CN111950104A - Resource management method and system for optical cable core pulling - Google Patents

Abstract

The invention discloses a resource management method and a resource management system for optical cable core pulling, wherein the resource management method comprises the following steps: determining the skylight opening position of the optical cable, and setting a core pulling point; acquiring information of a fibril core section at a core pulling point, and selecting a fiber core section to be pulled; regenerating two new fiber core sections without connection relation from the fiber core section to be extracted, and recording the number of the fiber core sections, the number of the fiber core sections to be extracted, the number of the new fiber core sections and the number of core-pulling times; respectively connecting the two sections of new fiber core sections with the external fiber core sections at the core pulling points to generate reconnection fiber core sections, recording the quantity of the reconnection fiber core sections, and calculating the residual quantity of the new fiber core sections; generating a core pulling state mark at a core pulling point; the system comprises an optical cable information management module, a core pulling information management module and a visual operation module. The invention can realize core pulling management quickly, accurately and efficiently, select the fiber core section, calculate the number of the fiber cores, realize datamation and structuralization and lay a foundation for the functions of automatic data statistical analysis, dispatching route calculation and the like.

Description

Resource management method and system for optical cable core pulling

Technical Field

The invention relates to the field of optical cable resource management, in particular to a resource management method and system for optical cable core pulling.

Background

With the increasing of network scale and complexity, resource management software-based systems are used more and more widely, but core pulling is not a conventional standardized method, and the resource management software has not developed the functional method in a targeted manner. In the work, a drawing type and a labeling type are adopted to be suitable for people to understand through a picture, and modern resource management increasingly needs to carry out automatic processing, data analysis and scheduling calculation on cable resources, so that the cable resources need to be subjected to datamation and structuralization. For the core pulling condition, no matter the EXCEL table, the data list of the resource management system or the system database is used, the existing recording method cannot well describe the special condition, and a set of simple and effective method is lacked.

The number of cores of an optical cable is fixed from a starting point to an end point, namely the optical cable corresponds to the cores, the cores run along the same direction from the starting point to the end point of the optical cable, and the description of the optical cable represents the description of the contained cores. The method is an objective actual condition existing in various links of optical cable design, production, construction and use, and is a basic principle of optical cable resource management in decades. Thus, the most basic information describing an optical cable includes "start point-end point", "core count", and other attributes, and resource management software system development is also based on principles.

However, in the actual use process, under some special conditions, the fiber core is broken from a certain point in the middle of one optical cable in the later period, and part of the fiber core is extracted through a joint box and the like to be connected to other optical cables, which is a typical optical cable core pulling method and is also commonly called as a 'skylight'. The construction method does not change the structure, the trend and the fiber core number of the original optical cable. Thus, in the existing management methods, the cable profile is not changed. That is to say, before and after the core pulling of the same optical cable, because the description and recording mode of the optical cable is not changed, the record and description content of the optical cable cannot be changed, but actually, the number of the fiber cores actually connected at the open skylight position is reduced by a part, and a part of the fiber cores are borrowed, so that the existing method cannot reflect the actual optical cable use connection condition, the core pulling is often represented by adopting a complex drawing and character description mode, the drawing operation relates to different personnel, departments and units, and is a set of complex work, and the resource management accuracy, effectiveness and work efficiency are directly influenced. Management blind areas are easily formed, and resource management confusion can be caused.

Disclosure of Invention

The invention aims to provide a resource management method and system for optical cable core pulling, which can realize core pulling management quickly, accurately and efficiently. The method can not only display operation in visual and visual graphs, but also automatically select fiber core segments and calculate the number of fiber cores, can realize datamation and structuralization, and lays a foundation for functions of automatic data statistical analysis, dispatching routing calculation and the like.

In order to solve the technical problem, the invention provides a resource management method for optical cable core pulling, which comprises the following steps:

determining the skylight opening position of the optical cable, and setting a core pulling point;

acquiring information of a fibril core section at a core pulling point, and selecting a fiber core section to be pulled;

regenerating two new fiber core sections without connection relation from the fiber core section to be extracted, and recording the number of the fiber core sections, the number of the fiber core sections to be extracted, the number of the new fiber core sections and the number of core-pulling times;

respectively connecting the two sections of new fiber core sections with the external fiber core sections at the core pulling points to generate reconnection fiber core sections, recording the quantity of the reconnection fiber core sections, and calculating the residual quantity of the new fiber core sections;

and generating a core pulling state mark at the core pulling point.

In a preferred embodiment of the present invention, the information of the original fiber core section at the core pulling point further includes the type of the fiber core, the number of the fiber cores, the state of the fiber core and the length of the fiber core.

In a preferred embodiment of the present invention, the method further comprises arranging the fibril core segments to be A-B, and the number of A-B cores to be N_i(wherein i is the number of loose core times, and when i is 0, the initial state) setting the loose core point as O and the number of the core segments to be pulled as P_iThe two new fiber core segments are A-O and O-B, and the number of A-O fiber cores is L_iThe number of O-B cores is M_iThen, N_i＝N_i-1-P_i,L_i＝L_i-1+P_i，M_i＝M_i-1+P_i。

In a preferred embodiment of the invention, the method further comprises the following steps of externally connecting the fiber core section at the position of the core pulling point O, setting the externally connected fiber core section as O-C, then reconnecting the fiber core sections as A-O-C and B-O-C respectively, and setting the number of the fiber cores of the A-O-C as X_i,The number of cores of B-O-C is Y_iThen, the remaining number of cores A-O is L_i-X_i，The residual number of cores of O-B is L_i-Y_i。

In a preferred embodiment of the present invention, the core pulling status indication further includes a number of times of core pulling, a number of fibril core segments, a number of core pulling cores, a number of core reconnecting segments, and a remaining number of new core segments.

In a preferred embodiment of the present invention, the method further includes a resource recovery management method for the fibril core segment at the core pulling point, where the resource recovery management method can implement recovery management after core pulling.

In a preferred embodiment of the present invention, the method for managing resource recovery of fibril core segments further comprises:

determining the position of a core-pulling point, and acquiring a core-pulling state mark at the core-pulling point;

disconnecting the two sections of the reconnection fiber core sections, releasing occupation to an available state, and recording the disconnection number of the reconnection fiber core sections, the disconnection number of the reconnection fiber core sections and the recovery times;

connecting the two disconnected reconnection fiber core sections, and updating and calculating the number of fibril core sections;

and updating the core pulling state mark at the core pulling point.

In order to solve the technical problem, the invention also provides a resource management system for optical cable core pulling, which is used for realizing the resource management method for optical cable core pulling, and the system comprises an optical cable information management module, a core pulling information management module and a visual operation module;

the optical cable information management module comprises an optical cable circuit distribution diagram and information of a fiber core section in an optical cable, and can select the position of an optical cable skylight, set a core pulling point and store information of the fiber core section at the core pulling point;

the core pulling information management module comprises a data storage module and a data calculation module and is used for storing and calculating the information of the fiber core section at the core pulling point;

the visual operation module comprises a display module and an operation adjustment module, and the display function can display an optical cable circuit distribution diagram in the optical cable information management module, information of a fiber core section in the optical cable and fiber core section information at a core pulling point in the core pulling information management module; the operation adjusting function can set the position of the core pulling point, the core pulling quantity and the connection relation.

In a preferred embodiment of the present invention, the information of the fibril core segment includes a type of the core, a number of the cores, a state of the cores, and a length of the cores.

In a preferred embodiment of the present invention, the loose core information management module is further capable of storing the number of original fiber core segments, the number of extracted fiber cores, the number of new fiber core segments, the number of loose cores, and the number of reconnected fiber core segments, and calculating the remaining number of new fiber core segments and the remaining number of original fiber core segments.

The invention has the beneficial effects that:

the resource management method and the resource management system for the optical cable core pulling directly relate to various links such as planning, design, construction, acceptance, operation maintenance, scheduling management and the like, the actual situation is intuitively reflected in the system, the core pulling management can be quickly, accurately and efficiently realized, the number of fiber cores of each section is automatically calculated according to the number of the core pulling, the manual calculation amount is reduced, and the visual operation module of the system is used for graphically displaying operation on the foreground and performing background data calculation, so that the visualization and the high efficiency are realized visually.

Drawings

FIG. 1 is a flow chart of the present invention;

fig. 2 is a system framework diagram of the present invention.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

Referring to fig. 1, an embodiment of a resource management method for optical cable core pulling according to the present invention includes:

determining the skylight opening position of the optical cable, and setting a core pulling point;

acquiring information of a fibril core section at a core pulling point, and selecting a fiber core section to be pulled;

regenerating two new fiber core sections without connection relation from the fiber core section to be extracted, and recording the number of the fiber core sections, the number of the fiber core sections to be extracted, the number of the new fiber core sections and the number of core-pulling times;

respectively connecting the two sections of new fiber core sections with the external fiber core sections at the core pulling points to generate reconnection fiber core sections, recording the quantity of the reconnection fiber core sections, and calculating the residual quantity of the new fiber core sections;

and generating a core pulling state mark at the core pulling point.

Specifically, before the core pulling point is determined, the total length of the optical cable is determined through an OTDR detector, and the lengths of the optical cables on two sides of the core pulling point are determined, so that the core pulling point is accurately positioned.

Obtaining information of a fibril core section at a core pulling point, selecting the fiber core section to be pulled, wherein the information of the fibril core section at the core pulling point comprises information of the type of a fiber core, such as a single mode fiber or a multimode fiber, the specific model of the specific fiber core, the number of the fiber cores, the state of the fiber core, such as a bulk fiber or a ribbon fiber, the length of the fiber core and the like, and making a butt joint plan according to the information of the fibril core section.

Specifically, the method comprises two steps of fiber breaking management and reconnection management:

the broken fiber management step comprises: setting fibril core section as A-B and A-B fiber cores as N_i(wherein i is the number of loose core times, and when i is 0, the initial state) setting the loose core point as O and the number of the core segments to be pulled as P_iThen the two new fiber core sections are respectively A-O and O-B, and the number of A-O fiber cores is set to be L_iThe number of O-B cores is M_iThen, N_i＝N_i-1-P_i，L_i＝L_i-1+P_i，M_i＝M_i-1+P_i；

The reconnection management step comprises: the position of the core pulling point O is externally connected with a fiber core section, the externally connected fiber core section is set to be O-C, the reconnected fiber core sections are respectively A-O-C and B-O-C, and the quantity of the fiber cores of the A-O-C is set to be X_i,The number of cores of B-O-C is Y_iThen, the remaining number of cores A-O is L_i-X_i，The residual number of cores of O-B is L_i-Y_i。

For example, the following steps are carried out: take 36-core 12-core as an example:

initial core-pulled optical cable core number N₀Is 36, L₀＝0，M₀＝0；

The core is firstly pulled, i is 0+1 is 1,

this time of drawing 12 cores, i.e. P₁＝12，

Then N is₁＝N₀–P₁＝36-12＝24，

The number of A-O cores is set to L₁，L₀＝0,L_i＝L_i-1+P_i＝L₀+P₁＝0+12＝12，

The number of B-O cores is set to M₁，M₀＝0,M_i＝M_i-1+P_i＝M₀+P₁＝0+12＝12，

A-O and O-C are connected with 12 cores, B-O and O-C are connected with 4 cores

Then, A-O-C is 12 cores, A-O is 0 cores,

B-O-C is 4 cores, B-O is the remaining 12-4-8 cores, and the number of the actually connected fiber cores in the A-B section is 24.

Specifically, after core pulling is completed, state marking is carried out on the core pulling position, and the core pulling state marking comprises core pulling times record, the number of fibril core sections, the number of fiber cores to be pulled, the number of reconnection fiber core sections and the remaining number of new fiber core sections.

In an actual practical process, after the skylight is opened and the core pulling is completed, the accessed line may be stopped to be used, and in order to avoid optical fiber waste, the core-pulling line needs to be recovered.

Specifically, the fibril core section restoration resource management method includes:

determining the position of a core-pulling point, and acquiring a core-pulling state mark at the core-pulling point;

disconnecting the two sections of the reconnection fiber core sections, releasing occupation to an available state, and recording the disconnection number of the reconnection fiber core sections, the disconnection number of the reconnection fiber core sections and the recovery times;

connecting the two disconnected reconnection fiber core sections, and updating and calculating the number of fibril core sections;

and updating the core pulling state mark at the core pulling point.

Referring to fig. 2, in order to implement the method, the present invention further includes a resource management system for optical cable core pulling, where the system includes an optical cable information management module, a core pulling information management module, and a visual operation module;

the optical cable information management module comprises an optical cable circuit distribution diagram and information of fiber core sections in the optical cable, the optical cable information management module can select the position of an optical cable skylight, core pulling points are arranged, information of the fiber core sections at the core pulling points is stored, and the information of the fiber core sections at the core pulling points comprises the type of fiber cores, the number of the fiber cores, the state of the fiber cores and the length of the fiber cores.

The core pulling information management module comprises a data storage module and a data calculation module and is used for storing and calculating the fiber core section information at the core pulling point, and the core pulling information management module can store the number of the fiber core sections, the number of the fiber cores to be pulled, the number of the new fiber core sections, the core pulling times and the number of the reconnected fiber core sections and calculate the residual number of the new fiber core sections and the residual number of the fiber core sections.

The visual operation module comprises a display module and an operation adjustment module, and the display function can display an optical cable circuit distribution diagram in the optical cable information management module, information of a fiber core section in the optical cable and fiber core section information at a core pulling point in the core pulling information management module; the operation adjusting function can set the position of the core pulling point, the core pulling quantity and the connection relation.

In the system, a basic model is established through an optical cable information management module, the position of a core-pulling point, the core-pulling quantity and a connecting circuit after core pulling are arranged on a visual operation module, and the core-pulling information management module is used for calculating the residual quantity of a new fiber core section and the residual quantity of a fiber core section at the core-pulling point, so that visual operation and management are realized, the manual calculation amount is reduced, and the efficiency is improved.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims (10)

1. A resource management method for optical cable core pulling is characterized by comprising the following steps:

determining the skylight opening position of the optical cable, and setting a core pulling point;

acquiring information of a fibril core section at a core pulling point, and selecting a fiber core section to be pulled;

regenerating two new fiber core sections without connection relation from the fiber core section to be extracted, and recording the number of the fiber core sections, the number of the fiber core sections to be extracted, the number of the new fiber core sections and the number of core-pulling times;

respectively connecting the two sections of new fiber core sections with the external fiber core sections at the core pulling points to generate reconnection fiber core sections, recording the quantity of the reconnection fiber core sections, and calculating the residual quantity of the new fiber core sections;

and generating a core pulling state mark at the core pulling point.

2. The resource management method for optical cable core pulling according to claim 1, wherein the information of the fiber core section at the core pulling point includes a type of the fiber core, the number of the fiber cores, a state of the fiber core, and a length of the fiber core.

3. The method for managing resources for optical cable core pulling according to claim 1, wherein the fibril core sections are set to be a-B, and the number of a-B fiber cores is N_i(where i is the number of loose cores, i is 0When the fiber is in an initial state), the core pulling point is set to be O, and the number of the core segments to be pulled is P_iThen the two new fiber core sections are respectively A-O and O-B, and the number of A-O fiber cores is set to be L_iThe number of O-B cores is M_iThen, N_i＝N_i-1-P_i，L_i＝L_i-1+P_i，M_i＝M_i-1+P_i。

4. The method for managing resources for optical cable core pulling according to claim 3, wherein the core segment is externally connected at a core pulling point O, the externally connected core segment is set to be O-C, the reconnected core segments are respectively A-O-C and B-O-C, and the number of cores of A-O-C is set to be X_i,The number of cores of B-O-C is Y_iThen, the remaining number of cores A-O is L_i-X_i，The residual number of cores of O-B is L_i-Y_i。

5. The method for managing resources for optical cable core pulling according to claim 1, wherein the core pulling state indication includes a number of times of core pulling, a number of fibril core segments, a number of core pulling cores, a number of reconnection core segments, and a remaining number of new core segments.

6. The method for managing resources for optical cable core pulling according to claim 1, further comprising a method for managing recovery resources of the original fiber core segment at the core pulling point, wherein the method for managing recovery resources can realize recovery management after core pulling.

7. The method for managing resources for optical cable core pulling according to claim 6, wherein the method for managing resources for recovering a fibril core segment includes:

determining the position of a core-pulling point, and acquiring a core-pulling state mark at the core-pulling point;

disconnecting the two sections of the reconnection fiber core sections, releasing occupation to an available state, and recording the disconnection number of the reconnection fiber core sections, the disconnection number of the reconnection fiber core sections and the recovery times;

connecting the two disconnected reconnection fiber core sections, and updating and calculating the number of fibril core sections;

and updating the core pulling state mark at the core pulling point.

8. A resource management system for optical cable core pulling is characterized in that the system is used for realizing the optical cable core pulling resource management method of any one of claims 1 to 7, and the system comprises an optical cable information management module, a core pulling information management module and a visual operation module;

the optical cable information management module comprises an optical cable circuit distribution diagram and information of a fiber core section in an optical cable, and can select the position of an optical cable skylight, set a core pulling point and store information of the fiber core section at the core pulling point;

the core pulling information management module comprises a data storage module and a data calculation module and is used for storing and calculating the information of the fiber core section at the core pulling point;

the visual operation module comprises a display module and an operation adjustment module, and the display function can display an optical cable circuit distribution diagram in the optical cable information management module, information of a fiber core section in the optical cable and fiber core section information at a core pulling point in the core pulling information management module; the operation adjusting function can set the position of the core pulling point, the core pulling quantity and the connection relation.

9. The resource management system for optical cable core pulling according to claim 8, wherein the fibrillar core segment information includes a type of a core, a number of cores, a core state, and a core length.

10. The resource management system for optical cable core pulling according to claim 8, wherein the core pulling information management module is capable of storing the number of fibril core sections, the number of cores to be pulled, the number of new fibril core sections, the number of core pulling times, and the number of reconnected fibril core sections, and calculating the remaining number of new fibril core sections and the remaining number of fibril core sections.

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