JP2011229021A - System, apparatus and method for optical wavelength division multiplex transmission - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make efficient use of a bandwidth per optical communication path in an optical wavelength division multiplex transmission network.SOLUTION: A transmission device 1A transmits data input from a client device 2 to a transmission device 1B through an optical wavelength path 10. A monitoring control device 4 stops an output of the optical wavelength path 10 when the amount of traffic communicated on the optical wavelength path 10 is less than a predetermined value and notifies a monitoring control device 3 of the stop. A management control device 3 notifies the transmission device 1B of stopping the optical wavelength path 10, and the transmission device 1B stops an output of the optical wavelength path 10. The monitoring control device 4 notifies the management control device 3 of a resumption request when the traffic amount exceeds a predetermined value, and the management control device 3 allocates a non-operating optical wavelength path 10 and notifies transmission devices 1A and 1B of start permission. Each monitoring control device 4 starts implementing communication through the allocated optical wavelength path 10 and notifies the management control device 3 of resuming the optical wavelength path 10.

Description

  The present invention relates to an optical wavelength division multiplexing transmission system, an optical wavelength division multiplexing transmission apparatus, and an optical wavelength division multiplexing transmission method.

  The optical wavelength division multiplex transmission apparatus is connected in a loop form or a linear form, optically multiplexes a plurality of digital signals, and separates and transmits each optical wavelength on the opposite side. In the optical wavelength division multiplexing transmission, an optical wavelength path is set to Point to Point (P2P). Digital signals input from a plurality of client devices are converted into optical signals of respective wavelength bands by transponders assigned in advance to each of the client devices, multiplexed and transmitted through a single transmission line. The opposite side optical wavelength division multiplex transmission apparatus performs an operation of separating the received signal for each optical wavelength and inversely converting it into the original digital signal of the client apparatus.

  Techniques for reducing power consumption have been proposed for optical wavelength division multiplex transmission. For example, in Patent Document 1, when valid data of a transmission electric signal or a reception optical signal is not transmitted or received, power supply to the processing block of the transmission electric signal and the light emitting element module is stopped or the reception optical signal is converted into an electric signal. An optical module for stopping power supply to a later processing circuit is described. The optical module disclosed in Patent Document 1 transmits stop information to a power supply circuit via a timer circuit when a monitoring circuit that monitors the state of an input signal detects the stop of the input signal, and supplies power to the processing block and the light emitting element module. Stop supplying. When the monitoring circuit that monitors the state of the input signal detects the resumption of the input signal, the resumption information is transmitted to the power supply circuit, and the power supply to the processing block and the light emitting element module 3 is resumed.

  Patent Document 2 describes an L2 transfer system that flexibly performs bandwidth control, route setting, load distribution, and the like of an optical network. The L2 transfer system of Patent Document 2 configures an L2 network by interposing a GMPLS network between L2 switches. The L2SW / GMPLS cooperation unit of the L2 switch collects MIB information from the L2 switch, calculates traffic, and refers to the path information management database and IF correspondence table according to the result, and additionally sets the wavelength path to the GMPLS control unit Alternatively, the deletion is requested and the LAG switch is requested to set or cancel the LAG. The GMPLS control unit additionally sets or deletes a wavelength path in the GMPLS network.

  Patent Document 3 describes a layer 3 switch that allows easy connection, addition, and change of WDM optical components and an optical IP network for easy expansion or reconstruction of the optical IP network. The layer 3 switch of Patent Document 3 transfers an IP packet transmitted / received by an optical signal using a wavelength multiplexing method by a routing algorithm. A WDM module including a WDM optical component and an optical transceiver for adding and dropping a signal of the allocated optical wavelength is assigned in advance, and a WDM module for attaching a WDM module is assigned a specific optical wavelength among optical wavelengths included in an optical signal. And a main body having one or more attachment portions. The optical IP network includes a WDM module type layer 3 switch and a system control device. The system control device transmits a control signal to a control unit in each WDM module type layer 3 switch via the network, and each optical switch. And switching on / off of each power source.

JP 2006-108963 A JP 2006-157102 A JP 2007-306316 A

  The purpose of the optical wavelength division multiplexing apparatus is to transmit the data traffic of the upstream client apparatus by optical wavelength multiplexing. However, the optical wavelength division multiplex transmission device of the related technology does not perform wavelength control or power saving control considering the digital signal traffic volume of the client device, so the traffic volume from the client device fluctuates with time. Even if the number is reduced, flexible wavelength band control cannot be performed.

  The problem of the related art optical wavelength division multiplexing apparatus is that the wavelength band to be used is always fixed and set, so that the bandwidth cannot be flexibly controlled by the traffic volume changing temporally and locally.

  The present invention has been made in view of the above-described circumstances, and an object thereof is to efficiently use a wavelength band per optical transmission line in an optical wavelength division multiplexing transmission network.

An optical wavelength division multiplex transmission system according to a first aspect of the present invention includes:
An optical wavelength division multiplexing transmission system for inputting data from a data transmission device and transmitting the input data through an optical wavelength path,
The first multiplexer is
Input means for inputting data from the data sending device;
First transmission means for transmitting the input data to the second multiplexer by an optical wavelength path;
A means for measuring the amount of traffic communicating through the optical wavelength path;
First control means for stopping output of the optical wavelength path when the traffic volume is less than a preset value;
A communication means for notifying the management device that the output has been stopped by control communication different from the optical wavelength path when the output of the optical wavelength path is stopped,
The management device comprises means for communicating with the first multiplexing device and the second multiplexing device by the control communication,
When the management device is notified from the first multiplexer that the output of the optical wavelength path has been stopped, the management device notifies the second multiplexer of the stop of the optical wavelength path,
The second multiplexing device includes second control means for stopping the second transmission means for transmitting on the corresponding optical wavelength path when the stop notification is received,
The communication means of the first multiplexing device notifies the management device of a restart request when the traffic volume exceeds a set value,
The management device, when receiving the restart request, assigns a free optical wavelength path to the first multiplexing device and the second multiplexing device, and notifies the information of the assigned optical wavelength path,
The first control unit and the second control unit cause the first transmission unit and the second transmission unit to start communication of the assigned optical wavelength path, respectively.
The notifying means of the first multiplexing device notifies the management device that the optical wavelength path has been resumed;
It is characterized by that.

An optical wavelength division multiplex transmission apparatus according to a second aspect of the present invention is:
An input means for inputting data from the data sending device;
A transmission means for transmitting input data through an optical wavelength path;
A means for measuring the amount of traffic communicating through the optical wavelength path;
Control means for stopping output of the optical wavelength path when the traffic volume is less than a preset value;
A communication means for notifying the management device that the output has been stopped by control communication different from the optical wavelength path when the output of the optical wavelength path is stopped,
The communication means notifies the management device of a restart request when the traffic volume exceeds a set value,
The control means starts communication of the assigned optical wavelength path instructed from the management device,
The notifying means notifies the management device that the optical wavelength path has been resumed;
It is characterized by that.

An optical wavelength division multiplex transmission method according to a third aspect of the present invention is:
An optical wavelength division multiplexing transmission method for inputting data from a data transmission device and transmitting the input data through an optical wavelength path,
The first multiplexer is
An input step for inputting data from the data transmission device;
A transmission step of transmitting the input data to the second multiplexer via the optical wavelength path;
A step of measuring the amount of traffic communicating through the optical wavelength path;
A first stop step of stopping output of the optical wavelength path when the traffic volume is less than a preset value;
A stop notification step for notifying the management device that the output has been stopped by control communication different from the optical wavelength path when the output of the optical wavelength path is stopped,
When the management device is notified from the first multiplexer that the output of the optical wavelength path has been stopped, the management device notifies the second multiplexer of the stop of the optical wavelength path,
The second multiplexing device includes a second stop step of stopping the second transmission means for transmitting on the corresponding optical wavelength path when receiving the notification of the stop,
The first multiplexing device notifies the management device of a restart request when the traffic volume exceeds a set value,
The management device, when receiving the restart request, assigns a free optical wavelength path to the first multiplexing device and the second multiplexing device, and notifies the information of the assigned optical wavelength path,
The first multiplexer and the second multiplexer start communication of the assigned optical wavelength path;
The first multiplexing device notifies the management device that the optical wavelength path has been resumed.
It is characterized by that.

  According to the present invention, the management apparatus monitors temporal changes in the traffic volume of the optical wavelength division multiplexing apparatus, and adjusts the wavelength band used between the optical wavelength division multiplexing apparatuses in accordance with the traffic volume. Can do. This makes it possible to use a wavelength band that is efficient in terms of location and time.

It is a block diagram which shows the structural example of the optical wavelength division multiplex transmission system which concerns on embodiment of this invention. It is a block diagram which shows the example of the connection form of the optical wavelength division multiplex transmission system which concerns on embodiment. It is a block diagram which shows the example of the loop connection of the optical wavelength division multiplex transmission system which concerns on embodiment. It is a sequence diagram which shows the procedure which stops the optical wavelength path which concerns on embodiment. It is a sequence diagram which shows the procedure which restarts the optical wavelength path which concerns on embodiment. It is a flowchart which shows an example of the operation | movement of the optical wavelength path stop process of the optical wavelength division multiplex transmission apparatus which concerns on embodiment. It is a flowchart which shows an example of operation | movement of the optical wavelength path stop process of the management control apparatus which concerns on embodiment. It is a flowchart which shows an example of the operation | movement of the optical wavelength path stop process of the optical wavelength division multiplex transmission apparatus of the opposing side which concerns on embodiment. It is a flowchart which shows an example of the operation | movement of the optical wavelength path resumption process of the optical wavelength division multiplex transmission apparatus which concerns on embodiment. It is a flowchart which shows an example of the operation | movement of the optical wavelength path resumption process of the management control apparatus which concerns on embodiment. It is a flowchart which shows an example of the operation | movement of the optical wavelength path resumption process of the optical wavelength division multiplex transmission apparatus of the opposing side which concerns on embodiment.

  FIG. 1 is a block diagram showing a configuration example of an optical wavelength division multiplexing transmission system according to an embodiment of the present invention. The optical wavelength division multiplexing transmission system 20 includes at least two optical wavelength division multiplexing transmission apparatuses 1 and a management control apparatus 3. The two optical wavelength division multiplexing transmission apparatuses 1 face each other via an optical wavelength division multiplexing transmission line 9 and transmit data by optical wavelength division multiplexing via the optical wavelength division multiplexing transmission line 9. Hereinafter, the optical wavelength division multiplex transmission apparatus 1 is also abbreviated as a transmission apparatus 1. For convenience, the two transmission apparatuses 1 facing each other in FIG. 1 are distinguished by the transmission apparatus 1A and the transmission apparatus 1B.

  Each of the transmission devices 1 is connected to the management control device 3 by communication different from optical wavelength division multiplex transmission in which data is transmitted oppositely. Each transmission apparatus 1 is connected to the client apparatus 2, transmits data input from the client apparatus 2 by optical wavelength division multiplexing, and supplies data received by the optical wavelength division multiplexing to the client apparatus 2.

  The client device 2 is, for example, a LAN (Local Area Network) including terminals and servers. The connection port 7 is a physical interface unit used in the upper communication layer of the client device 2. The connection port 7 transmits and receives signals to and from the client transmission path 8. The connection port 7 is, for example, a broadband router or a switching hub. In addition, the client device 2 may be a terminal or a server, and the connection port 7 may be an interface port such as IEEE 1394, SCSI, or USB.

  The client transmission line 8 is a transmission line cable that transmits and receives client signals between the transmission apparatus 1 and the client apparatus 2. When the client apparatus 2 is a general LAN, it is a transmission path of a standard such as 10BASE-T / 100BASE-TX / 1000Base-T / 1000Base-LX / 10GBase-LR standardized by IEEE802.3.

  The optical wavelength division multiplex transmission apparatus 1 includes an I / F unit 6, an optical wavelength multiplex transmission unit 5, and a supervisory control unit 4. The optical wavelength division multiplexing apparatus 1 receives data transmitted from the connection port 7 of the client apparatus 2 at the I / F unit 6, converts it into a signal of the corresponding optical wavelength band, and transmits it to the optical wavelength multiplexing transmission unit 5. To do. A plurality of I / F units 6 can be provided as in (1) to (n). The data transmitted to the optical wavelength multiplexing transmission unit 5 is optical wavelength division multiplexed by the optical wavelength multiplexing transmission unit 5 and transmitted to the optical wavelength multiplexing transmission line 9. In FIG. 1, two optical wavelength paths 10 and 11 are representatively described as an example. In the opposite optical wavelength division multiplexing apparatus 1, the received optical wavelength path 10 and the optical wavelength path 11 are separated by the optical wavelength multiplexing transmission unit 5 and distributed to each target I / F unit 6. The distributed data is returned to the client signal in each I / F unit 6 and transmitted to the connection port 7 of the client apparatus 2 facing each I / F unit 6.

  The I / F units 6 (1) to 6 (n) are interface units that transmit / receive data to / from the client device 2, and are portions called transponders that convert data into signals of a corresponding wavelength. A plurality of I / F units 6 can be provided in one optical wavelength division multiplexing apparatus 1, and in FIG. 1, it is expressed as having n (1) to (n). In FIG. 1, a plurality of connection ports 7 in one client device 2 are connected to the I / F units 6 (1) to 6 (n). In general, the client devices 2 to be connected may be different devices. I do not care.

  The optical wavelength multiplexing transmission unit 5 converts the data from each client device 2 into an optical wavelength path signal, performs optical wavelength division multiplexing, and transmits it to the optical wavelength multiplexing transmission line 9. Further, the optical wavelength division multiplexed signal is received from the optical wavelength multiplexing transmission line 9, and the demodulated data separated into the optical wavelength path signal is transferred to the client device 2.

  The optical wavelength division multiplexing transmission line 9 is a transmission line (optical fiber cable) for connecting the optical wavelength division multiplexing apparatuses 1 to each other and transmitting / receiving an optical wavelength multiplexed signal. ITU-T Recommendation G. Single mode fiber (SMF) compliant with G.652 or G.652. Dispersion shifted fiber (DSF) conforming to 653 is used.

  Optical wavelength paths 10 and 11 assign optical wavelengths to respective client signals from the client apparatus 2 and add or drop optical signal paths between the optical wavelength division multiplexing apparatuses 1 via the optical wavelength multiplexing transmission line 9. Is expressed. The optical wavelength paths 10 and 11 use different wavelength bands. There may be another repeater between the optical wavelength division multiplexers 1 to be added and dropped.

  The supervisory control unit 4 counts the number of frames of data passing through the I / F units 6 (1) to (n), and when the traffic decreases below a preset threshold value, the corresponding signal of the optical wavelength division multiplex transmission unit 5 The optical output of the wavelength (such as the optical wavelength path 10 or 11) is stopped. Then, the management control device 3 is notified of the stop completion. Further, a stop control signal is transmitted from the corresponding I / F unit 6 to the opposite client device 2. Thereafter, the I / F units 6 (1) to (n) related to the corresponding traffic are suspended.

  It is assumed that the transmission device 1 that has notified the management control device 3 of the completion of the stop is the transmission device 1A. The management control device 3 that has received the notification instructs the optical wavelength division multiplexing transmission device 1B opposite to the optical wavelength path to stop the optical wavelength path. The transmission apparatus 1B instructed to stop the optical wavelength path by the management control apparatus 3 stops the optical output of the wavelength of the corresponding signal of the optical wavelength multiplexing transmission unit 5. Then, the management control device 3 is notified of the stop completion. The management control device 3 stores the fact that the stop completion notification has been received, and information on the operational status of the device such as the overall configuration of the optical wavelength division multiplexing transmission system 20 and the optical wavelength paths used between the transmission devices 1 (management Information).

  On the other hand, when the traffic of the data frame passing through the I / F units 6 (1) to (n) counted by the supervisory control unit 4 exceeds a preset threshold value, the corresponding optical wavelength division multiplexing transmission device 1 The supervisory control unit 4 transmits a restart request notification to the management control device 3 and asks for a determination. The management control device 3 searches the transmission device 1A and the opposite transmission device 1B that transmitted the restart request notification from the management information, and all the transmission devices 1 existing between them, and if there is no other use of the corresponding optical wavelength path. Then, a restart permission notice is transmitted to the corresponding optical wavelength division multiplexing transmission apparatus 1A and the optical wavelength division multiplexing transmission apparatus 1B opposite thereto.

  When the monitoring control unit 4 of the optical wavelength division multiplexing transmission apparatus 1B that is opposite to the optical wavelength path and the optical wavelength division multiplexing transmission apparatus 1A that has transmitted the restart request notification receives the restart permission notification from the management control apparatus 3 Then, control is performed so that the optical output (such as the optical wavelength paths 10 and 11) of the optical wavelength path of the corresponding signal of the optical wavelength multiplexing transmission unit 5 is resumed. At the same time, the I / F units 6 (1) to (n) related to the corresponding traffic are restarted. Further, the corresponding I / F unit 6 transmits an output restart request signal to the opposite client device 2. The optical wavelength division multiplex transmission apparatus 1 that has received the output restart from the opposite client apparatus 2 transmits a restart completion notification to the management control apparatus 3. The management control device 3 stores the fact that the resumption completion notification has been received, and information on the operational status of the device such as the overall configuration of the optical wavelength division multiplex transmission system 20 and the optical wavelength paths used between the transmission devices 1 (management Information).

The monitoring control unit 4 has the following functions.
A function for setting a threshold of data traffic flowing in each of the I / F units 6 (1) to (n) from the external input / output I / F 12. A traffic amount monitoring function of the I / F units 6 (1) to (n) -Regular comparison function for the period set from the external input / output I / F 12 as a result of the above two functions, and output function for comparison results to the external input / output I / F 12-I / F unit 6 (1) to ( n) Function stop / restart control function • Monitoring control function of the optical wavelength path used in the optical wavelength division multiplex unit 5 • Notification of stop completion to the management control device 3, and notification of restart request and transmission of restart completion notification Function for receiving stop request and resume permission notification from management control device 3 ・ Error notification sending function to external input / output I / F 12 when the above function fails

The management control device 3 is a device that manages and controls the plurality of optical wavelength division multiplexing devices 1 through the monitoring control unit 4. Information of a plurality of optical wavelength division multiplexing apparatuses 1 in the entire system is managed and controlled through the monitoring control unit 4. The management control device 3 stores and manages the following information.
-Reception completion information from the monitoring control unit 4 of the plurality of optical wavelength division multiplexing transmission apparatuses 1 across the entire system, and reception information of the restart request notification and restart completion notification-Multiple optical wavelength division multiplexing transmission apparatuses 1 throughout the system Stop information to the supervisory control unit 4, transmission information of resuming permission notification, physical device arrangement information of a plurality of optical wavelength division multiplexing transmission apparatuses 1 over the entire system, a plurality of optical wavelength division multiplexing transmission apparatuses 1 over the entire system Optical wavelength path setting information ・ Opposite device output status for each optical wavelength path of a plurality of optical wavelength division multiplex transmission apparatuses 1 over the entire system

The management control device 3 has the following functions.
-In response to the stop completion notification from the supervisory control unit 4, a function to search the opposite device of the target optical wavelength path and transmit a stop request to the searched opposite device.-In response to the restart request notification from the supervisory control unit 4. Searching the wavelength path information managed with the opposite transmission device 1, and restarting from the function / monitoring control unit 4 that sends a restart permission notice to the opposite devices when no other wavelength band is used in the corresponding area Function to update and store optical wavelength path information in response to completion notification ・ Equipment information to external input / output I / F 12 and notification function of optical wavelength path usage status

  The external input / output I / F 12 provides an interface for connecting a device (management terminal) for managing the optical wavelength division multiplexing transmission system 20. The administrator can view various information of the optical wavelength division multiplexing transmission system 20 from the management terminal through the external input / output I / F 12. In addition, it is possible to set a network configuration and, for example, a threshold for determining whether the optical wavelength path is stopped or restarted.

  The optical wavelength division multiplexing transmission system 20 according to the present embodiment is not limited to the configuration in which the optical wavelength division multiplexing transmission apparatuses 1 are connected to face each other as shown in FIG. FIG. 2 is a block diagram illustrating an example of a connection form of the optical wavelength division multiplex transmission system according to the embodiment. FIG. 3 is a block diagram illustrating an example of loop connection in the optical wavelength division multiplexing transmission system according to the embodiment. 2 and 3, the client device 2 is omitted. The control method of the optical wavelength division multiplex transmission system 20 according to the present embodiment is also applied to a case where a relay device is inserted between them as shown in FIG. 2, or a case where they are connected in a loop (ring) configuration as shown in FIG. can do. The number of optical wavelength division multiplexing transmission apparatuses 1 in the optical wavelength division multiplexing transmission system 20 is not limited.

  A client apparatus 2 is connected to each of the optical wavelength division multiplex transmission apparatuses 1 in FIGS. 2 and 3. The client device 2 may include another optical wavelength division multiplex transmission device 1. In other words, the optical wavelength division multiplexing transmission system 20 can constitute a tree-like or net-like network having transmission devices as nodes. The optical wavelength path is set between any two transmission apparatuses. The transmission apparatus adds and drops an optical wavelength path starting from the transmission apparatus, and relays other optical wavelength paths. A transmission apparatus in the middle of one optical wavelength path relays and transmits the optical wavelength path.

  FIG. 4 is a sequence diagram illustrating a procedure for stopping the optical wavelength path according to the embodiment. The sequence of the control signal when the data traffic passing through the I / F units 6 (1) to 6 (n) counted by the monitoring control unit 4 of the optical wavelength division multiplexing transmission apparatus 1 is less than a preset threshold value. An example is shown.

  The supervisory control unit 4 of the optical wavelength division multiplexing transmission apparatus 1 reads out the number of frames of data traffic passing through the I / F units 6 (1) to (n) at a set time period (signal T11). The number of frames in the set time period represents data traffic. The supervisory control unit 4 compares the number of read frames with a predetermined threshold, and when it becomes smaller than the threshold, transmits an optical wavelength stop request to the optical wavelength multiplexing transmission unit 5 (signal T12).

  When receiving the optical wavelength stop request, the optical wavelength multiplexing transmission unit 5 stops the corresponding optical wavelength path, and sends a wavelength stop completion notification to the monitoring control unit 4 (signal T13). The monitoring control unit 4 transmits an I / F unit output stop request to the corresponding I / F unit 6 (signal T14). When the corresponding I / F unit 6 receives the I / F unit output stop request, the corresponding I / F unit 6 transmits an output stop request to the opposite client device 2 (signal T15).

  When the opposite client device 2 receives the output stop request at the connection port 7, it stops the client signal of the connection port 7 and returns an output stop notification to the I / F unit 6 (signal T16). When the I / F unit 6 receives the output stop notification, the I / F unit 6 stops functioning, and transmits an I / F unit output stop completion notification to the monitoring control unit 4 (signal T17). The monitoring control unit 4 transmits a stop completion notification to the management control device 3 (signal T18).

  The management control apparatus 3 searches for the optical wavelength division multiplex transmission apparatus 1 that is opposed to the apparatus that has received the stop completion notification from the management data through the corresponding optical wavelength path. Then, a stop request is transmitted to the searched opposite optical wavelength division multiplex transmission apparatus 1 (signal T19). The opposite optical wavelength division multiplex transmission apparatus 1 </ b> B that has received the stop request performs the stop process in the same manner as the signals T <b> 12 to 17 described above. The transmission apparatus B transmits a stop completion notification to the management control apparatus 3 (signal T20).

  The management control device 3 updates the system configuration information and wavelength information management data of the entire system at the time when the stop request is transmitted. The management data can always be viewed by the maintenance person at the external input / output I / F 12. The management control device 3 does not have to wait to receive the stop completion notification from the transmission device B. In that case, the transmission apparatus B does not have to send a stop completion notification.

  FIG. 5 is a sequence diagram illustrating a procedure for resuming the optical wavelength path according to the embodiment. The sequence of the control signal when the data traffic passing through the I / F units 6 (1) to (n) counted by the supervisory control unit 4 of the optical wavelength division multiplexing transmission apparatus 1 exceeds a preset threshold value An example is shown.

  The supervisory control unit 4 of the optical wavelength division multiplexing transmission apparatus 1 reads out the number of frames of data traffic passing through the I / F units 6 (1) to (n) at a set time period (signal T21). The number of frames in the set time period represents data traffic. The supervisory control unit 4 compares the number of read frames with a predetermined threshold, and when the number is larger than the threshold, the supervisory control unit 4 of the corresponding optical wavelength division multiplexing transmission apparatus 1 sends the optical wavelength of the relevant data Band information and a restart request notification are transmitted (signal T22).

  The management control device 3 searches for the optical wavelength division multiplex transmission device 1 that is opposed to the device that has transmitted the restart request notification from the management information that is held in the corresponding optical wavelength path, and all devices existing between them. If there is use of the corresponding optical wavelength band, the external input / output I / F 12 notifies that it is already used, and makes it possible to contact the maintenance person. If the corresponding optical wavelength band is not used, a restart permission notice is transmitted to the corresponding optical wavelength division multiplexing transmission apparatus 1A and the optical wavelength division multiplexing transmission apparatus 1B opposite thereto (signal T23, signal T24).

  The corresponding optical wavelength division multiplexing transmission apparatus 1A that has received the restart permission notification and the optical wavelength division multiplexing transmission apparatus 1B opposite to the corresponding optical wavelength path subsequently perform the same resuming operation described later. When the monitoring control unit 4 receives the restart permission notification from the management control device 3, the monitoring control unit 4 transmits a wavelength restart request to the optical wavelength multiplexing transmission unit 5 (signal T25). The optical wavelength multiplexing transmission unit 5 resumes the output of the corresponding optical wavelength (such as the optical wavelength path 10 or 11), and transmits a wavelength resumption completion notification to the monitoring control unit 4 (signal T26).

  Next, the monitoring control unit 4 transmits an I / F unit output restart request to the corresponding I / F unit 6 (signal T27). When the corresponding I / F unit 6 receives the I / F unit output restart request, the corresponding I / F unit 6 restarts the transmission / reception function and transmits an output restart request to the client device 2 on the opposite side (signal T28).

  When the opposite client device 2 receives the output resume request at the connection port 7, it resumes the client signal of the relevant connection port 7 and returns an output resume notification to the I / F unit 6 (signal T29). When receiving the output restart notification, the I / F unit 6 transmits an I / F unit output restart completion notification to the monitoring control unit 4 (signal T30). The monitoring control unit 4 transmits a restart completion notification to the management control device 3 (signal T31). The resumption operation so far is performed in the same way for the opposite optical wavelength division multiplex transmission apparatus 1. Then, the optical wavelength division multiplex transmission apparatus 1B transmits a restart completion notification to the management control apparatus 3 (signal T32).

  Similarly, the management control device 3 waits for the resumption completion notification transmitted from the opposite optical wavelength division multiplex transmission device 1, and when the resumption completion notification is received from both devices, the system configuration information and wavelength information of the entire system. Update management data. The management data can always be viewed by the maintenance person at the external input / output I / F 12. If any error occurs during the above sequence, the supervisory control unit 4 of the corresponding optical wavelength division multiplex transmission apparatus 1 notifies the external input / output I / F 12 of the error and makes it possible to contact the maintenance person.

  In this way, in the present embodiment, by monitoring the traffic volume of communication data, the wavelength band of the optical wavelength division multiplex transmission apparatus 1 is increased / decreased, and the output of the function block in the apparatus related to the corresponding traffic is stopped / resumed. To do. In addition, by transmitting a control signal to the opposite client device 2 related to the corresponding traffic, the client device 2 is also notified of stop / restart. As a result, it is possible to save power in the entire system.

  FIG. 6A is a flowchart illustrating an example of the operation of the optical wavelength path stop process of the optical wavelength division multiplex transmission apparatus according to the embodiment. The monitoring control unit 4 of the transmission apparatus 1A reads the number of frames (step S11). If the traffic is not smaller than the threshold value (step S12; NO), the frame number reading is repeated.

  If the traffic is smaller than the threshold (step S12; YES), the output of the optical wavelength corresponding to the traffic is stopped (step S13). Then, an output stop request is made to the client apparatus 2 that has transmitted data through the optical wavelength path (step S14). Next, the output of the I / F unit 6 facing the client device 2 is stopped (step S15), and a stop completion notification is transmitted to the management control device 3 (step S16).

  FIG. 6B is a flowchart illustrating an example of the operation of the optical wavelength path stop process of the management control device according to the embodiment. The management control device 3 waits for a stop completion notification transmitted from the optical wavelength division multiplex transmission device 1 (step S21; NO). When a stop completion notification is received from the optical wavelength division multiplex transmission apparatus 1 (step S21; YES), the optical wavelength division multiplex transmission apparatus 1 facing the optical wavelength path is searched (step S22). Then, an optical wavelength stop request is transmitted to the searched opposite optical wavelength division multiplex transmission apparatus 1 (step S23).

  After waiting for the stop completion notification to be transmitted from the transmission apparatus that has transmitted the optical wavelength stop request (step S24; NO), when receiving the stop completion notification (step S24; YES), the optical wavelength path information is updated (step S24). S25). 6B illustrates an example in which the management control device 3 receives a stop completion notification of the signal T20 in FIG.

  FIG. 6C is a flowchart illustrating an example of the operation of the optical wavelength path stop process of the opposite-side optical wavelength division multiplex transmission apparatus according to the embodiment. The optical wavelength division multiplex transmission apparatus 1 (transmission apparatus B) waits for an optical wavelength stop request transmitted from the management control apparatus 3 (step S31; NO). When an optical wavelength stop request is received from the management control device 3 (step S31; YES), the corresponding optical wavelength is stopped (step S32).

  The transmission apparatus B issues an output stop request to the client apparatus 2 that has transmitted data through the optical wavelength path (step S33). Next, the output of the I / F unit 6 facing the client device 2 is stopped (step S34), and a stop completion notification is transmitted to the management control device 3 (step S35).

  FIG. 7A is a flowchart illustrating an example of the operation of the optical wavelength path resumption process of the optical wavelength division multiplex transmission apparatus according to the embodiment. The monitoring control unit 4 of the transmission device 1A reads the number of frames (step S41). If the traffic is smaller than the threshold (step S42; NO), the frame number reading is repeated. If the traffic is equal to or greater than the threshold (step S42; YES), an optical wavelength restart request is transmitted to the management control device 3 (step S43).

  Waiting for the resumption permission notification transmitted from the management control device 3 (step S44; NO), if the resumption permission notification is received (step S44; YES), the output of the notified optical wavelength is resumed (step S45). . Then, the output of the I / F unit 6 that receives data to be transmitted through the optical wavelength path is resumed (step S46). The I / F unit 6 makes an output restart request to the opposing client device 2 (step S47). The monitoring control unit 4 transmits a stop completion notification to the management control device 3 (step S48).

  FIG. 7B is a flowchart illustrating an example of the operation of the optical wavelength path restart process of the management control device 3 according to the embodiment. The management control device 3 waits for an optical wavelength restart request transmitted from the optical wavelength division multiplexing transmission device 1 (step S51; NO). When an optical wavelength restart request is received from the optical wavelength division multiplex transmission apparatus 1 (step S51; YES), an empty optical wavelength path is searched between the transmission apparatuses facing the transmission apparatus (step S52).

  Then, a free optical wavelength path is allocated, and an optical wavelength resumption permission notification is transmitted to the transmission apparatuses A and B (step S53). Waiting for the resumption completion notification to be transmitted from the transmission apparatus that has transmitted the resumption permission notification (step S54; NO), and receiving the resumption completion notification (step S54; YES), the optical wavelength path information is updated (step S55). ).

  FIG. 7C is a flowchart illustrating an example of the operation of the optical wavelength path resumption process of the optical wavelength division multiplex transmission apparatus on the opposite side according to the embodiment. The optical wavelength division multiplex transmission apparatus 1 (transmission apparatus B) waits for a restart permission notification to be transmitted from the management control apparatus 3 (step S61; NO). When the restart permission notification is received from the management control device 3 (step S61; YES), the output of the notified optical wavelength is restarted (step S62). Then, the output of the I / F unit 6 that receives data to be transmitted through the optical wavelength path is restarted (step S63). The I / F unit 6 makes an output restart request to the opposing client device 2 (step S64). The monitoring control unit 4 transmits a stop completion notification to the management control device 3 (step S65).

  However, if any error occurs during the above operation, the supervisory control unit 4 of the corresponding optical wavelength division multiplex transmission apparatus 1 notifies the external input / output I / F 12 of the error and can contact the maintenance person. .

As described above, the present invention has the following effects.
The first effect is that the management control device 3 monitors temporal changes in the traffic volume of a plurality of optical wavelength division multiplexing apparatuses. Therefore, the wavelength band used between the optical wavelength division multiplexing apparatuses is increased or decreased according to the traffic volume. Can be adjusted. This makes it possible to use a wavelength band that is efficient in terms of location and time.

  The second effect is that the temporal change in the traffic volume of the optical wavelength division multiplexing apparatus is monitored, so that the stop / restart of the corresponding signal processing block of the corresponding apparatus can be controlled by the temporal change in the traffic volume. . As a result, power saving control can be performed by suspending a functional block having no traffic.

The third effect is that the corresponding signal processing block can be paused depending on the traffic volume of the optical wavelength division multiplexing apparatus. Therefore, the opposite client apparatus 2 also pauses the corresponding signal processing block by transmitting a control signal to the opposite client apparatus 2 during the pause. It can be made to. As a result, it is possible to perform power saving control by pausing the function block without traffic of the opposite device.

A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.

(Appendix 1)
An optical wavelength division multiplexing transmission system for inputting data from a data transmission device and transmitting the input data through an optical wavelength path,
The first multiplexer is
Input means for inputting data from the data sending device;
First transmission means for transmitting the input data to the second multiplexer by an optical wavelength path;
A means for measuring the amount of traffic communicating through the optical wavelength path;
First control means for stopping output of the optical wavelength path when the traffic volume is less than a preset value;
A communication means for notifying the management device that the output has been stopped by control communication different from the optical wavelength path when the output of the optical wavelength path is stopped,
The management device comprises means for communicating with the first multiplexing device and the second multiplexing device by the control communication,
When the management device is notified from the first multiplexer that the output of the optical wavelength path has been stopped, the management device notifies the second multiplexer of the stop of the optical wavelength path,
The second multiplexing device includes second control means for stopping the second transmission means for transmitting on the corresponding optical wavelength path when the stop notification is received,
The communication means of the first multiplexing device notifies the management device of a restart request when the traffic volume exceeds a set value,
The management device, when receiving the restart request, assigns a free optical wavelength path to the first multiplexing device and the second multiplexing device, and notifies the information of the assigned optical wavelength path,
The first control unit and the second control unit cause the first transmission unit and the second transmission unit to start communication of the assigned optical wavelength path, respectively.
The notifying means of the first multiplexing device notifies the management device that the optical wavelength path has been resumed;
An optical wavelength division multiplexing transmission system.

(Appendix 2)
When the output of the optical wavelength path is stopped, the first multiplexing apparatus notifies the data transmission apparatus of the stop, and when the output of the optical wavelength path is started, the first multiplexing apparatus transmits the optical wavelength path to the data transmission apparatus. The optical wavelength division multiplex transmission system according to appendix 1, further comprising instruction means for notifying the start of communication.

(Appendix 3)
The first multiplexing device stops supplying power to the first transmission means when the output of the optical wavelength path is stopped;
The second multiplexer stops the supply of power to the second transmission device when notified of the stop of the optical wavelength path;
The optical wavelength division multiplex transmission system according to appendix 1 or 2, characterized by the above.

(Appendix 4)
An input means for inputting data from the data sending device;
A transmission means for transmitting input data through an optical wavelength path;
A means for measuring the amount of traffic communicating through the optical wavelength path;
Control means for stopping output of the optical wavelength path when the traffic volume is less than a preset value;
A communication means for notifying the management device that the output has been stopped by control communication different from the optical wavelength path when the output of the optical wavelength path is stopped,
The communication means notifies the management device of a restart request when the traffic volume exceeds a set value,
The control means starts communication of the assigned optical wavelength path instructed from the management device,
The notifying means notifies the management device that the optical wavelength path has been resumed;
An optical wavelength division multiplex transmission apparatus.

(Appendix 5)
Instructing means for notifying the data transmitting device of the stop when the output of the optical wavelength path is stopped, and notifying the data transmitting device of the start of optical wavelength path communication when starting the output of the optical wavelength path The optical wavelength division multiplex transmission apparatus according to appendix 4, characterized by comprising:

(Appendix 6)
The optical wavelength division multiplex transmission apparatus according to appendix 4 or 5, wherein when the output of the optical wavelength path is stopped, the supply of power to the transmission unit is stopped.

(Appendix 7)
An optical wavelength division multiplexing transmission method for inputting data from a data transmission device and transmitting the input data through an optical wavelength path,
The first multiplexer is
An input step for inputting data from the data transmission device;
A transmission step of transmitting the input data to the second multiplexer via the optical wavelength path;
A step of measuring the amount of traffic communicating through the optical wavelength path;
A first stop step of stopping output of the optical wavelength path when the traffic volume is less than a preset value;
A stop notification step for notifying the management device that the output has been stopped by control communication different from the optical wavelength path when the output of the optical wavelength path is stopped,
When the management device is notified from the first multiplexer that the output of the optical wavelength path has been stopped, the management device notifies the second multiplexer of the stop of the optical wavelength path,
The second multiplexing device includes a second stop step of stopping the second transmission means for transmitting on the corresponding optical wavelength path when receiving the notification of the stop,
The first multiplexing device notifies the management device of a restart request when the traffic volume exceeds a set value,
The management device, when receiving the restart request, assigns a free optical wavelength path to the first multiplexing device and the second multiplexing device, and notifies the information of the assigned optical wavelength path,
The first multiplexer and the second multiplexer start communication of the assigned optical wavelength path;
The first multiplexing device notifies the management device that the optical wavelength path has been resumed.
An optical wavelength division multiplexing transmission method.

(Appendix 8)
When the output of the optical wavelength path is stopped, the first multiplexing apparatus notifies the data transmission apparatus of the stop, and when the output of the optical wavelength path is started, the first multiplexing apparatus transmits the optical wavelength path to the data transmission apparatus. The optical wavelength division multiplex transmission method according to appendix 7, further comprising an instruction step of notifying the start of communication.

(Appendix 9)
When the first multiplexer stops the output of the optical wavelength path, it stops supplying power to the transmission means that transmits the optical wavelength path,
When the second multiplexer is notified of the stop of the optical wavelength path, the second multiplexer stops the power supply to the transmission means that transmits the optical wavelength path.
9. The optical wavelength division multiplex transmission method according to appendix 7 or 8, wherein

1, 1A, 1B Optical wavelength division multiplexing transmission equipment (transmission equipment)
2 Client device
3. Management control device
4 Monitoring and control unit
5 Optical wavelength division multiplexing transmission unit
6 I / F section
7 Connection port
8 Client transmission path
9 Optical wavelength multiplexing transmission line 10, 11 Optical wavelength path
12 External I / O I / F
20 Optical wavelength division multiplexing transmission system

Claims (9)

An optical wavelength division multiplexing transmission system for inputting data from a data transmission device and transmitting the input data through an optical wavelength path,
The first multiplexer is
Input means for inputting data from the data sending device;
First transmission means for transmitting the input data to the second multiplexer by an optical wavelength path;
A means for measuring the amount of traffic communicating through the optical wavelength path;
First control means for stopping output of the optical wavelength path when the traffic volume is less than a preset value;
A communication means for notifying the management device that the output has been stopped by control communication different from the optical wavelength path when the output of the optical wavelength path is stopped,
The management device comprises means for communicating with the first multiplexing device and the second multiplexing device by the control communication,
When the management device is notified from the first multiplexer that the output of the optical wavelength path has been stopped, the management device notifies the second multiplexer of the stop of the optical wavelength path,
The second multiplexing device includes second control means for stopping the second transmission means for transmitting on the corresponding optical wavelength path when the stop notification is received,
The communication means of the first multiplexing device notifies the management device of a restart request when the traffic volume exceeds a set value,
The management device, when receiving the restart request, assigns a free optical wavelength path to the first multiplexing device and the second multiplexing device, and notifies the information of the assigned optical wavelength path,
The first control unit and the second control unit cause the first transmission unit and the second transmission unit to start communication of the assigned optical wavelength path, respectively.
The notifying means of the first multiplexing device notifies the management device that the optical wavelength path has been resumed;
An optical wavelength division multiplexing transmission system.   When the output of the optical wavelength path is stopped, the first multiplexing apparatus notifies the data transmission apparatus of the stop, and when the output of the optical wavelength path is started, the first multiplexing apparatus transmits the optical wavelength path to the data transmission apparatus. 2. The optical wavelength division multiplexing transmission system according to claim 1, further comprising an instruction unit that notifies the start of communication. The first multiplexing device stops supplying power to the first transmission means when the output of the optical wavelength path is stopped;
The second multiplexer stops the supply of power to the second transmission device when notified of the stop of the optical wavelength path;
The optical wavelength division multiplex transmission system according to claim 1 or 2. An input means for inputting data from the data sending device;
A transmission means for transmitting input data through an optical wavelength path;
A means for measuring the amount of traffic communicating through the optical wavelength path;
Control means for stopping output of the optical wavelength path when the traffic volume is less than a preset value;
A communication means for notifying the management device that the output has been stopped by control communication different from the optical wavelength path when the output of the optical wavelength path is stopped,
The communication means notifies the management device of a restart request when the traffic volume exceeds a set value,
The control means starts communication of the assigned optical wavelength path instructed from the management device,
The notifying means notifies the management device that the optical wavelength path has been resumed;
An optical wavelength division multiplex transmission apparatus.   Instructing means for notifying the data transmitting device of the stop when the output of the optical wavelength path is stopped, and notifying the data transmitting device of the start of optical wavelength path communication when starting the output of the optical wavelength path The optical wavelength division multiplex transmission apparatus according to claim 4, comprising:   6. The optical wavelength division multiplex transmission apparatus according to claim 4, wherein when the output of the optical wavelength path is stopped, the supply of power to the transmission means is stopped. An optical wavelength division multiplexing transmission method for inputting data from a data transmission device and transmitting the input data through an optical wavelength path,
The first multiplexer is
An input step for inputting data from the data transmission device;
A transmission step of transmitting the input data to the second multiplexer via the optical wavelength path;
A step of measuring the amount of traffic communicating through the optical wavelength path;
A first stop step of stopping output of the optical wavelength path when the traffic volume is less than a preset value;
A stop notification step for notifying the management device that the output has been stopped by control communication different from the optical wavelength path when the output of the optical wavelength path is stopped,
When the management device is notified from the first multiplexer that the output of the optical wavelength path has been stopped, the management device notifies the second multiplexer of the stop of the optical wavelength path,
The second multiplexing device includes a second stop step of stopping the second transmission means for transmitting on the corresponding optical wavelength path when receiving the notification of the stop,
The first multiplexing device notifies the management device of a restart request when the traffic volume exceeds a set value,
The management device, when receiving the restart request, assigns a free optical wavelength path to the first multiplexing device and the second multiplexing device, and notifies the information of the assigned optical wavelength path,
The first multiplexer and the second multiplexer start communication of the assigned optical wavelength path;
The first multiplexing device notifies the management device that the optical wavelength path has been resumed.
An optical wavelength division multiplexing transmission method.   When the output of the optical wavelength path is stopped, the first multiplexing apparatus notifies the data transmission apparatus of the stop, and when the output of the optical wavelength path is started, the first multiplexing apparatus transmits the optical wavelength path to the data transmission apparatus. 8. The optical wavelength division multiplexing transmission method according to claim 7, further comprising an instruction step of notifying the start of communication. When the first multiplexer stops the output of the optical wavelength path, it stops supplying power to the transmission means that transmits the optical wavelength path,
When the second multiplexer is notified of the stop of the optical wavelength path, the second multiplexer stops the power supply to the transmission means that transmits the optical wavelength path.
The optical wavelength division multiplex transmission method according to claim 7 or 8,

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