CN105656648A - ODN resource organizing method and system - Google Patents

Abstract

An ODN (Optical Distribution Network) resource organizing system comprises an ODN, an optical line terminal (OLT), a detection tool, a passive optical network (PON) administration and an ODN management device, wherein the OLT is used for realizing signal communication with the ODN via a port, and broadcasting a PON ID of the port to the ODN; the detection tool is used for receiving the PON ID sent by the OLT after accessing a port to be detected on the ODN; the PON administration is used for parsing the input PON ID to acquire a parsed second PON ID; and the ODN management device is used for receiving a port sequence number of the port to be detected currently and the corresponding parsed second PON ID, and binding the port sequence number with the corresponding parsed second PON ID. The ODN resource organizing system can perform resource organization on the ODN by automatically acquiring an organizing manner, and has the advantages of high construction efficiency, reliable result and the like.

Description

ODN resource carding method and system

Technical field

The present invention relates to fiber optic communication field, particularly relate to a kind of ODN resource carding method and system.

Background technology

In intelligent acess (FiberToThex, FTTx) develops, Access Layer needs newly-built huge fiber distribution network, i.e. Optical Distribution Network (opticaldistributionnetwork, an ODN). ODN construction cost is high, the highest 50%-70% accounting for fiber entering household (FiberTo-TheHome, FTTH) gross investment, and ODN needs to support the long-run development of broadband network. Therefore, ODN built efficiently, run and safeguard most important. At present, the management how ODN carries out science has become the focus that the normal structures such as Ge great operator and ITU-T are paid close attention to.

The effect that ODN is managed is the port and the optical line terminal (OpticalLineTerminal that quickly search corresponding annexation and ODN between ODN port, the annexation (namely carrying out port binding) of port OLT), to realize ODN resource combing. Existing resource carding method, such as HONGGUANG method of testing or plug alarm method, all existence needs many people to coordinate, the shortcomings such as efficiency of construction is low, and owing to combing result utilizes hand-kept, it is easy to because anthropic factor causes result to be made mistakes, it is impossible to meet instructions for use.

Summary of the invention

For the problems referred to above, it is an object of the invention to provide ODN resource combing system and method, by the method automatically obtaining combing, ODN is carried out the arrangement of resource, and efficiency of construction is high, result is more reliable.

First aspect, it is provided that a kind of ODN resource combing system, including Optical Distribution Network ODN, optical line terminal OLT, detection instrument, passive optical network PON webmaster and ODN managing device, wherein,

Described OLT, for realizing signal communication by Single port with described ODN, and broadcasts the EPON mark PONID of described port to described ODN;

Described detection instrument, for, after the port to be detected accessed on described ODN, receiving the described OLT PONID sent;

Described PON webmaster, for resolving the described PONID of input, to obtain the 2nd PONID after resolving;

Described ODN managing device, is used for the 2nd PONID after receiving the port sequence number of current port to be detected and the described parsing of correspondence, and is bound with described 2nd PONID by described port sequence number.

In the first possible implementation of first aspect, described 2nd PONID is for identifying positional information and/or the port numbers of the port with the described ODN OLT being connected.

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

Second aspect, it is provided that a kind of ODN resource combing system, including: terminal OLT, Optical Distribution Network ODN in optical link, detection instrument, passive optical network PON webmaster and ODN managing device, wherein,

Described OLT, for being connected with described ODN foundation by Single port, and broadcasts the EPON mark PONID of described port to described ODN;

Described detection instrument, for, after the port to be detected accessed on described ODN, generating the port sequence number of described port to be detected, and receive the described OLT PONID issued;

Described ODN, is used for identifying described port sequence number, and after receiving described PONID, transmits described port sequence number and PONID to described ODN managing device.

Described ODN managing device, for after receiving described port sequence number and PONID, by described PONID transmission to described PON webmaster.

Described PON webmaster, for described PONID is resolved, and transmits the 2nd PONID after resolving to described ODN managing device.

Described ODN managing device is additionally operable to, after receiving the 2nd PONID after described PON webmaster resolves, the 2nd PONID after described port sequence number and described parsing be bound.

In the first possible implementation of second aspect, described 2nd PONID is for identifying positional information and/or the port numbers of the port with the described ODN OLT being connected.

In the implementation that the second of second aspect is possible, described detection kit draws together electronic tag, when described electronic tag is inserted into current port to be detected, generating the port sequence number of current port to be detected, described port sequence number is for identifying the current port to be detected positional information in described ODN and port numbers.

In the third possible implementation of second aspect, described ODN resource combing system also includes construction tool, the PONID that described construction tool obtains for the port sequence number and described detection instrument receiving the generation of described electronic tag, and described port sequence number and PONID are transmitted to described ODN managing device.

The third aspect, it is provided that a kind of ODN resource carding method, including:

After optical line terminal OLT realizes signal communication by Single port with Optical Distribution Network ODN, broadcast the EPON mark PONID of described port;

Receive the PONID of described OLT broadcast and show described PONID;

Described PONID is resolved, generates the 2nd PONID after resolving;

The 2nd PONID after receiving the port sequence number of current port to be detected and resolving, and binds the 2nd PONID after described port sequence number and described parsing.

In the first possible implementation of the third aspect, described 2nd PONID is for identifying positional information and/or the port numbers of the port with the described ODN OLT being connected.

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

Fourth aspect, it is provided that a kind of ODN resource carding method, including:

After optical line terminal OLT realizes signal communication by Single port with Optical Distribution Network ODN, broadcast the EPON mark PONID of described port;

After detection instrument accesses the port to be detected on ODN, generate the port sequence number of described port to be detected, and receive the described OLT EPON sent mark PONID;

Identify described port sequence number, and receive described PONID, and described port sequence number and PONID are transmitted to described ODN managing device;

By described PONID transmission to described PON webmaster;

Described PONID is resolved, and the 2nd PONID after resolving is transmitted back to described ODN managing device;

After the 2nd PONID after receiving described parsing, the 2nd PONID after described port sequence number and described parsing is bound.

In the first possible implementation of fourth aspect, described 2nd PONID is for identifying positional information and/or the port numbers of the port with the described ODN OLT being connected.

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

In the embodiment of the present invention, the PONID with current port match to be detected of described OLT broadcast is received by described detection instrument, and utilizing PON webmaster that described PONID is resolved, the port sequence number of the 2nd PONID after parsing and port to be detected carries out combing and storage by ODN managing device. Whole carding process only needs operator to be operated, it is not necessary to many people coordinate, and the skill set requirements of operator is low, and carding efficiency is high, and combing result is more accurate.

Accompanying drawing explanation

In order to be illustrated more clearly that technical scheme, the accompanying drawing used required in embodiment will be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

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

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

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

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

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

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments. Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

Embodiments provide a kind of ODN resource carding method and system, for the optical fiber office between combing OLT and ODN to the jumping fiber annexation of annexation and ODN device interior, be described in detail individually below.

For the ease of understanding the embodiment of the present invention, first the ODN resource combing system of the embodiment of the present invention is described below. Refer to Fig. 1, Fig. 1 is the structural representation of the ODN resource combing system that first embodiment of the invention provides, described ODN resource combing system 100 includes OLT10, ODN20, detection instrument 30, EPON (PassiveOpticalNetwork, PON) webmaster 40 and ODN managing device 50, wherein:

Described OLT10, for realizing signal communication by Single port with described ODN, and broadcasts the EPON mark PONID of described port to described ODN.

In embodiments of the present invention, described OLT10 has at least one port, and either port can be connected to the port on ODN20 by a jumping fiber. Wherein, described jumping fiber is that one section of two is all with the optical fiber of union joint, the union joint of described jumping fiber one end is attached by adapter with the port on described OLT10, the union joint of the other end is then attached with the port on described ODN20 by adapter, thus described OLT10 and described ODN20 realizes signal communication, to realize optical signal transmission between described OLT10 and described ODN20.

Refer to Fig. 1, in embodiments of the present invention, when the port A of described OLT10 is connected on described ODN20 by a jumping fiber, described OLT10 issues broadcast message with the predetermined cycle to described ODN20, include in described broadcast message described port A EPON mark PONID, these broadcast messages can transmit to each port (port being namely positioned on the ODN20 on same business route with described port A) on the port A of the described OLT10 ODN mated. Wherein, described PONID is defined by described PON webmaster 40 and can be resolved by described PON webmaster 40, it is for identifying the positional information of port and/or the port numbers of described OLT10, such as information such as the port numbers of the title of OLT10, numbering, positional information and port as described in identifying.

Described ODN20, for realizing signal communication with described OLT and transmitting described PONID.

In embodiments of the present invention, described ODN20 can include fibre distribution frame (OpticalDistributionFrame, ODF) 21, fiber cable cross connection box (FiberDistributionTerminal, FDT) 22 and optical fiber distributing box (FiberAccessTerminal, FAT) 23, wherein, described ODF21 and described OLT10 is attached by described jumping fiber, and described FDT22 is attached with described ODF21 and FAT23 also by jumping fiber. It is specially, described ODF21, FDT22 and FAT23 are respectively provided with at least one light input end mouth and at least one optical output port, wherein, the optical output port of described ODF21 is attached with the port on described OLT10 by jumping fiber, the light input end mouth of described ODF21 and the optical output port of described FDT22 are attached by jumping fiber, and the light input end mouth of the optical output port of described FDT22 and described FAT23 is attached by jumping fiber.

In embodiments of the present invention, the broadcast message transmission that described OLT10 sends on described ODN20 with described port A each port mated.

Described detection instrument 30, for, after the port to be detected accessed on described ODN, receiving the described OLT PONID sent.

In embodiments of the present invention, described detection instrument 30 can be a hand-held optical network unit (OpticalNetworkUnit, ONU), described detection instrument 30 can be connected to the port to be detected on described ODN20 by a jumping fiber, and described port to be detected can be the either port (including light input end mouth and optical output port) on ODF21, FDT22 and FAT23. When described detection instrument 30 is linked into the port to be detected on described ODN20, if this port to be detected is the port A appropriate ports with described OLT10, the broadcast message that then described OLT10 issues can be transmitted to described port to be detected and be received by described detection instrument 30, described detection instrument 30 resolves the described OLT10 broadcast message issued, and therefrom extracts the PONID of described port A. Wherein, described PONID can be displayed on described detection instrument 30.

It should be noted that, if current port to be detected be not with the port A appropriate ports of described OLT10, the broadcast message that then described OLT10 issues will not be transmitted to current port to be detected, namely described detection instrument 30 will not receive described PONID, now, described detection instrument 30 is accessed other ports to be detected on described ODN20, to receive described PONID.

Described PON webmaster 40, for resolving the PONID of input, to obtain the 2nd PONID after resolving.

In embodiments of the present invention, after described detection instrument 30 receives described PONID, described PONID can be displayed on described detection instrument 30. Now, described PONID can be input in described PON webmaster 40, described PONID is resolved by described PON webmaster 40, to obtain the 2nd PONID after resolving, wherein, the 2nd PONID after parsing can identify the information such as the port numbers of the title of described OLT10, numbering, positional information and described port A.

Described ODN managing device 50, is used for the 2nd PONID after receiving the current port sequence number of port to be detected and the parsing of correspondence, and is bound with described the 2nd corresponding PONID by described port sequence number.

In embodiments of the present invention, the port sequence number of described 2nd PONID and port to be detected all can be recorded by the method for hand-kept, wherein, the port sequence number of described port to be detected can be pre-set near described port to be detected, near port to be detected as described in being imprinted on by the method for die, now, when described detection instrument 30 inserts this port to be detected, i.e. recordable described port sequence number; Or when detection instrument 30 inserts this detection instrument, by judging that the particular location of this port to be detected obtains described port sequence number, for instance, it is assumed that this port to be detected is positioned at frame 1, pallet 2, port 10, then set described port sequence number as 1-2-10. Described port sequence number can uniquely identify the described port to be detected position in ODN20.

In embodiments of the present invention, described ODN managing device 50 can be the relevant devices such as ODN webmaster. When the port all to be detected of described ODN20 all carries out at least one after detection, described ODN managing device 50 receive detection obtain with the described port A described port sequence number mate and described port A parsing after the 2nd PONID, and the 2nd PONID after described port sequence number and described parsing is carried out combing, so that the port sequence number matched each other and the 2nd PONID are bound, thus obtaining final combing result. Such as, assume that described 2nd PONID shows that current port A is implementor name XX-machine room 1-port 20, the port sequence number matched includes 1-2-10,2-1-8 and 3-5-4, then show that these four ports are on same business route, connect these ports now by jumping fiber, the transmission of business datum can be carried out.

In embodiments of the present invention, after described port A completes coupling, jumping fiber is connected to the port of other ports on described OLT10 or other OLT device, the port to be detected being linked into one by one on described ODN20 again with described detection instrument 30 detects, whole system can be carried out the combing of resource, and obtain office between inside jumping fiber annexation and ODN20 and the OLT10 in final ODN20 to annexation.

In the embodiment of the present invention, described detection instrument 30 receives the PONID of the port being currently accessed of described OLT10 broadcast, and utilizing PON webmaster 40 that described PONID is resolved, the port sequence number of the 2nd PONID after parsing and port to be detected carries out combing and storage by ODN managing device 50.Whole carding process, only needs operator to be operated, it is not necessary to many people coordinate, and the requirement of operator is low, and carding efficiency is high, and combing result is more accurate.

Refer to the structural representation that Fig. 2, Fig. 2 are the ODN resource combing systems that second embodiment of the invention provides. In embodiments of the present invention, described ODN resource combing system 200 at least includes OLT210, ODN220, detection instrument 230, PON webmaster 240 and ODN managing device 250, wherein:

Described OLT210, for being connected with described ODN foundation by Single port, and broadcasts the PONID of described port to described ODN.

In embodiments of the present invention, described OLT210 has at least one port, and described port can be connected to the port on ODN220 by a jumping fiber. Wherein, described jumping fiber is that one section of two is all with the optical fiber of union joint, the union joint of described jumping fiber one end is attached by adapter with the port on described OLT210, the union joint of the other end is then attached with the port on described ODN by adapter, thus described OLT210 and ODN220 realizes signal communication, to realize optical signal transmission between described OLT210 and ODN220.

In embodiments of the present invention, different on described OLT210 ports is for realizing different business data transmission. When the port A of described OLT210 is connected on described ODN220 by described jumping fiber, described OLT210 issues broadcast message with the predetermined cycle to described ODN220, including the PONID of described port A in described broadcast message, these broadcast messages can be transferred on each port on the ODN220 mated of the port A with described OLT210 (being namely positioned at the port on same business route). Wherein, described PONID is defined by described PON webmaster 240 and can be resolved by described PON webmaster 240, it is for identifying the positional information of port and/or the port numbers of described OLT210, such as information such as the port numbers of the title of OLT210, numbering, positional information and port A as described in identifying.

Described detection instrument 230, for, after the port to be detected accessed on described ODN, generating the port sequence number of described port to be detected, and receive the described OLT PONID issued.

Refer to Fig. 3, in embodiments of the present invention, described detection instrument 230 can be a hand-held ONU, and described detection instrument 230 can be connected to the port to be detected on described ODN220 by a jumping fiber, and described port to be detected can be the either port on ODF221, FDT222 and FAT223. When described detection instrument 230 is linked into the port to be detected on described ODN220, if this port to be detected is the port A appropriate ports with described OLT210, then the broadcast message of described OLT210 can be transmitted to described port to be detected and be received by described detection instrument 230, described detection instrument 230 resolves the described OLT210 broadcast message issued, and therefrom extracts the PONID of described port A. Wherein, described PONID can be displayed on described detection instrument 230.

It should be noted that, if this port to be detected be not with the port A appropriate ports of described OLT210, the broadcast message that then described OLT210 issues will not be transmitted to described port to be detected, namely described detection instrument 230 will not receive described PONID, now, described detection instrument 230 accesses other ports to be detected, to receive described PONID.

In embodiments of the present invention, described detection instrument 230 also includes an electronic tag 231, described electronic tag 231 can be electronic tag eID or radio frequency identification (RadioFrequencyIdentification, RFID) label, it is securable on the fiber connector of described jumping fiber, and it is inserted in described port to be detected together with described fiber connector, described electronic tag 231 is inserted into described port to be detected, after can generating the port sequence of described port to be detected, and this port sequence number can be identified by described ODN220.It is understandable that, in other embodiments of the invention, described electronic tag 231 and described fiber connector can not be inserted simultaneously into described port to be detected, described electronic tag 231 can first insert as described in port to be detected, then described fiber connector is inserted into described port to be detected; Or described fiber connector first inserts described port to be detected, and described electronic tag 231 is inserted into described port to be detected, and the present invention does not do concrete restriction.

Described ODN220, is used for identifying described port sequence number, and after receiving described PONID, transmits described port sequence number and PONID to described ODN managing device.

In embodiments of the present invention, described ODN220 all realizes signal communication with described detection instrument 230 and described ODN managing device 250. Described PONID transmission to described ODN220, described ODN220 is identified described electronic tag 231 upper port serial number by described detection instrument 230, and described port sequence number and the PONID that receives transmit in the lump to described ODN managing device 250.

Described ODN managing device 250, for after receiving described port sequence number and PONID, by described PONID transmission to described PON webmaster 240.

In embodiments of the present invention, described ODN managing device 250 and PON webmaster 40 realize signal communication, and after the PONID of the port sequence number and described port A that receive described ODN220 transmission, by described PONID transmission to described PON webmaster 240.

Described PON webmaster 240, for described PONID is resolved, and is transmitted back to described ODN managing device by the 2nd PONID after resolving.

In embodiments of the present invention, described PONID can be resolved by described PON webmaster 240, and obtain the 2nd PONID after parsing, wherein, the 2nd PONID after parsing can identify the information such as the port numbers of the title of described OLT210, numbering, positional information and described port A. The 2nd PONID after parsing is transmitted back to described ODN managing device 250 by described PON webmaster 240.

Described ODN managing device 250 is additionally operable to, after receiving the 2nd PONID after described PON webmaster 240 resolves, the 2nd PONID after described port sequence number and described parsing be bound.

In embodiments of the present invention, when, after the port all to be detected traveled through on described ODN220, described ODN managing device 250 obtains the port information of all and described port A described ODN220 mated. Hereafter, jumping fiber is connected to the port of other ports on described OLT210 or other OLT device, the port all to be detected on described ODN20 is detected one by one again with described detection instrument 230, whole system can be carried out combing, to obtain office between inside jumping fiber annexation and ODN220 and the OLT in final ODN220 to annexation.

It should be noted that, in other embodiments of the invention, described ODN resource combing system 200 may also include construction tool 260, the PONID that described construction tool 260 obtains for the port sequence number and described detection instrument 230 receiving the generation of described electronic tag 231, and described port sequence number and PONID are transmitted to described ODN managing device 220, described ODN managing device 250 is after receiving described port sequence number and PONID, by described PONID transmission to described PON webmaster 240, and after receiving the 2nd PONID after described PON webmaster 240 resolves, the 2nd PONID after described port sequence number and described parsing is bound.

In the embodiment of the present invention, described detection instrument 230 receives the PONID of the port being currently accessed of described OLT210 broadcast, and utilize described electronic tag 231 to generate the port sequence number of current port to be detected, described PONID and port sequence number are by described ODN220 transmission to described ODN managing device 250, and utilize PON webmaster 240 that described PONID is resolved, the 2nd PONID after parsing is transmitted back to described ODN managing device 250, PONID after described parsing and port sequence number are carried out combing and storage by described ODN managing device 250, carding process records combing intermediate object program automatically, and it is automatically performed final combing result, without hand-kept, substantially increase carding efficiency and accuracy rate.

Referring to the flow chart that Fig. 4, Fig. 4 are the ODN resource carding methods that third embodiment of the invention provides, it at least comprises the steps:

S301, after optical line terminal OLT realizes signal communication by Single port with Optical Distribution Network ODN, broadcasts the EPON mark PONID of described port.

In embodiments of the present invention, when the port A of described OLT is connected on described ODN by a jumping fiber, described OLT issues broadcast message with the predetermined cycle to described ODN, include the PONID of described port A in described broadcast message, these broadcast messages can transmit to (port being namely positioned on the ODN on same business route with described port A) on each port to be detected on the port A of the described OLT ODN mated. Wherein, described PONID is defined by described PON webmaster and can be resolved by described PON webmaster, and it is for identifying the positional information of port and/or the port numbers of described OLT, such as information such as the port numbers of the title of OLT, numbering, positional information and port as described in identifying.

S302, receives the PONID of described OLT broadcast and shows described PONID.

In embodiments of the present invention, described detection instrument can be a hand-held optical network unit (OpticalNetworkUnit, ONU), described detection instrument can be connected to the port to be detected on described ODN by a jumping fiber, and described port to be detected can be the either port (including light input end mouth and optical output port) on ODF, FDT and FAT. When described detection instrument is linked into the port to be detected on described ODN, if this port to be detected is the port A appropriate ports with described OLT, the broadcast message that then described OLT issues can be transmitted to described port to be detected and be received by described detection instrument, described detection instrument resolves the described OLT broadcast message issued, and therefrom extracts PONID. Wherein, described PONID can be displayed on described detection instrument.

It should be noted that, if current port to be detected be not with the port A appropriate ports of described OLT, the broadcast message that then described OLT issues will not be transmitted to current port to be detected, namely described detection instrument will not receive described PONID, now, described detection instrument is accessed other ports to be detected, to receive described PONID.

S303, resolves described PONID, generates the 2nd PONID after resolving.

In embodiments of the present invention, after described detection instrument receives described PONID, described PONID can be displayed on described detection instrument. Now, being input to by described PONID in described PON webmaster, described PONID is resolved by described PON webmaster, to obtain the 2nd PONID after resolving, wherein, the 2nd PONID after parsing can identify the information such as the port numbers of the title of described OLT, numbering, positional information and described port A.

S304, the 2nd PONID after receiving the port sequence number of current port to be detected and resolving, and bind the 2nd PONID after described port sequence number and described parsing.

In embodiments of the present invention, the 2nd PONID and the port sequence number of port to be detected after described parsing all can be recorded by the method for hand-kept, wherein, the port sequence number of described port to be detected can be pre-set near described port to be detected, near port to be detected as described in being imprinted on by the method for die, now, when described detection instrument inserts this port to be detected, i.e. recordable described port sequence number; Or when detection instrument inserts this detection instrument, by judging that the particular location of this port to be detected obtains described port sequence number, for instance, it is assumed that this port to be detected is positioned at frame 1, pallet 2, port 10, then set described port sequence number as 1-2-10. Described port sequence number can uniquely identify the described port to be detected position in ODN.

In embodiments of the present invention, after the port all to be detected of described ODN is carried out a detection, detection is obtained with the PONID after the parsing of the described port A described port sequence number mated and described port A by the input equipment (such as keyboard) of computer be input to as described in ODN managing device, the 2nd PONID after described port sequence number and described parsing is carried out combing by described ODN managing device, and the 2nd PONID after the port sequence number matched each other and parsing is bound, thus obtaining final combing result.

In embodiments of the present invention, after described port A completes coupling, jumping fiber is connected to the port of other ports on described OLT or other OLT device, the port to be detected on described ODN it is linked into one by one again with described detection instrument, whole system can be carried out the quantity of resource, and obtain office between inside jumping fiber annexation and ODN and the OLT in final ODN to annexation.

In the embodiment of the present invention, the PONID of the port of the current OLT access of described OLT broadcast is received by described detection instrument, and utilizing PON webmaster that described PONID is resolved, the port sequence number of the port to be detected of the 2nd PONID after parsing and described ODN carries out combing and storage by ODN managing device. Whole carding process, only needs operator to be operated, it is not necessary to many people coordinate, and the skill set requirements of operator is low, and carding efficiency is high, and combing result is more accurate.

Referring to the flow chart that Fig. 5, Fig. 5 are the ODN resource carding methods that fourth embodiment of the invention provides, it at least comprises the steps:

S401, after optical line terminal OLT realizes signal communication by Single port with Optical Distribution Network ODN, broadcasts the EPON mark PONID of described port.

S402, after detection instrument accesses the port to be detected on ODN, generates the port sequence number of described port to be detected, and receives the described OLT EPON sent mark PONID.

In embodiments of the present invention, described detection instrument resolves the described OLT broadcast message issued, and therefrom extracts the PONID of the port A being currently accessed.

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

S403, identifies described port sequence number, and receives described PONID, and transmits described port sequence number and PONID to described ODN managing device.

In embodiments of the present invention, described ODN all realizes intercommunication with described detection instrument and described ODN managing device, described PONID transmission to described ODN, described ODN by the PONID received and is identified that the port sequence number that described electronic tag obtains transmits in the lump to described ODN managing device by described detection instrument.

S404, by described PONID transmission to described PON webmaster.

In embodiments of the present invention, described ODN managing device is after receiving described port sequence number and PONID, by described PONID transmission to described PON webmaster.

S405, resolves described PONID, and the 2nd PONID after resolving is transmitted back to described ODN managing device.

In embodiments of the present invention, described PONID can be resolved by described PON webmaster, and obtain the 2nd PONID after parsing, wherein, the 2nd PONID after parsing can identify the title of described OLT, numbering, positional information and the port number information with described port match to be detected. PONID after parsing is transmitted back to described ODN managing device by described PON webmaster.

S406, after the 2nd PONID after receiving described parsing, binds the 2nd PONID after described port sequence number and described parsing.

In embodiments of the present invention, the 2nd PONID after described port sequence number and described parsing, after receiving the 2nd PONID after described PON webmaster resolves, is bound by described ODN managing device.

In embodiments of the present invention, when, after the port all to be detected traveled through on described ODN, described ODN managing device obtains the matching relationship of the port of all and described described ODN corresponding for port A. Hereafter, jumping fiber is connected to the port of other ports on described OLT or other OLT device, the port to be detected on described ODN it is linked into one by one again with described detection instrument, whole system can be carried out the combing of resource, and obtain office between inside jumping fiber annexation and ODN and the OLT in final ODN to annexation.

In the embodiment of the present invention, the PONID of the port being currently accessed of described OLT broadcast is received by described detection instrument, and utilize described electronic tag to generate the port sequence number of current detection port, described PONID and port sequence number are by described ODN transmission to described ODN managing device, and utilize PON webmaster that described PONID is resolved, the 2nd PONID after parsing is transmitted back to described ODN managing device, the 2nd PONID after described parsing and port sequence number are carried out combing and storage by described ODN managing device, carding process records combing intermediate object program automatically, and it is automatically performed final combing result, without hand-kept, substantially increase carding efficiency.

The above is the preferred embodiment of the present invention; it should be pointed out that, for those skilled in the art, under the premise without departing from the principles of the invention; can also making some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims (13)

1. an ODN resource combing system, including Optical Distribution Network ODN, it is characterised in that also include: optical line terminal OLT, detection instrument, passive optical network PON webmaster and ODN managing device, wherein,

Described OLT, for realizing signal communication by Single port with described ODN, and broadcasts the EPON mark PONID of described port to described ODN;

Described detection instrument, for, after the port to be detected accessed on described ODN, receiving the described OLT PONID sent;

Described PON webmaster, for resolving the described PONID of input, to obtain the 2nd PONID after resolving;

Described ODN managing device, is used for the 2nd PONID after receiving the port sequence number of current port to be detected and the described parsing of correspondence, and is bound with described 2nd PONID by described port sequence number.

2. ODN resource combing system according to claim 1, it is characterised in that described 2nd PONID is for identifying positional information and/or the port numbers of the port with the described ODN OLT being connected.

3. ODN resource combing system according to claim 1, it is characterised in that described port sequence number is for identifying the current port to be detected positional information in described ODN and port numbers.

4. an ODN resource combing system, it is characterised in that including: optical line terminal OLT, Optical Distribution Network ODN, detection instrument, passive optical network PON webmaster and ODN managing device, wherein,

Described OLT, for being connected with described ODN foundation by Single port, and broadcasts the EPON mark PONID of described port to described ODN;

Described detection instrument, for, after the port to be detected accessed on described ODN, generating the port sequence number of described port to be detected, and receive the described OLT PONID issued;

Described ODN, is used for identifying described port sequence number, and after receiving described PONID, transmits described port sequence number and PONID to described ODN managing device.

Described ODN managing device, for after receiving described port sequence number and PONID, by described PONID transmission to described PON webmaster.

Described PON webmaster, for described PONID is resolved, and transmits the 2nd PONID after resolving to described ODN managing device.

Described ODN managing device is additionally operable to, after receiving the 2nd PONID after described PON webmaster resolves, the 2nd PONID after described port sequence number and described parsing be bound.

5. ODN resource combing system according to claim 4, it is characterised in that described 2nd PONID is for identifying positional information and/or the port numbers of the port with the described ODN OLT being connected.

6. ODN resource combing system according to claim 4, it is characterized in that, described detection kit draws together electronic tag, when described electronic tag is inserted into current port to be detected, generating the port sequence number of current port to be detected, described port sequence number is for identifying the current port to be detected positional information in described ODN and port numbers.

7. ODN resource combing system according to claim 4, it is characterized in that, described ODN resource combing system also includes construction tool, the PONID that described construction tool obtains for the port sequence number and described detection instrument receiving the generation of described electronic tag, and described port sequence number and PONID are transmitted to described ODN managing device.

8. an ODN resource carding method, it is characterised in that including:

After optical line terminal OLT realizes signal communication by Single port with Optical Distribution Network ODN, broadcast the EPON mark PONID of described port;

Receive the PONID of described OLT broadcast and show described PONID;

Described PONID is resolved, generates the 2nd PONID after resolving;

The 2nd PONID after receiving the port sequence number of current port to be detected and resolving, and binds the 2nd PONID after described port sequence number and described parsing.

9. ODN resource carding method according to claim 8, it is characterised in that described 2nd PONID is for identifying positional information and/or the port numbers of the port with the described ODN OLT being connected.

10. ODN resource carding method according to claim 8, it is characterised in that described port sequence number is for identifying the current port to be detected positional information in described ODN and port numbers.

11. an ODN resource carding method, it is characterised in that including:

After optical line terminal OLT realizes signal communication by Single port with Optical Distribution Network ODN, broadcast the EPON mark PONID of described port;

After detection instrument accesses the port to be detected on ODN, generate the port sequence number of described port to be detected, and receive the described OLT EPON sent mark PONID;

Identify described port sequence number, and receive described PONID, and described port sequence number and PONID are transmitted to described ODN managing device;

By described PONID transmission to described PON webmaster;

Described PONID is resolved, and the 2nd PONID after resolving is transmitted back to described ODN managing device;

After the 2nd PONID after receiving described parsing, the 2nd PONID after described port sequence number and described parsing is bound.

12. ODN resource carding method according to claim 11, it is characterised in that described 2nd PONID is for identifying positional information and/or the port numbers of the port with the described ODN OLT being connected.

13. ODN resource carding method according to claim 11, it is characterized in that, described port sequence number obtains by an electronic tag is inserted described port to be detected, and described port sequence number is for identifying the current port to be detected positional information in described ODN and port numbers.