JP4588363B2 - Optical network system and optical add / drop multiplexer - Google Patents

Description

  The present invention relates to an optical network system, its optical repeater, and optical add / drop multiplexer.

In the conventional wavelength division multiplexing optical network, when the transmission quality of the wavelength division multiplexing optical signal is monitored by the error rate, it is only in the node device that terminates the optical signal (see Patent Document 1).
In addition, when trying to monitor the error rate in a transmission line in a conventional optical network, the wavelength multiplexed signal is almost always composed of a single type of optical signal, which should be realized relatively easily. I was able to.
JP 2001-136154 A

Due to the demand for higher speed and economy of user signals, there is a demand for accommodating user signals directly in the wavelength division multiplexing optical network of the backbone. In this case, the wavelength-division multiplexed optical signal of the backbone network is composed of optical signals of a plurality of bit rate protocols.
In addition, optical signals that are not terminated in the node device are also mixed. With respect to such wavelength multiplexed optical signals composed of a plurality of types of optical signals, the conventional technology cannot easily monitor the transmission quality of each optical signal in the transmission path.

  The present invention has been made in view of such circumstances, and an optical network system, an optical repeater, and an optical network capable of easily monitoring the transmission quality of each optical signal of a wavelength multiplexed optical signal in a transmission path An object is to provide an add / drop device.

In order to achieve the above object, the invention described in claim 1 is a wavelength division multiplexing node apparatus having a wavelength division multiplexing optical signal transmission / reception function composed of a plurality of types (bit rate protocol) optical signals, and a wavelength division multiplexing node apparatus. an optical transmission line that connects between, in an optical network system having a light branching and insertion apparatus for performing the add-drop of the wavelength-multiplexed optical signal in the optical transmission path, the optical add drop apparatus, the optical branching and insertion apparatus Optical branching means for branching a part of a wavelength multiplexed optical signal that passes through, optical signal selection means for selecting an arbitrary optical signal among wavelength multiplexed optical signals branched by the optical branching means, and a plurality of types by downloading a program of the multirate interface device having a function of receiving an optical signal, and branches the optical signal from the wavelength-multiplexed optical signal in said optical transmission path, or to insert the optical signal Has a OADM optical switch, an optical signal branched by the OADM optical switch sends to the lower transmission line and the add / drop transmission and reception apparatus for delivering an optical signal inputted from the lower transmission line to said OADM optical switch The multi-rate interface device monitors the transmission quality of the optical signal selected by the optical signal selection means, the optical add / drop device includes the optical signal selection means or the OADM optical switch, and the multi-rate interface device. includes a first optical switch for switching the connection between, said multirate interface device or the add / drop transmission receiving device, and a second optical switch for switching the connection between the lower transmission line when the add / drop transmission receiving device fails, the multirate interface device The add / drop transmission receiver failed by the warning signal from the transmission quality monitor and the lower transmission line identified, characterized by the use of the multi-rate interface unit as a backup unit.

The invention described in claim 2 is the optical network system according to claim 1 ,
The multi-rate interface device sequentially captures optical signals of a plurality of wavelengths to be monitored for a downloaded program corresponding to a certain protocol via the optical signal selection means, and monitors transmission quality. Next, another program corresponding to the optical signal having the wavelength for which the protocol could not be analyzed is downloaded again, and the optical signal having the remaining wavelength is sequentially fetched again via the optical signal selection means, and the transmission quality monitor is performed. This process is repeated until protocol analysis can be performed on the optical signals having the plurality of wavelengths to be transmitted.

According to a third aspect of the present invention, there is provided a wavelength multiplexing node device having a function of transmitting / receiving a wavelength division multiplexed optical signal composed of a plurality of types (bit rate protocol) of optical signals, and an optical connection between the wavelength division multiplexing node devices. a transmission line, the optical add-drop optical network system having a light branching and insertion apparatus for performing the add-drop of the wavelength-multiplexed optical signal in the optical transmission path, optical add drop apparatus, the optical branching and insertion apparatus Optical branching means for branching a part of a wavelength multiplexed optical signal that passes through, optical signal selection means for selecting an arbitrary optical signal among wavelength multiplexed optical signals branched by the optical branching means, and a plurality of types by downloading a program of the multirate interface device having a function of receiving an optical signal, and branches the optical signal from the wavelength-multiplexed optical signal in said optical transmission path, or inserting the optical signal O Has a DM optical switch, an optical signal branched by the OADM optical switch sends to the lower transmission line and the add / drop transmission and reception apparatus for delivering an optical signal inputted from the lower transmission line to said OADM optical switch The multi-rate interface device monitors the transmission quality of the optical signal selected by the optical signal selection means, the optical add / drop device includes the optical signal selection means or the OADM optical switch, and the multi-rate interface device. includes a first optical switch for switching the connection between, said multirate interface device or add / drop transmission receiving device, and a second optical switch for switching the connection between the lower transmission line and, when the add / drop transmission reception device fails, transmission products by the multirate interface device Identify the add / drop transmission receiver failed by the warning signal from the monitor and the lower transmission line, characterized by the use of the multi-rate interface unit as a backup unit.

According to a fourth aspect of the present invention, there is provided an optical add / drop device for an optical network system according to the third aspect , wherein the multi-rate interface device monitors a downloaded program corresponding to a certain protocol. The optical signal of the wavelength is sequentially taken in via the optical signal selection means, the transmission quality is monitored, and another program corresponding to the optical signal of the wavelength whose protocol could not be analyzed is downloaded again. Then, the optical signals of the remaining wavelengths are sequentially taken in again through the optical signal selection means, the transmission quality monitor is performed, and this processing is repeated until the protocol analysis can be performed on the optical signals of the plurality of wavelengths to be transmitted. It is characterized by.

As described above, according to the present invention, a wavelength division multiplexing optical transmission system that uses wavelength division multiplexed signals composed of optical signals of a plurality of bit rate protocols and also includes optical signals that are not terminated at node devices. On the other hand, it is possible to easily monitor the transmission quality of each optical signal in the transmission path, and it becomes easy to specify the failure point at the time of system failure.
Further, according to the present invention, it is possible to easily identify the failure of the Add / Drop transmission / reception device in the OADM device and to respond quickly to the failure.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Prior to the description of embodiments of the present invention, the basic configuration of an optical network system according to the present invention will be described with reference to FIG. In the optical network system according to the present invention, as shown in FIG. 1, in a node device 2 provided in an optical fiber transmission line 1, a part of an optical signal is branched by an optical coupler 4, and a tunable optical filter or AWG is split. After selecting an arbitrary optical signal by the selection device 5 that combines the optical switch and the optical switch, the transmission is performed by measuring the error rate of the optical signal by the multi-rate interface (IF) device 6 that can receive a plurality of types of optical signals. Monitor quality.

  The multi-rate interface device 6 has a function of reading and rewriting a program for processing a plurality of types of frames, a function of communicating with a place where the program is stored, for example, the data center 3, and downloading a program. It is possible to measure the error rate of the type of optical signal.

  The configuration of the optical network system according to the first embodiment of the present invention is shown in FIG. In the figure, the optical network system according to the first embodiment includes wavelength division multiplexing node devices 10 and 30 having a wavelength division multiplexed optical signal transmission / reception function composed of a plurality of types (bit rate protocol) of optical signals, and wavelength division multiplexing. The optical transmission line 1 that connects the node devices 10 and 30 and the optical amplification repeater 20 that compensates for optical loss in the optical transmission line 1 are provided.

The wavelength multiplexing node device 10 multiplexes and outputs a low-speed client signal, and a wavelength multiplexing device that converts the output signal and the high-speed client signal of the electric multiplexing device 100 into an optical signal and performs wavelength multiplexing. 101.
The wavelength multiplexing node device 30 includes a wavelength separation device 300 and an electrical separation device 301 that separates the output of the wavelength separation device 200 into a low-speed client signal.

  The optical amplification repeater 20 includes an optical image amplifier 200, an optical coupler 201 as an optical branching unit that branches a part of an optical signal passing through the optical amplification repeater 20, and an optical signal branched by the optical coupler 201. A tunable filter 202 as optical signal selection means for selecting an arbitrary optical signal, and a multi-rate interface (IF) device 203 having a function of receiving a plurality of types of optical signals by downloading a program. The interface device 203 has a function of measuring the error rate of the optical signal selected by the optical signal selection means and monitoring the transmission quality.

  In the above-described configuration, a plurality of types (SDH (STM-16, STM-16, STM-64) or Ethernet (registered trademark) (GbE, 10 GbE, etc.) optical signals are multiplexed by the wavelength multiplexer 101.

  This wavelength division multiplexed signal is partly branched by the optical coupler 201 in the optical amplifying repeater 20 disposed in the optical fiber transmission line 1 and monitored by the wavelength tunable optical filter 202 connected to the rear of the optical coupler 201. An optical signal for performing is selected. The error rate is measured by the multi-rate interface device 203 for the selected optical signal, and the multi-rate interface device 203 monitors the transmission quality of the desired optical signal.

  Next, FIG. 3 shows the configuration of an optical network system according to the second embodiment of the present invention. The optical network system according to the present embodiment differs from the optical network system according to the first embodiment shown in FIG. 2 in that an optical add / drop multiplexer (OADM device) 40 is provided instead of the optical amplifying repeater 20. Since other configurations are the same, elements having the same function are denoted by the same reference numerals, and redundant description is omitted.

  In the figure, the optical network system according to the second embodiment includes wavelength division multiplexing node devices 10 and 30 having a wavelength division multiplexed optical signal transmission / reception function composed of a plurality of types (bit rate protocol) of optical signals, and wavelength division multiplexing. An optical transmission line 1 that connects the node apparatuses 10 and 30 and an optical add / drop apparatus (OADM apparatus) 40 that branches and inserts a wavelength multiplexed signal in the optical transmission line 1 are provided.

  The optical add / drop device 40 includes optical amplifiers 400 and 406, an optical coupler 401 as an optical add / drop unit for branching a part of an optical signal passing through the optical add / drop device 40, and an optical signal branched by the optical coupler 401. Among them, a tunable optical filter 402 as optical signal selection means for selecting an arbitrary optical signal, and a multi-rate interface device 403 having a function of receiving a plurality of types of optical signals by downloading a program.

Further, the optical add / drop device 40 branches an optical signal from an optical multiplexed signal in the optical fiber transmission line 1 or an OADM optical switch (SW) 404 for inserting an optical signal, and an optical signal branched by the OADM optical switch 404. An add / drop transmission / reception device 405 for sending a signal to the lower transmission line and sending an optical signal input from the lower transmission line to the OADM optical switch 404;
The multi-rate interface device 403 has a function of monitoring the transmission quality of the optical signal selected by the wavelength tunable optical filter.

  In the above-described configuration, a plurality of types (SDH (STM-16, STM-16, STM-64) or Ethernet (registered trademark) (GbE, 10 GbE, etc.) optical signals are multiplexed by the wavelength multiplexer 101.

  This wavelength division multiplexed signal is partly branched by an optical coupler 401 in an optical add / drop multiplexer (OADM device) 40 disposed in the optical fiber transmission line 1 and is connected to the back of the optical coupler 401. An optical signal to be monitored is selected by the filter 402. The error rate is measured for the selected optical signal by the multi-rate interface device 403, and the multi-rate interface device 403 monitors the transmission quality of the desired optical signal.

  The configuration of the optical network system according to the third embodiment of the present invention is shown in FIG. The system configuration is basically the same as that of the optical network system according to the first embodiment, but the function of the multi-rate interface device 203 is different from that of the first embodiment. That is, in the optical network system according to the third embodiment, the multi-rate interface device 203 uses a plurality of wavelengths of optical signals to be monitored for a downloaded program corresponding to a certain protocol as wavelengths as optical signal selection means. Capture sequentially through the variable optical filter 202, monitor the transmission quality, then download again another program corresponding to the optical signal of the wavelength for which the protocol could not be analyzed, and the optical signal of the remaining wavelength Are sequentially taken again through the wavelength tunable optical filter 202 and monitored for transmission quality, and this processing is repeated until the protocol analysis can be performed for the optical signals of the plurality of wavelengths to be transmitted.

  Thus, in order to efficiently monitor the transmission quality of the optical signals of all channels, the number of program downloads that takes the longest time is reduced. For example, when the wavelength multiplexed signal to be transmitted is composed of 8 waves of Ch.1 to 8 that are one of the three types of protocols 1, 2, and 3, the program corresponding to Ch.1 protocol 1 first. , And monitor the transmission quality of Ch.1 optical signal, then sweep all the channels with a tunable optical filter, and transmit the optical signal transmission quality of protocol 1, Ch.2, Ch.5, Ch.7 To monitor.

The function of the multi-rate interface device 203 according to the third embodiment may be provided to the multi-rate interface device 403 in the second embodiment.
Next, download the program corresponding to the remaining Ch.3 protocol 2 and monitor the transmission quality of the Ch.3 optical signal. Then, sweep all remaining channels with the tunable optical filter 202. Monitor the transmission quality of a certain Ch.4 optical signal.

  Next, the program corresponding to the remaining Ch.6 protocol 3 is downloaded, and the transmission quality of the Ch.6 optical signal is monitored. Then, all the remaining channels are swept by the tunable optical filter 202. Monitor the transmission quality of a certain Ch.8 optical signal.

  Next, FIG. 5 shows the configuration of an optical network system according to the fourth embodiment of the present invention. The optical network system according to the fourth embodiment differs in configuration from the optical network system according to the second embodiment in that an optical add / drop multiplexer in the optical network system according to the second embodiment is connected via an optical switch. A function for switching between a multi-rate interface device and an add / drop transmission / reception device is added.

  That is, in FIG. 5, in the optical network system according to the fourth embodiment, an optical add / drop device (OADM device) 50 is connected between the OADM optical switch 508 and the multirate interface device 505 or the add / drop transmission / reception device 506. A first optical switch (optical SW1) for switching connection, a second optical switch (optical SW2) 507 for switching connection between the multi-rate interface device 505 or add / drop signal transmitting / receiving device 506 and the lower transmission path When the add / drop signal transmission / reception device 506 fails, the failed add / drop signal transmission / reception device is identified by the transmission quality monitor by the multi-rate interface device 505 and the alarm signal from the lower transmission line, and used as a spare device. Multirate interface device 5 5 to use.

  In the above configuration, when the drop-side transmission / reception device in the add / drop signal transmission / reception device 506 fails, an alarm signal rises from the lower transmission line, and there is no abnormality in the monitor by the multi-rate interface device 505. The failure of the add / drop signal transmitting / receiving device 506 in the (OADM device) 50 can be specified.

  In order to use the multi-rate interface device 505 instead of the failed add / drop signal transmission / reception device 506, the optical signal dropped by the OADM optical switch 508 is sent to the multi-rate interface device 505 via the first optical switch 504. After being input and terminated by the corresponding protocol, it is sent to the lower transmission line via the second optical switch 507.

  On the other hand, in the case of failure of the add-side transmission / reception device, the optical signal input from the lower transmission path is input to the multi-rate interface device 505 via the second optical switch 507, terminated by the corresponding protocol, The WDM signal is added by the OADM optical switch 508 via the optical switch 504. By connecting the input / output ports of the first optical switch 504, the second optical switch 507 and the multi-rate interface device 505 with a 2 × 2 optical switch, one multi-rate interface is provided for both add / drop signals. It is also possible to cope with the device.

1 is a diagram showing a basic configuration of an optical network system according to the present invention. The figure which shows the structure of the optical network system which concerns on 1st Embodiment of this invention. The figure which shows the structure of the optical network system which concerns on 2nd Embodiment of this invention. The figure which shows the structure of the optical network system which concerns on 3rd Embodiment of this invention. The figure which shows the structure of the optical network system which concerns on 4th Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Optical fiber transmission line 10, 30 ... Wavelength multiplexing node apparatus 20 ... Optical amplification repeater 40, 50 ... Optical add / drop apparatus (OADM apparatus)
DESCRIPTION OF SYMBOLS 100 ... Electric multiplexing apparatus 101 ... Wavelength multiplexing apparatus 201, 401, 502 ... Optical coupler 202, 402, 503 ... Wavelength variable optical filter 203, 403, 505 ... Multi-rate interface apparatus (multi-rate IF)
DESCRIPTION OF SYMBOLS 300 ... Wavelength separator 301 ... Electric separator 404,508 ... OADM optical switch (OADM optical SW)
405, 506... Add / drop transmission / reception device (transmission / reception device)

Claims (4)

A wavelength multiplexing node apparatus having transmitting and receiving functions of the wavelength-multiplexed optical signal composed of a light signal of a plurality of types (bit rate Protocol), an optical transmission path for connecting between the wavelength multiplexing node device, the wavelength in the optical transmission path In an optical network system having an optical add / drop device for adding / dropping multiple optical signals,
The optical add / drop device includes:
Optical branching means for branching a part of the wavelength multiplexed optical signal passing through the optical add / drop device;
An optical signal selection means for selecting an arbitrary optical signal among the wavelength multiplexed optical signals branched by the optical branching means;
A multi-rate interface device having a function of receiving a plurality of types of optical signals by downloading a program;
And OADM optical switch splits the optical signal, or insert an optical signal from the wavelength-multiplexed optical signal in said optical transmission path,
The optical signal branched by the OADM optical switch sends to the lower transmission line, and an add / drop transmission and reception apparatus for delivering an optical signal inputted from the lower transmission line to said OADM optical switch,
The multi-rate interface device monitors the transmission quality of the optical signal selected by the optical signal selection means;
The optical add / drop device includes:
A first optical switch for switching a connection between the optical signal selection means or the OADM optical switch and the multi-rate interface device ;
Wherein a and a multi-rate interface unit or the add / drop transmission receiving device, and a second optical switch for switching the connection between the lower transmission line,
Wherein when the add / drop transmission reception device fails to identify the add / drop transmission receiver failed by the warning signal from the transmission quality monitor and the lower transmission line by the multi-rate interface device, as a preliminary apparatus An optical network system using the multi-rate interface device. The multi-rate interface device includes:
For a downloaded program corresponding to a certain protocol, optical signals of a plurality of wavelengths to be monitored are sequentially fetched through the optical signal selection means, the transmission quality is monitored, and then the protocol cannot be analyzed. Another program corresponding to the optical signal of the specified wavelength is downloaded again, and the optical signal of the remaining wavelength is sequentially captured again through the optical signal selection means, and the transmission quality monitor is performed to transmit this processing. 2. The optical network system according to claim 1, wherein the optical network system is repeated until a protocol analysis can be performed on the optical signals having the plurality of wavelengths. A wavelength multiplexing node apparatus having transmitting and receiving functions of the wavelength-multiplexed optical signal composed of a light signal of a plurality of types (bit rate Protocol), an optical transmission path for connecting between the wavelength multiplexing node device, the wavelength in the optical transmission path In an optical add / drop multiplexer of an optical network system having an optical add / drop multiplexer for branching / inserting multiplexed optical signals,
The optical add / drop device includes:
Optical branching means for branching a part of the wavelength multiplexed optical signal passing through the optical add / drop device;
An optical signal selection means for selecting an arbitrary optical signal among the wavelength multiplexed optical signals branched by the optical branching means;
A multi-rate interface device having a function of receiving a plurality of types of optical signals by downloading a program;
And OADM optical switch splits the optical signal, or insert an optical signal from the wavelength-multiplexed optical signal in said optical transmission path,
The optical signal branched by the OADM optical switch sends to the lower transmission line, and an add / drop transmission and reception apparatus for delivering an optical signal inputted from the lower transmission line to said OADM optical switch,
The multi-rate interface device monitors the transmission quality of the optical signal selected by the optical signal selection means;
The optical add / drop device includes:
A first optical switch for switching a connection between the optical signal selection means or the OADM optical switch and the multi-rate interface device ;
Wherein a and a multi-rate interface device or add / drop transmission receiving device, and a second optical switch for switching the connection between the lower transmission line,
Wherein when the add / drop transmission reception device fails to identify the add / drop transmission receiver failed by the warning signal from the transmission quality monitor and the lower transmission line by the multi-rate interface device, as a preliminary apparatus An optical add / drop device for an optical network system, wherein the multi-rate interface device is used. The multi-rate interface device includes:
For a downloaded program corresponding to a certain protocol, optical signals of a plurality of wavelengths to be monitored are sequentially fetched through the optical signal selection means, the transmission quality is monitored, and then the protocol cannot be analyzed. Another program corresponding to the optical signal of the specified wavelength is downloaded again, and the optical signal of the remaining wavelength is sequentially captured again through the optical signal selection means, and the transmission quality monitor is performed to transmit this processing. 4. The optical add / drop apparatus for an optical network system according to claim 3, wherein the optical signal is repeated until protocol analysis can be performed on the optical signals having the plurality of wavelengths.

Images