CN110032796B - Fiber core segment automatic generation method, device, equipment and readable storage medium - Google Patents

Abstract

The invention discloses an automatic generation method of a fiber core section, which comprises the steps of obtaining a disc corresponding to the optical cable direction by comparing the optical cable direction of disc discs of panels, screening out a same steering wheel in a related disc corresponding to the optical cable direction, enabling the same optical cable information transmission service between the same steering wheel to be the same, carrying out optical fiber information transmission as a whole, carrying out fiber core section extraction on the same steering wheel, and filling terminal service information in the fiber core disc into the fiber core of the fiber core disc, namely realizing the automatic generation of the fiber core from bottom layer optical cable data. The invention avoids excessive occupation of time resources and human resources in the manual design processing process, realizes automatic generation of fiber core data under the rapid expansion of fiber core services, and greatly improves the management efficiency of information resources. The invention also provides a fiber core segment automatic generation device, equipment and a readable storage medium, and has the beneficial effects.

Description

Fiber core segment automatic generation method, device, equipment and readable storage medium

Technical Field

The invention relates to the field of optical fiber communication networks, in particular to a method, a device and equipment for automatically generating a fiber core segment and a readable storage medium.

Background

Because most of optical fiber resources are buried underground, the services carried by the optical fiber resources cannot be directly checked due to the limitation of factors such as technology and the like, and the optical fiber intersection/ODF frame is used as a relay point resource for an optical fiber terminating end and is an important entry point for acquiring fiber core information, the information such as the connection, the use and the like of the fiber core is combed mainly through an optical fiber intersection/ODF panel.

With the increasing perfection of urban network construction and the increasing popularization of optical fibers to homes, mass optical cable and optical fiber information become more complex, and in addition, the manual construction management links are numerous, so that accurate recording and timely feedback of data are difficult to achieve, the accuracy of the optical fiber information is insufficient, and the construction and operation of the network are affected.

In the traditional manual management process of fiber core resources, firstly, a designer completes design, then, an engineer completes construction, then, a recorder completes manual input and filing, and finally, an operation department arranges fiber core scheduling, use and management, so that the construction of operation management links causes long fiber information statistics period, and the carding efficiency and accuracy are greatly reduced. On the other hand, as the newly added fiber core service is expanded continuously, the network connection relationship is complex, the scale is increased gradually, and an intelligent means is urgently needed to improve the fiber core resource management efficiency.

Therefore, how to improve the generation efficiency of the core segment is a technical problem to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to provide an automatic generation method of a fiber core segment, which improves the accuracy and the resource utilization rate of fiber core information, reduces the manual workload and improves the fiber core resource management efficiency; another object of the present invention is to provide an apparatus, a device and a readable storage medium for automatically generating a fiber core segment, which have the above-mentioned advantages.

In order to solve the above technical problem, the present invention provides an automatic generation method of a fiber core segment, comprising:

receiving a panel to be managed; wherein the panel comprises: the optical cable direction of the disc, the terminal serial number, the terminal service name and the fiber core basic information corresponding to the disc;

obtaining a disc corresponding to the optical cable direction between panels by comparing the optical cable direction of the disc, and judging that two panels with discs corresponding to the optical cable direction are related panels, wherein the discs corresponding to the optical cable direction in the related panels are related discs;

screening out the disks with the same optical cable direction in the associated disks to obtain the same steering wheel;

extracting fiber core sections of the same steering wheel to obtain a plurality of fiber core discs;

and filling the terminal service information in the fiber core disc into the fiber core of the fiber core disc.

Optionally, performing core segment extraction on the same steering wheel, including:

dividing the same steering wheel into terminals according to the fiber core type information to obtain each terminal group; the terminal fiber core type information of each terminal in each terminal group is the same;

and extracting the fiber core section from each terminal group.

Optionally, the dividing the terminals of the equidirectional disks according to the preset fiber core classification basis includes:

judging whether the same steering wheel has a wheel with the same terminal serial number;

if yes, judging whether the same terminal serial number is 1 to 12;

if yes, newly building a fiber core section, and automatically generating 12 fiber cores;

if not, judging whether the fiber core basic information of the disk with the same terminal serial number is consistent with the currently newly-built fiber core section;

if the terminal serial numbers are consistent, extracting the discs with the same terminal serial number to the newly-built fiber core section, and automatically generating 12 fiber cores;

and if the fiber core does not exist, extracting the same steering wheel to the same fiber core section, and automatically generating the fiber core.

Optionally, before obtaining the tray corresponding to the optical cable direction between the panels by comparing the optical cable directions of the trays, the method further includes:

screening out the discs filled with the optical cable direction from the plurality of ODF panels to obtain service occupied discs;

correspondingly, the disk body which acquires the optical cable direction correspondence among the panels by comparing the optical cable directions of the disks is as follows: and acquiring the disc corresponding to the optical cable direction among the panels by comparing the optical cable direction of the service occupation disc.

Optionally, after screening out the trays filled with the cable direction from the plurality of ODF panels, further comprising:

judging whether an opposite end panel of the service occupation disc is imported;

if the service is imported, the service occupation disk and the corresponding opposite end disk are subjected to association marking;

accordingly, the disk obtained by comparing the optical cable directions of the inter-panel disks and corresponding to the optical cable directions is specifically: and comparing the optical cable directions of the discs with the association marks among the panels to obtain the discs corresponding to the optical cable directions.

Optionally, the filling the terminal service information in the core disc into the core of the core disc includes:

comparing the services of the fiber core disc according to the terminal service name to obtain a disc service comparison result; the disc service comparison result comprises: disk match and disk mismatch;

and acquiring matching discs among the fiber core discs, and carrying out fiber core state marking and service filling on each terminal in the matching discs according to the service state of the terminal.

Optionally, comparing the service of the fiber core disc according to the terminal service name includes:

determining two end discs to be compared between the fiber core discs;

comparing the services of the terminals in the two end disks to obtain a terminal service comparison result, and performing matching marking on a matched terminal; wherein, the terminal service comparison result comprises: terminal match and terminal mismatch;

and counting the service comparison results of all terminals in the two-end disks, generating the disk service comparison results of the two-end disks, and carrying out matching marking on the matching disks.

The invention discloses a fiber core segment automatic generation device, comprising:

a panel receiving unit for receiving a panel to be managed; wherein the panel comprises: the optical cable direction of the disc, the terminal serial number, the terminal service name and the basic information of the fiber core corresponding to the disc;

the association disc determining unit is used for acquiring discs corresponding to the optical cable directions among the panels by comparing the optical cable directions of the discs, and judging that two panels with discs corresponding to the optical cable directions are association panels, wherein the discs corresponding to the optical cable directions in the association panels are association discs;

the same-steering-wheel screening unit is used for screening out the wheels with the same optical cable direction in the related wheels to obtain the same steering wheel;

the fiber core section extraction unit is used for extracting the fiber core sections of the same steering wheel to obtain a plurality of fiber core plates;

and the information filling unit is used for filling the terminal service information in the fiber core disc into the fiber core of the fiber core disc.

The invention discloses a fiber core segment automatic generation device, which comprises:

a memory for storing a program;

and the processor is used for realizing the steps of the automatic fiber core segment generation method when executing the program.

The invention discloses a readable storage medium, which stores a program that realizes the steps of the automatic fiber core segment generation method when the program is executed by a processor.

According to the automatic generation method of the fiber core section, the discs corresponding to the optical cable direction are obtained by comparing the optical cable direction of the disc among the panels, the same steering wheel in the related discs corresponding to the optical cable direction is screened out, the same transmission service between the same steering wheel is the same, the optical fiber information transmission can be carried out as a whole, the fiber core section extraction is carried out on the same steering wheel, and the fiber core basic information corresponding to the same steering wheel is filled into the fiber core, so that the automatic generation from bottom layer optical cable data to the fiber core is realized. The method has the advantages that the automatic information extraction comparison is carried out on the plurality of imported panels to be managed based on the process, the fiber core sections are automatically extracted, the fiber cores are automatically generated, excessive occupation of time resources and human resources in the manual design processing process is avoided, automatic generation of fiber core data under the condition that the fiber core services are rapidly expanded is achieved, and the management efficiency of information resources is greatly improved.

The invention also provides a device, equipment and a readable storage medium for automatically generating the fiber core segment, which have the beneficial effects and are not described again.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a flow chart of a method for automatically generating a fiber core segment according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a core segment extraction process according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a core service matching process according to an embodiment of the present invention;

fig. 4 is a block diagram of an apparatus for automatically generating a fiber core segment according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an apparatus for automatically generating a fiber core segment according to an embodiment of the present invention.

Detailed Description

The core of the invention is to provide a fiber core segment automatic generation method, which combines the bottom layer optical cable and fiber core service, automatically generates the fiber core according to the optical cross/ODF terminal information, automatically records and updates data, improves the accuracy and resource utilization rate of the fiber core information, reduces the manual workload, and improves the management efficiency of the fiber core resource; the invention also provides a device, equipment and a readable storage medium for automatically generating the fiber core segment.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, fig. 1 is a flowchart of a method for automatically generating a fiber core segment according to the present embodiment; the method mainly comprises the following steps:

and step s110, receiving a panel to be managed.

The panel is a dispatching panel for recording service information of the Optical network terminal, may be a panel of an Optical cross-connect box, may also be an ODF (Optical Distribution Frame) panel, and the like, where the type of the panel is not limited, and in this embodiment, the ODF panel is taken as an example for description, and the description of this embodiment may be referred to for other panel types.

The panel information of the ODF panel includes capacity, a panel-frame, a disc number, a panel name, an optical cable direction, a fiber core type, kilometers, a fiber core serial number, and service name information corresponding to each fiber core serial number.

And receiving the imported information of each panel to be managed, so as to obtain the panel information of a plurality of panels.

And step s120, obtaining the disc corresponding to the optical cable direction between the panels by comparing the optical cable directions of the discs, and judging that the two panels with the discs corresponding to the optical cable direction are related panels, and the middle disc of the two panels corresponding to the optical cable direction is a related disc.

And comparing the optical cable directions of all the discs among the panels, determining the disc corresponding to the optical cable direction, judging that the two panels of the disc corresponding to the optical cable direction exist as the associated panel, and the middle disc of the two panels corresponding to the optical cable direction is the associated disc, so as to obtain the associated panel and the associated disc. The optical cable direction correspondingly indicates that the two panels have service contact, so that service comparison can be realized.

The presence of the "cable direction corresponding tray" in the present invention means that trays having the same two end points in the cable direction information exist in both panels. For example, if the optical cable direction of a certain tray in the C panel is "hang state to shaoxing", and the optical cable direction of the tray in the E panel is "shaoxing to hang state", both end points are "hang state" and "shaoxing", the optical cable directions of the two panels are corresponding to each other, and if the optical cable direction of the tray between "hang state" and "shaoxing" is not present in the E panel, the optical cable directions of the two panels are not corresponding to each other. The number of the discs corresponding to the optical cable direction can be one or more, namely, at least one disc corresponding to the optical cable direction of the panel B exists in the panel A, and the association between the panel A and the panel B can be judged.

For example, panel a includes 3 trays, tray 1 cable orientation 1 → 2, tray 2 cable orientation 1 → 4, and tray 3 cable orientation 1 → 4; panel B includes 5 trays, tray 1 cable direction 2 → tray 1, tray 2 cable direction 2 → 9, tray 3 cable direction 2 → 3, tray 4 cable direction 2 → 3, tray 5 cable direction 2 → 4. Then compare the two panels of the optical cable direction of the central disk to find that the optical cable direction of the disk 1 in the panel A corresponds to the optical cable direction of the disk 1 in the panel B, and then determine that the panel A and the panel B are related panels and the disk 1 in the panel A and the disk 1 in the panel B are related disks.

The process of comparing the optical cable information between the panels may refer to an implementation process of information comparison in the prior art, which is not limited in this embodiment, and for example, a cyclic comparison peer-to-peer algorithm may be used, and is not described herein again.

And step s130, screening out the discs with the same optical cable direction in the associated discs to obtain the same steering wheel.

The method comprises the steps of screening disks with uniform optical cable directions in association disks in association panels, dividing the associated disks into a plurality of groups according to the optical cable directions, wherein each group has an opposite end disk associated with services in the panel associated with the panel, and the normal service contact between the two panels can be realized by automatically generating fiber cores between each group and the opposite end group.

Still taking the panel a and the panel B in the above steps as an example, the panel a and the panel B are the associated panel, the cable direction of the panel 1 in the panel a is 1 → 2, when the determination of the same steering wheel is performed for the panel a and the panel 1, it is determined whether there is a panel with the cable direction being 1 → 2 in the panels associated with the panel a and the panel B, and through the panel screening, only the panel 1 with the cable direction being 1 → 2 exists in the same steering wheel. In the cable direction screening for 3 → 4, it was found that the same steering wheel with the cable direction of 3 → 4 includes the number 2 disc and the number 3 disc.

And step s140, extracting fiber core sections of the same steering wheel to obtain a plurality of fiber core discs.

The same steering wheel has the same fiber core characteristics, the same steering wheel is subjected to fiber core segment extraction, the extraction process of the fiber core segment can refer to the related technology, and the extraction process mainly comprises the steps of establishing the fiber core segment, generating the fiber core and generating the fiber core serial number.

Here, the same steering wheel with the cable direction of 1 → 2 as the number 1 disc and the same steering wheel with the cable direction of 3 → 4 as the number 2 disc and the number 3 disc are taken as examples to be described.

A fiber core segment is newly built in a panel A, 12 fiber cores are automatically generated, the serial numbers of the fiber cores are consistent with the serial numbers of the terminals of the disk No. 1, namely 1 to 12, and corresponding fiber core basic information (including fiber core types and lengths) can be filled into the fiber core segment at the same time. And additionally, a fiber core section is newly built, 2 × 12=24 fiber cores are automatically generated, the fiber core serial numbers are consistent with the terminal serial numbers of the disk No. 2 and the disk No. 3, namely 1 to 24, and corresponding fiber core basic information (including the fiber core type and the length) is filled into the fiber core section.

And step s150, filling the terminal service information in the fiber core disc into the fiber core of the fiber core disc.

At present, fiber core service data are generally stored in terminals at two ends of a fiber core, a fiber core section is extracted from the same steering wheel, and fiber core service information is filled into the fiber core, so that the resource consumed in the process of repeatedly comparing terminal matching and terminal fiber cores among terminals in the process of viewing the fiber core service data is avoided, and the process of viewing related data in the fiber core can be directly facilitated.

In this embodiment, the process of filling the terminal service information is not limited, and the related technologies may be referred to, for example, the terminals may be sequentially traversed, the terminal service of the terminal may be checked, the opposite terminal associated with the service of the terminal may be determined, and fiber core state marking and fiber core service filling may be performed according to the service states of the two service-associated terminals. The process of filling the terminal service information may be set according to the need, and is not described herein again.

In this embodiment, the execution body for executing the steps is not limited, and may be a point-like resource including an optical fiber distribution box, a terminal box, an ODF rack, an integrated cabinet, or the like, or may be a computer device capable of completing the steps, and the control program for executing the steps may be imported into the execution body set by a user as needed.

Based on the above description, the method for automatically generating a fiber core segment provided in this embodiment obtains a disc corresponding to the optical cable direction by comparing the optical cable directions of the respective panel discs, screens out a same steering wheel in a related disc corresponding to the optical cable direction, where transmission services between the same steering wheel are the same, and can perform optical fiber information transmission as a whole, perform fiber core segment extraction on the same steering wheel, and fill fiber core basic information corresponding to the steering wheel into a fiber core, that is, implement automatic generation from bottom-layer optical cable data to a fiber core. The method has the advantages that the automatic information extraction comparison is carried out on the plurality of imported panels to be managed based on the process, the fiber core sections are automatically extracted, the fiber cores are automatically generated, excessive occupation of time resources and human resources in the manual design processing process is avoided, automatic generation of fiber core data under the condition that the fiber core services are rapidly expanded is achieved, and the management efficiency of information resources is greatly improved.

Example two:

in the above embodiment, the process of extracting the fiber core segment from the same steering wheel is not limited, and the specific process of extracting the fiber core segment is described in this embodiment.

Because one fiber core section generally comprises a plurality of optical fibers and different fiber core types may exist in the same steering wheel, in order to accelerate the generation speed of the whole fiber core, the fiber core section extraction of the same steering wheel can be carried out by dividing the terminal types in advance according to the fiber core characteristic information, and then the fiber core section extraction and the automatic generation of the fiber core are carried out on each type of terminal; the core type information includes core basic information in the panel, such as a core type, a length, and the like. The fiber core type information of each terminal in each terminal group is the same, the terminals in the same steering wheel are classified according to the fiber core type information such as fiber core basic information, so that the fiber cores in the same fiber core section can be conveniently arranged in sequence, and the generation speed of the fiber cores can be increased. In addition, the fiber cores of the terminals may be directly generated and then the fiber core segments may be divided, which is not described herein.

Because there is certain law in terminal serial number in the terminal of present the same type and fibre core type, and the characteristic is comparatively obvious catch easily, consequently for improving fibre core section extraction rate, preferably, will equidirectional packing according to predetermine fibre core classification and divide the process of carrying out fibre core section to divide and extract can specifically include following steps:

(1) Judging whether the same steering wheel has a wheel with the same terminal serial number;

(2) If yes, judging whether the same terminal serial number is 1 to 12;

(3) If yes, newly building a fiber core section, automatically generating 12 fiber cores, and deleting 1-12 in the same terminal serial number;

(4) If not, judging whether the fiber core basic information of the disc with the same terminal serial number is consistent with the newly-built fiber core section currently;

(5) If the terminal numbers are consistent, extracting the discs with the same terminal numbers to a newly-built fiber core section, and automatically generating 12 fiber cores;

(6) And if the fiber core does not exist, extracting the same steering wheel to the same fiber core section, and automatically generating the fiber core.

It should be noted that, because 12 terminals are substantially fixed on one disc at present, and the core basic information such as the core type and the kilometer number of one disc are completely consistent, the comparison process can be simplified by performing a judgment once for every 12 terminals, and if the number of terminals in the disc is other values, the serial numbers of the terminals in the above-mentioned judgment condition can be adaptively adjusted, which is not described herein again.

Example three:

in the actual operation process, the panels include a part of non-service discs, which temporarily do not bear the optical fiber information transmission task in the actual operation process, but as discs in the panels, screening calculation needs to be performed in the panel and disc screening process, but no effective information is generated, so as to simplify the calculation process and shorten the calculation time, based on the above embodiment, preferably, the non-service discs can be eliminated before calculation, specifically, before the panels corresponding to the optical cable direction are determined from a plurality of panels, the discs filled with the optical cable direction are screened from a plurality of ODF panels, and the service-occupied discs are obtained; correspondingly, the panel corresponding to the optical cable direction determined from the plurality of panels is specifically: and determining a panel corresponding to the direction of the optical cable from the service occupation disk. The disc without optical cable direction filling indicates that the disc has no service filling at present, in this embodiment, pre-screening of the disc is described by taking optical cable direction filling as a screening condition, and other ways of removing the disc without service are not described herein again, which are all regarded as the protection scope of the present invention.

Because there may be a case that some services occupy the panel information where the opposite-end disk of the disk is located, if the service comparison of the single-end disk results in a useless comparison process, preferably, the disk is marked before the disk service comparison is performed, and if the opposite-end disk exists, the comparison process is continued. Specifically, after the trays filled with the optical cable direction are screened out from the plurality of ODF panels, it can be further determined whether the opposite end panel of the service occupancy tray is imported; if the business is imported, the business occupation disk and the corresponding opposite end disk are subjected to association marking; accordingly, the obtaining of the disk corresponding to the optical cable direction by comparing the optical cable direction of the optical disk of each panel is as follows: and obtaining the disc corresponding to the optical cable direction by comparing the optical cable directions of the discs with the association marks among the panels.

Example four:

in the above embodiment, the specific process of filling the terminal service information in the fiber core disc into the fiber core of the fiber core disc in step s150 is not limited, and the terminal service information of the initial node of each fiber core may be obtained with the generated fiber core as a reference; or, with the terminal as a reference, acquiring the service information of each terminal, filling the service information into the corresponding fiber core, and the like.

In order to improve the accuracy of fiber core data storage and ensure the high efficiency of fiber core information filling while reducing the manual workload, the following steps can be specifically referred to for filling the terminal service information in the fiber core disc into the fiber core of the fiber core disc:

step 1: comparing the services of the fiber core disc according to the terminal service name to obtain a disc service comparison result; the disc service comparison result includes: disk match and disk mismatch;

step 2: and acquiring matching discs among the fiber core discs, and performing fiber core state marking and service filling on each terminal in the matching discs according to the service state of the terminal.

According to the mode, the disc information in the two ODF panels with service correlation is orderly inquired and compared, the fiber core service corresponding to each terminal is compared, the filling and perfecting of the fiber core service are carried out after the two discs are matched, and the accuracy of the fiber core data filling can be improved while the fiber core data filling efficiency is guaranteed.

Specifically, the process of comparing the services of the terminals and comparing the disk services according to the service comparison result of each terminal may specifically include the following steps:

step 11: determining two end discs to be compared between the fiber core discs;

step 12: comparing the services of the terminals in the two end disks to obtain a terminal service comparison result, and performing matching marking on a matched terminal; wherein, the terminal service comparison result comprises: terminal match and terminal mismatch;

step 13: and counting the service comparison results of each terminal in the two end disks, generating the disk service comparison results of the two end disks, and performing matching marking on the matching disks.

The above process of comparing the disc services is to compare the services of each terminal in the disc and then count the disc comparison results, the method fully considers the service information of each terminal, has higher accuracy, and can conveniently and easily obtain the disc and the terminal matched with the services in the subsequent operation by marking the matched disc and the matched terminal.

The fiber core information filling method provided by the embodiment makes full use of the advantages of the computer technology for mass data management, automatically inquires and compares the disk services according to the terminal service names, and can determine the matching disk according to the comparison result, thereby avoiding the defect that the optical fiber is unable to be updated accurately in time when being manually managed in long distance, cross-region and the like.

Example five:

in order to deepen the understanding of the method for automatically generating the fiber core segment provided by the invention, in the embodiment, after an ODF panel is introduced, firstly, the number of service disks is calculated and the panel is marked, so that the subsequent calculation amount is simplified, then, the information of the optical cable direction, the fiber core type, the length, the terminal serial number and the like contained in the panel is comprehensively compared and judged according to the credible grade, the fiber core segment is automatically extracted and the fiber core is automatically generated, then, the matching and filling of the fiber core service are performed by comparing each set of service information, so that the process of automatically generating the fiber core data is taken as an example to introduce the whole implementation process, and the method mainly comprises the following steps:

(1) Importing ODF panels in class point resources

(2) P =1 8230Q, R =0, Q is the total number of coils of the panel (Q = capacity/12), and R is the number of coils filled in the direction of the optical cable in the panel

(3) P =1, determine if there is cable directional fill?

(3.1) is, R = R +1

(3.2) No, R = R

(4) P = P +1, until P = Q

(5) C =1 \ 8230D, E =1 \ 8230R, D is total number of panels

(6) C =1, e =1, see if marked?

(6.1) is, E = E +1, until E = R

(6.2), no, determine if the peer panel has been imported?

(6.2.1) if the two ends are marked, the two ends enter the same steering wheel number calculating module

(6.2.2), no, E = E +1, until E = R

(7) C = C +1, until C = D

(8) S =1 \ 8230R, R =0, R is the total number of the optical cables with the same direction

(9) S =1, judging whether the direction of the optical cable of the S disk is the current direction needing to be calculated or not

(9.1) is, r = r +1

(9.2) No, r = r

(10) S = S +1, until S = R

(11)、x＝1…r

(12) And do r same-direction disks on the C-panel determine whether or not there is a disk with the same terminal number?

(12.1) yes, x =1 and y =0, and it is determined whether the terminal number of the x-disc is: 1-12?

(12.1.1) when y = y +1, n =0, newly building a core segment y, automatically generating 12 cores, wherein the core number is consistent with the terminal number of the x disk, and the core type and the length of the x disk are filled into the core segment y, x = x +1 until x = r

(12.2), no, determine if the core type and length of the x-disc are consistent with core segment y?

(12.2.1) extracting the x disk to a fiber core segment y, automatically generating 12 fiber cores, wherein the serial number of the fiber cores is consistent with the terminal serial number of the x disk

(12.2.2), no, x = x +1, until x = r

(12.2) if not, extracting the r disks to the same fiber core segment, and automatically generating 12 x r fiber cores, wherein the serial number of the fiber cores is consistent with the serial number of the terminal of each disk

(13) Calculating the number sum of the discs in each fiber core segment

(14) Y =1 \8230, Y is the number of core segments in the same direction in one panel

(15) Y =1,F =1 \8230sum (i.e. F is a positive integer from 1 to sum, sum is the number of turns in each core segment, and a core segment is a set of cores in which the direction and route of the optical cable are identical), H =1 \8230g, G = sum (if only one core segment is in the same direction, sum = r), F is a disc of a C-plate, H is a disc of an E-plate, and the C-plate and the E-plate are two panels corresponding to the direction of the optical cable

(16) Let F =1,H =1

(17) And determine whether the H-disc is marked?

(17.1) is, H = H +1, until H = G

(17.2) No, entering the step (17.2.1) to carry out service inquiry marking

(17.2.1), I =1 \ 823012, 12, j =1 \ 823012 (indicating 12 terminals per disc, which can be modified if the number of terminals provided on the disc is different), a =0

Wherein, I is the terminal number of the F disk, and J is the terminal number of the H disk. a is a weight variable defined in this embodiment, and is used to record the matching degree of the service in each two-disc matching process

(17.2.2)、I＝1

(17.2.3), determine whether the service is null by querying the service name (i.e., the character string) corresponding to each terminal?

(17.2.3.1), is, determine whether the service name corresponding to the same terminal number of the opposite terminal (H-disk) is null?

(17.2.3.1.1), the terminal numbers at both ends are marked by the "O" symbol, a = a +1, I = I +1, and up to I =12

(17.2.3.1.2), no, I = I +1, until I =12

(17.2.3.2), no, J = I, and determine whether the services at the two ends are consistent by querying the service name corresponding to the terminal?

(17.2.3.2.1), marking the terminal numbers of the two ends with an identifier of 'I-J', wherein a = a +3, I = I +1, and the result is that I =12

For the case of service and service matching, the weight value plus 3, and for the case of both ends being empty, the weight value plus 1 are determined by comprehensively considering the determinant degree of the two cases of service and service matching or both ends being empty for disk matching, of course, the weight value may be modified, for example, may be set to 0.9 or 3.1, and in addition, the operation rule may also be modified adaptively, in this embodiment, the addition is taken as an example, and may also be exponential multiplication, and the like.

(17.2.3.2.2), no, J =1, and determine whether the J-terminal number is marked?

(17.2.3.2.2.1), is, J = J +1, up to J =12

(17.2.3.2.2.2.2), no, determine if the I and J services are consistent?

(17.2.3.2.2.2.1), the numbers of terminals at both ends are marked with "I-J", a = a +3, I = I +1, and up to I =12

(17.2.3.2.2.2.2), no, J = J +1, until J =12

(17.2.4), determine if a is not less than the matching threshold?

(17.2.4.1), if yes, judging that the two end disks are matched, and entering the step (17.2.4.1.1) to fill the service

(17.2.4.1.1), I =1, and determines whether the terminal number is marked?

(17.2.4.1.1.1), yes, determine if the service is empty?

(17.2.4.1.1.1.1) is that the fiber core serial number is based on the terminal serial number of the starting point (F disc), the fiber core service is empty, and the fiber core state is marked as 'free'

(17.2.4.1.1.1.2), NO, the fiber core serial number, the fiber core service are subject to the starting point (F disc) terminal serial number, and the fiber core state mark is 'occupied'

(17.2.4.1.1.2), no, determine if the service is empty?

(17.2.4.1.1.2.1), yes, determine if the peer is marked?

(17.2.4.1.1.2.1.1) is, skip

(17.2.4.1.1.2.1.2), NO, the core number is based on the starting point (F disc), the core service is based on the end point (H disc), and the core state is marked as occupied "

(17.2.4.1.1.2.2), no, J = I, determine whether J-end is empty?

(17.2.4.1.1.2.2.1) is, the core number, core traffic are based on the starting point (F-disc), and the core status flag is "occupied"

(17.2.4.1.1.2.2.2) No, the system gives a corresponding prompt that the (I end of F disk) does not correspond to the (I end) service of (H disk) "

(17.2.4.1.2), I = I +1, until I =12

(17.2.4.2), no, H = H +1 until H = G

(18) F = F +1, until F = sum

(19) Y = Y +1 until Y = Y

It should be noted that in this embodiment, "\8230" "is used to indicate an integer range of values, for example," P =1 \8230 ", Q" indicates that P may be any integer from 1 to Q, including 1, and others may be analogized in turn, and are not described herein again. The process from step (11) to step (13) can be seen in fig. 2, and fig. 2 is a schematic diagram of a core segment extraction process, and all steps from step (11) to step (13) can be seen in the process shown in fig. 2. The process from step (15) to step (17) can be seen in fig. 3, fig. 3 is a schematic diagram of a core service matching process, and all steps from step (15) to step (17) can be seen in the flowchart shown in fig. 3.

According to the automatic fiber core segment generation method provided by the embodiment, a mechanism for intelligently extracting the fiber core segment and automatically generating the fiber core according to the ODF panel is designed according to service requirements and pain points in actual work, the high speed and the stability of computer processing information are fully utilized, the connection relation of the fiber core is quickly cleared and the fiber core attribution relation is intelligently judged by traversing the optical cross terminal information and the ODF terminal information, the optical cable direction and the fiber core segment which the optical cross/ODF panel belongs to are concluded while the optical cross/ODF panel terminal data and the fiber core service are in one-to-one correspondence, the problems of low efficiency, high error, time delay and the like of manual information input are solved, and effective support is provided for the operation management of a subsequent network.

Example six:

referring to fig. 4, fig. 4 is a block diagram of a structure of an apparatus for automatically generating a fiber core segment according to an embodiment of the present invention; the method can comprise the following steps: a panel receiving unit 410, an association disc determining unit 420, a co-steering wheel screening unit 430, a core segment extracting unit 440, and an information filling unit 450. The automatic generation device of the fiber core segment provided by the embodiment can be contrasted with the automatic generation method of the fiber core segment.

The panel receiving unit 410 is mainly used for receiving panels to be managed; wherein, the panel includes: the optical cable direction of the disc, the terminal serial number, the terminal service name and the fiber core basic information corresponding to the disc;

the association disc determining unit 420 is mainly configured to obtain a disc corresponding to the optical cable direction by comparing optical cable directions of discs between panels, and determine that two panels of the disc corresponding to the optical cable direction exist are association panels, and a disc corresponding to the optical cable direction in the association panels is an association disc;

the same-steering-wheel screening unit 430 is mainly used for screening out the wheels with the same optical cable direction in the associated wheels to obtain the same steering wheel;

the fiber core segment extraction unit 440 is mainly used for extracting fiber core segments from the same steering wheel to obtain a plurality of fiber core discs;

the information filling unit 450 is mainly used to fill the terminal service information in the core disc into the core of the core disc.

The automatic fiber core segment generation device provided by the embodiment improves the accuracy and the resource utilization rate of fiber core information, reduces the manual workload, and improves the fiber core resource management efficiency.

Preferably, the core segment extracting unit may specifically include:

the terminal dividing subunit is used for dividing the terminals of the equidirectional disks according to the preset fiber core type dividing basis to obtain multi-type terminals; the preset fiber core classification basis comprises the following steps: core basis information;

and the extraction subunit is used for extracting the fiber core segment of each type of terminal according to a pre-matched rule.

Preferably, the terminal dividing subunit may further include:

a terminal serial number judging subunit, configured to judge whether there is a steering wheel with the same terminal serial number;

correspondingly, the extraction subunit specifically includes:

the first extraction subunit is used for extracting the discs with the same terminal serial number to the same fiber core segment and automatically generating the fiber core when the discs with the same terminal serial number exist in the same steering wheel;

and the second extraction subunit is used for extracting the same steering wheel to the same fiber core segment and automatically generating the fiber core when the same steering wheel does not have the wheel with the same terminal serial number.

Preferably, the first extraction subunit specifically includes:

a first judging subunit, configured to judge whether the same terminal number includes 1 to 12 when there is a steering wheel having the same terminal number;

the first fiber core generation subunit is used for newly building a fiber core section, automatically generating 12 fiber cores and deleting 1 to 12 in the same terminal serial number when the same terminal serial number comprises 1 to 12;

a second judging subunit, configured to, when the same terminal serial number does not include 1 to 12, judge whether the fiber core basic information of the disk with the same current terminal serial number is consistent with the currently newly-built fiber core segment;

and the first fiber core generation subunit is used for extracting the disks with the same current terminal serial number to the newly-built fiber core section if the fiber core basic information of the disks with the same current terminal serial number is consistent with the currently-built fiber core section, and automatically generating 12 fiber cores.

Preferably, the automatic core segment generation apparatus provided in this embodiment may further include: the input of dish prescreening unit is connected with the output of leading-in unit of panel, and the output of dish prescreening unit is connected with associated dish determination unit, specifically, dish prescreening unit is used for: screening out the discs filled with optical cable directions from a plurality of ODF panels to obtain service occupied discs;

accordingly, the associated disc determining unit is specifically configured to: and obtaining the disc corresponding to the optical cable direction by comparing the optical cable direction of the service occupation disc among the panels.

Preferably, the information padding unit may further include:

the comparison subunit is used for carrying out service comparison on the fiber core disc according to the terminal service name to obtain a disc service comparison result; the disc service comparison result includes: disk match and disk mismatch;

and the matching disc filling subunit is used for acquiring the matching discs among the fiber core discs, and performing fiber core state marking and service filling on each terminal in the matching discs according to the terminal service state.

Optionally, the pair of sub-units may further comprise:

the first determining subunit is used for determining two end discs to be compared between the fiber core discs;

the first comparison subunit is used for comparing the services of each terminal in the two end disks to obtain a terminal service comparison result and carrying out matching marking on the matched terminal; wherein, the terminal service comparison result includes: terminal match and terminal mismatch;

and the first statistical subunit is used for counting the service comparison results of all the terminals in the two-end disks, generating the disk service comparison results of the two-end disks and carrying out matching marking on the matching disks.

Example seven:

this embodiment provides another core service matching apparatus structure, and the apparatus mainly includes: the device comprises an ODF panel import unit, a service disk number calculation unit, an associated panel marking unit, a same-steering-wheel number calculation unit, a fiber core segment extraction unit and a service filling unit.

Specifically, the ODF panel import unit is mainly used to: the ODF panel was imported.

The service disk number calculating unit is mainly used for executing the following steps:

(1) P =1 8230Q, R =0, Q is the total number of coils of the panel (Q = capacity/12), and R is the number of coils filled in the direction of the optical cable in the panel

(2) P =1, determine if there is cable directional fill?

(2.1) is, R = R +1

(2.2) NO, R = R

(3) P = P +1, until P = Q

The related panel marking unit is mainly used for executing the following steps:

(4) C =1 \ 8230D, E =1 \ 8230R, D is total number of panels

(5) C =1, e =1, see if marked?

(5.1) is, E = E +1, until E = R

(5.2), no, determine if the peer panel has been imported?

(5.2.1) if the two ends are marked, the two ends enter the same steering wheel number calculating module

(5.2.2), no, E = E +1, until E = R

(6) C = C +1, until C = D

The same-steering-wheel-number calculating unit is mainly used for executing the following steps:

(7) S =1 \ 8230and R, R =0, R is the total number of the discs with the same optical cable direction

(8) S =1, judging whether the direction of the optical cable of the S disk is the current direction needing to be calculated or not

(8.1) is, r = r +1

(8.2), no, r = r

(9) S = S +1, until S = R

The core segment extraction unit is mainly used for executing the following steps:

(10)、x＝1…r

(11) And do r same-direction disks on the C-panel determine whether or not there is a disk with the same terminal number?

(11.1) yes, x =1 and y =0, and it is determined whether the terminal number of the x-disc is: 1-12?

(11.1.1) when y = y +1, n =0, newly building a core segment y, automatically generating 12 cores, wherein the core number is consistent with the terminal number of the x disk, and filling the core type and the length of the x disk into the core segment y, wherein x = x +1, until x = r

(11.2), no, determine if the core type and length of the x-disc are consistent with core segment y?

(11.2.1) extracting the x disk to a fiber core section y, automatically generating 12 fiber cores, wherein the serial number of the fiber cores is consistent with the serial number of the terminals of the x disk

(11.2.2), no, x = x +1, until x = r

(11.2) if not, extracting the r disks to the same fiber core segment, and automatically generating 12 x r fiber cores, wherein the serial numbers of the fiber cores are consistent with the serial numbers of the terminals of each disk

(12) Calculating the number of discs sum in each fiber core segment

The service filling unit is mainly used for executing the following steps:

(13) Y =1 \ 8230and Y, Y is the number of core segments in the same direction in one panel

(14) Y =1,F =1 \8230sum (i.e. F is a positive integer from 1 to sum, sum is the number of turns in each core segment, and the core segment is a collection of cores in which the optical cable direction and route are identical), H =1 \8230G, G = sum (if there is only one core segment in the same direction, sum = r), F is a C-panel turn, H is an E-panel turn, and the C-panel and E-panel are two panels corresponding to the optical cable direction

(15) Let F =1,H =1

(16) Determine whether H-disc is marked?

(16.1) is, H = H +1, until H = G

(16.2) and if not, entering a step (16.2.1) to carry out service inquiry marking.

(16.2.1), I =1 \823012, j =1 \823012 (indicating 12 terminals per disc, which may be modified if the number of terminals provided on the disc is different), a =0

Wherein, I is the terminal number of the F disk, and J is the terminal number of the H disk. a is a weight variable defined in this embodiment, and is used to record the matching degree of the service in each two-disc matching process

(16.2.2)、I＝1

(16.2.3), determine whether the service is null by querying the service name (i.e., the character string) corresponding to each terminal?

(16.2.3.1), yes, determine whether the service name corresponding to the same terminal number of the opposite end (H-disk) is null?

(16.2.3.1.1), the terminal numbers at both ends are marked by the "O" symbol, a = a +1, I = I +1, and up to I =12

(16.2.3.1.2), no, I = I +1, until I =12

(16.2.3.2), no, J = I, and determine whether the services at the two ends are consistent by querying the service name corresponding to the terminal?

(16.2.3.2.1), marking the terminal numbers of two ends with an identifier of 'I-J', a = a +3, I = I +1, and then I =12

(16.2.3.2.2), no, J =1, and determine whether the J-terminal number is marked?

(16.2.3.2.2.1), is, J = J +1, up to J =12

(16.2.3.2.2.2.2), no, determine if the I and J services are consistent?

(16.2.3.2.2.2.1), marking the terminal numbers of two ends with the mark of "I-J", a = a +3, I = I +1, and the sequence is up to I =12

(16.2.3.2.2.2.2), no, J = J +1, until J =12

(16.2.4), determine if a is not less than the matching threshold?

(16.2.4.1), if the two end disks are matched, entering the step (16.2.4.1.1) to fill the service

(16.2.4.1.1), I =1, and whether the terminal number is marked?

(16.2.4.1.1.1), yes, determine if the traffic is null?

(16.2.4.1.1.1.1) is that the fiber core serial number is based on the terminal serial number of the starting point (F disc), the fiber core service is empty, and the fiber core state is marked as 'free'

(16.2.4.1.1.1.2), NO, the fiber core serial number, the fiber core service are subject to the starting point (F disc) terminal serial number, and the fiber core state mark is 'occupied'

(16.2.4.1.1.2), no, determine if the service is empty?

(16.2.4.1.1.2.1), yes, judge whether the peer is marked?

(16.2.4.1.1.2.1.1) is, skip

(16.2.4.1.1.2.1.2) if not, the fiber core sequence number is based on the starting point (F disc), the fiber core service is based on the end point (H disc), and the fiber core state is marked as occupied "

(16.2.4.1.1.2.2), no, J = I, determine whether J-end is empty?

(16.2.4.1.1.2.2.1) is, the core number, core service are based on the starting point (F-disk), and the core state is marked as "occupied"

(16.2.4.1.1.2.2.2), NO, the system gives a corresponding prompt that the (I end of F disk) does not correspond to the (I end) service of (H disk) "

(16.2.4.1.2), I = I +1, until I =12

(16.2.4.2), no, H = H +1 until H = G

(17) F = F +1, until F = sum

(18) Y = Y +1, until Y = Y

The automatic generating device for the fiber core segments provided by the embodiment makes full use of the high speed and the stability of computer processing information, solves the problems of low efficiency, high error, time delay and the like of manual information input, and provides effective support for the operation management of a subsequent network.

Example eight:

the embodiment provides a fiber core segment automatic generation device; the apparatus mainly comprises: a memory and a processor. The automatic fiber core segment generating device may refer to the introduction of the automatic fiber core segment generating method, and details thereof are not described herein.

Wherein, the memory is mainly used for storing programs;

the processor is mainly used for realizing the steps of the automatic generation method of the fiber core segment when executing programs.

Referring to fig. 5, a schematic structural diagram of an automatic core segment generating apparatus provided in this embodiment is shown, where the automatic core segment generating apparatus may generate relatively large differences due to different configurations or performances, and may include one or more processors (CPUs) 322 (e.g., one or more processors) and a memory 332, and one or more storage media 330 (e.g., one or more mass storage devices) storing an application 342 or data 344. Memory 332 and storage media 330 may be, among other things, transient storage or persistent storage. The program stored on the storage medium 330 may include one or more modules (not shown), each of which may include a series of instructions operating on a data processing device. Still further, the central processor 322 may be configured to communicate with the storage medium 330, and execute a series of instruction operations in the storage medium 330 on the core segment automatic generation apparatus 301.

The core segment auto-generation device 301 may also include one or more power supplies 326, one or more wired or wireless network interfaces 350, one or more input-output interfaces 358, and/or one or more operating systems 341, such as Windows Server, mac OS XTM, unixTM, linuxTM, freeBSDTM, etc.

The steps in the automatic core segment generation method described above with reference to fig. 1 may be implemented by the structure of the automatic core segment generation apparatus.

Example nine:

the present embodiment discloses a readable storage medium, where a program is stored, and when the program is executed by a processor, the steps of the method for automatically generating a fiber core segment are implemented, where the method for automatically generating a fiber core segment may refer to the embodiment corresponding to fig. 1, and will not be described herein again.

The readable storage medium may be a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and various other readable storage media capable of storing program codes.

The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the technical solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The method, apparatus, device and readable storage medium for automatically generating a fiber core segment provided by the present invention are described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, it is possible to make various improvements and modifications to the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. A method for automatically generating a core segment, comprising:

receiving a panel to be managed; wherein the panel comprises: the optical cable direction of the disc, the terminal serial number, the terminal service name and the basic information of the fiber core corresponding to the disc;

obtaining a disc corresponding to the optical cable direction between the panels by comparing the optical cable direction of the disc, and judging that two panels with the disc corresponding to the optical cable direction are related panels, wherein the disc corresponding to the optical cable direction in the related panels is a related disc;

screening out the disks with the same optical cable direction in the associated disks to obtain the same steering wheel;

extracting fiber core sections of the same steering wheel to obtain a plurality of fiber core discs;

and filling the terminal service information in the fiber core disc into the fiber core of the fiber core disc.

2. The method for automatically generating a core segment as in claim 1, wherein extracting the core segment from the co-steering wheel comprises:

dividing the same steering wheel into terminals according to the fiber core type information to obtain each terminal group; the terminal fiber core type information of each terminal in each terminal group is the same;

and extracting the fiber core section from each terminal group.

3. The method for automatically generating a core segment according to claim 2, wherein the terminal classification of the equidirectional optical fiber according to a preset core class classification basis comprises:

judging whether the same steering wheel has a wheel with the same terminal serial number;

if yes, judging whether the same terminal serial number is 1 to 12;

if yes, newly building a fiber core section, and automatically generating 12 fiber cores;

if not, judging whether the fiber core basic information of the disk with the same terminal serial number is consistent with the currently newly-built fiber core section;

if the terminal serial numbers are consistent, extracting the discs with the same terminal serial number to the newly-built fiber core section, and automatically generating 12 fiber cores;

and if the fiber core does not exist, extracting the same steering wheel to the same fiber core section, and automatically generating the fiber core.

4. The method of automatically generating a fiber core segment according to claim 1, wherein before obtaining a reel corresponding to each inter-panel cable direction by comparing cable directions of the reels, further comprising:

screening out the trays filled with the optical cable direction from the ODF panels to obtain service occupied trays;

accordingly, the disk body for obtaining the optical cable direction correspondence between the panels by comparing the optical cable directions of the disks is as follows: and acquiring the disc corresponding to the optical cable direction among the panels by comparing the optical cable direction of the service occupation disc.

5. The method of automatically generating core segments in accordance with claim 4, further comprising, after screening out the trays with cable direction filling from said plurality of ODF panels:

judging whether an opposite end panel of the service occupation disc is imported;

if the business is imported, the business occupation disk and the corresponding opposite end disk are subjected to association marking;

accordingly, the obtaining of the disk corresponding to the optical cable direction by comparing the optical cable direction of the optical disk of each panel is as follows: and obtaining the disc corresponding to the optical cable direction by comparing the optical cable directions of the discs with the association marks among the panels.

6. The method of automatically generating a core segment of claim 1 wherein the filling of the core disc terminal traffic information into the core of the core disc comprises:

comparing the services of the fiber core disc according to the terminal service name to obtain a disc service comparison result; the disc service comparison result includes: disk match and disk mismatch;

and acquiring matching discs among the fiber core discs, and carrying out fiber core state marking and service filling on each terminal in the matching discs according to the service state of the terminal.

7. The method of claim 6, wherein comparing the services of the core disc according to the terminal service name comprises:

determining two end discs to be compared between the fiber core discs;

comparing the services of the terminals in the two end disks to obtain a terminal service comparison result, and performing matching marking on a matched terminal; wherein, the terminal service comparison result includes: terminal match and terminal mismatch;

and counting the service comparison results of each terminal in the two end disks, generating the disk service comparison results of the two end disks, and performing matching marking on the matching disks.

8. An apparatus for automatically generating a core segment, comprising:

a panel receiving unit for receiving a panel to be managed; wherein the panel comprises: the optical cable direction of the disc, the terminal serial number, the terminal service name and the fiber core basic information corresponding to the disc;

the association disc determining unit is used for acquiring discs corresponding to the optical cable directions among the panels by comparing the optical cable directions of the discs, and judging that the two panels with the discs corresponding to the optical cable directions are association panels, and the discs corresponding to the optical cable directions in the association panels are association discs;

the same-steering-wheel screening unit is used for screening out the wheels with the same optical cable direction in the associated wheels to obtain the same steering wheel;

the fiber core section extraction unit is used for extracting the fiber core sections of the same steering wheel to obtain a plurality of fiber core plates;

and the information filling unit is used for filling the terminal service information in the fiber core disc into the fiber core of the fiber core disc.

9. An apparatus for automatically generating a core segment, comprising:

a memory for storing a program;

a processor for implementing the steps of the method for automatically generating a fiber core segment according to any one of claims 1 to 7 when executing the program.

10. A readable storage medium, characterized in that the readable storage medium has stored thereon a program which, when executed by a processor, realizes the steps of the core segment automatic generation method according to any one of claims 1 to 7.

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