CN112740576B

CN112740576B - Intelligent maintenance system for optical fiber network

Info

Publication number: CN112740576B
Application number: CN201880096761.8A
Authority: CN
Inventors: 吕根良
Original assignee: Nanjing Xiudea Communication Technology Co ltd
Current assignee: Nanjing Xiudea Communication Technology Co ltd
Priority date: 2018-08-22
Filing date: 2018-08-22
Publication date: 2022-10-14
Anticipated expiration: 2038-08-22
Also published as: WO2020037545A1; CN112740576A

Abstract

The utility model provides a system is maintained to fiber network intelligence, this system is maintained to fiber network intelligence includes intelligent terminal, the complete data detection appearance of optic fibre, photon label receiving and dispatching case, light mouthful locator and server, this complete data detection appearance of optic fibre, photon label receiving and dispatching case and light mouthful locator are connected with this server respectively, this intelligent terminal is connected with this server and the complete data detection appearance of optic fibre respectively, install fiber network intelligence on this intelligent terminal and maintain the APP, this APP is maintained to fiber network intelligence includes operation interface and user center interface, this operation interface includes: a login module; the newly added cabinet module comprises a created cabinet and a cabinet display and editing unit; adding an FTTH fiber to the home module; and the intelligent coding query unit enters an operation page through input port coding, code scanning identification and photographing identification, and the operation page comprises a detection page, a cabinet page, an optical port page and a routing page. According to the invention, the intelligent maintenance of the optical fiber network can be realized through the APP arranged on the intelligent terminal.

Description

Intelligent maintenance system for optical fiber network

Technical Field

The invention relates to a maintenance system of an optical fiber communication system, in particular to an intelligent maintenance system of an optical fiber network.

Background

With the rapid development of Optical fiber communication, optical fiber lines are increasing day by day, and because the Optical cable laying early-stage technology is limited and scientific Optical fiber routing management is not realized, the Optical fiber line routing is disordered, which relates to each link from a trunk line to a terminal user, in particular to machine room ODF management (Optical Distribution Frame abbreviation, optical fiber Distribution Frame, which is used for terminating and distributing local end trunk Optical cables in an Optical fiber communication system, and can conveniently realize the connection, distribution and scheduling of Optical fiber lines), and the paper labels are not standard, lost, inaccurate in Distribution information, changed by maintenance personnel and the like, so that great hidden dangers are brought to later maintenance. When a line has a fault or an error, the search of the line route is very complicated, time-consuming and labor-consuming, and cannot meet the requirement of a customer on network maintenance at all, so that the problem also becomes a difficult problem in the optical fiber communication field.

At present, large-area coverage of optical fiber communication is realized, particularly, FTTH (fiber to the home) is popularized, dependence of people on a network is increased day by day, construction supervision of the optical fiber network is not in place, so that the construction quality of the optical fiber network is poor, construction engineering acceptance can only be judged by opening or not, the loss condition and the cracking condition of each section of optical fiber and each node in an optical fiber circuit cannot be accurately judged, the experience of users on the optical fiber network is seriously influenced, operators need to spend more money on network maintenance, and network users also need to bear economic loss caused by network disconnection.

Disclosure of Invention

The invention provides an intelligent maintenance system for an optical fiber network, aiming at the problems in the prior art.

In order to achieve the above object, the present invention provides an optical fiber network intelligent maintenance system, which includes an intelligent terminal, an optical fiber full data detector, a photon label transceiver box, an optical port positioner and a server, where the optical fiber full data detector, the photon label transceiver box and the optical port positioner are respectively connected to the server, the intelligent terminal is respectively connected to the server and the optical fiber full data detector, the intelligent terminal is installed with an optical fiber network intelligent maintenance APP, the optical fiber network intelligent maintenance APP includes an operation interface and a user center interface, and the operation interface includes:

the login module is used for inputting login information, logging in the optical fiber network intelligent maintenance APP after being matched with the background information;

the newly-added cabinet module comprises a cabinet creating unit, a cabinet display unit and an editing unit and is used for displaying and editing the basic cabinet information of the optical fiber distribution frame; generating a unique cabinet code and a corresponding cabinet two-dimensional code after the cabinet is created, generating a cabinet light port code array group according to the setting of a light port array in the created cabinet module, and displaying the group by a cabinet simulation frame circle diagram;

the FTTH fiber-to-the-home module is newly added and used for creating an FTTH fiber-to-the-home optical interface and generating an optical interface code, wherein the FTTH fiber-to-the-home optical interface comprises an identification picture unit, an intelligent analysis unit and a confirmation unit; and

the intelligent coding query unit is used for rapidly entering a machine room-cabinet-optical port or an FTTH (fiber to the home) optical port needing to be operated, entering an operation page through input optical port coding, code scanning identification and photographing identification, and the input optical port coding adopts an association mode to help an operator to rapidly find a target cabinet or optical port.

In the above intelligent maintenance system for an optical fiber network, the default coding operation interface includes a detection page, a cabinet page, an optical port page and/or a routing page, where the detection page includes:

the optical fiber line loss detection unit is provided with a ILx button and is used for detecting the total loss of the optical fiber line when the communication light in the optical fiber line reaches the default optical port;

an optical fiber end face loss detection unit provided with IL _D The button is used for detecting the end face loss of the optical fiber splicing point;

the optical fiber connection point fault finding unit is provided with a Find button and is used for detecting and positioning an optical fiber connection fault point to form a fault point report;

the optical fiber routing searching unit is provided with a Send button and is used for determining the codes of all optical ports on the optical path where the default optical ports are located and forming an optical port routing report;

the detection result unit is used for displaying all detection results of the default optical port; and

and the history detection unit is used for displaying all the detected optical port data lists and displaying detailed information.

The optical fiber network intelligent maintenance system comprises an optical fiber routing search unit, an optical fiber label system, an optical fiber interface code acquisition unit and an optical fiber interface code acquisition unit, wherein the optical fiber routing search unit is used for sending an optical interface code of a default optical interface to a server, forwarding the optical interface code to an optical fiber full data detector through the server, converting the optical interface code into a detection optical signal through the optical fiber full data detector, transmitting the detection optical signal through a light path where the default optical interface is located, decoding the detection optical signal by the optical fiber label system and adding a local optical interface code to generate an optical interface code group to be uploaded to the server when the detection optical signal passes through an optical interface equipped with the optical fiber label system, and collecting the optical interface code groups with the same default optical interface code according to one or more received optical interface code groups to form a routing report.

The optical fiber network intelligent maintenance system comprises an optical fiber splice point fault finding unit, an optical fiber splice point fault finding unit and an optical fiber label system, wherein the optical fiber splice point fault finding unit is used for sending an optical port code of a default optical port to a server and adding a fault finding range, the server selects according to the finding range, forwards the optical port code and emission power information to an optical fiber full data detector, converts the optical port code into a detection optical signal through the optical fiber full data detector, and emits the detection optical signal through a light path where the default optical port is located according to a set power value, when the detection optical signal passes through an optical port provided with the optical fiber label system, the intensity of the detection optical signal enables only an optical port with poor splice to activate the optical fiber label system, the optical fiber label system of the fault optical port decodes the detection optical signal and adds a local optical port code to generate an optical port code group to upload the optical port code group, and the server assembles the optical port code group with the same default optical port code according to one or more optical port code groups received by the server to form a fault finding point report.

The above-mentioned optical network intelligent maintenance system, wherein, the cabinet page includes:

the cabinet two-dimension code is used for clicking and expanding the corresponding two-dimension code, and the two-dimension code can be shared and printed;

the cabinet photos comprise photos of the upper part, the middle part and the lower part of the cabinet;

the cabinet simulates a frame circle diagram which can be enlarged and reduced and can move up and down, the circle diagram in the diagram respectively represents an unoccupied paper label (blue outer circle), an electronic label (red outer circle) and a photon label (yellow outer circle) in different colors and/or shapes, accumulated information can be displayed through the red, yellow and blue outer circles, a main body in all the information circle diagrams is displayed as a circle diagram arranged at the back, the color of the circle is averagely distributed by the representative color of the previous circle diagram, if the photon label, the paper label and the electronic label are installed at the light port, the circle diagram is displayed as an inner circle, and the outer circle is a blue half circle representing the paper label and a red half circle representing the electronic label; a row index key is arranged on the left side of the cabinet simulation frame diagram, so that a target row can be quickly reached;

the optical port ring selects a button, and the information of the optical port can be displayed below the optical port by clicking the optical port; the page of an entering button in the bottom toolbar entering the light port can be selected to look up the light port information of the light port;

selecting default and cancel default buttons for selecting or canceling default operation of the cabinet; and

and the positioning button is used for realizing the positioning operation of the cabinet after default is selected, and by uploading the default cabinet code to the server, the server finds the photon label system (photon label transceiver box) or the positioner arranged on the cabinet according to the cabinet code and instructs the photon label system (photon label transceiver box) or the positioner to emit light and sound.

The above-mentioned optical fiber network intelligent maintenance system, wherein, the optical port page includes:

the system comprises optical port information, a data acquisition module, a data processing module and a data processing module, wherein the optical port information comprises an optical port position, a GPS position address, an optical port code, a service name, a home terminal, an opposite terminal, an optical path code, a private line number, a node loss and historical record trend graph, an end surface loss and historical record trend graph, a machine room name and a machine cabinet name, intelligent optical port equipment conditions, fault records, connection equipment information and historical records, jumper connection and change records, operator information and/or time node information;

the paper label photos comprise a front photo and a back photo of the paper label; and

and selecting default and cancel default buttons for the default operation of the optical port, and after the default operation is selected, performing loss detection, splice point fault finding and route finding on the optical port by using a detection page, or entering a function in a route page to realize route binding, or realizing the positioning operation of the optical port by using a positioning button.

The above-mentioned optical fiber network intelligent maintenance system, wherein the routing page includes:

the manual binding unit is provided with a pre-binding tag item, can input a binding tag code or adopts a code scanning or paper tag photographing identification mode, selects a binding button to realize the routing binding of a default optical port code and the input binding tag code, uploads the binding information of the default optical port to the server, records the binding information into an optical port information tag database after authority verification, and displays the binding information in a routing page or a detection page to finish binding;

the personnel binding unit is used for simultaneously using the optical interface binding operation among the personnel recorded in the contact list of the APP;

the automatic binding unit is provided with a send button, clicks the send button and is used for determining the codes of all optical ports on the light path where the default optical ports are located, forming an optical port routing report and displaying the optical port routing report in a routing page or a detection page to finish binding; and

and the routing information display operation unit is provided with a routing information strip display, and the back of each piece of routing information is provided with an upward arrow, a downward arrow and a binding release option for adjusting the routing sequence of each optical port and releasing the routing.

In the above intelligent maintenance system for an optical fiber network, the routing information obtained by the automatic binding unit is prior to the routing information obtained by the personnel binding unit, the priority level of the routing information is displayed in different colors respectively, namely, the priority level is displayed according to the principle of obedience when contradiction occurs, after all binding operations are verified and confirmed by the server, the binding operations can enter the optical port coding label database and are finally displayed on the intelligent maintenance APP for an optical fiber network.

In the above intelligent maintenance system for an optical fiber network, the coded intelligent query unit may be displayed after logging in, or may be clicked to return by a return button in a bottom toolbar; the intelligent code query unit displays an intelligent code query interface, a bar code, a two-dimensional code or an RFID/NFC label is pasted on a cabinet of a machine room, the cabinet is selected to enter a corresponding cabinet page after defaulting through scanning the code or the label, the server downloads all information of the cabinet, including all optical interface information on the cabinet, an optical interface of a corresponding coordinate is selected in the cabinet page, the server downloads the optical interface information of the optical interface, and the optical interface information of the optical interface is selected by clicking.

In the above optical fiber network intelligent maintenance system, the detection page is provided with an instrument display area, the optical fiber line loss detection data and the optical fiber end surface loss detection data are displayed in the instrument display area, and the instrument display area displays in a dynamic pointer instrument display mode or in a digital screen display mode.

In the above intelligent maintenance system for an optical fiber network, the searching for a cabinet or a label in the coded intelligent query unit includes:

scanning code identification, namely identifying a cabinet or a label by scanning a two-dimensional code, directly entering a display interface for identifying the cabinet or the label, and downloading corresponding cabinet or optical port information to the intelligent terminal;

picture identification, namely directly photographing and uploading to a server, intelligently identifying one or more cabinets or labels meeting conditions through characters on the picture by the server, displaying the cabinets or labels in a bullet frame mode for selection, entering a display interface of the cabinets or labels, and downloading corresponding cabinet or optical port information to an intelligent terminal; and

and searching and identifying keywords, matching one or more cabinets meeting the conditions according to the current positioning when a non-unique cabinet number of a service provider is input, displaying in a pop-up frame mode, entering a display interface of the cabinet or a label after selection, and downloading corresponding cabinet or optical port information to the intelligent terminal.

The invention has the beneficial effects that:

according to the invention, the intelligent maintenance of the optical fiber network can be realized through the APP arranged on the intelligent terminal. For example, the method can be used for detecting the loss of an optical fiber circuit and an end face, searching the fault of an optical fiber splicing point and searching an optical fiber route; the optical fiber network intelligent maintenance system activates an optical detection module, namely a photon label, installed on an optical port of an ODF frame through transmitting a detection light wave with codes, collects the detection light wave to a photon label receiving and sending box in a cabinet top box, uploads two optical port code groups to a server through a communication module installed in the photon label receiving and sending box, and the server associates one code with a group with the same code carried by the detection light wave to form a route of an optical path of the optical port; the power of the transmitted detection light wave is adjusted, so that the photon label can be activated only when the optical fiber splicing point fails, and the fault finding is realized by uploading the optical port code of the server failure point through the photon label receiving and transmitting box; the method comprises the steps of detecting the connection quality of an optical connector and a line, recording line loss of each connection point of optical fiber connection and loss of the connection end face of the connector, realizing automatic input of detection data, analyzing the degraded optical fiber line and connection points through a historical data graph, and performing maintenance in advance to prevent the optical fiber line and the connection points from being damaged; the method can also realize big data management after electronization of files of the existing machine room, and when the connector fails and pops up the optical port, complete information is downloaded through a server by photographing a paper label to confirm the position of the optical port, so that the failure can be rapidly relieved; and the electronic photographing and identification of the paper label can be used for efficiently completing the information downloading confirmation of the optical connector and the like.

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent maintenance device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a login interface according to an embodiment of the present invention;

fig. 3-5 are schematic diagrams of an added cabinet and an added FTTH fiber-to-the-home page according to an embodiment of the present invention;

FIGS. 6-7 are schematic diagrams of an encoded query page according to an embodiment of the invention;

FIGS. 8-11 are schematic diagrams of a default encoding operation interface according to an embodiment of the invention;

FIGS. 12-14 are schematic diagrams of detection pages according to an embodiment of the invention;

fig. 15-22 are schematic diagrams of routing pages according to an embodiment of the present invention.

Wherein the reference numerals

1. Optical fiber full data detector

2. Photon label receiving and dispatching box

3. Server

4. Intelligent terminal

5. Photonic label

Detailed Description

The invention will be described in detail with reference to the following drawings, which are provided for illustration purposes and the like:

referring to fig. 1, fig. 1 is a schematic structural diagram of an intelligent maintenance device according to an embodiment of the present invention. The intelligent maintenance device for the optical fiber network comprises an optical fiber full-data detector 1 and a photon label transceiving box 2, wherein the optical fiber full-data detector 1 and the photon label transceiving box 2 are respectively connected with a server 3, each optical fiber distribution frame of a machine room is provided with the photon label transceiving box 2, and the optical fiber full-data detector 1 is matched with the photon label transceiving box 2 for use. The optical fiber full-data detector 1 can also be matched with an intelligent terminal 4 for use. The cabinet of each optical distribution frame is used as a group in the machine room, the group number is the system code of the optical distribution frame and comprises an address number, the machine room number and the cabinet number, the position of each optical port is defined by a coordinate connection line on the optical distribution frame, and thus, a unique system code is distributed to each optical port and is recorded in a corresponding photon label 5. The OLT optical communication device 6 is connected to the photonic label 5 by a cable. Inputting an optical port code of a paper label to be searched or optical port related content information such as a service name, a private line number, an optical path code and the like on the optical fiber full data detector 1 or the intelligent terminal 4, selecting a default and operating a 'positioning' button, then transmitting an optical port code positioning request to the background server or the cloud server by the intelligent terminal 4, finding an optical fiber distribution frame where the optical port code is located by the background server or the cloud server through an optical port information label database, and transmitting an instruction to enable the photon label transceiving box 2 on the optical fiber distribution frame to prompt, displaying a horizontal and vertical coordinate of the position of the paper label corresponding to the optical port code on a display screen of the photon label transceiving box 2, or displaying the position of the optical port through a prompt lamp connected to each optical port by the photon label transceiving box 2, so as to quickly position the paper label. The optical fiber full-data detector 1 can also realize the loss detection of an optical fiber circuit and an end face, the fault finding of an optical fiber splicing point and the binding of an optical fiber route; activating a light detector, namely a photon label 5, installed on an optical port of an optical fiber distribution frame by emitting a detection light wave with codes, collecting the detection light wave to a photon label receiving and sending box 2 in a cabinet top box, uploading two optical port code groups to a server 3 through a communication module installed in the photon label receiving and sending box 2, and forming a route of an optical path of the optical port by associating one code with a group with the same code carried by the detection light wave by the server 3; the power of the emitted detection light waves is adjusted, so that the photon label 5 can be activated only when the optical fiber splicing point fails, and the optical port codes of the failure point of the server 3 are uploaded by the photon label transceiving box 2 to realize failure finding; the optical fiber full-data detector 1 detects the connection quality of the optical fiber connector and the line, records the line loss of each connection point connected by the optical fiber and the loss of the connection end face of the connector, realizes the automatic input of detection data through the optical fiber full-data detector 1, finally analyzes the degraded optical fiber line and the connection point through a historical data graph, and is maintained in advance to prevent accidents; the optical fiber full-data detector 1 can also realize large-data management after electronization of files of an existing machine room, and when a connector fault pops out of an optical port, complete information is downloaded through a server by photographing a paper label, so that the position of the optical port is confirmed, and the fault is rapidly removed; and the information downloading confirmation of the optical connector can be efficiently completed through the electronic photographing recognition of the paper label. The intelligent maintenance APP of the optical fiber network is opened on the intelligent terminal 4, and the corresponding functional module or functional unit is selected, so that the intelligent maintenance of the optical fiber network can be conveniently realized.

Intelligent terminal 4 can be smart mobile phone, ipad, etc. for example, intelligent terminal 4 needs to download the optical fiber network intelligent maintenance APP installed for use with optical fiber full data detector 1, intelligent terminal 4 and optical fiber full data detector 1 can use the data line through the USB interface to connect, or through bluetooth communication module wireless connection, support bluetooth 4.0 communication rate, bluetooth communication module must always open the detection to the outside, the name can be XDFC _ XXXXXX, XXXXXX is the last 3 bytes of MAC address. The disconnection and connection of bluetooth can be detected in real time, the heartbeat function is provided, and the current connection state is transmitted in real time. If the current intelligent terminal 4, such as a mobile phone, is configured, the optical fiber full-data detector 1 is connected immediately after scanning the mobile phone. Whether the handset has been paired can be checked by the MAC address of the handset. The optical fiber full data detector may store a MAC address (referred to as a physical address or a hardware address, which defines a location of a network device) of a connected mobile phone, for example, may store MAC information of not less than 5 mobile phones.

After receiving an optical fiber network intelligent maintenance APP emission instruction on a mobile phone, the optical fiber full-data detector 1 starts emission. The content of emission data, power isoparametric are by fiber optic network intelligent maintenance APP instruction, inform the main control unit that optic fibre full data detected 1 through the agreement, and main control unit is at first encoded the data content, then begin to send after starting power selection, send and finish, respond to fiber optic network intelligent maintenance APP. During sending, the optical fiber full-data detector 1 preferably sends the preamble data to the receiving end for a certain time to wake up, and then starts sending the real detection data. The detection data should be checked to facilitate the receiving end to check whether the data is correct. And after the transmission is finished, the transmission result is transmitted to the optical fiber network intelligent maintenance APP through the Bluetooth.

The communication between the optical fiber full-data detector 1 and the optical fiber network intelligent maintenance APP adopts a question-and-answer mode, and all the communication is actively initiated by the optical fiber network intelligent maintenance APP. After the optical fiber network intelligent maintenance APP is connected with the optical fiber full-data detector 1, a login instruction is initiated, the optical fiber full-data detector 1 is subjected to login operation, and the main controller of the optical fiber full-data detector 1 sends information such as a current firmware version, a hardware version, an error state and battery power to the optical fiber network intelligent maintenance APP. After logging in, in an idle state, the optical fiber network intelligent maintenance APP sends a heartbeat instruction to the optical fiber full-data detector 1 every other period of time, for example, every 10 seconds, and the optical fiber full-data detector 1 responds to information such as a current error state, battery power, a current working state, and the like.

The invention can also enter a calibration mode through the keys of the optical fiber full-data detector 1 and the optical fiber network intelligent maintenance APP, wherein the calibration mode is used for calibration when leaving a factory, for example, a long key can be used for entering the calibration mode, after the calibration mode is released, a short key enters the calibration mode again, and if the calibration mode is pressed again, the exit is indicated. Calibration is performed once when the optical fiber network intelligent maintenance APP is delivered from a factory, data is stored, multiple times of measurement are preferably adopted to obtain an average value, the average value is a calibration value, and the calibration value can be transmitted to the optical fiber network intelligent maintenance APP when the optical fiber network intelligent maintenance APP reads real-time data.

When line loss or end face loss measurement needs to be carried out, the optical fiber network intelligent maintenance APP should firstly send a starting instruction to enable the optical fiber full-data detector 1 to start the optical power measurement module, and after the starting is completed, the optical fiber full-data detector 1 responds successfully. If the start-up is wrong, the optical fiber full data detector 1 responds to the error code. After receiving the successful response of the optical fiber full-data detector 1, the optical fiber network intelligent maintenance APP sends a command for obtaining test data, and for example, measurement data can be read every 200 MS. The optical fiber network intelligent maintenance APP finishes the measurement, does not need to measure data any more, and then sends a closing instruction to inform the optical fiber full-data detector 1 to close the optical power measuring module. In the measurement working state, if the bluetooth is disconnected or a reading instruction of the optical fiber network intelligent maintenance APP is not received within a specified time (for example, 10 seconds), the optical power measurement module of the optical fiber full data detector 1 is powered off.

The optical fiber network intelligent maintenance APP can download the firmware of the optical fiber full-data detector 1 to an intelligent terminal 4 such as a mobile phone terminal through the firmware version in the login information when finding that the server 3 has a new version program, and then upgrade the firmware through Bluetooth. The optical fiber full-data detector 1 sends an optical port code, the optical port code is sent to a splicing point optical port through an optical fiber circuit, a detector on the optical port receives activation information and code coming information, the activation information and the code coming information are decoded through a photon label collecting disc and uploaded to a photon label receiving and sending box 2, and the photon label receiving and sending box 2 sends the receiving point code, the corresponding optical port code and the like to a server 3. The server 3 receives the multiple groups of optical port codes and the received optical port codes, and links the groups with the same transmitted optical port codes together to form a route. When the optical waves need to be emitted, the optical fiber network intelligent maintenance APP is directly communicated with the server 3, and the server 3 orders the optical fiber full-data detector 1 to work.

The intelligent maintenance APP for a fiber optic network of the present invention is described in detail below.

The invention discloses an optical fiber network intelligent maintenance APP, which is arranged on an intelligent terminal, and comprises an operation interface and a user center interface, and is characterized in that the operation interface comprises:

the login module is used for inputting login information, and logging in the optical fiber network intelligent maintenance APP after the login information is matched with the background information; referring to fig. 2, fig. 2 is a schematic diagram of a login interface according to an embodiment of the present invention. Logging in for the first time, inputting a service provider, a name and a default password, and logging in after matching with background information (operator name, service company name and the like); the password can be a new password set by the user when logging in again. The mobile phone can be bound, the mobile phone can be bound forcibly, the password can be bound and modified, the forgotten password can be conveniently found back when the password is forgotten, and the password can be modified and a new password can be set in the form of a mobile phone verification code;

a newly-added cabinet module, which is shown in fig. 3 and 4 and is a schematic diagram of a page of the newly-added cabinet according to an embodiment of the present invention, and the newly-added cabinet module is entered by clicking "+" select "cabinet, including a creation cabinet, a cabinet display and editing module, for displaying and editing basic cabinet information of an optical fiber distribution frame; generating a unique cabinet code and a corresponding cabinet two-dimensional code after the cabinet is created, generating a cabinet light port code array group according to the arrangement of a light port array in the created cabinet module, and displaying the cabinet light port code array group by a cabinet simulation frame circle diagram; displaying the interface of the newly added cabinet, wherein the displayed cabinet is different in message filling according to different service providers; or a cabinet or a machine frame can be created, and a unique cabinet code and a corresponding two-dimensional code are generated after the creation is completed. Namely, a cabinet is newly built, a code is created according to a coding rule, a bar code or a two-dimensional code or an RFID \ NFC label is pasted on the cabinet of the machine room, the cabinet code + a plurality of rows and columns in total form an optical port code, and a cabinet optical port matrix diagram is formed. Clicking a target light port point, performing works such as paper label photo input, information input and the like after defaulting, and uploading the works to the server 3; the cabinet query result can also be displayed, the basic information of the cabinet is displayed, and the corresponding two-dimensional code can be clicked and expanded; the display of the light port in the cabinet is determined by the type of the cabinet, and the light port can be enlarged and reduced and can move up and down; the pictures in the information can be previewed by clicking; whether a connection paper label and a photon label exist at an optical port in the cabinet, photographing is carried out, and the connection paper label and the photon label are distinguished by shape and color delineation; the current cabinet may be selected as the default code;

the newly added FTTH fiber-to-the-home module is configured to create an FTTH fiber-to-the-home optical port and generate an optical port code, which is a schematic diagram of a newly added FTTH fiber-to-the-home page in an embodiment of the present invention, and click "+" to select "FTTH" to enter the newly added FTTH fiber-to-the-home module, which includes an identification picture unit, an intelligent parsing unit, and a confirmation unit, referring to fig. 3 and 5; filling information including user names, user telephones and the like when the FTTH label is newly added; some user information and equipment information can be added, and a photo is taken for character content identification and matching; the identification picture unit identifies the content of the character type of the image in a photographing mode, the content can be displayed in an input frame, photographing is directly carried out, the content is uploaded to the server 3 for identification, the server 3 downloads the content identified in the background into a mobile phone APP for modification by workers, finally optical port information, basic information, personnel information and the like are uploaded to the server 3, and the optical port information, the basic information, the personnel information and the like are stored in a database after being manually confirmed in the background; the intelligent analysis unit is used for analyzing the content of the character type on the added picture and displaying the content in the input box; the confirming unit is used for confirming the newly added FTTH, and displaying the result after the newly added FTTH is completed: the mac code is directly used as the unique label code without regenerating the code; the added picture can be clicked to view;

the intelligent coding query unit is used for rapidly entering a machine room-cabinet-optical port or an FTTH fiber-to-the-home optical port needing to be operated, entering an operation page through input optical port coding, code scanning identification and photographing identification, wherein the input optical port coding adopts an association mode to help an operator to rapidly find a target cabinet or optical port; and displaying the coded intelligent query interface, wherein modes of searching cabinets or labels, namely code scanning, picture identification and keyword searching, are displayed. Referring to fig. 6-7, fig. 6-7 are schematic views of an encoded query page according to an embodiment of the present invention. The method comprises the steps that keyword searching and identification are carried out, when a non-unique cabinet number of a service provider is input, one or more cabinet selections meeting conditions are matched according to the current positioning, the cabinet selections are displayed in a pop-up frame mode, and one cabinet selection can enter a display interface of the cabinet or a label; scanning code identification, namely identifying a cabinet or a label of the equipment by scanning the two-dimensional code, and directly entering a display interface of the cabinet or the label; and identifying the picture, matching one or more equipment cabinet selections meeting the conditions by intelligently identifying characters on the picture, displaying the equipment cabinet selections in a pop-up frame mode, and entering a display interface of the equipment cabinet or the label. The direct photographing uploading server 3 recognizes that the uploaded content contains basic information. And the server 3 determines a search range according to the basic information, finally completes picture identification and downloads corresponding optical port information to the mobile phone APP. Referring to fig. 9, any optical port in the cabinet can be clicked, the optical port displays the clicked state, the bottom displays the optical port information, and the photo can be previewed. And (4) generating a paper label folding page corresponding to the light opening at the bottommost part, and clicking and unfolding corresponding label information. The method comprises the steps that a bar code or a two-dimensional code or an RFID \ NFC label is pasted on a cabinet of a machine room, the cabinet is selected through code scanning or label scanning, a cabinet page is entered after acquiescence, at the moment, a server 3 downloads cabinet information, an optical port point of a corresponding coordinate is selected in the cabinet page, the server downloads the optical port information, the acquiescence is selected through clicking, and then operation is carried out. The default coding operation unit is also provided with a bottom toolbar comprising a return button, an enter button, a message button and a my button.

Wherein, referring to fig. 6-7, the coded smart query unit may be displayed after logging in, or click back on a back button in the bottom toolbar; the intelligent code query unit displays an intelligent code query interface, a bar code, a two-dimensional code or an RFID/NFC label is pasted on a cabinet of a machine room, the cabinet is selected to enter a corresponding cabinet page after defaulting through scanning the code or the label, the server downloads all information of the cabinet, including all optical interface information on the cabinet, an optical interface of a corresponding coordinate is selected in the cabinet page, the server downloads the optical interface information of the optical interface, and the optical interface information of the optical interface is selected by clicking.

The step of searching for the cabinet or the label in the coded intelligent query unit comprises the following steps: scanning code identification, namely identifying a cabinet or a label by scanning a two-dimensional code, directly entering a display interface for identifying the cabinet or the label, and downloading corresponding cabinet or optical port information to the intelligent terminal; picture identification, namely directly photographing and uploading to a server, intelligently identifying one or more cabinets or labels meeting conditions through characters on the picture by the server, displaying the cabinets or labels in a bullet frame mode for selection, entering a display interface of the cabinets or labels, and downloading corresponding cabinet or optical port information to an intelligent terminal; and searching and identifying keywords, matching one or more cabinets meeting the conditions according to the current positioning when a non-unique cabinet number of a service provider is input, displaying in a pop-up frame mode, entering a display interface of the cabinet or a label after selection, and downloading corresponding cabinet or optical port information to the intelligent terminal. And clicking and canceling the coded intelligent query interface, and entering a detection interface. Identifying content through a paper label, and forming low-level routing information through business content, optical path coding, special line number and the like; when the two optical ports are manually bound and input by field constructors, the grade is higher by one grade; when two constructors operate two optical ports, the same confirmed line forms a route with a higher level; after the full data detector 1 emits detection light waves with optical port codes and photon labels to respond, the photon label collecting board is uploaded to a photon label receiving and sending box 2 arranged on the top of a cabinet through a communication module arranged in the photon label collecting box, a plurality of groups of coding groups with the same optical port code are obtained, and the formed route has the highest level.

Referring to fig. 8-11, fig. 8-11 are schematic diagrams of a default coding operation interface according to an embodiment of the invention. The default encoding operation interface comprises a detection page, a cabinet page, an optical port page and/or a routing page, wherein the detection page comprises: the optical fiber line loss detection unit is provided with a ILx button and is used for detecting the total loss of the optical fiber line when the communication light in the optical fiber line reaches the default optical port; an optical fiber end face loss detecting unit provided with IL _D The button is used for detecting the end face loss of the optical fiber splicing point; the optical fiber splicing point fault finding unit is provided with a Find button and is used for detecting and positioning an optical fiber splicing fault point to form a fault point report; the optical fiber route searching unit is provided with a Send button and is used for determining the defaultRecognizing the code of each optical port on the optical path where the optical port is located to form an optical port routing report; the detection result unit is used for displaying all detection results of the default optical port; and the history detection unit is used for displaying all the detected default optical port data lists and displaying detailed information. The detection page can also be provided with an instrument display area, the optical fiber line loss detection data and the optical fiber end face loss detection data are displayed in the instrument display area, and the instrument display area displays by a dynamic pointer instrument or a digital screen; the top of the instrument area can be provided with a manufacturer trademark, or an operation icon can be set according to the requirements of an operator user.

Referring to fig. 12-14, fig. 12-14 are schematic views of a detection page according to an embodiment of the invention. The detection page can display logo; displaying a default code, and clicking to enter a default interface for selection; displaying the connection state of the Bluetooth hardware equipment; ILx measurement, ILd measurement, find detection, and Send one-key binding result display; displaying whether the current default code is a cabinet code or a label code, wherein the cabinet code is a green circular hook behind the cabinet to represent the editable state of the cabinet, and the label code is a green circular hook after detection, label and binding, and all three of the operations can be edited and operated; history detection, namely clicking all data lists with detected default codes to display detailed information; resetting and clearing data; after the completion, the data is uploaded to a background to become history detection, and the data is reset; find detect, position, find out the problem point, show the point code is connected by the staff state, if connect, can notify the person of line of the point. The full-data detector 1 sends low-power optical port activation information and the optical port code from a far end, the energy ensures that the connection point which is normally connected cannot overflow light, the light leakage of a virtual connection fault point is serious, the photon label 5 is activated, the server 3 receives one or more groups of optical port code groups, and extracts another code in the group with the same emission optical port code to form a fault point report; the label information can be edited and stored; and (5) sending binding, wherein the information of the sending binding is synchronous with the subsequent binding interface. The full data detector 1 activates the information from the optical port with high power and the code of the optical port, the energy is related to the route searching distance, the energy needed for long distance is large, the photon label 5 on the optical path is activated, the server 3 receives one or more groups of optical port code groups, and extracts the other code in the group with the same transmitting optical port code to form a route report. For example, detecting- > cabinet, displaying ODF graphic information, and giving a prompt when entering the interface if no information exists; detecting- > cabinet- > light port, displaying light port information, and if no information exists, displaying the occupation prompt information; and detecting- > cabinet- > optical port- > routing, and displaying routing information of the default optical port.

The optical fiber routing searching unit is used for sending an optical port code of a default optical port to the server 3, forwarding the optical port code to the optical fiber full-data detector 1 through the server 3, converting the optical port code into a detection optical signal through the optical fiber full-data detector 1, transmitting the detection optical signal through a light path where the default optical port is located, decoding the detection optical signal through the photonic label system when the detection optical signal passes through the optical port provided with the photonic label system, adding a local optical port code to generate an optical port code group, and uploading the optical port code group to the server 3, and collecting the optical port code groups with the same default optical port code by the server 3 according to one or more received optical port code groups to form a routing report.

The optical fiber splice point fault finding unit is used for sending an optical port code of a default optical port to a server 3 and adding a fault finding range, the server 3 selects according to the finding range, forwards the optical port code and emission power information to an optical fiber full data detector 1, converts the optical port code into an inspection optical signal through the optical fiber full data detector 1, and emits the inspection optical signal through a light path where the default optical port is located at a set power value, when the inspection optical signal passes through an optical port provided with a photon label system, the intensity of the inspection optical signal enables only an optical port with poor splice to activate the photon label system, the photon label system of the fault optical port decodes the inspection optical signal and adds a local optical port code to generate an optical port code group to be uploaded to the server 3, and the server 3 assembles the optical port code groups with the same default optical port code according to one or more received optical port code groups to form a fault point report. In addition, a fault of a connection point of the whole line can be searched, the server detects the fault condition of the optical port from near to far away from the default optical port respectively by adjusting the transmitting power from small to large, and the server 3 can shield the optical port coding group which is not in the testing range.

Referring to fig. 8, fig. 8 is a cabinet page according to an embodiment of the present invention, where the cabinet page includes: cabinet information; the equipment cabinet editing button is used for editing the equipment cabinet information, the original equipment cabinet information can be displayed on the interface, and a user can edit the equipment cabinet information and return the information after the editing is finished; a quick query bar; the cabinet two-dimension code is used for clicking and expanding the corresponding two-dimension code, and the two-dimension code can be shared and printed; the cabinet photos comprise photos of the upper part, the middle part and the lower part of the cabinet; the cabinet simulates a frame circle diagram which can be enlarged and reduced and can move up and down, the circle diagram in the diagram respectively represents an unoccupied paper label (blue outer circle), an electronic label (red outer circle) and a photon label (yellow outer circle) in different colors and/or shapes, accumulated information can be displayed through the red, yellow and blue outer circles, a main body in all the information circle diagrams is displayed as a circle diagram arranged at the back, the color of the circle is averagely distributed by the representative color of the previous circle diagram, if the photon label, the paper label and the electronic label are installed at the light port, the circle diagram is displayed as an inner circle, and the outer circle is a blue half circle representing the paper label and a red half circle representing the electronic label; a row index key is arranged on the left side of the cabinet simulation frame diagram, so that a target row can be quickly reached; referring to fig. 9, the optical port is circled and selected, and the information of the optical port can be displayed below by clicking the optical port; the page of the entering button in the bottom toolbar entering the light port can be selected to look up the light port information of the light port; selecting a default button and a cancel default button for selecting or canceling default operation of the cabinet; and/or a positioning button, the positioning button is used for realizing the positioning operation of the cabinet after default is selected, the default cabinet code is uploaded to the server, and the server finds the photon label system or the positioner installed on the cabinet according to the cabinet code and instructs the photon label system or the positioner to emit light and sound. The method comprises the steps that bar codes or two-dimensional codes or RFID \ NFC labels are pasted on cabinets of a machine room, the cabinets are selected through code scanning or label scanning, cabinet pages are accessed after acquiescence, cabinet information is downloaded and called from a server, paper labels are photographed in the cabinet pages and uploaded to the server, optical port information is downloaded, clicking selection acquiescence is achieved, and then operation is conducted. The optical port label code can be selected as a default code, after the default code is selected, the default code and the logout default code can be cancelled, the default code is cancelled, the code stays on the page, other optical port default codes are selected, a 'return' button in a bottom toolbar can be selected, the code returns to the intelligent coding query interface directly, and no information exists at present; and under the condition of default coding, directly covering the front default coding after selecting other optical ports to select default.

Wherein, referring to fig. 10-11, the optical port page comprises: an optical port edit button; an optical port two-dimensional code; a positioning button; a quick query bar; the system comprises optical port information, a data processing system and a data processing system, wherein the optical port information comprises an optical port position, a GPS position address, an optical port code, a service name, a home terminal, an opposite terminal, an optical path code, a private line number, a node loss and historical record trend graph, an end surface loss and historical record trend graph, a machine room name and a machine cabinet name, the condition of intelligent optical port equipment, a fault record, connection equipment information and historical records, a jumper connection and change record, operator information and/or time node information; the paper label photos comprise a front photo and a back photo of the paper label; and/or selecting default and default cancel buttons for default operation of the optical port, after default, the detection page can be used for carrying out loss detection, splice point fault finding and route finding on the optical port, the function in the routing page can be entered for realizing route binding, and the positioning button can be used for realizing positioning operation on the optical port.

Referring to fig. 15-22, fig. 15-22 are schematic routing pages according to an embodiment of the present invention. The routing page includes: the manual binding unit is provided with a pre-binding tag item, can input a binding tag code or adopts a code scanning or paper tag photographing identification mode, selects a binding button to realize the routing binding of a default optical port code and the input binding tag code, uploads the binding information of the default optical port to the server, records the binding information into an optical port information tag database after authority verification, and displays the binding information in a routing page or a detection page to finish binding; the personnel binding unit is used for simultaneously using the optical port binding operation among the personnel recorded in the contact list of the APP, binding the personnel on a request page, and selecting the personnel to be searchable and the personnel under the corresponding company for multiple selections; for example, the personnel selects- > starts binding, the personnel is displayed in a pre-binding list after the personnel selects, the binding is started by clicking the right side of the name of the person, the binding can be carried out, and a bullet box waiting for the binding neutralization binding request appears; the codes of the two binding labels and the information of the connecting personnel can be displayed; the request time can be displayed, and the request can be selected to be cancelled and retransmitted if the time is too long; the requested party can choose to cancel or bind similarly; the personnel binding unit is provided with a + button for opening a team member page, checking a circled graph in front of a team member to be bound, pre-connecting the name of the team member and a default optical port code of the team member in an APP (application), simultaneously, displaying a binding starting button in the back, clicking the binding starting button, uploading binding information of the default optical port to a server, recording the binding information into an optical port information tag database after authority verification, displaying the binding information in a routing page, and also embodying the binding in a detection page, wherein a bullet frame waiting for a binding neutralization binding request is popped when the personnel binding is carried out, a personnel binding request page is arranged in the bullet frame of the binding request, and the bound tag code and the bound personnel information are displayed; and the request time is displayed, and the binding request can be cancelled or resent when the time is out; if the requested party does not accept the binding, the cancellation or the binding can be selected; the automatic binding unit is provided with a send button, clicks the send button and is used for determining the codes of all optical ports on the light path where the default optical ports are located, forming an optical port routing report and displaying the optical port routing report in a routing page or a detection page to finish binding; and/or the routing information display operation unit is provided with a routing information strip display, and the back of each piece of routing information is provided with an upward arrow, a downward arrow and a binding removing option for adjusting the routing sequence of each optical port and removing the routing.

The binding includes personnel binding, manual binding and automatic binding, a pre-bound label and a bound label are displayed, and bound information is displayed in the bound label. No matter how the binding is carried out, the routing information obtained by the automatic binding unit is prior to the routing information obtained by the personnel binding unit, the routing information obtained by the manual binding unit is prior to the routing information of the manual binding unit, the priority levels of the routing information are respectively displayed in different colors, namely, the principle of obedience when contradiction is generated, and after all binding operations are verified and confirmed by the server, the optical port coding label database can be accessed and finally displayed on the optical fiber network intelligent maintenance APP; manual binding, namely manually inputting codes or photographing for identification binding, and jumping a binding elastic frame to confirm binding; searching binding label codes, and selecting the binding label codes on the interface; binding-camera, identifiable by photographing, intelligently identifying tag coding; the binding label code is generally a copy-paste code, and if an input condition exists, the matched code in the database can be listed according to the currently input code for selection by a user. Automatic binding, SEND one-key binding all, and the same effect as SEND of the detection interface. The audit-in-progress information prompt is attached to the unviewed routing information.

The user center interface can display the head portrait and name information of the user; including my devices, my authorization, settings and about the software. Personal information such as avatar, name, etc. may be edited. My device displays whether Bluetooth is on or not and the state of the connected device. And if the authorization is my, displaying the authorization range of the background control user, and displaying the authorization condition by the foreground. And operation reminding, namely reminding when the Bluetooth device is not connected and operating. Setting-modifying bound mobile phones, which can be modified; setting-modifying the password, the password can be modified; set-logout, login can be logged out.

The invention can be applied to a plurality of scenes as follows:

1. establishing a file of a newly-built machine room: newly building a machine room, inserting a connector into a required optical port according to the requirement of a constructor, recording the service type, the optical path code, the position and the length of the optical port at the opposite end of the connector in the name of the machine room, the serial number of a cabinet, a plurality of frames and a plurality of rows and columns, recording the service type, the optical path code and the position and the length of the optical port at the opposite end of the connector, recording the service type, the optical path code and the position and the length of the optical port, forming a paper label, and sharing or instructing a connected paper label printer to work; photographing a paper label, and then associating the photo of the paper label and the information of the optical port, the loss of an optical fiber circuit at the optical port, the loss of the end face of an optical fiber connecting point, personnel information and time information in an APP;

2. file electronization (paper label electronization) of the existing machine room: the construction personnel take pictures of the existing paper labels, GPS position information is added, a system forms system codes according to machine room addresses, machine room names, cabinet name numbers, a plurality of frames and a plurality of rows and columns for searching, and the pictures of the paper labels are uploaded to a server for identification and query after automatic boundary alignment and enhanced sharpening of a mobile phone APP;

3. when the optical interface is located and searched, a constructor activates the optical interface code through an APP, activation information is sent to a photon label receiving and sending box or an optical interface locator installed on a machine room and a cabinet where the optical interface is located through a cloud server, the constructor is prompted to find the corresponding cabinet, a connector on the corresponding optical interface is found according to optical interface coordinates prompted by the APP, or the optical interface position is displayed through a prompting lamp connected to each optical interface through the optical interface locator, or the optical interface position is displayed through a prompting lamp installed on the photon label, a paper label bound on the connector is compared with a paper label in the optical interface information downloaded from the APP, and if the optical interface coordinates are matched, optical interface operation is carried out; if the contents are inconsistent, the paper label bound on the optical connector is photographed, the optical connector is uploaded to a cloud server for identification and retrieval, the associated information of the wrong optical port is searched, the optical port information is finally calibrated through historical record inquiry and routing information alignment, and finally the on-site information is consistent with the cloud server information, so that the working efficiency can be effectively improved, and the error can be corrected;

4. big data management is realized after the archives of the existing machine room are electronized: connecting all related paper label information together through light path coding and service types to form a route circuit diagram through paper label electronic information of the existing machine room, or determining that the information is a line through opposite end information, namely the same route;

5. when the optical port is popped up due to the connector fault, the complete information is downloaded through the server by photographing the paper label, the position of the optical port is confirmed, and the fault is rapidly removed;

6. waste fiber optic connectors confirmed: some connectors which are not used in the machine room are not cleaned in time after being pulled out, or connectors without services are still inserted into the optical port, the optical fiber connectors at the upstream are pulled out, and are still connected, so that constructors are afraid of determining whether the connectors are used or not, and resources are wasted;

7. detecting the connection quality of the optical connector and the line: the constructor records the line loss of each connection point of the optical fiber connection and the loss of the connection surface of the connector, can efficiently finish the information downloading confirmation of the optical connector through the electronic photographing recognition of the paper label, automatically inputs the detection data through the full data detector, finally analyzes the degraded optical fiber line and the connection point through a historical data graph, and performs maintenance in advance to prevent the optical fiber line and the connection point from being suffered in the bud;

8. the paper label replaces an electronic label: the electronic label has three functions, one is information recording, the second is optical port positioning, the third is error insertion alarming, the first two functions can be realized through the automatic identification of the paper label, the third error insertion alarming belongs to redundant functions, because the line condition of a construction site and the design content of a drawing have access, a constructor can adjust the connector to which optical port site, if the connection condition of which optical port is poor, the optical port is changed extremely normally, the judgment standard is whether the service is opened, the constructor can finally write correct information on the paper label, and the information is uploaded through photographing, so that the site information is ensured to be correct and consistent with the server information, and the working efficiency is high; in the prior art, the electronic tag has wrong insertion alarm, and needs field construction personnel to inform background personnel to put down a work order again, and the work order is changed according to a field light port, so that the efficiency is low;

9. the function of the photon label in the automatic identification system of the paper label is as follows: when the paper labels of some old machine rooms are lost or wrong, exact routes and the information of the optical connector are found through photon label routing search, and finally new paper labels are formed.

10. Through the functions of personnel binding, manual binding and the like, the optical fiber routing information can be obtained in multiple directions and multiple ways, and the collection and calibration of the routing information of the machine room can be completed quickly, so that the high efficiency and the high speed of optical fiber network maintenance can be realized.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a system is maintained to optical network intelligence, a serial communication port, including intelligent terminal, the complete data detection appearance of optic fibre, photon label system, light mouth locator and server, the complete data detection appearance of optic fibre and photon label system, light mouth locator respectively with the server is connected, intelligent terminal respectively with server and the complete data detection appearance of optic fibre are connected, install the optical network intelligence on the intelligent terminal and maintain the APP, the APP is maintained to the optical network intelligence includes operation interface and user center interface, operation interface includes:

the newly-added cabinet module comprises a cabinet creating unit, a cabinet display unit and an editing unit and is used for displaying and editing the basic cabinet information of the optical fiber distribution frame; generating a unique cabinet code and a corresponding cabinet two-dimensional code after the cabinet is created, generating a cabinet light port code array group according to the arrangement of a light port array in the created cabinet module, and displaying the cabinet light port code array group by a cabinet simulation frame circle diagram;

the newly-added FTTH fiber-to-the-home module is used for creating an FTTH fiber-to-the-home optical interface and generating an optical interface code, and comprises an identification picture unit, an intelligent analysis unit and a confirmation unit; and

the intelligent coding query unit is used for rapidly entering a machine room-cabinet-optical port or an FTTH fiber-to-the-home optical port needing to be operated, entering an operation page through input optical port coding, code scanning identification and photographing identification, wherein the input optical port coding adopts an association mode to help an operator to rapidly find a target cabinet or optical port;

the operation interface comprises a detection page, a cabinet page, an optical port page and/or a routing page, and the detection page comprises:

the optical fiber end face loss detection unit is provided with an ILD button and is used for detecting the end face loss of an optical fiber splicing point;

the history detection unit is used for displaying a default optical port history data list and displaying detailed information;

the optical fiber splice point fault finding unit is used for sending an optical port code of a default optical port to the server and adding a fault finding range, the server selects according to the finding range, forwards the optical port code and transmitting power information to an optical fiber full data detector, converts the optical port code into a detection optical signal through the optical fiber full data detector, and transmits the detection optical signal through a light path where the default optical port is located according to a set power value, when the detection optical signal passes through the optical port provided with a photon label system, the intensity of the detection optical signal enables only the optical port with poor splicing to activate the photon label system, the photon label system of the fault optical port decodes the detection optical signal and adds a local optical port code to generate an optical port code group to be uploaded to the server, and the server collects the optical port code groups with the same optical port code of the default optical port according to one or more groups of the received optical port code groups to form a fault point report.

2. The intelligent maintenance system for optical fiber networks according to claim 1, wherein the optical fiber route lookup unit is configured to send an optical port code of a default optical port to the server, forward the optical port code to an optical fiber full data detector via the server, convert the optical port code into a detection optical signal by the optical fiber full data detector, and transmit the detection optical signal through an optical path where the default optical port is located, when the detection optical signal passes through an optical port equipped with a photonic label system, the photonic label system decodes the detection optical signal and adds a local optical port code to generate an optical port code group to upload to the server, and the server assembles the optical port code groups with the same optical port code of the default optical port according to one or more received optical port code groups to form a route report.

3. The fiber optic network intelligent maintenance system of claim 1 or 2, wherein the cabinet page comprises:

the cabinet simulates a frame diagram which can be enlarged and reduced and can move up and down, wherein the diagram in the diagram respectively represents an unconllected label, an unoccupied label, a paper label, an electronic label and a photon label in different colors and/or shapes, or the accumulated information is displayed by red, yellow and blue on the outer ring; a row index key is arranged on the left side of the cabinet simulation frame diagram, so that a target row can be quickly reached;

the button is selected by the light port circle, and the information of the light port can be displayed below the button by clicking the light port; the page of an entering button in the bottom toolbar entering the light port can be selected to look up the light port information of the light port;

selecting a default button and a cancel default button for selecting or canceling default operation of the cabinet; and

and the positioning button is used for realizing the positioning operation of the cabinet after default is selected, and by uploading the default cabinet code to the server, the server finds the photon label system or the positioner arranged on the cabinet according to the cabinet code and instructs the photon label system or the positioner to emit light and sound.

4. The fiber optic network intelligent maintenance system of claim 1 or 2, wherein the optical port page comprises:

the system comprises optical port information, a data processing system and a data processing system, wherein the optical port information comprises an optical port position, a GPS position address, an optical port code, a service name, a home terminal, an opposite terminal, an optical path code, a private line number, a node loss and historical record trend graph, an end surface loss and historical record trend graph, a machine room name and a machine cabinet name, the condition of intelligent optical port equipment, a fault record, connection equipment information and historical records, a jumper connection and change record, operator information and/or time node information;

5. The fiber optic network intelligent maintenance system of claim 1 or 2, wherein the routing page comprises:

the personnel binding unit is used for intelligently maintaining APP by using the optical fiber network and binding optical ports among personnel recorded in a contact list;

and the routing information display operation unit is provided with a routing information strip display, and the back of each piece of routing information is provided with an upward arrow, a downward arrow and a unbinding option for adjusting the routing sequence of each optical port and releasing the routing.

6. The intelligent optical network maintenance system according to claim 5, wherein the routing information obtained by the automatic binding unit is prioritized over the routing information obtained by the personnel binding unit, the priority levels of the routing information are respectively displayed in different colors, and after all the binding operations are verified and confirmed by the server, the optical port information tag database can be accessed and finally displayed on the intelligent optical network maintenance APP.

7. The intelligent maintenance system for fiber optic networks of claims 1, 2 or 6, wherein said coded intelligent query unit is displayed after logging in, or returned by a return button click in a bottom toolbar; the intelligent code query unit displays an intelligent code query interface, a bar code, a two-dimensional code or an RFID/NFC label is pasted on a cabinet of a machine room, the cabinet is selected to enter a corresponding cabinet page after defaulting through code scanning or label scanning, the server downloads all information of the cabinet, including all optical port information on the cabinet, an optical port of a corresponding coordinate is selected in the cabinet page, and the information of the optical port can be displayed below.

8. The intelligent maintenance system for optical fiber networks according to claim 1 or 2, wherein said detection page has a meter display area, and the optical fiber line loss detection data and the optical fiber end face loss detection data are displayed in said meter display area, and said meter display area is displayed by dynamic pointer meter display and/or digital screen display.

9. The intelligent fiber optic network maintenance system of claims 1, 2, or 6, wherein encoding the cabinet or tag for lookup in the intelligent lookup unit comprises:

scanning code identification, namely identifying a cabinet or a label by scanning a two-dimensional code, directly entering a display interface for identifying the cabinet or the label, and downloading corresponding cabinet or optical port information to an intelligent terminal;

picture recognition, namely directly taking a picture and uploading the picture to a server, intelligently recognizing the characters on the picture through the server to match one or more cabinets or labels meeting the conditions, displaying the cabinets or labels in a pop-up frame mode for selection, entering a display interface of the cabinets or labels, and downloading corresponding cabinet or optical port information to the intelligent terminal; and

and searching and identifying keywords, matching one or more cabinets meeting the conditions according to the current positioning when a non-unique cabinet number of a service provider is input, displaying in a bullet frame mode, entering a display interface of the cabinet or a label after selection, and downloading the corresponding cabinet or optical port information to the intelligent terminal.