CN111865929B - Optical fiber and equipment resource and link management method and system - Google Patents

Abstract

The invention discloses a method and a system for managing optical fiber, equipment resources and links, which belong to the technical field of communication management, and comprise optical cable resources, optical cable links and equipment resources, the method and the system are scientific and reasonable, are safe and convenient to use, can realize the accurate management of the optical cable resources by numbering and classifying the optical cable resources, can realize the link management and maintenance of all communication optical cables and communication equipment when managing the optical cable links, the equipment and point location links, can ensure the accuracy and privacy of transmission by calculating and comparing the IP address of a specified construction party and the IP address of the construction party and carrying out encryption protection on a transmitted task and the IP address of the specified construction party when dispatching a task work order to the specified construction party, can more quickly arrive at the site when constructing, maintaining and troubleshooting through point location map and partitioned management, can more accurately find out problematic equipment and problematic optical cable lines, improve the working efficiency of operation and maintenance, and realize the reasonable use of various resources.

Description

Method and system for managing optical fiber, equipment resource and link

Technical Field

The invention relates to the technical field of communication management, in particular to a method and a system for managing optical fibers, equipment resources and links.

Background

At present, optical fiber and equipment resource management of telecommunication operators basically uses bar codes or two-dimensional codes and other modes to simply manage the quantity of materials, so that effective management and control on optical fiber resources cannot be realized, especially the utilization rates of the optical fiber resources, equipment and port resources cannot be known in time, so that a lot of repeated construction work is caused, and resources are wasted; during operation and maintenance, engineering company personnel need a great deal of time to find point locations and look up the direction of the optical cable and cable information; once the former person in charge leaves the job, the newly accepted engineering personnel can not know all the information, so that the work is very troublesome during construction, maintenance and troubleshooting, and the problems are solved by urgently needing an optical fiber and equipment resource and link management method and system.

Disclosure of Invention

The present invention aims to provide a method and a system for managing optical fibers, equipment resources and links, so as to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: the method for managing the optical fiber, the equipment resource and the link is characterized in that: the method comprises the following steps:

s100: the precise management of the optical cable resources is realized: the optical fiber, equipment resource and link management method provides an optical cable resource import/input function, and optical cable resources are classified and stored after being numbered to form classified storage information of the optical cable resources; the method comprises the steps of realizing the storage of optical cable pipeline information by map pipeline design functions provided by a system or importing original optical cable engineering drawing data to form pipeline diagram information of optical cable resources;

the optical cable resources can be accurately managed through classified storage information of the optical cable resources and pipeline diagram information of the optical cable resources; in the step S100, the optical cable resources are numbered and then classified and stored, where the classification includes a machine room optical cable, a trunk optical cable, a secondary light splitting distribution cable, a tertiary light splitting distribution cable, and a user side optical cable; when the equipment and the point locations are managed, numbering and naming are carried out on the equipment and the point locations through a normalized data table format, and then the equipment and the point data are centrally recorded into the system. During field construction, firstly, a label with an RFID chip is pasted on equipment and a point position, then an RFID code reader is used for reading the RFID chip, and TID codes of the RFID chip are sent to a mobile phone end WeChat small program provided by the system through Bluetooth communication; after the WeChat small program obtains the TID, selecting a managed object through the serial numbers (or names) of the equipment and the point positions; if the management object is equipment, selecting the point location to which the management object belongs; if the management object is a point location, acquiring the longitude and latitude of the point location through mobile phone positioning; therefore, the RFID chip can be bound with the equipment and the point location, and the equipment and the point location can be accurately managed through the RFID binding information of the equipment and the point location attribution and point location coordinate information.

S200: managing optical cable links and managing equipment and point location links: when an optical cable link is managed, an electronic tag with an RFID is buckled on an optical fiber connector, then the TID of an RFID chip is read, the reading operation can be completed by a code reader, then the reading operation is transmitted to a WeChat small program, the transmission is completed by Bluetooth, then on a binding interface of the WeChat small program, connected equipment, a used optical cable and a point location are selected from a system according to actual conditions, then a specific port number of the equipment is filled according to the actual conditions, the information binding of the optical cable link is finally completed, the connected equipment is searched through the equipment number or the equipment name, the used optical cable is searched through the optical cable number or the optical cable name, and the point location is searched through the point location number or the point location name; when the device and the point location link are managed, according to the existing point location pipeline data of the system (the pipeline information recorded in the step S100), the link condition and the map pipeline trend information are displayed on the map in a unified manner through the pipeline diagram of the point location (all the links belong to the point location pipeline, and the device link, the optical fiber link and the point location link are all in the pipeline because the pipeline is unique); inquiring through the equipment number and name, the TID number of the RFID, the specific point position number or name, the optical cable number and name (or directly scanning out a single object to be checked through a mobile phone end WeChat small program by using an RFID code reader), and then accurately displaying a link and a route chart of the single object on a map by referring to a point position pipeline diagram to which the single object belongs; therefore, the link management and maintenance of all communication optical cables and communication equipment are realized.

In step S200, when managing the optical link, the device, and the point location link, a method of selecting the connected device from the system according to the actual situation is to search through the device number or the device name, a method of selecting the used optical cable is to search through the optical cable number or the optical cable name, and a method of selecting the point location is to search through the point location number or the point location name.

S300: dispatching to a designated construction party: the construction method comprises the steps of partitioning by segments, designating equipment types, designating construction types, dispatching to designated construction parties in a task work order mode, and completing construction tasks step by step in batches according to construction requirements and construction contents through a construction operation interface provided by a mobile phone end WeChat applet in a system after the construction parties receive the task work order; when a constructor finishes a construction operation, the constructor can obtain the specific operation and progress of the construction by clicking a finishing button one by one, and managers can check the construction information and the engineering progress of all task work orders at any time and any place through the management function of a WeChat applet at a mobile phone end of the system; checking and confirming the binding information of the RFID through a construction party;

in the step S300, the method of dispatching the job order to the designated construction party includes: the construction method comprises the following steps that a constructor realizes entry and creation by a manager, when a task work order is created, the manager needs to select a specific constructor, then the creation of the work order is completed, and a dispatch button is ordered to dispatch the task work order; the method for the construction party to receive the task work order is that after the construction party logs in an account through a WeChat applet, if the construction party receives the task work order, the content of the task work order can be directly displayed; the method for checking and confirming the RFID binding information through the constructor comprises the following steps: checking whether the bound equipment, the selected home location, the bound port and the selected optical fiber are constructed correctly or not, so that more accurate construction order distribution and real-time and specific construction supervision are realized;

s400: positioning in the point location map: through a point location map of the system, a management object can be inquired in the WeChat applet and then positioned in the point location map;

in the step S400, the point location map is the data collected and entered in the step S100, the management object can be queried in the WeChat applet, and the management object can be queried through the number and the name, and the TID can also be read through the RFID code scanning to determine the object, so that the problem equipment and the problem optical cable line can be found out more accurately when construction, maintenance and troubleshooting are performed. The working efficiency of operation and maintenance is greatly improved.

S500: and obtaining object information: recording various state information of the object through the binding information of the RFID, the optical cable, the equipment and the whole point location in the system; then, the number of different states is counted in a classified mode according to the different states of the object, and then total data of all resources in the system are compared to obtain object information;

in step S500, the object includes: cables, equipment, ports and point locations; the state information includes: in-use, damaged, failed, and idle; the total data of all resources is the quantity of different states/the total number of system resources, and the information of the utilization rate, the damage rate, the fault rate and the idle rate of optical cables, equipment, ports and point positions is obtained, so that the reasonable use of various resources is realized.

The optical fiber, equipment resource and link management system is characterized in that: comprises an encryption module, a first encryption module and a second encryption module,

a verification module: the encryption module is connected with the verification module;

a task module: the task module is provided with an encryption subtask configured according to a communication protocol and a decryption version of the encryption subtask;

a generation module: the task module is connected with the generation module, and the generation module is connected with the verification module;

a sending module: the sending module is connected with the generating module and the verifying module;

when the sending module receives an instruction for dispatching a task to a specified construction party, the instruction is sent to the verification module, the verification module transmits the instruction to the encryption module and sends the task to the external communication device through the generation module and the sending module, the encryption module is used for encrypting the instruction and the IP address of the specified construction party, and the verification module is used for respectively calculating and comparing the IP addresses of the construction party and the specified construction party. Setting the IP address of a construction party as a.b.c.d, designating the address of the construction party as e.f.g.h, wherein a, b, c, d, e, f, g and h are respectively composed of three-bit constants, and if less than three bits are filled with 0, the IP address of the construction party is a ₁ a ₂ a ₃ .b ₁ b ₂ b ₃ .c ₁ c ₂ c ₃ .d ₁ d ₂ d ₃ Designating the IP address of the construction party as e ₁ e ₂ e ₃ .f ₁ f ₂ f ₃ .g ₁ g ₂ g ₃ .h ₁ h ₂ h ₃ And calculating the IP addresses of the constructor and the appointed constructor:

first, calculate J = d ₁ +d ₂ +d ₃ ；K＝h ₁ +h ₂ +h ₃ ；

Calculating whether J is equal to K or not, and preliminarily verifying whether the IP addresses of the construction party and the appointed construction party are the same or not, if J is equal to K, preliminarily indicating that the IP addresses of the construction party and the appointed construction party are possibly the same, carrying out the next operation for further verification, and if J is different from K, indicating that the IP addresses of the construction party and the appointed construction party are different;

if J is not equal to K, the IP addresses of the constructor and the appointed constructor are different, and sending and dispatching are not carried out;

if J = K, the next operation is carried out:

wherein n is a constant;

to obtain I ₁ 、I ₂ 、L ₁ 、L ₂ The value of (A) is to further verify whether the IP addresses of the constructor and the designated constructor are the same, if I is ₁ ＝I ₂ And L is ₁ ＝L ₂ Then it can be proved that the IP addresses of the constructor and the appointed constructor are the same, if I ₁ ≠I ₂ Or L ₁ ≠L ₂ Then the IP addresses of the constructor and the appointed constructor are proved to be different;

if it satisfies I ₁ ≠I ₂ Or L ₁ ≠L ₂ If yes, sending and dispatching are not carried out;

if I ₁ ＝I ₂ ，L ₁ ＝L ₂ If so, sending and dispatching are carried out, and then the next operation is carried out;

after the fact that the IP addresses of the construction party and the appointed construction party are the same is proved, the IP address of the appointed construction party is encrypted;

encrypting the IP address of the appointed construction party by using an encryption module:

e ₄ e ₅ e ₆ ＝|1-2(e ₁ e ₂ e ₃ -x ₁ x ₂ x ₃ )|

f ₁ f ₂ f ₃ ＝|1-2(e ₁ e ₂ e ₃ -y ₁ y ₂ y ₃ )|

g ₄ g ₅ g ₆ ＝|1-2(e ₁ e ₂ e ₃ -z ₁ z ₂ z ₃ )|

wherein x is ₁ 、x ₂ 、x ₃ 、y ₁ 、y ₂ 、y ₃ 、z ₁ 、z ₂ 、z ₃ Is a random integer between 0 and 9;

and the IP address of the designated construction party is encrypted, so that the information confidentiality is facilitated.

Drawings

FIG. 1 is a schematic diagram of a method step structure of a method and system for managing optical fiber, equipment resources and links according to the present invention;

fig. 2 is a schematic diagram of a system module connection structure of a method and a system for managing optical fiber, device resources and links according to the present invention.

Compared with the prior art, the invention has the beneficial effects that:

1. compared with the traditional simple management mode of bar codes or two-dimensional codes, the system and the RFID scheme can more accurately and effectively manage various resource information, and the problem that the labels are worn and aged to lose information is not worried;

2. the system provides an equipment point location map and a cable line map, realizes accurate positioning and is convenient for operation and maintenance construction;

3. the system not only manages all material resources, but also stores link information, use conditions, responsible persons, maintenance operation history records and the like of specific resources in real time, so that more effective management and maintenance are realized;

4. when the task work order is dispatched to the appointed construction party, the IP address of the appointed construction party and the IP address of the construction party are calculated and compared, and the transmitted task and the IP address of the appointed construction party are encrypted and protected, so that the transmission accuracy and the privacy can be ensured;

5. the system provides a perfect construction task list, provides detailed equipment and link information, work type capacity, construction period and the like in the list, provides great convenience for construction, and is convenient for managers to supervise construction progress in real time;

6. through the resource information statistics and calculation of the system platform, more reasonable communication network deployment can be realized, resources can be used more efficiently, and the later-stage overall planning of services is facilitated.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Example (b): the method for managing the optical fiber, the equipment resource and the link is characterized in that: the method comprises the following steps:

s100: the precise management of the optical cable resources is realized: the optical fiber and equipment resource and link management method provides an optical cable resource import/input function, and optical cable resources are classified and stored after being numbered to form classified storage information of the optical cable resources; the method comprises the steps of realizing the storage of optical cable pipeline information by importing map pipeline design functions or original optical cable engineering drawing data provided by a system to form pipeline diagram information of optical cable resources;

the optical cable resources can be accurately managed through classified storage information of the optical cable resources and pipeline diagram information of the optical cable resources; in the step S100, optical cable resources are numbered and then classified and stored, wherein the classification comprises a machine room optical cable, a trunk optical cable, a secondary light splitting distribution cable, a tertiary light splitting distribution cable and a user side optical cable; when the equipment and the point locations are managed, numbering and naming are carried out on the equipment and the point locations through a normalized data table format, and then the equipment and the point data are centrally recorded into the system. During field construction, firstly, a label with an RFID chip is pasted on equipment and a point position, then an RFID code reader is used for reading the RFID chip, and TID codes of the RFID chip are sent to a mobile phone end WeChat small program provided by the system through Bluetooth communication; after the WeChat small program obtains the TID, selecting a managed object through the serial numbers (or names) of the equipment and the point positions; if the management object is equipment, selecting the point location to which the management object belongs; if the management object is a point location, acquiring the longitude and latitude of the point location through mobile phone positioning; therefore, the RFID chip can be bound with the equipment and the point location, and the equipment and the point location can be accurately managed through the RFID binding information of the equipment and the point location attribution and point location coordinate information.

S200: managing optical cable links and managing equipment and point location links: when an optical cable link is managed, an electronic tag with an RFID is buckled on an optical fiber connector, the TID of an RFID chip is read, the reading operation can be completed by a code reader, the reading operation can be transmitted to a WeChat applet, the transmission is completed by Bluetooth, then on a binding interface of the WeChat applet, connected equipment, a used optical cable and a located point position are selected from a system according to actual conditions, a specific port number of the located equipment is filled according to the actual conditions, the information binding of the optical cable link is finally completed, the connected equipment is searched through the equipment number or the equipment name, the used optical cable is searched through the optical cable number or the optical cable name, and the located point position is searched through the point position number or the point position name; when the device and the point location link are managed, according to the existing point location pipeline data of the system (the pipeline information recorded in the step S100), the link condition and the map pipeline trend information are displayed on the map in a unified manner through the pipeline diagram of the point location (all the links belong to the point location pipeline, and the device link, the optical fiber link and the point location link are all in the pipeline because the pipeline is unique); the method comprises the steps of inquiring through equipment numbers and names, TID numbers of RFID, specific point position numbers or names, optical cable numbers and names (or directly scanning a single object to be checked through a mobile phone end WeChat small program by using an RFID code reader), and then accurately displaying links and routing graphs of the single object on a map by referring to a point position line drawing to which the single object belongs; therefore, the link management and maintenance of all communication optical cables and communication equipment are realized.

In step S200, when managing the optical link, the device, and the point location link, the method of selecting the connected device from the system according to the actual situation is to search through the device number or the device name, the method of selecting the used optical cable is to search through the optical cable number or the optical cable name, and the method of selecting the point location is to search through the point location number or the point location name.

S300: dispatching to a designated construction party: the method comprises the steps of assigning equipment types and construction types through partition division, sending the equipment types to an assigned construction party in a task work order mode, and completing construction tasks step by step in batches according to construction requirements and construction contents through a construction operation interface provided by a mobile phone end WeChat applet in a system after the construction party receives the task work order; when a constructor finishes a construction operation, the constructor can obtain the specific operation and progress of the construction by clicking a finishing button one by one, and managers can check the construction information and the engineering progress of all task work orders at any time and any place through the management function of a WeChat applet at a mobile phone end of the system; checking and confirming the binding information of the RFID through a construction party;

in step S300, the method of dispatching the job order to the designated construction party includes: the construction method comprises the following steps that a constructor realizes entry and creation by a manager, when a task work order is created, the manager needs to select a specific constructor, then the creation of the work order is completed, and a dispatch button is ordered to dispatch the task work order; the method for the construction party to receive the task work order is that after the construction party logs in an account through a WeChat applet, if the construction party receives the task work order, the content of the task work order can be directly displayed; the method for checking and confirming the RFID binding information through a constructor comprises the following steps: and checking whether the bound equipment, the selected home position, the bound port and the selected optical fiber are constructed correctly or not, so that more accurate construction order distribution and real-time and specific construction supervision are realized.

S400: positioning in the point location map: through a point location map of the system, a management object can be inquired in the WeChat applet and then positioned in the point location map;

in step S400, the point location map is the data collected and entered in step S100, and can query the management object in the WeChat applet, query the management object through the number and the name, and also can determine the object by reading the TID through the RFID code scanning, so that the problem device and the problem optical cable line can be found out more accurately by going to the site faster during construction, maintenance and troubleshooting. The working efficiency of operation and maintenance is greatly improved.

S500: and obtaining object information: recording various state information of the object through the binding information of the RFID, the optical cable, the equipment and the whole point location in the system; then, the number of different states is counted in a classified mode according to the different states of the object, and then total data of all resources in the system are compared to obtain object information;

in step S500, the object includes: cables, equipment, ports and point locations; the state information includes: in-use, damaged, failed, and idle; the total data of all resources are the number of different states/the total number of system resources, and the utilization rate, damage rate, fault rate and idle rate information of optical cables, equipment, ports and point positions are obtained, so that the reasonable use of various resources is realized;

the optical fiber and equipment resource and link management system is characterized in that: comprises an encryption module, a first encryption module and a second encryption module,

a verification module: the encryption module is connected with the verification module;

a task module: the task module is provided with an encryption subtask configured according to a communication protocol and a decryption version of the encryption subtask;

a generation module: the task module is connected with the generation module, and the generation module is connected with the verification module;

a sending module: the sending module is connected with the generating module and the verifying module;

when the sending module receives an instruction for dispatching the task to the appointed construction party, the instruction is sent to the verification module, the verification module transmits the instruction to the encryption module, the task is sent to the external communication device through the generation module and the sending module, and the encryption module is used for adding the instruction and the IP address of the appointed construction partyAnd the verification module is used for respectively calculating the IP addresses of the constructor and the appointed constructor and comparing the IP addresses. Setting the IP address of a construction party as a.b.c.d, designating the address of the construction party as e.f.g.h, wherein a, b, c, d, e, f, g and h are respectively composed of three-bit constants, and if less than three bits are filled with 0, the IP address of the construction party is a ₁ a ₂ a ₃ .b ₁ b ₂ b ₃ .c ₁ c ₂ c ₃ .d ₁ d ₂ d ₃ Designating the IP address of the construction party as e ₁ e ₂ e ₃ .f ₁ f ₂ f ₃ .g ₁ g ₂ g ₃ .h ₁ h ₂ h ₃ And calculating the IP addresses of the constructor and the specified constructor:

first, calculate J = d ₁ +d ₂ +d ₃ ；K＝h ₁ +h ₂ +h ₃ ；

Calculating whether J is equal to K or not, and preliminarily verifying whether the IP addresses of the construction party and the appointed construction party are the same or not, if J is equal to K, preliminarily indicating that the IP addresses of the construction party and the appointed construction party are possibly the same, carrying out the next operation for further verification, and if J is different from K, indicating that the IP addresses of the construction party and the appointed construction party are different;

if J is not equal to K, the IP addresses of the constructor and the appointed constructor are different, and sending and dispatching are not carried out;

if J = K, the next operation is carried out:

wherein n is a constant;

to obtain I ₁ 、I ₂ 、L ₁ 、L ₂ The value of (A) is to further verify whether the IP addresses of the constructor and the designated constructor are the same, if I is ₁ ＝I ₂ And L is ₁ ＝L ₂ Then it can be proved that the IP addresses of the constructor and the appointed constructor are the same, if I ₁ ≠I ₂ Or L ₁ ≠L ₂ Then the IP addresses of the constructor and the appointed constructor are proved to be different;

if satisfy I ₁ ≠I ₂ Or L ₁ ≠L ₂ If yes, sending and dispatching are not carried out;

if I ₁ ＝I ₂ ，L ₁ ＝L ₂ If so, sending and dispatching are carried out, and then the next operation is carried out;

after the fact that the IP addresses of the construction party and the appointed construction party are the same is proved, the IP address of the appointed construction party is encrypted;

and encrypting the IP address of the appointed construction party by using an encryption module:

e ₄ e ₅ e ₆ ＝|1-2(e ₁ e ₂ e ₃ -x ₁ x ₂ x ₃ )|

f ₁ f ₂ f ₃ ＝|1-2(e ₁ e ₂ e ₃ -y ₁ y ₂ y ₃ )|

g ₄ g ₅ g ₆ ＝|1-2(e ₁ e ₂ e ₃ -z ₁ z ₂ z ₃ )|

wherein x is ₁ 、x ₂ 、x ₃ 、y ₁ 、y ₂ 、y ₃ 、z ₁ 、z ₂ 、z ₃ Is a random integer between 0 and 9;

and the IP address of the designated construction party is encrypted, so that the information confidentiality is facilitated.

The working principle is as follows: the optical cable resources are classified and stored after being numbered by using the import/input function of the optical fiber, equipment resources and a link management system, the optical cable resources can be accurately managed through classified storage information of the optical cable resources and pipeline diagram information of the optical cable resources, when the optical cable links, the management equipment and point location links are managed, specific port numbers of equipment are filled according to actual conditions, information binding of the optical fiber links is finally completed, the equipment types are specified through fragmentation and zoning, construction types are specified, the optical cable links are dispatched to specified construction parties in a task work order mode, when the task work order is dispatched to the specified construction parties, the IP addresses of the specified construction parties and the IP addresses of the construction parties are calculated and compared, transmitted tasks and the IP addresses of the specified construction parties are encrypted and protected, the accuracy and privacy of transmission can be ensured, and the construction parties complete construction tasks step by step according to construction requirements and construction contents through a construction operation interface provided by a mobile phone end micro-communication small program in the system; when a constructor finishes a construction operation, the constructor needs to click a finishing button one by one, and managers can check the construction information and the engineering progress of all task work orders at any time and any place through the management function of the WeChat applet at the mobile phone end of the system; the binding information of the RFID is checked and confirmed by a constructor, so that more accurate construction order distribution and real-time and specific construction supervision are realized, a management object can be inquired in a WeChat applet through a point location map of the system, and then the management object is positioned in the point location map, so that the operation and maintenance efficiency is greatly improved during construction, maintenance and troubleshooting, the number of different states is counted in a classified mode by recording various state information of the object in the system, and the total data of all resources in the system is compared to obtain the information such as the utilization rate, the damage rate, the fault rate, the idle rate and the like of the optical cable, equipment, a port and the point location; thereby realizing reasonable use of various resources.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (3)

1. The method for managing the optical fiber, the equipment resource and the link is characterized in that: the method comprises the following steps:

s100: the precise management of the optical cable resources is realized: the optical fiber, equipment resource and link management method provides an optical cable resource import/input function, and optical cable resources are classified and stored after being numbered to form classified storage information of the optical cable resources; the method comprises the steps of realizing the storage of optical cable pipeline information by map pipeline design functions provided by a system or importing original optical cable engineering drawing data to form pipeline diagram information of optical cable resources; when equipment and point locations are managed, numbering and naming the equipment and the point locations through a normalized data table format, and then, intensively inputting the equipment and the point data into a system;

s200: managing optical cable links and managing equipment and point location links: when an optical cable link is managed, an electronic tag with an RFID is buckled on an optical fiber connector, the TID of an RFID chip is read and then transmitted to a WeChat small program, then on a binding interface of the WeChat small program, connected equipment, a used optical cable and a point location are selected from a system according to actual conditions, then a specific port number of the equipment is filled according to the actual conditions, and finally information binding of the optical cable link is completed;

s300: dispatching to a designated construction party: the construction method comprises the steps of partitioning by segments, designating equipment types, designating construction types, dispatching to designated construction parties in a task work order mode, and completing construction tasks step by step in batches according to construction requirements and construction contents through a construction operation interface provided by a mobile phone end WeChat applet in a system after the construction parties receive the task work order; when a constructor finishes a construction operation, the constructor can obtain the specific operation and progress of the construction by clicking a finishing button one by one, and managers can check the construction information and the engineering progress of all task work orders at any time and any place through the management function of a WeChat applet at a mobile phone end of the system; checking and confirming the binding information of the RFID through a construction party;

s400: positioning in the point location map: through a point location map of the system, a management object can be inquired in the WeChat applet and then positioned in the point location map;

s500: and obtaining object information: recording various state information of the object through the binding information of the RFID, the optical cable, the equipment and the whole point location in the system; then, the number of different states is counted in a classified mode according to the different states of the object, and then total data of all resources in the system are compared to obtain object information;

in step S200, when managing optical links, devices, and point location links, selecting a connected device from the system according to actual conditions by searching through a device number or a device name, selecting a used optical cable by searching through a cable number or a cable name, and selecting a point location by searching through a point location number or a point location name;

in the step S300, the method of dispatching the job order to the designated construction party includes: the construction method comprises the following steps that a constructor realizes entry and creation by a manager, and when a task work order is created, the manager needs to select a specific constructor and then complete creation and dispatch of the work order; the method for the construction party to receive the task work order is that after the construction party logs in an account through a WeChat applet, if the construction party receives the task work order, the content of the task work order can be directly displayed; the method for checking and confirming the RFID binding information through the constructor comprises the following steps: checking the bound equipment, the selected home point, the bound port and the selected optical fiber;

in the step S400, the point location map is the data collected and recorded in the step S100, and can be used for querying a management object in the WeChat applet, querying the management object through a number and a name, and also can be used for determining the object by reading the TID through the RFID code scanning;

in step S500, the object includes: cables, equipment, ports and point locations; the state information includes: in-use, damaged, failed, and idle; the total data of all resources are the number of different states/the total number of system resources, and the utilization rate, damage rate, fault rate and idle rate information of optical cables, equipment, ports and point positions are obtained;

the encryption module is used for encrypting the instruction and the IP address of the appointed construction party, and the verification module is used for respectively calculating the IP addresses of the construction party and the appointed construction party and comparing the calculated IP addresses.

2. The method of fiber and equipment resource and link management according to claim 1, wherein: in the step S100, the optical cable resources are numbered and then classified and stored, where the classification includes a machine room optical cable, a trunk optical cable, a secondary light splitting distribution cable, a tertiary light splitting distribution cable, and a user side optical cable.

3. A fiber and equipment resource and link management system implementing the method of any one of claims 1-2, wherein: comprises an encryption module, a first encryption module and a second encryption module,

a verification module: the encryption module is connected with the verification module;

a task module: the task module is provided with an encryption subtask configured according to a communication protocol and a decryption version of the encryption subtask;

a generation module: the task module is connected with the generation module, and the generation module is connected with the verification module;

a sending module: the sending module is connected with the generating module and the verifying module;

when the sending module receives an instruction for dispatching a task to a specified construction party, the instruction is sent to the verification module, the verification module transmits the instruction to the encryption module, the task is sent to the external communication device through the generation module and the sending module, the IP address of the facility construction party is a.b.c.d, the address of the specified construction party is e.f.g.h, a, b, c, d, e, f, g and h respectively comprise three-bit constants, and if less than three bits are filled with 0, the IP address of the construction party is a.b.c.d, the IP address of the specified construction party is a.f.g.h, and if the number of the specified construction party is less than three, the IP address of the specified construction party is filled with 0 ₁ a ₂ a ₃ .b ₁ b ₂ b ₃ .c ₁ c ₂ c ₃ .d ₁ d ₂ d ₃ Designating the IP address of the construction party as e ₁ e ₂ e ₃ .f ₁ f ₂ f ₃ .g ₁ g ₂ g ₃ .h ₁ h ₂ h ₃ And calculating the IP addresses of the constructor and the appointed constructor:

first calculating J = d ₁ +d ₂ +d ₃ ；K＝h ₁ +h ₂ +h ₃ ；

If J is not equal to K, the IP addresses of the constructor and the appointed constructor are different, and sending and dispatching are not carried out;

if J = K, the next operation is carried out:

wherein n is a constant;

if it satisfies I ₁ ≠I ₂ Or L ₁ ≠L ₂ If yes, sending and dispatching are not carried out;

if I ₁ ＝I ₂ ，L ₁ ＝L ₂ If so, sending and dispatching are carried out, and then the next operation is carried out; and encrypting the IP address of the appointed construction party by using an encryption module:

e ₄ e ₅ e ₆ ＝|1-2(e ₁ e ₂ e ₃ -x ₁ x ₂ x ₃ )|

f ₁ f ₂ f ₃ ＝|1-2(e ₁ e ₂ e ₃ -y ₁ y ₂ y ₃ )|

g ₄ g ₅ g ₆ ＝|1-2(e ₁ e ₂ e ₃ -z ₁ z ₂ z ₃ )|

wherein x is ₁ 、x ₂ 、x ₃ 、y _1、 y ₂ 、y ₃ 、z ₁ 、z ₂ 、z ₃ Is a random integer between 0 and 9.

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