CN1671091A - Method and apparatus for transmitting monitoring information in WDM system - Google Patents

Abstract

A method for transmitting monitor information in WDM system for transmitting monitor information through overhead byte, which contains obtaining first effect data and converting to second effect data according with overhead sequence which is inserted in overhead data and transmitted to transmission circuit, obtaining second effect data from overhead data transmitted from transmission circuit side, converting said second effect data according with monitoring information sequence and transmitting to destination network monitor and management system. Said invention also discloses a wavelength-converting unit, which contains and photo electricity converting unit, first and second signal process unit, light emitter, light receiver, optical/electrical converting unit and monitor information process unit.

Description

In wavelength-division multiplex system, transmit the method and the device of monitor message

Technical field

The present invention relates to wavelength division multiplexing (WDM) technology, relate in particular to the method and the device that in wavelength-division multiplex system, transmit monitor message.

Background technology

Along with rapid development of science and technology, the information conveying capacity of communication field just expands with a kind of form of acceleration.Information age requires more and more jumbo transmission network.When the optical fiber of long-distance transmission use was all occupied, what Virtual network operator was considered was not to increase by original route to put a new optical cable generally, but utilizes existing optical fiber to carry out dilatation as far as possible.In the modern optical communications networks network, wavelength division multiplexing (WDM) technology is utilized the enormous bandwidth in monomode fiber low-loss district, wavelength optical signals can be mixed and transmit.The wavelength division multiplexing dilatation can realize by increasing new wavelength.

Typical wavelength-division network is seen shown in Figure 1, and optical sender TX will import the light signal that (IN) mouthful service signal (as the SDH signal) of bringing converts satisfactory definite wavelength to.The wavelength optical signals that wave multiplexer (OM) sends all optical senders (TX) merges to be sent into an optical fiber and transmits.Image intensifer (OA) is used for the compensated fiber Line Attenuation, prolongs signal transmission distance.Channel-splitting filter (OD) is separated wavelength optical signals in the optical fiber.The light signal of a certain wavelength that optical receiver (RX) is separated OD receives and converts to the signal that meets business demand and sends from delivery outlet (OUT).In addition, in order to realize supervision, the control of each cell operation states such as TX/RX, OM/OD, OA, the monitor message transmission channels that except business transferring information, also is necessary between these unit.

In present technical scheme, generally make between the different websites with light monitor message passage (OSC) wavelength dedicated (as: 1310nm, 1510nm etc.) and carry out the transmission of monitor message.As shown in Figure 1, OSC collects each unit information of our station, sends 1310nm or 1510nm equiwavelength's light signal by optical sender, will have the light signal of monitor message and service signal by optical coupler and merge in the optical fiber and transmit.Monitor message adopts the E1 frame structure of ITU-TG704 suggestion, adopts the mode of segmentation, transmitted in both directions to transmit.

Existing monitor message transmission plan has the following disadvantages:

1, because the network monitoring information interface difference of the equipment of different vendor, when non-original factory man equipment supplier carried out dilatation to network, monitor message can't be passed through original equipment supplier's monitor message channel transfer.And to increase optical wavelength conversion element (OTU, i.e. TX/RX unit) usually during the wavelength-division network dilatation, and be used to increase the number of wavelengths of system bearing, need intercommunication network monitor message (as equipment working state, professional break-make etc.) between the OTU that increases newly equally.Therefore, by present scheme, the transmission of network monitoring information need depend on the monitor message transmission channels of legacy network between the OTU that increases newly during dilatation, can only adopt with the equipment of the identical producer of former network when making present wavelength dilatation and realize, otherwise can can't the delivery network monitor message because network monitoring information channel interface is different.So, the drawback of bringing is: the first, bring potential risks to Virtual network operator, stop production owing to equipment or reason such as company's bankruptcy can't provide the dilatation product again such as the equipment component merchant, operator can't be on the existing equipment basis upgrade expanding, reduce the network benefit greatly; The second, cause dilatation cost height, owing to can only rely on original equipment supplier to realize dilatation, thus can not form effective competition, and the result of exclusive supply is likely and holds at high price, and can not realize the upgrading of the network capacity extension cheaply.

2, in wdm system, wavelength resource is very limited, and, increasing a wavelength, network cost also can increase a lot.Utilize wavelength dedicated to transmit monitor message, waste a wavelength resource, thereby also increased networking cost.

3, at the metropolitan area wavelength-division system, 1510/1310nm itself is exactly a service wavelength, can not be used for transmission monitoring information.Therefore, reduced level of integrated system.

4, monitor message must adopt fixing E1 frame format, needs complicated encoding and decoding.

Summary of the invention

The invention provides a kind of method and device that in wavelength-division multiplex system, transmits monitor message, to solve in the existing wdm system because of the wavelength dedicated transmission of monitor message by OSC, and exist monitor message transmission to take limited wavelength resource and encoding and decoding complexity, and when dilatation the selection of equipment be restricted, the networking cost problem of higher.

For addressing the above problem, the invention provides following technical scheme:

A kind of method that transmits monitor message in wavelength-division multiplex system is characterized in that comprising step:

A, from the monitor message that source network monitoring management system side sends, obtain first valid data, and be converted to second valid data that meet the expense sequential;

B, be inserted into second valid data in the overhead data and send to transmission line;

C, from the overhead data that the transmission line trackside sends, obtain second valid data, these second valid data are converted to the data that meet the monitor message sequential and send to purpose network monitoring management system.

According to said method:

Steps A comprises step: the frame head of searching first valid data from monitor message; Begin to receive and buffer memory first valid data, until the postamble of these first valid data; First valid data of buffer memory are converted to second valid data that meet the expense sequential and are inserted in the overhead data.

Step C comprises step: the frame head of searching second valid data from overhead data; Begin to receive and buffer memory second valid data, until the postamble of these second valid data; Second valid data are converted to the data that meet the monitor message sequential and send to purpose network monitoring management system.

Described first valid data include check information, and purpose network monitoring management system determines according to this check information whether the monitor message that receives is correct, if incorrect then request repeat.

Described overhead data can be the overhead data of optical wavelength conversion element (OTU) signal, also can be the overhead data of synchronous digital hierarchy (SDH) signal.

A kind of wavelength conversion unit comprises: light/electric converting unit, receive and handle first signal processing unit of this light/electric converting unit output signal, and launch the optical sender of this first signal processing unit output signal; Optical receiver receives and handles the secondary signal processing unit of this optical receiver output signal, and is the electricity/optical conversion element of light signal with the electrical signal conversion of secondary signal processing unit output; Wherein said wavelength conversion unit also comprises the monitor message processing unit that is connected with described first, second signal processing unit, this monitor message processing unit sends to first signal processing unit with the monitor message that receives after conversion, and receives monitor message and the output of conversion back from the secondary signal processing unit.

Described monitor message processing unit comprises:

Memory module is used for data cached;

The monitor message receiver module receives monitor message and is saved in described memory module;

The overhead data sending module reads monitor message and is converted to the data that meet the expense sequential from described memory module and outputs to first signal processing unit;

The overhead data receiver module receives the monitor message of pressing the expense sequential organization from the secondary signal processing unit, and is saved in described memory module;

The monitor message sending module reads by the monitor message of expense preface tissue and is converted to the data output that meets the monitor message sequential from memory module.

The present invention has following beneficial effect:

1, the network monitoring information channel of equipment in the capacity expansion is independent of legacy network monitor message passage, is not subjected to the constraint of legacy network monitor message passage.

2, with respect to the network monitoring information channel of original individual wavelengths, the present invention has saved individual wavelengths, has saved wavelength resource, has reduced networking cost.

3, directly utilize the vacant byte in the business information to transmit, to the Payload and the not influence of speed of business information.

4, the present invention can directly pass through the programming realization in the programmable gate array (FPGA) at the scene, need not increase other any hardware, simple, reliable, easy row.

Description of drawings

Fig. 1 is the wavelength-division multiplex system schematic diagram;

Fig. 2 is an OTU expense frame format schematic diagram;

Fig. 3 is the structural representation of the OTU that the band monitor message is handled in the wavelength-division multiplex system of the present invention;

Fig. 4 is the structural representation of monitor message processing unit;

Fig. 5 is read-write sequence figure.

Embodiment

The present invention is (when increasing TX/RX unit shown in Figure 1) when the wavelength-division dilatation, utilization has the OTU of monitor message processing capacity, the monitor message of all unit that our station is increased newly is delivered to targeted sites by the vacant byte in the overhead byte, and does not have any association physically with other OTU, the OSC that exist in the past.

G.709 present embodiment is mainly followed with utilization, and GCC0, GCC1, GCC2 or the RES overhead byte transmission monitor message of the OTU of agreement are that example describes.

OTU expense frame format as shown in Figure 2, wherein overhead byte RES is vacant byte.

Consult Fig. 1 and shown in Figure 3, to Fig. 1 dilatation the time, increase the OTU that the band monitor message shown in Fig. 3 is handled, this OTU mainly comprises:

Light/electric converting unit (O/E), first signal processing unit, transmitter (TX) are converted to the light signal of determining wavelength with the service signal of importing and send.

Optical receiver (RX), secondary signal processing unit, electricity/optical conversion element are converted to service signal output with the light signal of a certain wavelength.

The monitor message processing unit, be connected with network monitoring management system, first signal processing unit and secondary signal processing unit respectively, be used for the monitor message that the network monitoring management system is sent is converted to the data that meet the expense sequential and is inserted into overhead data, by sending to transmission line by optical sender after first signal processing unit processes; And from the overhead data that receives by the secondary signal processing unit, obtain monitor message and be converted to the data that meet the monitor message sequential and send to the network monitoring management system.

Monitor message is handled and is divided into sending direction and two autonomous channels of receive direction among the present invention.All processing of monitor message are all finished in the programmable gate array (FPGA) at the scene, and data buffer adopts FPGA inside to carry RAM.Because it is long that the capacity limit of data buffer RAM, the valid data that system side sends over must limit maximum bag.Correct in order to ensure the monitor message that transmits, send effective monitor message byte back in system side, add the CRC check byte, after system-side is received monitor message, whether the information that receives by CRC byte checking correct, if receive wrong, will request repeat.

Consult shown in Figure 4ly, the monitor message processing unit mainly comprises: monitor message receiver module, memory module, overhead data sending module, overhead data receiver module, monitor message sending module.Wherein memory module comprises buffer memory RAM1 and RAM2.

The operation principle of above-mentioned module is as follows:

A, sending direction: under the effect of clock CLK1 and synchronous head FP1, the monitor message receiver module receives the monitor message (diagram DIN) that network monitoring management system side sends, therefrom seek the first valid data frame head (in the present embodiment, receive 8 continuous 7E, just think and find frame head).Extract the first valid data DATA1, produce write address WRADD1 simultaneously, write and enable WREN1, utilize clock CLK1 as synchronised clock, a 7E byte and valid data DATA1 are written to buffer memory RAM1, up to finding the valid data postamble (in the present embodiment, receive that a 7E just thinks and find postamble), just finish data are write RAM1 (postamble also writes RAM1).After finding the valid data postamble, the monitor message receiver module sends one to the overhead data sending module and writes RAM1 end signal WREND1, after the overhead data sending module receives signal WREND1, address signal RDADD2 is read in generation, read enable signal RDEN2, utilize clock CLK2 as synchronised clock, reading of data comprises the data DATA2 of frame head, first valid data and postamble from RAM1, generation meets the second valid data DOH_TX of expense sequential, be inserted into then in the expense of OTU signal, the OTU signal that will comprise monitor message transmits in circuit.

The appearance data (in present embodiment be 7E) identical with frame head and postamble in first valid data before sending valid data, are carried out scrambler by network monitoring system to valid data and are handled.

In order to guarantee the correct transmission of monitor message, system side must be guaranteed could send effective data packets again after the downstream website receives data fully after sending effective data packets at every turn.So the monitor message receiver module can send handshake BUSY to system by the monitor message sending module, up to guaranteeing that the downstream website receives data fully after receiving the first valid data frame head.System can not outwards send monitor message during BUSY.

B, receive direction: the overhead data that overhead data receiver module receiving lines side sends (diagram DOH_RX), therefrom seek the second valid data frame head (in the present embodiment, receive a 7E, just think and find frame head), extract the second valid data DATA3, produce writing address signal WRADD3 simultaneously, write enable signal WREN3, utilize clock CLK3 as synchronised clock, a 7E byte and valid data DATA3 are written to buffer memory RAM2, up to finding valid data postambles (postamble also writes RAM2), just finish data are write RAM2.After finding the valid data postamble, the overhead data receiver module sends an end signal WREND3 who writes buffer memory RAM2 to the monitor message sending module, after the overhead data sending module receives the WREND3 signal, address signal RDADD4 is read in generation, reads enable signal RDEN4, utilizes clock CLK4 as synchronised clock, FP4 is as synchronous head, reading of data DATA4 from buffer memory RAM2 produces the data DOUT that meets the monitor message sequential, gives the network monitoring management system.Wherein clock CLK1 and clock CLK4 can be same clocks, and FP1 and FP4 can be same signals.

In order to guarantee that correct the reception sends monitor message, when system side sends monitor message, send handshake BUSY to system simultaneously, sequential as shown in Figure 5, all signal high level are effective among the figure.Wherein:

T1 for the monitor message data write buffer memory RAM1 after (signal WREN1 jump to low level after) by high level begin from the time-delay of RAM1 read data to the overhead data sending module.

T2 is the circuit transmission delay.

T3 is that (signal WREN3 jump to low level by high level after) begins from the time-delay of RAM1 read data to the monitor message sending module after overhead data writes buffer memory RAM2.

In order to ensure the correct read-write operation of the various speed in RAM both sides, read RAM operation and must write after the RAM operation finishes, be i.e. t1, t3＞0.

From the above, for dilatation on original wdm system, the OTU of increase adopts the OTU that has the monitor message disposal ability, and promptly the monitor message of original OTU still by the OSC transmission, transmit by overhead byte by all monitor messages of the OTU that increases newly.For newly-built system, can adopt the OTU that all has the monitor message disposal ability, may save a wavelength like this and be used for transport service.

Transmit monitor message for the overhead byte that adopts various criterion, its speed is different, and system side monitor message transmission rate is determined by system clock, because both sides speed does not match, if system side monitor message and Overhead directly dock, will cause the phenomenon of information dropout.Adopt the said method can adaptive monitor message transmission rate and the unmatched problem of overhead transmission speed, thereby realize transmitting in the band of monitor message.

Though above is that example describes with the overhead byte transmission monitoring information by the OTU signal, can also utilize the vacant overhead byte of SDH signal to transmit monitor message, its principle is identical.

Monitor message also can be transmitted by modes such as data communication network, DDN special line, Dial-up Network, wireless networks, when using these several modes to transmit monitor message, the data format that only need data transaction be become to meet data communication network, DDN special line, Dial-up Network, wireless network transmissions in the overhead data processing module gets final product, and its principle is same as described above.

Claims (10)

1, a kind of method that transmits monitor message in wavelength-division multiplex system is characterized in that comprising step:

A, from the monitor message that source network monitoring management system side sends, obtain first valid data, and be converted to second valid data that meet the expense sequential;

B, be inserted into second valid data in the overhead data and send to transmission line;

C, from the overhead data that the transmission line trackside sends, obtain second valid data, these second valid data are converted to the data that meet the monitor message sequential and send to purpose network monitoring management system.

2, the method for claim 1 is characterized in that, steps A comprises step:

From monitor message, search the frame head of first valid data;

Begin to receive and buffer memory first valid data, until the postamble of these first valid data;

First valid data of buffer memory are converted to second valid data that meet the expense sequential and are inserted in the overhead data.

3, method as claimed in claim 2 is characterized in that, before the source network monitoring management system sends data, first valid data is carried out scrambler handle, and makes it be different from described frame head and postamble.

4, method as claimed in claim 2 is characterized in that, sends handshake to the source network monitoring management system when receiving the frame head of first valid data, to guarantee to receive fully this first valid data.

5, method as claimed in claim 2 is characterized in that, step C comprises step:

From overhead data, search the frame head of second valid data;

Begin to receive and buffer memory second valid data, until the postamble of these second valid data;

Second valid data are converted to the data that meet the monitor message sequential and send to purpose network monitoring management system.

6, method as claimed in claim 1 or 2 is characterized in that, described first valid data include check information, and purpose network monitoring management system determines according to this check information whether the monitor message that receives is correct, if incorrect then request repeat.

7, as claim 1 or 5 described methods, it is characterized in that,, receive monitor message fully to guarantee this system when purpose network monitoring management system sends data, sending handshake to this system.

8, the method for claim 1 is characterized in that, described overhead data can be the overhead data of optical wavelength conversion element (OTU) signal, also can be the overhead data of synchronous digital hierarchy (SDH) signal.

9, a kind of wavelength conversion unit comprises: light/electric converting unit, receive and handle first signal processing unit of this light/electric converting unit output signal, and launch the optical sender of this first signal processing unit output signal; Optical receiver receives and handles the secondary signal processing unit of this optical receiver output signal, and the electricity/optical conversion element that the light signal of secondary signal processing unit output is converted to the signal of telecommunication; It is characterized in that described wavelength conversion unit also comprises the monitor message processing unit that is connected with described first, second signal processing unit, this monitor message processing unit sends to first signal processing unit with the monitor message that receives after conversion, and receives monitor message and the output of conversion back from the secondary signal processing unit.

10, wavelength conversion unit as claimed in claim 9 is characterized in that, described monitor message processing unit comprises:

Memory module is used for data cached;

The monitor message receiver module receives monitor message and is saved in described memory module;

The overhead data sending module reads monitor message and is converted to the data that meet the expense sequential from described memory module and outputs to first signal processing unit;

The overhead data receiver module receives the monitor message of pressing the expense sequential organization from the secondary signal processing unit, and is saved in described memory module;

The monitor message sending module reads by the monitor message of expense sequential organization and is converted to the data output that meets the monitor message sequential from memory module.

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