host link control apparatus 100A, immediately after the activation, the controller 130A transfers the data input from the first data input / output port 111A to the third data input / output port 113A through the Ethernet (registered trademark) switch element 120A. Set as follows. Alternatively, the data input from the third data input / output port 113A may be set to be transferred to the first data input / output port 111A. In the lower link control apparatus 100B, the controller 130B sets the Ethernet (registered trademark) switch element 120B so as to transfer the data input from the first input / output port A111B to the third data input / output port 113B. . Alternatively, the data input from the second data input port 114B and the third data input / output port 113B is multiplexed and transferred to the first input / output port 111B.

  As a result, communication between the upper link control device 100A and the lower link control device 100B is started via the protection line 400.

(2) Communication operation via protection line:
When the lower link control device 100B is not activated and no signal is input to the failure detection signal input port 160B, the Ethernet (registered trademark) switch elements 120A and 120B continue the operation (1). That is, the lower link control apparatus 100B communicates with the upper link control apparatus 100A using the protection line 400.

(3) Operation when the downlink is abnormal:
The lower link control apparatus 100B outputs a failure detection signal indicating that a downlink reception failure has occurred at the failure detection signal input port 160B via the receiver 360 when a downlink failure occurs after startup. .

  The fault detection signal is received and decoded by the controller 130B via the fault detection signal input port 160B. Thereby, the controller 130B of the lower link control apparatus 100B knows that there is a downlink reception failure. In this case, the Ethernet (registered trademark) switch elements 120A and 120B continue the operation of (2).

(4) Operation when the receiving line of the main line 600 is normal:
FIG. 20 is a sequence chart of the operation (4) in the fourth embodiment of the present invention.

  After the activation (step 430), when the downlink reception is normal, the lower link control apparatus 100B has a downlink reception failure from the receiver 360 toward the failure detection signal input port 160B of the lower link control apparatus 100B. A failure detection signal indicating that no occurrence has occurred is output (step 431). The failure detection signal is received and decoded by the controller 130B via the failure detection signal input port 160B (step 432). Thereby, the controller 130B of the lower link control apparatus 100B knows that the downlink reception is normal. In order to notify this information to the upper link control apparatus 100A, the controller 130B generates a “failure recovery signal” that is a control signal notifying that reception of the downlink is normal (step 433), and the failure recovery signal Is output to the third data input / output port 113B via the Ethernet (registered trademark) switch element 120B (step 434).

  The failure recovery signal is input from the third data input / output port 113B to the third data input / output port 113A of the upper link control apparatus 100A via the protection line 400, and is input to the Ethernet (registered trademark) switch element 120A. Input (step 435). The Ethernet (registered trademark) switch element 120A detects from the destination address of the failure recovery signal that the failure recovery signal is a signal addressed to its own link control device, and transfers the failure recovery signal to the controller 130A (step 436). ).

  The controller 130A receives and decodes the failure recovery signal, and the Ethernet (registered trademark) switch element 120A transfers the data input from the first data input / output port 111A to the second data output port 112A. Then, the Ethernet (registered trademark) switch element 120A is set (step 437).

  In addition, the controller 130A of the host link control apparatus 100A distributes the data input from the first data input / output port 110A to the second data output port 112A and the third data input / output port 113A for transfer. The Ethernet (registered trademark) switch element 120A may be set.

(5) Operation when the downlink is abnormal and then returns to normal:
The link control apparatuses 100A and 100B perform the same processing as (4) above when the downlink is abnormal and then returns to a normal state.

(6) Operation when transitioning to an abnormal state from when the downlink is normal:
FIG. 21 is a sequence chart of the operation (6) in the fourth embodiment of the present invention.

  A failure detection signal indicating that a reception failure has occurred in the downlink is output from the receiver 360 toward the failure detection signal input port 160B of the lower link control apparatus 100B (step 440). The failure detection signal is received and decoded by the controller 130B via the failure detection signal input port 160B of the lower link control apparatus 100B (step 441). Thereby, the controller 130B of the lower link control apparatus 100B knows that the reception of the downlink is abnormal. In order to notify this information to the upper link control apparatus 100A, the controller 130B generates a “failure occurrence signal” that is a control signal notifying that the reception of the downlink is abnormal (step 442), and transmits the failure occurrence signal. The data is output to the third data input / output port 113B via the Ethernet (registered trademark) element 120B (step 443).

  The failure occurrence signal is input from the second data input / output port 113B to the third data input / output port 113A of the upper link control apparatus 100A via the protection line 400 and input to the Ethernet (registered trademark) switch element 120A. (Step 444).

  The Ethernet (registered trademark) switch element 120A of the host link control device 100A detects that the failure occurrence signal is addressed to the own link control device 100 from the destination address of the lifetime occurrence signal, and transfers the failure occurrence signal to the controller 130A ( Step 445). The controller 130A that receives and decodes the failure occurrence signal causes the Ethernet (registered trademark) switch element 120A to transfer the data input from the first data input / output port 110A to the third data input / output port 113A. The Ethernet (registered trademark) switch element 120A is set (step 446).

[Fifth Embodiment]
The communication system shown in FIG. 22 has a one-to-many configuration in which a plurality of lower link control devices 100B and 100C are connected to the upper link control device 100A.

The second data output port 112 of the upper link control apparatus 100A shown in the figure is connected to the transmitter 350, and the second data input ports 114 of the lower link control apparatuses 100B and 100C are respectively connected to the receiver 360 _1. , it is connected to the 360 _2. The transmitter 350 and each of the receivers 360 ₁ and 360 ₂ are connected via a main network 800 that can transfer data only in one direction (direction from the upper link control device 100A to the lower link control devices 100B and 100C). Yes.

Note that, as shown in FIG. 22, the main network 800 may be a network including an optical fiber as a transmission path and a splitter as a branching unit. In this case, the optical signal transmitted from the transmitter 350 is branched into a plurality of signals by the splitter, and the signal having the same content reaches each of the receivers 360 ₁ and 360 ₂ . In the figure, the data link layer protocol is assumed to be Ethernet (registered trademark).

  In the present embodiment, as in the second embodiment described above, the upper link controller and the lower link controller are connected in a one-to-many manner. Data transferred to the high-speed downlink is selectively transferred in the Ethernet (registered trademark) switch element 120A. That is, in addition to the operations of FIGS. 20 and 21 in the fourth embodiment described above, the upper link control device 100A correctly receives the failure recovery signal from either of the lower link control devices 100B and 100C. In this case, the Ethernet (registered trademark) switch element 120A of the upper link control apparatus 100A selects only the data addressed to the lower link control apparatuses 100B and 100C and transfers it to the second data output port 112A. The data is transferred to one of the lower link control apparatuses 100B and 100C via the network 800. The same processing is performed when a failure occurrence signal is received.

When a splitter is used for the main network 800, for example, data addressed to the lower link control apparatus 100B is also transferred to the lower link control apparatus 100C. In this case, data other than those addressed to the own lower-level link control device and the second to third networks 500 ₂ and 500 ₃ connected thereto are discarded by the Ethernet (registered trademark) switch elements 120 ₂ and 120 ₃ . It may be set so that.

  The present invention is not limited to the above-described embodiment, and various modifications and applications can be made within the scope of the claims.

  The present invention can be applied to a link control device used for data communication and controlling a link in a data link layer when a communication line failure occurs.

It is a principle block diagram of this invention. It is a block diagram of the link control apparatus in the 1st Embodiment of this invention. It is a block diagram (the 1) of the communication system using the link control apparatus in the 1st Embodiment of this invention. It is a block diagram (the 2) of the communication system using the link control apparatus in the 1st Embodiment of this invention. It is a flowchart of operation | movement (1) of the link control apparatus in the 1st Embodiment of this invention. It is a flowchart of operation | movement (2) of the link control apparatus in the 1st Embodiment of this invention. It is a flowchart of operation | movement (3) of the link control apparatus in the 1st Embodiment of this invention. It is a sequence chart of operation | movement (4) of the link control apparatus in the 1st Embodiment of this invention. It is a sequence chart of operation | movement (6) of the link control apparatus in the 1st Embodiment of this invention. It is a block diagram of a communication system using the link control apparatus in the 2nd Embodiment of this invention. It is a flowchart of operation | movement (1) of the link control apparatus in the 2nd Embodiment of this invention. It is a sequence chart of operation | movement (4) of the link control apparatus in the 2nd Embodiment of this invention. It is a block diagram of the link control apparatus in the 3rd Embodiment of this invention. It is a block diagram (the 1) of the communication system using the link control apparatus in the 3rd Embodiment of this invention. It is a structural example using the common spare data input / output port in the high-order link control apparatus in the 3rd Embodiment of this invention. It is a block diagram (the 2) of the communication system in the 3rd Embodiment of this invention. It is a structural example using the common failure detection signal input port in the high-order link control apparatus in the 3rd Embodiment of this invention. It is a block diagram of the high-order and low-order link control apparatus in the 4th Embodiment of this invention. It is a block diagram of the communication system in the 4th Embodiment of this invention. It is a sequence chart of the operation | movement (4) in the 4th Embodiment of this invention. It is a sequence chart of the operation | movement (6) in the 4th Embodiment of this invention. It is a block diagram of the communication system in the 5th Embodiment of this invention. It is a figure explaining the structure of the conventional radio | wireless communications system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Upper wired network 11 Relay server 12 Optical wireless transmission / reception apparatus 13 Radio wave access point 20 Communication terminal 21 Optical wireless transmission / reception apparatus 22 Radio wave wireless client 100 Link control apparatus, 1st link control apparatus, 2nd link control apparatus 100A Control device 100B Lower link control device 110 First data input / output port 111 First data input / output port 113 Third data input / output port 112 Second data output port 114 Second data input port 120 Data switch element, Ethernet switch element 130 Controller 140 Second spare data input / output port 150 Second main data input / output port 160 Fault detection signal input port 170 Common spare data input / output port 180 Common fault detection signal input port 20 0 modem 300 first media converter, second media converter, media converter 350 transmitter 360 receiver 400 protection line (public network)
500 1st network, 2nd network, 3rd network 600 Main line 650 Main line 700 Main line (Wide area Ethernet (registered trademark) network)
800 Main network

Claims (11)

A device used for data communication, a link control device for controlling a link in the data link layer when a communication line failure occurs,
The link control device
A data switch element;
A controller connected to the data switch element;
A first data input / output port connected to the data switch element;
A second main data input / output port connected to the data switch element;
A second spare data input / output port connected to the data switch element;
A failure detection signal input port connected to the controller;
With
The data switch element is
When the controller receives a signal indicating that no failure has occurred in the communication line connected to the second main data input / output port via the failure detection signal input port, the first Data input from one data input / output port is transferred to the second main data input / output port, and data input from the second main data input / output port is transferred to the first data input / output port. And transferring the data input from the second spare data input / output port to the first data input / output port;
When the controller receives a signal indicating that a failure has occurred in the communication line connected to the second main data input / output port via the failure detection signal input port; Data input from one data input / output port is transferred to the second spare data input / output port, and data input from the second spare data input / output port is transferred to the first data input / output port. Means to transfer to,
A link control device comprising: The data switch element is
When the controller receives a signal indicating that no failure has occurred in the communication line connected to the second main data input / output port via the failure detection signal input port, the first The data input from one data input / output port is transferred to the second main data input / output port or the second spare data input / output port, and the second main data input / output port and the second main data input / output port Means for multiplexing data input from the second spare data input / output port and transferring the multiplexed data to the first data input / output port;
When the controller receives a signal indicating that a failure has occurred in the communication line connected to the second main data input / output port via the failure detection signal input port, the first Data input from the data input / output port is transferred to the second spare data input / output port, and data input from the second spare data input / output port is transferred to the first data input / output port. The link control apparatus according to claim 1, further comprising: A device used for data communication, a link control device for controlling a link in the data link layer when a communication line failure occurs,
The link control device
A data switch element;
A controller connected to the data switch element;
A first data input / output port connected to the data switch element;
A second main data input / output port connected to the data switch element;
A second spare data input / output port connected to the data switch element;
A failure detection signal input port connected to the controller;
With
The data switch element is
Data input from the first data input / output port is transferred to the second spare data input / output port, and input from the second main data input / output port and the second spare data input / output port. Means for multiplexing the transferred data and transferring it to the first data input / output port;
The controller is
When the controller receives a signal indicating that the failure of the communication line connected to the second main data input / output port has been recovered via the failure detection signal input port, the second main data input A failure recovery signal for notifying that the failure of the receiving communication line connected to the output port has been recovered is created, and the failure recovery signal is sent to the second main data input / output port via the data switch element. Or means for outputting to the second spare data input / output port;
When the controller receives a signal indicating that a failure has occurred in the receiving communication line connected to the second main data input / output port via the failure detection signal input port, the second A failure occurrence signal for notifying that a failure has occurred in the reception side communication line connected to the main data input / output port is created, and the failure occurrence signal is sent to the second main data via the data switch element. Means for outputting to the input / output port or the second spare data input / output port;
When the controller receives a failure recovery signal output from the opposing link control device via the second main data input / output port or the second spare data input / output port, the data switch element Means for controlling the data switch element to transfer the data addressed to the opposing link control device among the data input from the first data input / output port to the second main data input / output port;
When the controller receives the failure occurrence signal output from the opposing link control device via the second main data input / output port or the second spare data input / output port, the data switch element Means for controlling the data switch element to transfer the data addressed to the opposing link control device among the data input from the first data input / output port to the second spare data input / output port;
A link control device comprising: The second main data input / output port, the second spare data input / output port, or the failure detection signal input port is:
4. The link control device according to claim 1, wherein the link control device is a plurality of second main data input / output ports, a plurality of second spare data input / output ports, or a plurality of failure detection signal input ports. It is a device used for data communication, and is an upper link control device that controls a link in a data link layer when a communication line fails.
The upper link controller is
A data switch element;
A controller connected to the data switch element;
A first data input / output port connected to the data switch element;
A second data output port connected to the data switch element;
A third data input / output port connected to the data switch element;
With
The data switch element is
Data input from the first data input / output port is transferred to the third data input / output port, and data input from the third data input / output port is transferred to the first data input / output port. Having means to transfer,
The controller is
When the controller receives a failure recovery signal output from the opposite lower-level link control device via the third data input / output port, the data switch element is input from the first data input / output port. Means for controlling the data switch element to transfer the data addressed to the opposite lower link control device among the data to the second data output port;
Data received by the data switch element from the first data input / output port when the controller receives a failure occurrence signal output from the opposing lower level link control device via the third data input / output port. Means for controlling the data switch element so as to transfer data addressed to the opposing lower link control device to the third data input / output port;
A host link control device comprising: It is a device used for data communication, and is a lower link control device that controls a link in a data link layer when a communication line fails.
The lower link controller is
A data switch element;
A controller connected to the data switch element;
A first data input / output port connected to the data switch element;
A second data input port connected to the data switch element;
A third data input / output port connected to the data switch element;
A failure detection signal input port connected to the controller;
With
The data switch element is
Data input from the first data input / output port is transferred to the third data input / output port, and data input from the second data input port and the third data input / output port is transferred. Means for multiplexing and transferring to the first data input / output port;
The controller is
When the controller receives a signal indicating that the failure of the communication line connected to the second data input port has been recovered via the failure detection signal input port, the controller is connected to the second data input port. Creating a fault recovery signal for notifying that the fault of the communication line being recovered has been recovered, and outputting the fault recovery signal to the third data input / output port via the data switch element;
When the controller receives a signal indicating that a failure has occurred in the communication line connected to the second data input port via the failure detection signal input port, the controller sends a signal to the second data input port. Creating a failure occurrence signal for notifying that a failure has occurred in the connected communication line, and outputting the failure occurrence signal to the third data input / output port via the data switch element;
A lower-level link control device comprising: A data switch element;
A controller connected to the data switch element;
A first data input / output port connected to the data switch element;
A second main data input / output port connected to the data switch element;
A second spare data input / output port connected to the data switch element;
A failure detection signal input port connected to the controller;
A first link control device A and a second link control device B comprising a point-to-point communication system,
A first media converter for converting a medium for transmitting data is connected to the second main data input / output port A and the failure detection signal input port A of the first link control device A;
A second media converter for converting a medium for transmitting data is connected to the second main data input / output port B and the failure detection signal input port B of the second link control device B;
The first media converter and the second media converter are connected via a main line,
Second spare input / output ports A and B of the first link controller A and the second link controller link controller are connected via a spare line,
In the initial state of the communication system,
The data switch element A of the first link control device A is
Data input from the first data input / output port A is transferred to the second spare data input / output port A, and the second main data input / output port A is connected to the second spare data input / output port A. The data input from port A is multiplexed and transferred to the first data input / output port A.
And the data switch element B of the second link control device B is
Data input from the first data input / output port B is transferred to the second spare data input / output port B, and the second main data input / output port B is connected to the second spare data input / output port B. By multiplexing the data input from port B and transferring it to the first data input / output port B,
The data input to the first data input / output port A and the first data input / output port B are the data switch element A, the second spare data input / output port A, the spare line, and the second data line. The spare data input / output port B and the data switch element B,
The controller A has recovered the reception failure of the main line connected to the first media converter or the reception failure has occurred via the first media converter and the failure detection signal input port A. When a signal indicating that there is no
The controller A of the first link control device A is
A failure recovery signal A for notifying that the reception failure of the main line has been recovered is created, and the failure recovery signal A is sent to the data switch element A, the second main data input / output port A, and the first medium. The converter, the main line, the second media converter, the second main data input / output port B, and the data switch element B, or the data switch element A and the second spare. Output to the controller B of the second link control device B via the data input / output port A, the protection line, the second protection data input / output port B, and the data switch element B;
The controller B
When the failure recovery signal A is received,
Or
The failure recovery signal A is received, and the reception failure of the main line connected to the second media converter is recovered via the second media converter and the failure detection signal input port B, or When receiving a signal indicating that no reception failure has occurred,
The data switch element B controls the data switch element B to transfer the data input from the first data input / output port B to the second main data input / output port B;
Data input to the first data input / output port B includes the data switch element B, the second main data input / output port B, the second media converter, the main line, and the first Are transferred to the first data input / output port A via the media converter, the second main data input / output port A, and the data switch element A,
The controller B has recovered the reception failure of the main line connected to the second media converter or the reception failure has occurred via the second media converter and the failure detection signal input port B. When a signal indicating that there is no
The controller B of the second link control device B is
Creating a failure recovery signal B for notifying that the reception failure of the main line has been recovered, and outputting the failure recovery signal B to the controller A of the first link controller A;
The controller A
When the failure recovery signal B is received,
Or
The failure recovery signal B is received, and the reception failure of the main line connected to the first media converter is recovered via the first media converter and the failure detection signal input port A, or When receiving a signal indicating that no reception failure has occurred,
The data switch element A controls the data switch element A so as to transfer the data input from the first data input / output port A to the second main data input / output port A,
The data input to the first data input / output port A includes the data switch element A, the second main data input / output port A, the first media converter, the main line, and the second Are transferred to the first data input / output port B via the media converter, the second main data input / output port B, and the data switch element B,
When the controller A receives a signal indicating that a reception failure of the main line connected to the first media converter has occurred via the first media converter and the failure detection signal input port A ,
The controller A of the first link control device A is
A failure occurrence signal A for notifying that a main line reception failure has occurred is created, and the failure occurrence signal A is sent to the data switch element A, the second main data input / output port A, and the first medium. The converter, the main line, the second media converter, the second main data input / output port B, and the data switch element B, or the data switch element A and the second spare. Output to the controller B of the second link control device B via the data input / output port A, the protection line, the second protection data input / output port B, and the data switch element B;
The controller B
The data switch element B transfers the data input from the first data input / output port B to the second spare data input / output port B when the failure occurrence signal A is received. By controlling element B,
The data input to the first data input / output port B includes the data switch element B, the second spare data input / output port B, the spare line, and the second spare data input / output port A. , And the data switch element A, transferred to the first data input / output port A,
When the controller B receives a signal indicating that a reception failure of the main line connected to the second media converter has occurred via the second media converter and the failure detection signal input port B ,
The controller B of the second link control device B is
A failure occurrence signal B for notifying that a main line reception failure has occurred is created, and the failure occurrence signal B is sent to the data switch element B, the second main data input / output port B, and the second medium. A converter, a main line, the first media converter, the second main data input / output port A, and the data switch element A, or the data switch element B and the second spare Output to the controller A of the first link controller A via the data input / output port B, the protection line, the second protection data input / output port A, and the data switch element A,
The controller A
When the failure occurrence signal B is received, the data switch element A transfers the data input from the first data input / output port A to the second spare data input / output port A. By controlling element A,
The data input to the first data input / output port A includes the data switch element A, the second spare data input / output port A, the spare line, and the second spare data input / output port B, And the first data input / output port B via the data switch element B. A communication system using a link control device,
A data switch element;
A controller A connected to the data switch element A;
A first data input / output port A connected to the data switch element A;
A plurality of second main data input / output ports A connected to the data switch element A;
A plurality of second spare data input / output ports A connected to the data switch element A;
A plurality of failure detection signal input ports A connected to the controller A;
A first link control device A comprising:
A data switch element B;
A controller B connected to the data switch element B;
A first data input / output port B connected to the data switch element B;
A second main data input / output port B connected to the data switch element B;
A second spare data input / output port B connected to the data switch element B;
A failure detection signal input port B connected to the controller B;
A plurality of second link control devices B comprising:
The first link control device A and the plurality of second link control devices B are connected in a star shape,
Each of the plurality of second main data input / output ports A of the first link control device A is connected to a first media converter that converts a medium for transmitting data,
Each of the first media converters is connected to one of the failure detection signal input ports A,
For each of the plurality of second link control devices B, a second media converter for converting a medium for transmitting data is connected to the second main data input / output port B and the failure detection signal input port B;
One of the first media converters and one of the second media converters are connected one-to-one by a main line,
The plurality of second spare input / output ports A of the first link control device A and the second spare input / output ports B of the plurality of second link control devices B are connected via a spare line or a spare network. Connected,
In the initial state of the communication system,
The data switch element A of the first link control device A is
The data input from the first data input / output port A is transferred to one of the plurality of second spare data input / output ports A based on the destination address information described in the data, and Multiplexes data input from the second main data input / output port A and the plurality of second spare data input / output ports A, and transfers the multiplexed data to the first data input / output port A;
Each of the data switch elements B of the second link control device B is
Data input from the first data input / output port B is transferred to the second spare data input / output port B, and the second main data input / output port B is connected to the second spare data input / output port B. By multiplexing the data input from port B and transferring it to the first data input / output port A,
Data transmitted and received between the first link control device A and the plurality of second link control devices is transferred via the protection line,
The controller A sends a signal indicating that the reception failure of the main line connected to one of the first media converters has recovered or no reception failure has occurred to the first media converter and the When received via the failure detection signal input port A to which the first media converter is connected,
The controller A of the first link control device A is
A failure recovery signal A for notifying that the reception failure of the main line has been recovered is created, and the failure recovery signal A is sent to the controller B of the second link control apparatus that can communicate via the main line. The data switch element A and the second main data input / output port A to which the first media converter is connected, the first media converter, the main line, and the main line are connected. The second media converter, the second main data input / output port B to which the second media converter is connected, and the data switch element B, or the data switch element A, and Output via any one of the second spare data input / output ports A, the spare line, the second spare data input / output port B, and the data switch element B ,
The controller B
When the failure recovery signal A is received,
Or
The failure recovery signal A is received, and the reception failure of the main line connected to the second media converter is recovered via the second media converter and the failure detection signal input port B, or When receiving a signal indicating that no reception failure has occurred,
The data switch element B controls the data switch element B to transfer the data input from the first data input / output port B to the second main data input / output port B;
Data input to the first data input / output port B includes the data switch element B, the second main data input / output port B, the second media converter, the main line, and the first Are transferred to the first data input / output port A via the media converter, the second main data input / output port A, and the data switch element A,
The controller B in any of the link control devices B recovers from a reception failure of the main line connected to the second media converter via the second media converter and the failure detection signal input port B. Or when a signal is received indicating that there is no reception failure,
The controller B of the second link control device B is
A failure recovery signal B for notifying that the reception failure of the main line has been recovered is created, and the failure recovery signal B is sent to the controller A of the first link control device to the data switch element B and the second Via the main data input / output port B, the second media converter, and the main line, the first media converter, the second main data input / output port A, and the data switch element A, or The data switch element B and the second spare data input / output port B and the spare line, and the second spare data input / output port A and the data switch element A are output,
The controller A
When the failure recovery signal B is received,
Or
The failure recovery signal B is received, and the first media converter to which the main line is connected and the failure detection signal input port A to which the first media converter is connected are connected to the first media converter. When the reception failure of the main line connected to the media converter 1 is recovered or a signal indicating that no reception failure has occurred is received.
A second main data input / output port through which the data switch element A can communicate data addressed to the second link control device B input from the first data input / output port A via the main line By controlling the data switch element A to transfer to A,
The data addressed to the second link controller B input to the first data input / output port A is the data switch element A, the second main data input / output port A, and the first medium. A converter, a main line, and the second media converter, the second main data input / output port B, and the data switch element B, are transferred to the first data input / output port B;
The controller A sends a signal indicating that a reception failure has occurred on the main line connected to one of the first media converters to which the first media converter and the first media converter are connected. When received via the fault detection signal input port A
The controller A of the first link control device A is
A failure occurrence signal A for notifying that a reception failure has occurred on the main line is created, and the failure occurrence signal A is addressed to the controller B of the second link control apparatus capable of communicating via the main line. The data switch element A and the second main data input / output port A to which the first media converter is connected, the first media converter, the main line, and the main line are connected. The second media converter, the second main data input / output port B to which the second media converter is connected, and the data switch element B, or the data switch element A, and Via any one of the second spare data input / output ports A, the spare line, the second spare data input / output port B, and the data switch element B And output,
The controller B
When the failure occurrence signal A is received,
The data switch element B controls the data switch element B to transfer the data input from the first data input / output port B to the second spare data input / output port B.
The data input to the first data input / output port B includes the data switch element B, the second spare data input / output port B, the spare line, and the second spare data input / output port A, And transferred to the first data input / output port A via the data switch element A,
The controller B in any of the link control devices B has a reception failure on the main line connected to the second media converter via the second media converter and the failure detection signal input port B. When you receive a signal indicating that
The controller B of the second link control device B is
A failure occurrence signal B for notifying that a reception failure of the main line has occurred is created, and the failure occurrence signal B is sent to the controller A of the first link control device and the data switch element B and the second main signal. Via the data input / output port B, the second media converter, and the main line, the first media converter, the second main data input / output port A, and the data switch element A, or The data switch element B and the second spare data input / output port B and the spare line, and the second spare data input / output port A and the data switch element A are output,
The controller A
When receiving the failure occurrence signal B,
The data switch element A transfers the data addressed to the second link controller B input from the first data input / output port A to the second spare data input / output port A. By controlling A,
The data addressed to the second link controller B input to the first data input / output port A includes the data switch element A, the second spare data input / output port A, a spare line, and the The communication system is transferred to the first data input / output port B via the second spare data input / output port B and the data switch element B. A communication system using the link control device according to claim 7,
The second link control device B is a plurality of second link control devices B,
The second media converter is the same number of second media converters as the second link control device B,
The first link control device A and the plurality of second link control devices B are connected in a star shape,
A first media converter for converting a medium for transmitting data is connected to the second main data input / output port A and the failure detection signal input port A of the first link control device A;
A second media converter for converting a medium for transmitting data is connected to the second main data input / output port B and the failure detection signal input port B for each of the plurality of second link control devices B;
A main line connecting the first media converter connected to the first link control device A and the second media converter connected to each of the plurality of second link control devices B is a main network. ,
The second main data input / output port A of the first link control device A and the second main data input / output port B of each of the plurality of second link control devices B are connected to the first medium. Connected via a converter, the main network and the second media converter,
A protection line connecting the second protection input / output port A of the first link control device A and the second protection input / output ports B of the plurality of second link control devices B is a protection network. And
The controller B
When the failure recovery signal A is received,
Or
The failure recovery signal A is received, and the reception failure of the main network connected to the second media converter is recovered via the second media converter and the failure detection signal input port B, or When receiving a signal indicating that no reception failure has occurred,
Of the data input from the first data input / output port B, the data switch element B transmits data addressed to the link control device A that has transmitted the failure recovery signal A to the second main data input / output port. Control the data switch element B to transfer to B,
The controller A
When the failure recovery signal B is received,
Or
The failure recovery signal B is received, and the reception failure of the main network connected to the first media converter is recovered via the first media converter and the failure detection signal input port A, or When receiving a signal indicating that no reception failure has occurred,
Of the data input from the first data input / output port A, the data switch element A sends data addressed to the link control device B that has transmitted the failure recovery signal B to the second main data input / output port. Controlling the data switch element A to transfer to A,
The controller B
When the failure occurrence signal A is received, the data switch element B receives data addressed to the link control device A that has transmitted the failure recovery signal A out of the data input from the first data input / output port B. , Controlling the data switch element B to transfer to the second spare data input / output port B;
The controller A
When the failure occurrence signal B is received, the data switch element A receives data addressed to the link control device B that has transmitted the failure recovery signal B out of the data input from the first data input / output port A. , Controlling the data switch element A to transfer to the second spare data input / output port A,
A communication system characterized by the above. It is a device used for data communication, and is an upper link control device that controls the link in the data link layer when a communication line failure occurs, and a device that is used for data communication. When a communication line failure occurs, a link is established in the data link layer. A communication system composed of lower link control devices to control,
The upper link controller A
Data switch element A;
A controller A connected to the data switch element A;
A first data input / output port A connected to the data switch element A;
A second data output port A connected to the data switch element A;
A third data input / output port A connected to the data switch element A;
With
The lower link controller B
A data switch element B;
A controller B connected to the data switch element B;
A first data input / output port B connected to the data switch element B;
A second data input port B connected to the data switch element B;
A third data input / output port B connected to the data switch element B;
A failure detection signal input port B connected to the controller B;
With
A transmitter is connected to the second data output port A of the upper link controller A,
A receiver is connected to the second data input port B of the lower link controller B,
The transmitter and the receiver are connected by a main line;
The third data input / output port A of the upper link controller A and the third data input / output port B of the lower link controller B are connected via a protection line;
In the initial state of the communication system,
The data switch element A of the host link control device A is
Data input from the first data input / output port A is transferred to the third data input / output port A, and data input from the third data input / output port A is transferred to the first data input / output port A. Forward to I / O port A,
And the data switch element B of the lower link controller B is
Data input from the first data input / output port B is transferred to the third data input / output port B, and input from the second data input port B and the third data input / output port B. By multiplexing the transferred data and transferring it to the first data input / output port B,
The data input to the first data input / output port A and the first data input / output port B are the data switch element A, the third data input / output port A, the protection line, and the third data input / output port A. Transferred via the data input / output port B and the data switch element B,
The controller B receives a signal indicating that the reception failure of the main line connected to the receiver has been recovered or no reception failure has occurred via the receiver and the failure detection signal input port B. When received
The controller B of the lower link controller B is
Creating a failure recovery signal B for notifying that the reception failure of the main line has been recovered, and sending the failure recovery signal B to the data switch element B, the third data input / output port B, and the protection line; Via the third data input / output port A and the data switch element A, output to the controller A of the host link control device A,
The controller A
When the failure recovery signal B is received, the data switch element A transfers the data input from the first data input / output port A to the second data output port A. By controlling
The data input to the first data input / output port A includes the data switch element A, the second data output port A, the transmitter, the main line, the receiver, and the second. The data input port B and the data switch element B are transferred to the first data input / output port B,
When the controller B receives a signal indicating that a reception failure of the main line connected to the receiver has occurred via the receiver and the failure detection signal input port B,
The controller B of the lower link controller B is
A failure occurrence signal B for notifying that a reception failure has occurred in the main line is created, and the failure occurrence signal B is transmitted to the data switch element B, the third data input / output port B, the protection line, and Via the third data input / output port A and the data switch element A, output to the controller A of the host link control device A,
The controller A
When the failure occurrence signal B is received, the data switch element A transfers the data input from the first data input / output port A to the third data input / output port A. By controlling A,
The data input to the first data input / output port A includes the data switch element A, the third data input / output port A, the protection line, and the third data input / output port B, and The communication system is transferred to the first data input / output port B via the data switch element B. A communication system using the link control device according to claim 10,
The lower link controller B is a plurality of lower link controllers B,
The receivers are the same number of second receivers as the lower link controller B,
The upper link control device A and the plurality of lower link control devices B are connected in a star shape,
The transmitter connected to the second data output port A of the upper link controller A and the reception connected to the second data input port B in each of the plurality of lower link controllers B The main line connecting the device is the main network,
The protection line that connects the third input / output port A of the upper link controller A and the third input / output ports B of the plurality of lower link controllers B is a protection network;
The controller A
Data received by the data switch element A from the first data input / output port A when receiving the failure recovery signal B is data addressed to the lower link controller B that has transmitted the failure recovery signal B The data switch element A so as to be transferred to the second data output port A,
The controller A
Data received by the data switch element A from the first data input / output port A when the failure occurrence signal B is received, data addressed to the lower link controller B that has transmitted the failure occurrence signal B The data switch element A to be transferred to the third data input / output port A.
A communication system characterized by the above.

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