JP2012124636A - Interface speed variable communication device and method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an interface speed variable communication device capable of dealing with distribution control and providing a reliable interface adaptive control execution.SOLUTION: An interface speed variable communication device has: a communication part transmitting and receiving a line setting message and a line setting confirmation message via a control network; an interface for transmitting and receiving signals; and an interface controller receiving the line setting message, and when setting a speed of an interface based on the line setting message, confirming whether or not the interface is in a process of setting a speed, and if the interface is in the process of setting, cancelling the process of setting, and then setting the speed of the interface.

Description

  The present invention relates to an interface speed variable communication apparatus and method for reliably executing interface adaptive control for adaptively changing the interface speed in accordance with the amount of traffic in a communication apparatus.

  Along with the increase in traffic volume due to the spread of the Internet and broadband services, the amount of energy consumed by information communication devices such as routers and switches constituting a communication network is steadily increasing. For this reason, research and development of power-saving technologies in the information and communication field is underway.

  In the current optical network, since the interface speed is designed to be a peak value, the interface is always operated at a constant speed regardless of the traffic volume. For this reason, power consumption at an interface with a small amount of traffic is a problem. According to Patent Document 1 and Non-Patent Document 1, as an attempt to solve the above-described problem, a method of reducing power consumption by suspending an interface or changing a speed according to the amount of traffic has been proposed.

JP 2010-193032 A

Noboru Yoshikane, Hideaki Tanaka, “Power Communication Technology Trends in Communication Networks” 2009 IEICE Society Conference BP-4-3 Adrian Farrel, The Internet and Its Protocols A comparative Approach, Morgan Kaufmann, 2004.

  However, in the interface adaptive control method proposed so far (Patent Document 1), since control is performed by centralized control, whether or not control can be handled when the network scale increases, that is, control There are concerns about scalability. Furthermore, there is a problem that the interface speed setting may not be performed properly depending on the control speed of the interface speed. For example, when a command for a new speed is received while setting the interface speed, there is a problem that the speed may not be reflected on the interface.

  Therefore, an object of the present invention is to provide an interface speed variable communication apparatus and method that can support distributed control and provide reliable interface adaptive control execution.

  To achieve the above object, a variable interface speed communication apparatus according to the present invention is a variable interface speed communication apparatus in a network that adaptively changes the interface speed in accordance with the traffic volume. A communication means for transmitting and receiving a confirmation message, an interface for transmitting and receiving a signal, and receiving the line setting message and setting the speed of the interface based on the line setting message. And interface control means for setting the speed of the interface after stopping the setting process if setting is in progress.

  Further, when setting the speed of the interface based on the line setting message, the interface control means checks whether the interface is inactive, and if it is inactive, the interface is being restored. It is also preferable to restore the interface by setting the speed of the interface after stopping the restoration process, and if the restoration is in progress.

  In addition, when the own device is a line origin device or a line relay device, the interface control means transmits the received line setting message to the next communication device after setting the speed of the interface, In the case of a line terminating device, it is also preferable to transmit a line setting confirmation message to the transmission source of the line setting message after setting the speed of the interface.

  In addition, when the own device is a line relay device, the interface control means preferably transmits the line setting confirmation message to the transmission source of the line setting message when receiving the line setting confirmation message.

  In order to achieve the above object, the method for changing the interface speed according to the present invention is a method for changing the interface speed in a network that adaptively changes the interface speed according to the traffic volume. A step of receiving a message, and when setting the speed of the interface based on the line setting message, confirming whether the speed of the interface is being set, and if setting is in progress, Setting the speed of the interface.

  According to the present invention, it is possible to deal with distributed control in consideration of control extensibility and to provide reliable interface adaptive control execution.

The structure of the interface speed variable communication apparatus of this invention is shown. The flow of the interface adaptive control at the time of line setting is shown. Indicates the mechanism of line setup. It is a structural example of the network in a present Example.

  The best mode for carrying out the present invention will be described in detail below with reference to the drawings. FIG. 1 shows the configuration of the interface speed variable communication apparatus of the present invention. This apparatus includes a communication unit 1, an interface control unit 2, a signal processing unit 3, and a reception / transmission interface 4. FIG. 1 shows an apparatus configuration in the case of a control method (out-band control) via a control network. Each part has the following functions.

  The communication unit 1 is connected to the control network and has a function of transmitting and receiving a line setting message and a line setting confirmation message. The interface control unit 2 has a function of controlling the reception / transmission interface 4 based on the above-described line setting message and line setting confirmation message. The transmission interface / reception interface 4 is an interface for transmitting / receiving signals. Based on a command from the interface control unit 2, the interface speed is controlled. The signal processing unit 3 has a function of processing a signal in accordance with a signal protocol to be transmitted / received (Non-patent Reference 2).

FIG. 2 shows a flow of interface adaptive control at the time of line setting.
(S1) Start: The operation is started.
(S2) Transmission of line setting message? : When a line setting message is transmitted, that is, when the line setting message is a starting apparatus for line setting, the process proceeds to S7. If the line setting message is not transmitted, that is, if it is a device that receives a line setting confirmation message such as a line setting relay device or a line terminating device, or if no line setting is performed, the process proceeds to S3.
(S3) Line setting message received? : Confirm receipt of the line setting message. If received, the process proceeds to S7. If not received, the process proceeds to S4.
(S4) Line setting confirmation message received? : If a line setting confirmation message is received, the process proceeds to S5. If not received, the process returns to S2.
(S5) Line starting device? : At the time of line setting, if it is a line starting device, the process ends. If it is not the starting device, the process proceeds to S6.
(S6) Transmission of line setting confirmation message: After confirming the received line setting confirmation message, the line setting confirmation message is transmitted to the next node. Then, the process ends.

(S7) Line termination device? : In line setting, confirms whether the device that has received the line setting message is the terminal device of the line. At this time, the device that transmits the line setting message (the device that transmits the line setting message in S2) is not the terminal device. In addition, the device that has received the line setting message determines whether it is a terminating device based on the line setting information of the line setting message. If it is a terminal device, the process proceeds to S19. If it is not a terminal device, the process proceeds to S8.

(S8) Preparation for line setting message transmission processing: Preparation for transmission processing of a line setting message to be transmitted to the next node is made.
(S9) Is the interface suspended? : Check whether the interface for line setting is inactive. If the line setting target interface is suspended, the process proceeds to S13. If the line setting target interface is operating, the process proceeds to S10.
(S10) Is the interface speed being set? : The line setting target interface is in operation and the interface speed is being set (in this case, the interface speed setting process based on the line setting message received before the line setting message confirmed in S3 is shown). To check. If the interface speed is being set, the process proceeds to S11. If the interface speed is not being set, the process proceeds to S12.
(S11) Canceling the setting process and resetting the speed: The speed setting process for the line setting target interface is stopped, and the interface speed is set according to the interface speed described in the line setting message confirmed in S3.
(S12) Line setting message transmission processing: A line setting message is transmitted to the next node.
(S13) Line setting message transmission process pending: Since the interface is idle, it is impossible to transmit a signal from the interface. Therefore, the transmission of the line setting message is temporarily suspended.
(S14) Is the interface being restored? : If the interface state confirmed in S9 is in the middle of the interface restoration process by the line setting message received before the line setting message confirmed in S3, the process proceeds to S15 (this is a continuous line setting message). It is assumed that it is received.) On the other hand, if the interface to be used is inactive, the process proceeds to S16.
(S15) Restoration processing cancellation, speed resetting: The restoration processing for the line setting target interface is stopped (here, the interface restoration processing by the line setting message received before the line setting message confirmed in S3 is stopped). . Thereafter, interface restoration processing is performed according to the interface speed described in the line setting message confirmed in S3.
(S16) Interface speed setting: The speed of the dormant interface is set according to the speed of the line setting message. Proceed to S17.
(S17) Interface recovery: Confirms that the interface has been recovered.
(S18) Line setting message transmission process on hold: The line setting message whose transmission process has been held at S13 is transmitted to the next node.

(S19) Preparation for transmission processing of line setting confirmation message: Preparation of transmission processing of a line setting confirmation message to be transmitted to the node that has transmitted the received line setting message.
(S20) Is the interface suspended? : Check whether the interface for line setting is inactive. If the line setting target interface is suspended, the process proceeds to S24. If the line setting target interface is operating, the process proceeds to S21.
(S21) Is the interface speed being set? : The line setting target interface is in operation and the interface speed is being set (in this case, the interface speed setting process based on the line setting message received before the line setting message confirmed in S3 is shown). To check. If the interface speed is being set, the process proceeds to S22. If the interface speed is not being set, the process proceeds to S23.
(S22) Setting process cancellation, speed resetting: The speed setting process for the line setting target interface is stopped, and the interface speed is set according to the interface speed described in the line setting message confirmed in S3.
(S23) Line setting confirmation message transmission processing: A line setting message is transmitted to the node that has transmitted the received line setting message.
(S24) Line setting confirmation message transmission process pending: Since the interface is inactive, it is in a state in which signal transmission from the interface is impossible. Therefore, the transmission of the line setting confirmation message is temporarily suspended.
(S25) Is the interface being restored? : If the interface status confirmed in S20 is in the middle of the interface restoration process by the line setup message received before the line setup message confirmed in S3, the process proceeds to S27 (this is a continuous line setup message. It is assumed that it is received.) On the other hand, if the interface to be used is inactive, the process proceeds to S26.
(S26) Interface speed setting: The speed of the dormant interface is set according to the speed of the line setting message. Proceed to S28.
(S27) Canceling recovery process, speed resetting: Canceling the recovery process for the line setting target interface (here, the interface recovery process by the line setting message received before the line setting message confirmed in S3 is stopped). . Thereafter, interface restoration processing is performed according to the interface speed described in the line setting message confirmed in S3.
(S28) Interface recovery: Confirms that the interface has been recovered.
(S29) Line setting confirmation message transmission process on hold: The line setting confirmation message for which transmission processing was suspended in S24 is transmitted to the destination node.
(S30) End: The setting or processing operation is ended.

  FIG. 3 shows a line setting mechanism (Non-Patent Document 2). In this example, n nodes are connected, and a line is set starting from node 1 and ending at node (n) from node 2 via node (n−1).

  The “line setting 1” message transmitted from the node 1 reaches the end node (n) via each node. Each node, when receiving the line setting message, sets the interface to the interface speed described in the line setting message.

  After the line setting message reaches the end node (n), when the interface speed setting is completed in the node (n), a “setting confirmation 1” message is transmitted from the end node (n) to the node 1. Each node that has received the setting confirmation message sends the setting confirmation message to the adjacent node on the origin side when the setting of the interface speed has been completed.

  Here, an embodiment of a device control system via a control network is shown. FIG. 4 is a configuration example of a network in this embodiment. The network is composed of three communication devices (communication devices 1 to 3) and a control network for controlling these communication devices. In this embodiment, a case is considered in which a 10 Gbps line setting is performed from the communication device 1 to the communication device 3 via the communication device 2. In this embodiment, RSVP-TE (Resource reSerVation Protocol Traffic Engineering (Non-Patent Document 2)) is used as the line setting message and the line setting confirmation message.

  At the time of line setting, a line setting message (Path message) is transmitted from the communication apparatus 1 to the communication apparatus 3 via the communication apparatus 2 via the control network. Thereafter, a line setting confirmation message (Resv message) is transmitted from the communication device 3 to the communication device 1 via the communication device 2. In this embodiment, it is assumed that no other line is set before the line is set, and the interface of each device is in a dormant state. The operation of the communication devices 1 to 3 at this time is as follows according to the interface adaptive control flow at the time of line setting in FIG. Note that they are described in the order of operation.

(1) Communication device 1
Since the communication device 1 is a device that is a starting point for line setting, it tries to transmit a line setting message for setting a 10 Gbps line (remarks: setting by RSVP-TE) (S2). However, since the interface to be used is inactive at the time of line setting (S9), the transmission of the line setting message is suspended and waiting in a transmission ready state until the interface is restored at a speed of 10 Gbps (S13). After the interface recovery (S16), if it is confirmed that the desired interface speed is 10 Gbps (S17), a pending line setting message is transmitted to the communication device 2 of the next node (S18).

(2) Communication device 2
The communication device 2 performs interface control after receiving the line setting message, and transmits the line setting message to the next node. The communication device 2 first receives a line setting message when setting a line (S3). Here, since the interface to be used is inactive (S9), the transmission of the line setting message is suspended until the interface recovers at the speed of 10 Gbps, and the transmission preparation state is waited (S13). Thereafter, when it is confirmed that the interface speed is the desired 10 Gbps (S17), a pending line setting message is transmitted to the communication device 3 of the next node (S18).

(3) Communication device 3
The communication device 3 is an end device for line setting. First, a line setting message for setting a line of 10 Gbps is received (S3). However, since the interface to be used is suspended during the line setting (S20), the transmission of the line setting confirmation message is suspended and waiting in a transmission ready state until the interface to be used is restored at a speed of 10 Gbps (S24). . If it is confirmed that the interface speed is the desired 10 Gbps after the interface is restored (S28), a pending line setting confirmation message is transmitted to the communication device 2 of the next node (S29).

(4) Communication device 2
The communication device 2 receives the line setting confirmation message (S4). Since the communication apparatus 2 is not the line setting origin apparatus (S5), it transmits a line setting confirmation message to the communication apparatus 1 of the next node (S6).

(5) Communication device 1
Since the communication device 1 is a starting device for line setting, the line setting operation is completed (S5) after receiving the line setting confirmation message (S4).

  Moreover, all the embodiments described above are illustrative of the present invention and are not intended to limit the present invention, and the present invention can be implemented in other various modifications and changes. Therefore, the scope of the present invention is defined only by the claims and their equivalents.

DESCRIPTION OF SYMBOLS 1 Communication part 2 Interface control part 3 Signal processing part 4 Reception / transmission interface

Claims (5)

In the interface speed variable communication apparatus in the network that adaptively changes the interface speed according to the traffic volume,
A communication means for transmitting and receiving a line setting message and a line setting confirmation message via the control network;
An interface for transmitting and receiving signals;
After receiving the line setting message and setting the speed of the interface based on the line setting message, confirming whether the speed of the interface is being set, and if setting is in progress, after stopping the setting process Interface control means for setting the speed of the interface;
An interface speed variable communication apparatus comprising: The interface control means includes
When setting the speed of the interface based on the line setting message, check whether the interface is inactive, and if it is inactive, check whether the interface is in recovery, 2. The variable interface speed communication apparatus according to claim 1, wherein after the restoration process is stopped, the speed of the interface is set and the interface is restored. 3. The interface control means includes
When the own device is a line starting device or a line relay device, after setting the speed of the interface, the received line setting message is transmitted to the next communication device,
3. The variable interface speed according to claim 1, wherein, when the own apparatus is a line terminating apparatus, a line setting confirmation message is transmitted to a transmission source of the line setting message after setting the speed of the interface. Communication device. The interface control means includes
4. When the own apparatus is a line relay apparatus, when the line setting confirmation message is received, the line setting confirmation message is transmitted to a transmission source of the line setting message. 2. The interface speed variable communication device according to item 1. In a method of changing the speed of an interface in a network that adaptively changes the interface speed according to the amount of traffic,
Receiving a line setup message via the control network;
When setting the speed of the interface based on the line setting message, it is checked whether the speed of the interface is being set. If the speed is being set, the setting process is stopped and the speed of the interface is set. Steps,
A method for changing the speed of an interface characterized by comprising:

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