CN105656648B - ODN resource carding method and system - Google Patents

Abstract

A kind of ODN resource combing system, including Optical Distribution Network ODN, optical line terminal OLT, detection instrument, passive optical network PON network management and ODN managing device, wherein the OLT, for realizing signal communication by Single port and the ODN, and the PON ID of the port is broadcasted to the ODN；The detection instrument, for behind the port to be detected accessed on the ODN, receiving the PON ID that the OLT is sent；The PON network management, for being parsed to the PON ID of input, with the 2nd PON ID after being parsed；The ODN managing device, for receive current port to be detected port sequence number and corresponding second parsing after PON ID, and the port sequence number is bound with the 2nd PON ID after the corresponding parsing.ODN resource of the invention combs system, carries out the arrangement of resource to ODN by obtaining combing automatically, has many advantages, such as that construction efficiency is high, result is reliable.

Description

ODN resource carding method and system

Technical field

The present invention relates to fiber optic communication field more particularly to a kind of ODN resource carding method and systems.

Background technique

In intelligent acess (FiberToThex, FTTx) development, access layer needs to create a huge optical fiber distributing network Network, i.e. Optical Distribution Network (optical distribution network, ODN).ODN construction cost is high, and highest can account for light Fibre is registered one's residence the 50%-70% of (FiberTo-TheHome, FTTH) gross investment, and ODN needs to support the long-term hair of broadband network Exhibition.Therefore, ODN is efficiently built, runed and is safeguarded and is most important.Currently, how to have carried out the management of science to ODN As the normal structures focus of attention such as major operator and ITU-T.

The effect that ODN is managed be it is quick search the port ODN the port for being correspondingly connected with relationship and ODN and The connection relationship (i.e. progress port binding) of the port of optical line terminal (Optical Line Terminal, OLT), to realize The combing of ODN resource.Existing resource carding method exists such as feux rouges method of testing or plug alarm method and needs more people's cooperations, The disadvantages such as construction efficiency is low, and since combing result utilizes hand-kept, it is easy because human factor causes result to malfunction, it can not Meet requirement.

Summary of the invention

In view of the above-mentioned problems, the purpose of the present invention is to provide ODN resources to comb system and method, by obtaining comb automatically The method of reason carries out the arrangement of resource to ODN, and construction efficiency is high, result is more reliable.

In a first aspect, providing a kind of ODN resource combing system, including Optical Distribution Network ODN, optical line terminal OLT, inspection Survey tool, passive optical network PON network management and ODN managing device, wherein

The OLT for realizing signal communication by Single port and the ODN, and broadcasts the port to the ODN Passive optical network identifies PON ID；

The detection instrument, for behind the port to be detected accessed on the ODN, receiving the PON that the OLT is sent ID；

The PON network management, for being parsed to the PON ID of input, with the 2nd PON ID after being parsed；

The ODN managing device, after port sequence number and the corresponding parsing for receiving current port to be detected The 2nd PON ID, and the port sequence number and the 2nd PON ID are bound.

In the first possible implementation of the first aspect, the 2nd PON ID connects for identifying with the ODN The location information and/or port numbers of the port of the OLT connect.

In the second possible implementation of the first aspect, the port sequence number is for identifying current end to be detected Location information and port numbers of the mouth in the ODN.

Second aspect provides a kind of ODN resource combing system, comprising: terminal OLT, Optical Distribution Network ODN in optical link, Detection instrument, passive optical network PON network management and ODN managing device, wherein

The OLT for establishing connection by Single port and the ODN, and broadcasts the passive of the port to the ODN Optical-fiber network identifies PON ID；

The detection instrument, for generating the end of the port to be detected behind the port to be detected accessed on the ODN Mouth sequence number, and receive the PON ID that the OLT is issued；

The ODN, the port sequence number for identification, and after receiving the PON ID, by the port sequence number and PON ID is transmitted to the ODN managing device.

The ODN managing device, for after receiving the port sequence number and PON ID, the PON ID to be transmitted To the PON network management.

The PON network management for parsing to the PON ID, and the 2nd PON ID after parsing is transmitted to described ODN managing device.

The ODN managing device is also used to after receiving the 2nd PON ID after the PON network management parsing, to the end Mouth sequence number is bound with the 2nd PON ID after the parsing.

In the first possible implementation of the second aspect, the 2nd PON ID connects for identifying with the ODN The location information and/or port numbers of the port of the OLT connect.

In a second possible implementation of the second aspect, the detection instrument includes electronic tag, the electronics When label is inserted into current port to be detected, the port sequence number of current port to be detected is generated, the port sequence number is used for Identify location information and port numbers of the current port to be detected in the ODN.

In the third possible implementation of the second aspect, the ODN resource combing system further includes construction tool, The construction tool is used to receive the port sequence number that the electronic tag generates and the PON ID that the detection instrument obtains, and The port sequence number and PON ID are transmitted to the ODN managing device.

The third aspect provides a kind of ODN resource carding method, comprising:

After optical line terminal OLT realizes signal communication by Single port and Optical Distribution Network ODN, the port is broadcasted Passive optical network identifies PON ID；

It receives the PON ID of the OLT broadcast and shows the PON ID；

The PON ID is parsed, the 2nd PON ID after generating parsing；

The port sequence number and the 2nd PON ID after parsing for receiving current port to be detected, and to the port sequence number And the 2nd PON ID after the parsing is bound.

In the first possible implementation of the third aspect, the 2nd PON ID connects for identifying with the ODN The location information and/or port numbers of the port of the OLT connect.

In the second possible implementation of the third aspect, the port sequence number is for identifying current end to be detected Location information and port numbers of the mouth in the ODN

Fourth aspect provides a kind of ODN resource carding method, comprising:

After optical line terminal OLT realizes signal communication by Single port and Optical Distribution Network ODN, the port is broadcasted Passive optical network identifies PON ID；

After detection instrument accesses the port to be detected on ODN, the port sequence number of the port to be detected is generated, and is connect Receive the passive optical network mark PON ID that the OLT is sent；

It identifies the port sequence number, and receives the PON ID, and the port sequence number and PON ID are transmitted to The ODN managing device；

The PON ID is transmitted to the PON network management；

The PON ID is parsed, and the 2nd PON ID after parsing is transmitted back to the ODN managing device；

After receiving the 2nd PON ID after the parsing, to the port sequence number and second after the parsing PON ID is bound.

In the first possible implementation of the fourth aspect, the 2nd PON ID connects for identifying with the ODN The location information and/or port numbers of the port of the OLT connect.

In the second possible implementation of the fourth aspect, the port sequence number is by the way that an electronic tag to be inserted into The port to be detected obtains, and the port sequence number is for identifying location information of the current port to be detected in the ODN And port numbers.

It is receiving OLT broadcast with current port match to be detected by the detection instrument in the embodiment of the present invention PON ID, and the PON ID is parsed using PON network management, the end of the 2nd PON ID and port to be detected after parsing Mouth sequence number is combed and is stored by ODN managing device.Entire carding process only needs an operator that can grasp Make, does not need more people's cooperations, low to the skill requirement of operator, carding efficiency is high, and combing result is more acurrate.

Detailed description of the invention

In order to illustrate more clearly of technical solution of the present invention, attached drawing needed in embodiment will be made below Simply introduce, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present invention, general for this field For logical technical staff, without creative efforts, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram for the ODN resource combing system that first embodiment of the invention provides；

Fig. 2 is the structural schematic diagram for the ODN resource combing system that second embodiment of the invention provides；

Fig. 3 is the connection schematic diagram of detection instrument shown in Fig. 2 and jumping fiber；

Fig. 4 is the structural schematic diagram for the ODN resource carding method that third embodiment of the invention provides；

Fig. 5 is the structural schematic diagram for the ODN resource carding method that fourth embodiment of the invention provides.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

The embodiment of the invention provides a kind of ODN resource carding method and systems, for combing the light between OLT and ODN Fine office is described in detail separately below to the jumping fiber connection relationship inside connection relationship and ODN equipment.

Embodiment to facilitate the understanding of the present invention below first retouches the ODN resource combing system of the embodiment of the present invention It states.Referring to Fig. 1, Fig. 1 is the structural schematic diagram for the ODN resource combing system that first embodiment of the invention provides, the ODN money Source comb system 100 include OLT 10, ODN 20, detection instrument 30, passive optical network (Passive Optical Network, PON) network management 40 and ODN managing device 50, in which:

The OLT 10 for realizing signal communication by Single port and the ODN, and broadcasts the end to the ODN The passive optical network of mouth identifies PON ID.

In embodiments of the present invention, there is at least one port, and either port can pass through a jumping fiber on the OLT 10 It is connected to the port on ODN 20.Wherein, the jumping fiber is the optical fiber that one section of both ends has connector, described jumping fiber one end Connector is attached with the port on the OLT 10 by adapter, the connector of the other end then pass through adapter with it is described Port on ODN 20 is attached, so that the OLT 10 and ODN 20 realizes signal communication, to realize that optical signal exists Transmission between the OLT 10 and the ODN 20.

Referring to Fig. 1, in embodiments of the present invention, when the port A of the OLT 10 is connected to the ODN by a jumping fiber When on 20, the OLT 10 issues broadcast message to the ODN 20 with the scheduled period, includes institute in the broadcast message The passive optical network mark PON ID of port A is stated, these broadcast messages can be transmitted to matched with the port A of the OLT 10 Each port (being located at the port on the ODN 20 on same business route with the port A) on ODN.Wherein, the PON ID is defined by the PON network management 40 and can be parsed by the PON network management 40, is used to identify the position of the port of the OLT 10 Information and/or port numbers, title, number, location information and the port numbers of the port information of OLT 10 as described in mark.

The ODN 20, for realizing signal communication with the OLT and transmitting the PON ID.

In embodiments of the present invention, the ODN 20 may include fibre distribution frame (Optical Distribution Frame, ODF) 21, fiber cable cross connection box (Fiber Distribution Terminal, FDT) 22 and optical fiber distributing box (Fiber Access Terminal, FAT) 23, wherein the ODF 21 and OLT 10 is attached by the jumping fiber, described FDT 22 is attached also by jumping fiber and the ODF 21 and FAT 23.Specifically, the ODF 21, FDT 22 and FAT 23 All have at least one light input port and at least one optical output port, wherein the optical output port of the ODF 21 passes through Jumping fiber is attached with the port on the OLT 10, the light output end of the light input port of the ODF 21 and the FDT 22 Mouth is attached by jumping fiber, and the light input port of the optical output port of the FDT 22 and the FAT 23 pass through jumping fiber and carries out Connection.

In embodiments of the present invention, the broadcast message that the OLT 10 is sent be transmitted on the ODN 20 with the end The matched each port mouth A.

The detection instrument 30, for behind the port to be detected accessed on the ODN, receiving the PON that the OLT is sent ID。

In embodiments of the present invention, the detection instrument 30 can be a hand-held optical network unit (Optical Network Unit, ONU), the detection instrument 30 can be connected to the port to be detected on the ODN 20 by a jumping fiber, described to be detected Port can be the either port (including light input port and optical output port) on ODF 21, FDT 22 and FAT 23.When described When detection instrument 30 is linked into the port to be detected on the ODN 20, if the port to be detected is the port with the OLT 10 A appropriate ports, the then broadcast message that the OLT10 is issued can be transmitted to the port to be detected and by the detection instruments 30 It receives, the detection instrument 30 parses the broadcast message that the OLT 10 is issued, and therefrom extracts the PON of the port A ID.Wherein, the PON ID can be displayed in the detection instrument 30.

It should be noted that if current port to be detected be not with the port A appropriate ports of the OLT 10, then institute Current port to be detected will not be transmitted to by stating the broadcast message that OLT 10 is issued, i.e., the described detection instrument 30 will not receive The PON ID, at this point, the detection instrument 30 is accessed other ports to be detected on the ODN 20, described in receiving PON ID。

The PON network management 40, for being parsed to the PON ID of input, with the 2nd PON ID after being parsed.

In embodiments of the present invention, after the detection instrument 30 receives the PON ID, the PON ID can be shown In the detection instrument 30.At this point, the PON ID can be input in the PON network management 40, the PON network management 40 is to described PON ID is parsed, with the 2nd PON ID after being parsed, wherein the 2nd PON ID after parsing can identify the OLT The information such as 10 title, number, the port numbers of location information and the port A.

The ODN managing device 50, after port sequence number and the corresponding parsing for receiving current port to be detected 2nd PON ID, and the port sequence number is bound with the corresponding 2nd PON ID.

In embodiments of the present invention, the 2nd PON ID and the port sequence number of port to be detected can pass through manual note The method of record is recorded, wherein the port sequence number of the port to be detected can be preset in the port to be detected Near, as described in being imprinted on the method by stamp near port to be detected, at this point, this is to be checked in the detection instrument 30 insertion When surveying port, that is, it can record the port sequence number；It, should be to by judgement or when detection instrument 30 is inserted into the detection instrument The specific location for detecting port obtains the port sequence number, for example, it is assumed that the port to be detected is located at frame 1, pallet 2, port 10, then the port sequence number is set as 1-2-10.The port sequence number can port to be detected described in unique identification in ODN 20 In position.

In embodiments of the present invention, the ODN managing device 50 can be the relevant devices such as ODN network management.As the ODN 20 All ports to be detected carry out at least one time detection after, it is obtaining with the end that the ODN managing device 50 receives detection The 2nd PON ID after mouthful matched port sequence number of A and port A parsing, and to the port sequence number and described The 2nd PON ID after parsing is combed, and the port sequence number to match each other and the 2nd PON ID are bound, thus Obtain final combing result.For example, it is assumed that the 2nd PON ID shows that current port A is the end implementor name XX- computer room 1- Mouth 20, matching port sequence number include 1-2-10,2-1-8 and 3-5-4, then show that this four ports are to be located at same On business route, these ports are connected by jumping fiber at this time, the transmission of business datum can be carried out.

In embodiments of the present invention, after the port A completes to match, jumping fiber is connected to other on the OLT 10 Port or the port of other OLT devices are linked into using the detection instrument 30 to be checked on the ODN 20 one by one again It surveys port to be detected, the combing of resource can be carried out to whole system, and obtain the company of the inside jumping fiber in final ODN 20 Office between relationship and ODN 20 and OLT 10 is met to connection relationship.

In the embodiment of the present invention, the detection instrument 30 receives the PON for the port being currently accessed that the OLT 10 is broadcasted ID, and the PON ID is parsed using PON network management 40, the port sequence of the 2nd PON ID after parsing and port to be detected Row number is combed and is stored by ODN managing device 50.Entire carding process only needs an operator that can grasp Make, does not need more people's cooperations, the requirement to operator is low, and carding efficiency is high, and combing result is more acurrate.

Referring to Fig. 2, Fig. 2 is the structural schematic diagram for the ODN resource combing system that second embodiment of the invention provides.At this In inventive embodiments, the ODN resource combing system 200 includes at least OLT 210, ODN220, detection instrument 230, PON network management 240 and ODN managing device 250, in which:

The OLT 210 for establishing connection by Single port and the ODN, and broadcasts the port to the ODN PON ID。

In embodiments of the present invention, there is at least one port, and the port can pass through a jumping fiber on the OLT 210 It is connected to the port on ODN 220.Wherein, the jumping fiber is the optical fiber that one section of both ends has connector, described jumping fiber one end Connector be attached with the port on the OLT 210 by adapter, the connector of the other end then pass through adapter with Port on the ODN is attached, so that the OLT210 and ODN 220 realizes signal communication, to realize optical signal in institute State the transmission between OLT 210 and ODN 220.

In embodiments of the present invention, port different on the OLT 210 is for realizing different business data transmissions.When When the port A of the OLT 210 is connected on the ODN 220 by the jumping fiber, the OLT 210 with the scheduled period to The ODN 220 issues broadcast message, includes the PON ID of the port A in the broadcast message, these broadcast messages can It is transferred to and (is located on same business route on each port on the matched ODN 220 of the port A of the OLT 210 Port).Wherein, the PON ID is defined by the PON network management 240 and can be parsed by the PON network management 240, is used to identify The location information and/or port numbers of the port of the OLT 210, title, the number, location information of OLT 210 as described in mark And the information such as port numbers of port A.

The detection instrument 230, for generating the port to be detected behind the port to be detected accessed on the ODN Port sequence number, and receive the PON ID that the OLT is issued.

Referring to Fig. 3, in embodiments of the present invention, the detection instrument 230 can be a hand-held ONU, the detection work Tool 230 can be connected to ports to be detected on the ODN 220 by a jumping fiber, the port to be detected can for ODF 221, Either port on FDT 222 and FAT 223.When the detection instrument 230 is linked into the port to be detected on the ODN 220 When, if the port to be detected is the port A appropriate ports with the OLT 210, the broadcast message of the OLT 210 can be passed It transports to the port to be detected and is received by the detection instrument 230, the detection instrument 230 parses the OLT 210 and issues Broadcast message, and therefrom extract the PON ID of the port A.Wherein, the PON ID can be displayed in the detection instrument On 230.

It should be noted that if the port to be detected be not with the port A appropriate ports of the OLT 210, then it is described The broadcast message that OLT 210 is issued will not be transmitted to the port to be detected, i.e., the described detection instrument 230 will not receive institute PON ID is stated, at this point, the detection instrument 230 accesses other ports to be detected, to receive the PON ID.

In embodiments of the present invention, the detection instrument 230 further includes an electronic tag 231, and the electronic tag 231 can For electronic tag eID or radio frequency identification (Radio Frequency Identification, RFID) label, can consolidate Due on the fiber connector of the jumping fiber, and it is inserted into the port to be detected together with the fiber connector, it is described Electronic tag 231 is inserted into the port to be detected, after the port sequence for producing the port to be detected, and the port sequence It number can be identified by the ODN 220.It is understood that in other embodiments of the invention, the electronic tag 231 and institute The port to be detected can not be inserted into simultaneously by stating fiber connector, the end to be detected as described in being first inserted into the electronic tag 231 Mouthful, then the fiber connector is inserted into the port to be detected；Or the fiber connector be first inserted into it is described to be detected Port, the electronic tag 231 are inserted into the port to be detected, and the present invention does not do specific restriction.

The ODN 220, the port sequence number for identification, and after receiving the PON ID, by the port sequence Number and PON ID be transmitted to the ODN managing device.

In embodiments of the present invention, the ODN 220 and the detection instrument 230 and the ODN managing device 250 are real Existing signal communication.The PON ID is transmitted to the ODN220 by the detection instrument 230, and the ODN 220 identifies the electricity 231 upper port sequence number of subtab, and the port sequence number and the PON ID received are transmitted to the ODN management dress together Set 250.

The ODN managing device 250, for after receiving the port sequence number and PON ID, by the PON ID It is transmitted to the PON network management 240.

In embodiments of the present invention, the ODN managing device 250 realizes signal communication with PON network management 40, and is receiving After the PON ID of port sequence number and the port A that the ODN 220 is transmitted, the PON ID is transmitted to the PON net Pipe 240.

The PON network management 240 for parsing to the PON ID, and the 2nd PON ID after parsing is transmitted back to The ODN managing device.

In embodiments of the present invention, the PON network management 240 can parse the PON ID, and after being parsed 2nd PON ID, wherein the 2nd PON ID after parsing can identify title, number, location information and the institute of the OLT 210 State the information such as the port numbers of port A.The 2nd PON ID after parsing is transmitted back to the ODN managing device by the PON network management 240 250。

The ODN managing device 250 is also used to after the 2nd PON ID after receiving the PON network management 240 and parsing, right The port sequence number is bound with the 2nd PON ID after the parsing.

In embodiments of the present invention, after traversing all ports to be detected on the ODN 220, the ODN management dress Set all port informations with the matched ODN 220 of the port A of 250 acquisitions.Hereafter, jumping fiber is connected to the OLT The ODN is detected using the detection instrument 230 again in the port of other ports or other OLT devices on 210 one by one All ports to be detected on 20, can comb whole system, to obtain the company of the inside jumping fiber in final ODN 220 Office between relationship and ODN 220 and OLT is met to connection relationship.

It should be noted that in other embodiments of the invention, the ODN resource combing system 200, which may also include, to be applied Work tool 260, the construction tool 260 are used to receive the port sequence number and the detection work that the electronic tag 231 generates The PON ID that tool 230 obtains, and the port sequence number and PON ID are transmitted to the ODN managing device 220, the ODN Managing device 250 is transmitted to the PON network management 240 after receiving the port sequence number and PON ID, by the PON ID, And after receiving the 2nd PON ID after the PON network management 240 parses, to the port sequence number and second after the parsing PON ID is bound.

In the embodiment of the present invention, the detection instrument 230 receives the port being currently accessed that the OLT 210 is broadcasted PON ID, and generate using the electronic tag 231 port sequence number of current port to be detected, the PON ID and port sequence Row number is transmitted to the ODN managing device 250 by the ODN 220, and is carried out using PON network management 240 to the PON ID Parsing, the 2nd PON ID after parsing are transmitted back to the ODN managing device 250, and the ODN managing device 250 is to the parsing PON ID and port sequence number afterwards is combed and is stored, and combing intermediate result is automatically recorded in carding process, and automatic complete At final combing as a result, being not necessarily to hand-kept, carding efficiency and accuracy rate are substantially increased.

Referring to Fig. 4, Fig. 4 is the flow chart for the ODN resource carding method that third embodiment of the invention provides, at least wrap Include following steps:

S301, after optical line terminal OLT realizes signal communication by Single port and Optical Distribution Network ODN, described in broadcast The passive optical network of port identifies PON ID.

In embodiments of the present invention, when the port A of the OLT is connected on the ODN by a jumping fiber, the OLT Broadcast message is issued to the ODN with the scheduled period, includes the PON ID of the port A in the broadcast message, these Broadcast message can be transmitted on each port to be detected on the matched ODN of port A with the OLT (i.e. with described port A Port on the ODN on same business route).Wherein, the PON ID is defined by the PON network management and can be by the PON Network management parsing, is used to identify the location information and/or port numbers of the port of the OLT, the title of OLT, volume as described in mark Number, the information such as the port numbers of location information and port.

S302 receives the PON ID of the OLT broadcast and shows the PON ID.

In embodiments of the present invention, the detection instrument can be a hand-held optical network unit (Optical Network Unit, ONU), the detection instrument can be connected to the port to be detected on the ODN, the port to be detected by a jumping fiber It can be the either port (including light input port and optical output port) on ODF, FDT and FAT.When the detection instrument is linked into When port to be detected on the ODN, if the port to be detected is the port A appropriate ports with the OLT, the OLT The broadcast message issued can be transmitted to the port to be detected and be received by the detection instrument, described in the detection instrument parsing The broadcast message that OLT is issued, and therefrom extract PON ID.Wherein, the PON ID can be displayed in the detection instrument.

It should be noted that if current port to be detected be not with the port A appropriate ports of the OLT, then it is described The broadcast message that OLT is issued will not be transmitted to current port to be detected, i.e., the described detection instrument will not receive the PON ID, at this point, the detection instrument is accessed other ports to be detected, to receive the PON ID.

S303 parses the PON ID, the 2nd PON ID after generating parsing.

In embodiments of the present invention, after the detection instrument receives the PON ID, the PON ID be can be displayed in In the detection instrument.At this point, the PON ID is input in the PON network management, the PON network management to the PON ID into Row parsing, with the 2nd PON ID after being parsed, wherein the 2nd PON ID after parsing can identify the title of the OLT, volume Number, the information such as the port numbers of location information and the port A.

S304, the port sequence number and the 2nd PON ID after parsing for receiving current port to be detected, and to the port The 2nd PON ID after sequence number and the parsing is bound.

In embodiments of the present invention, the 2nd PON ID after the parsing and the port sequence number of port to be detected can lead to The method for crossing hand-kept is recorded, wherein the port sequence number of the port to be detected can be preset in described to be checked It surveys near port, as described in the method by stamp is imprinted near port to be detected, at this point, in detection instrument insertion When the port to be detected, that is, it can record the port sequence number；Or when detection instrument is inserted into the detection instrument, pass through judgement The specific location of the port to be detected obtains the port sequence number, for example, it is assumed that the port to be detected is located at frame 1, pallet 2, Port 10 sets the port sequence number then as 1-2-10.The port sequence number can port to be detected described in unique identification in ODN In position.

In embodiments of the present invention, it after all ports to be detected to the ODN carry out a detection, will test to obtain The parsing with the matched port sequence number of the port A and the port A after the PON ID input that passes through computer Equipment (such as keyboard) is input in the ODN managing device, and the ODN managing device is to the port sequence number and the parsing The 2nd PON ID afterwards is combed, and the 2nd PON ID after the port sequence number to match each other and parsing is bound, To obtain final combing result.

In embodiments of the present invention, after the port A completes to match, jumping fiber is connected to the other termination on the OLT The port of mouth or other OLT devices, is linked into the port to be detected on the ODN using the detection instrument again one by one, The quantity of resource can be carried out to whole system, and obtain the inside jumping fiber connection relationship in final ODN and ODN and OLT it Between office to connection relationship.

In the embodiment of the present invention, the port of the current OLT access of the OLT broadcast is received by the detection instrument PON ID, and the PON ID is parsed using PON network management, the 2nd PON ID and ODN's after parsing is to be detected The port sequence number of port is combed and is stored by ODN managing device.Entire carding process, one operator of need are It can be operated, not need more people's cooperations, low to the skill requirement of operator, carding efficiency is high, and combing result is more acurrate.

Referring to Fig. 5, Fig. 5 is the flow chart for the ODN resource carding method that fourth embodiment of the invention provides, at least wrap Include following steps:

S401, after optical line terminal OLT realizes signal communication by Single port and Optical Distribution Network ODN, described in broadcast The passive optical network of port identifies PON ID.

S402 generates the port sequence of the port to be detected after detection instrument accesses the port to be detected on ODN Number, and receive the passive optical network mark PON ID that the OLT is sent.

In embodiments of the present invention, the detection instrument parses the broadcast message that the OLT is issued, and therefrom extracts current The PON ID of the port A of access.

In embodiments of the present invention, the detection instrument further includes an electronic tag, the electronic tag be eID or RFID tag is securable on the fiber connector of the jumping fiber, and be inserted into together with the fiber connector it is described to It detects in port, the electronic tag is inserted into the port to be detected, produces the port sequence of the port to be detected.

S403 identifies the port sequence number, and receives the PON ID, and the port sequence number and PON ID are passed Transport to the ODN managing device.

In embodiments of the present invention, the ODN is realized with the detection instrument and the ODN managing device and is mutually communicated The PON ID is transmitted to the ODN by letter, the detection instrument, and the ODN is by the PON ID received and identifies the electricity The port sequence number that subtab obtains is transmitted to the ODN managing device together.

The PON ID is transmitted to the PON network management by S404.

In embodiments of the present invention, the ODN managing device is after receiving the port sequence number and PON ID, by institute It states PON ID and is transmitted to the PON network management.

S405 parses the PON ID, and the 2nd PON ID after parsing is transmitted back to the ODN management dress It sets.

In embodiments of the present invention, the PON network management can parse the PON ID, and second after being parsed PON ID, wherein the 2nd PON ID after parsing can identify the title of the OLT, number, location information and with it is described to be checked Survey the port number information of port match.PON ID after parsing is transmitted back to the ODN managing device by the PON network management.

S406, after receiving the 2nd PON ID after the parsing, to the port sequence number with after the parsing 2nd PON ID is bound.

In embodiments of the present invention, twoth PON ID of the ODN managing device after receiving the PON network management parsing Afterwards, the port sequence number and the 2nd PON ID after the parsing are bound.

In embodiments of the present invention, after traversing all ports to be detected on the ODN, the ODN managing device is obtained Obtain the matching relationship of the port of all ODNs corresponding with the port A.Hereafter, jumping fiber is connected to its on the OLT His port or the port of other OLT devices, are linked into the end to be detected on the ODN one by one using the detection instrument again Mouthful, the combing of resource can be carried out to whole system, and obtain inside jumping fiber connection relationship and ODN and OLT in final ODN Between office to connection relationship.

In the embodiment of the present invention, the PON for the port of the OLT broadcast being currently accessed is received by the detection instrument ID, and using the port sequence number of electronic tag generation current detection port, the PON ID and port sequence number pass through The ODN is transmitted to the ODN managing device, and is parsed using PON network management to the PON ID, second after parsing PON ID is transmitted back to the ODN managing device, and the ODN managing device is to the 2nd PON ID and port sequence after the parsing It number is combed and is stored, combing intermediate result is automatically recorded in carding process, and be automatically performed final combing as a result, without hand Work record, substantially increases carding efficiency.

The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art For, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also considered as Protection scope of the present invention.

Claims (13)

1. a kind of ODN resource combs system, including Optical Distribution Network ODN, which is characterized in that further include: optical line terminal OLT, Detection instrument, passive optical network PON network management and ODN managing device, wherein

The OLT for realizing signal communication by Single port and the ODN, and broadcasts the passive of the port to the ODN Optical-fiber network identifies PON ID；

The detection instrument, for behind the port to be detected accessed on the ODN, receiving the PON ID that the OLT is sent；

The PON network management, for being parsed to the PON ID of input, with the 2nd PON ID after being parsed；

The ODN managing device, for receive current port to be detected port sequence number and the corresponding parsing after the Two PON ID, and the port sequence number and the 2nd PON ID are bound.

2. ODN resource according to claim 1 combs system, which is characterized in that the 2nd PON ID for identify with The location information and/or port numbers of the port of the OLT of the ODN connection.

3. ODN resource according to claim 1 combs system, which is characterized in that the port sequence number is worked as identifying Location information and port numbers of the preceding port to be detected in the ODN.

4. a kind of ODN resource combs system characterized by comprising optical line terminal OLT, Optical Distribution Network ODN detect work Tool, passive optical network PON network management and ODN managing device, wherein

The OLT for establishing connection by Single port and the ODN, and broadcasts the passive optical network of the port to the ODN Network identifies PON ID；

The detection instrument, for generating the port sequence of the port to be detected behind the port to be detected accessed on the ODN Row number, and receive the PON ID that the OLT is issued；

The ODN, the port sequence number for identification, and after receiving the PON ID, by the port sequence number and PON ID is transmitted to the ODN managing device；

The ODN managing device, for after receiving the port sequence number and PON ID, the PON ID to be transmitted to institute State PON network management；

The 2nd PON ID after parsing for parsing to the PON ID, and is transmitted to the ODN by the PON network management Managing device；

The ODN managing device is also used to after receiving the 2nd PON ID after the PON network management parsing, to the port sequence Row number is bound with the 2nd PON ID after the parsing.

5. ODN resource according to claim 4 combs system, which is characterized in that the 2nd PON ID for identify with The location information and/or port numbers of the port of the OLT of the ODN connection.

6. ODN resource according to claim 4 combs system, which is characterized in that the detection instrument includes electronic tag, When the electronic tag is inserted into current port to be detected, the port sequence number of current port to be detected, the port sequence are generated Row number is for identifying location information and port numbers of the current port to be detected in the ODN.

7. ODN resource according to claim 6 combs system, which is characterized in that the ODN resource combs system and further includes Construction tool, port sequence number and the detection instrument of the construction tool for receiving the electronic tag generation obtain PON ID, and the port sequence number and PON ID are transmitted to the ODN managing device.

8. a kind of ODN resource carding method characterized by comprising

After optical line terminal OLT realizes signal communication by Single port and Optical Distribution Network ODN, the passive of the port is broadcasted Optical-fiber network identifies PON ID；

It receives the PON ID of the OLT broadcast and shows the PON ID；

The PON ID is parsed, the 2nd PON ID after generating parsing；

The port sequence number and the 2nd PON ID after parsing for receiving current port to be detected, and to the port sequence number and institute The 2nd PON ID after stating parsing is bound.

9. ODN resource carding method according to claim 8, which is characterized in that the 2nd PON ID for identify with The location information and/or port numbers of the port of the OLT of the ODN connection.

10. ODN resource carding method according to claim 8, which is characterized in that the port sequence number is worked as identifying Location information and port numbers of the preceding port to be detected in the ODN.

11. a kind of ODN resource carding method characterized by comprising

After optical line terminal OLT realizes signal communication by Single port and Optical Distribution Network ODN, the passive of the port is broadcasted Optical-fiber network identifies PON ID；

After detection instrument accesses the port to be detected on ODN, the port sequence number of the port to be detected is generated, and receives institute State the passive optical network mark PON ID of OLT transmission；

It identifies the port sequence number, and receives the PON ID, and the port sequence number and PON ID be transmitted to described ODN managing device；

The PON ID is transmitted to the PON network management；

The PON ID is parsed, and the 2nd PON ID after parsing is transmitted back to the ODN managing device；

After receiving the 2nd PON ID after the parsing, to the port sequence number and the 2nd PON ID after the parsing It is bound.

12. ODN resource carding method according to claim 11, which is characterized in that the 2nd PON ID is for identifying With the location information and/or port numbers of the port of the ODN OLT connecting.

13. ODN resource carding method according to claim 11, which is characterized in that the port sequence number is by by one The electronic tag insertion port to be detected obtains, and the port sequence number is for identifying current port to be detected in the ODN In location information and port numbers.