CN112654975B - Intelligent management method and management system for optical fiber network - Google Patents

Abstract

An intelligent management method and a management system for an optical fiber network, wherein the intelligent management method comprises the following steps: information acquisition (S100), wherein paper labels on connectors of all optical fiber routing ports in a machine room are photographed through an intelligent terminal to acquire pictures; picture processing (S200) for processing each picture to generate picture information; information synthesis (S300), combining the picture information and the information of the optical fiber routing port corresponding to the picture information to generate optical port information; information uploading (S400), namely uploading the optical port information to a background server or a cloud server; and establishing a database (S500), wherein after receiving the optical port information, the background server or the cloud server generates an optical port information tag database, and also discloses an optical fiber network intelligent management system applying the method.

Description

Intelligent management method and management system for optical fiber network

Technical Field

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

Background

When the optical fiber connector is inserted into the optical port, the paper label is required to be registered, the information such as the service type, optical path code, the position of the optical port at the local end, the position of the optical port at the opposite end, the length and the like of the connector is recorded, the paper label becomes the basis for distinguishing and distinguishing the lines of optical fiber line management, and also becomes an indispensable ring in machine room fiber jumping management, so that the quick input and identification of the paper label and the use are related to the success or failure of the machine room information management.

In the prior art, because the technology is limited in the early stage of optical cable laying and scientific optical fiber routing management is not realized, the optical fiber line routing is disordered, various links from a trunk line to an end user are involved, especially, the machine room ODF management (Optical Distribution Frame is abbreviated as optical fiber distribution frame, and is used for forming and distributing a local-end trunk optical cable in an optical fiber communication system, so that the connection, distribution and scheduling of optical fiber lines can be conveniently realized), and the paper labels are not standard, lost, wiring information is inaccurate, maintenance personnel are overlapped, and the like, so that great hidden trouble is brought to later maintenance. When a line fails or goes wrong, the searching of the line route is very tedious, time and labor are wasted, the requirement of customers on network maintenance cannot be met at all, and the problem becomes a difficult problem of the optical fiber communication interface.

At present, two types of printing and handwriting are written on paper labels on an optical port in a telecommunication room, because the on-site optical port route is manually jumped, the paper labels are manufactured and then recorded and delivered to a special person for uploading to a resource management system, but the on-site situation is complex, constructors write out of specification, uploading data errors cannot be identified, and after many years of deposition, the inconsistency rate of on-site optical port route information and the route information of the resource management system is up to more than 40%, the network obstacle removing needs to be operated by constructors familiar with the room, the obstacle removing time is long, and serious conflict is formed between the increasingly increased network maintenance demands.

Disclosure of Invention

The invention aims to solve the technical problems in the prior art and provides an intelligent management method and system for optical fibers of an optical fiber network.

In order to achieve the above object, the present invention provides an intelligent management method for an optical fiber network, which includes the following steps:

S100, information acquisition, namely photographing paper labels on connectors of all optical fiber routing ports in a machine room through an intelligent terminal to acquire pictures;

s200, processing the pictures, and generating picture information after processing each picture;

S300, information synthesis, namely merging the picture information and the information of the optical fiber routing port corresponding to the picture information to generate optical port information;

S400, uploading information, and uploading the optical port information to a background server or a cloud server; and

S500, a database is established, and after the background server or the cloud server receives the optical port information, an optical port information label database is generated.

The optical fiber network intelligent management method, wherein the information of the optical fiber routing port comprises:

optical port coding, optical path coding, special line number, service name, distance between upstream and downstream optical ports, connection point line and end face loss, history of loss change, jumper and change record, operator information, position address information, connection equipment information and history, time node information, routing information and fault record.

The optical fiber network intelligent management method is characterized in that the position address information comprises, but is not limited to, GPS address information and/or position coordinates corresponding to paper labels on connectors of the optical fiber routing ports on an optical distribution frame of a machine room.

In the above optical fiber network intelligent management method, when the step S500 establishes the database, the method further includes a step of identifying the newly uploaded optical port information by searching and comparing, and the method further includes:

S501, judging the character patterns in the picture information in the newly uploaded optical port information, and dividing the character patterns into printing bodies, handwriting bodies or mixed bodies;

S502, if the optical interface information label database is a printing body, directly carrying out content identification and searching and comparing with picture information in the existing optical interface information in the optical interface information label database;

S503, if the optical interface information is a handwriting, performing content identification after track identification, rubbing identification or screening identification, and performing search comparison with picture information in the existing optical interface information in the optical interface information tag database;

S504, if the print is a mixture, the method of step S502 is used to identify the print, and then the method of step S503 is used to identify the handwriting.

The optical fiber network intelligent management method, wherein,

The rubbing identification comprises the following steps:

Setting the picture information in the newly uploaded optical port information as a sub-label, setting the picture information in the optical port information label database as a master label, scaling the sub-label and the master label to be the same in size, respectively calculating total pixel points of the sub-label and the master label, and if the total pixel points of the sub-label and the master label are the same, identifying the sub-label and the master label as the same label.

The optical fiber network intelligent management method is characterized in that the track identification is that handwriting on picture information in the newly uploaded optical port information is processed according to a single pixel, and track comparison is carried out.

The optical fiber network intelligent management method comprises word number identification, line number identification and rubbing identification.

According to the optical fiber network intelligent management method, when the paper label shoots and collects pictures, at least two positioning points are marked on the paper label, so that positioning and alignment during picture processing are facilitated.

The optical fiber network intelligent management method further comprises the steps of carrying out enhancement sharpening on the picture and carrying out boundary alignment on the picture according to the positioning point when the picture is processed to generate the picture information.

In order to better achieve the above objective, the present invention further provides an intelligent management system for an optical fiber network, where the intelligent management system for an optical fiber distribution frame of a machine room is used for managing the optical fiber distribution frame of the machine room by adopting the above intelligent management method for an optical fiber network, and the intelligent management system includes:

The intelligent terminal is used for information acquisition, identification and supplementary correction of the optical fiber routing ports, and is used for acquiring pictures by photographing paper labels on connectors of all the optical fiber routing ports in a machine room, processing each picture to generate picture information, combining the picture information with the information of the optical fiber routing ports corresponding to the picture information to generate optical port information, and sending the optical port information; and

The background server or the cloud server is connected with the intelligent terminal and is used for receiving the optical port information uploaded by the intelligent terminal, generating an optical port information tag database and updating the optical port information tag database in time.

The invention has the technical effects that:

1) The method has the advantages that the effective combination of image recognition and content recognition is realized for the paper label, and the text recognition and image discrimination of the paper label are treated differently, so that the recognition efficiency is greatly improved;

2) The optical port information in the database is added with image record information and history record information storage except for text expression;

3) When equipment is updated due to equipment upgrading and eliminating in machine room management, the complete information record of the paper label content is ensured, and the record and the association of historical information are provided;

4) The paper label is associated with background information such as optical port codes, connection point lines, end face loss information, position addresses (including but not limited to GPS), connection equipment and the like, and complete historical information records of the optical port are provided;

5) Based on big data calculation of a cloud server, automatically generating a route topological graph of a target optical port according to an image recognition technology and associated information;

6) The method can directly adopt a field paper label photographing and identifying mode to search the optical port information during the later maintenance;

7) During later maintenance, the optical port positioner on the distribution frame where the paper label is located can be reversely activated through the optical port code, and the corresponding paper label can be quickly found through the acousto-optic prompt.

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Drawings

FIG. 1 is a flow chart of an intelligent management method according to an embodiment of the invention;

FIG. 2 is a schematic diagram illustrating the operation of an embodiment of the present invention;

fig. 3 is a schematic diagram illustrating the operation of another embodiment of the present invention.

Wherein reference numerals are used to refer to

S100-S500 steps.

Detailed Description

The structural and operational principles of the present invention are described in detail below with reference to the accompanying drawings:

the intelligent management method and the management system of the optical fiber network mainly aim at the following problems in the management and maintenance of the optical fiber network in the prior art:

1) The image recognition and the content recognition are not effectively combined, and the Chinese recognition and the image discrimination in the paper label are not treated differently; the optical interface information in the database mostly adopts text expression without image storage; in the machine room management, as equipment is updated and eliminated, when equipment codes are updated, the content of the paper label is not changed, and history information is not recorded and associated;

2) The paper label is not associated with background information such as optical port codes, connection point lines, end face loss information, position addresses, connection equipment and the like, and history information record of the optical port is not provided;

3) An operator cannot directly adopt a field paper label photographing and identifying mode to search the optical port information;

4) And the routing topology map of the target optical port cannot be automatically generated based on big data calculation of the cloud server according to the image recognition technology and the associated information.

Referring to fig. 1 and fig. 2, fig. 1 is a flowchart of an intelligent management method according to an embodiment of the present invention, and fig. 2 is a schematic diagram of a working process according to an embodiment of the present invention. The intelligent management method of the optical fiber network comprises the following steps:

S100, information acquisition, namely photographing paper labels on connectors of all optical fiber routing ports in a machine room through an intelligent terminal to acquire pictures; when the paper label shoots and collects pictures, at least two positioning points can be marked on the paper label, so that the positioning and alignment during picture processing can be facilitated, for example, the outermost left corner and the outermost right corner are positioned, and other points are deviated, and therefore the two points can be identified more accurately;

Step 200, processing the pictures, namely processing each picture to generate picture information, and carrying out enhancement sharpening on the pictures and boundary alignment on the pictures according to the positioning points;

Step S300, information synthesis, namely merging the picture information and the information of the optical fiber routing port corresponding to the picture information to generate optical port information; wherein, the information of the optical fiber routing port includes: optical port coding, optical path coding, special line number, service name, distance between upstream and downstream optical ports, junction line and end face loss information, loss change history record, jumper and change record, operator information, position address information, connection equipment information and history record, time node information, routing information and/or fault record; the location address information may include machine room address information, GPS address information, and/or location coordinates corresponding to a paper label on a connector of the optical fiber routing port on an optical fiber distribution frame of the machine room;

Step S400, uploading information, namely uploading the optical port information to a background server or a cloud server; and

And S500, establishing a database, and generating an optical port information tag database after the background server or the cloud server receives the optical port information.

When the database is established in step S500, the method further includes a step of identifying the newly uploaded optical port information through searching and comparing, and the method further includes:

Step S501, judging the fonts in the picture information in the newly uploaded optical port information, and dividing the fonts into a printing body, a handwriting body or a mixture;

Step S502, if the printing object is a printing object, content recognition can be directly carried out by means of OCR and searching and comparing the content recognition with picture information in the existing optical port information in the optical port information label database, wherein the content recognition is a recognition function of the ali cloud or the Tengxun cloud, and if the comparison result is uncertain or more than two pieces of approximate picture information are found, the final confirmation can be carried out by manual comparison;

Step S503, if handwriting is adopted, a large number of errors can occur in general cloud recognition, because writing is too slow and irregular, content recognition can be performed after track recognition, rubbing recognition or screening recognition, and searching and comparing with picture information in the existing optical port information in the optical port information tag database; wherein, rubbing discernment includes: setting the picture information in the newly uploaded optical port information as a sub-label, setting the picture information in the optical port information label database as a master label, scaling the sub-label and the master label to be the same in size, respectively calculating total pixel points of the sub-label and the master label, and if the total pixel points of the sub-label and the master label are the same, identifying the sub-label and the master label as the same label. And the track identification is to process the handwriting on the picture information in the newly uploaded optical port information according to a single pixel and compare the tracks. The screening identification comprises word number identification, line number identification and rubbing identification;

Step S504, if the printing object is a mixture, firstly adopting the method of step S502 to identify the printing object, searching and comparing the printing object with the picture information in the optical port information label database, and if the unique target picture information is found, calling all the information of the paper label corresponding to the target picture information and activating the corresponding optical port code; if the unique target picture information cannot be determined, identifying the handwriting by adopting the method of the step S503, then carrying out content identification, and searching and comparing with the picture information in the optical port information tag database.

The optical fiber network intelligent management system of the invention comprises:

The intelligent terminal is used for information acquisition, identification and supplementary correction of the optical fiber routing ports, and can be an optical fiber full data detector, a mobile phone or a Pad or the like capable of installing an APP for realizing the intelligent maintenance method, and the intelligent terminal acquires pictures by photographing paper labels on connectors of all the optical fiber routing ports in a machine room, processes each picture to generate picture information, combines the picture information with the information of the optical fiber routing ports corresponding to the picture information to generate optical port information, and sends the optical port information; and the background server or the cloud server is connected with the intelligent terminal and is used for receiving the optical port information uploaded by the intelligent terminal, generating an optical port information tag database, and updating and maintaining the optical port information tag database in time. As can be seen from fig. 2, when updating and maintaining the optical port information tag database, after receiving the optical port information uploaded by the intelligent terminal, the server needs to identify the optical port tag, search the same tag with the same region information in the optical port information tag database, and if the same tag as the optical port information is found, download all the information of the optical port and activate the optical port information; if the label which is the same as the optical port information is not available, the intelligent terminal is instructed to input the related information of the optical fiber routing port, the information is combined to generate the optical port information, the new optical port information is uploaded to a server and is input into the optical port information label database, so that the updating and the maintenance of the optical port information label database are completed, and repeated input or error recording is avoided.

The embodiment of the invention can firstly shoot and collect paper labels on an optical fiber routing port (optical port for short) connector on an intelligent terminal, select and process pictures of the paper labels, then upload the processed picture and text format on the intelligent terminal after adding address information (including but not limited to GPS address information) to a cloud server, the cloud server intelligently identifies the pictures and associates and stores the pictures with information such as optical port codes, connection point lines, end face loss information, position addresses (including but not limited to GPS), connecting equipment and the like; and identifying the content in the paper label, and associating the optical port with other optical ports according to the identified content to form an optical fiber circuit routing topological graph.

Referring to fig. 3, fig. 3 is a schematic diagram illustrating a working process according to another embodiment of the present invention. When in field photographing identification, firstly, a paper label on a connector of an optical fiber routing port on an intelligent terminal (an optical fiber full data detector, a mobile phone, a Pad and the like) is photographed, pictures of the paper label are selected and processed, finally, the picture and text format processed on the intelligent terminal is uploaded to a cloud server after address information (including but not limited to GPS address information) is added, and the cloud server extracts data with the position close to a target position from a database through the address information and compares the data with the target position so as to correct and update the optical port information label database in time. The printed body label can be directly identified into electronic document information for searching; the handwritten labels can be screened and compared by an image recognition technology.

The invention can also position and prompt the paper label on site according to the need, when the paper label is positioned, the optical port code of the paper label to be searched can be input on the intelligent terminal (optical fiber full data detector, mobile phone, pad, etc.), the optical port code can be a system code, the content and the code in the paper label can also be the code, the information page of the optical port code is entered by clicking the optical port code, the information page of the optical port code is reached in a machine room where the target optical port code is positioned by address prompt or navigation, an activation button is clicked, and the optical port locator on a cabinet unit where the target optical port code is positioned is commanded to emit light and sound to prompt by a cloud server, so that constructors are guided to reach the corresponding cabinet, and the transverse and longitudinal coordinates of the position where the target optical port locator is positioned are prompted on a display screen of the optical port locator, thereby helping constructors find the corresponding paper label.

In an embodiment of the invention, an APP capable of implementing the above-mentioned intelligent maintenance method can be installed on a smart phone or a Pad, and information merging processing technologies such as optical port codes, connection point lines, end face loss information, location addresses (including but not limited to GPS), connection devices and the like are collected and associated with paper labels; the APP paper label can download all information of the target optical port from the cloud server and can be used, namely, the effect of 'taking pictures and getting immediately'. Photographing paper labels of an optical port connector through an intelligent terminal (a mobile phone or a Pad), selecting and processing the paper labels, and finally uploading the pictures processed into standard format to a cloud server through an APP, and simultaneously merging and uploading associated information such as optical port codes, connection point lines, end face loss information, position addresses (including but not limited to GPS), connection equipment and the like to the cloud server. And the cloud server divides the pictures into the printed body and the handwritten body for respectively identifying according to the pictures uploaded by the intelligent terminal, and stores the pictures into the optical port paper label information database together after adding the associated information. And automatically generating a route topological graph of the target optical port according to the paper label content and the associated information based on the big data technology of the cloud server.

After the information is input, the server identifies the paper label and judges whether the information conflicts with other labels, if not, the information is stored in an optical port paper label information database; if yes, a conflict event is formed, and maintenance personnel are asked to process the conflict event; if the optical port information exists, the paper label picture downloaded from the optical port paper label information database of the server can be seen and compared with the field label, and if the optical port information is consistent with the field label, other operations can be performed; if the information is inconsistent, the field label is photographed, after the intelligent terminal processes and generates the optical port information, the uploading server compares the optical port information stored in the optical port paper label information database, if the information is inconsistent, a conflict event is formed, and maintenance personnel is requested to process the information; if the optical port information is not available, the optical port information of the paper label is updated.

When a general constructor arrives at the site, he first goes to the place before he needs to work, scans the two-dimensional code or RFID code/NFC code on the cabinet by using the intelligent terminal, the APP enters the cabinet state, selects defaults, and can download all information of the cabinet from the server, including the whole photos of the upper, middle and lower cabinets, the cabinet has a cabinet light port simulation circle chart on the page, clicks the light port needing to be collected, clicks the light port to be defaulted, then all information of the light port on the server appears on the APP of the intelligent terminal, if the information is not collected, the information is not displayed, and then the operator can start to operate and collect the information. The method is mainly used for the conditions that a two-dimensional code is not attached to a cabinet, a positioner is not used for assisting, and a photon label system is not used; or one of the fibers falls out for directly finding information.

When constructors perform optical port identification inquiry on site, paper labels on the optical port connectors are directly photographed, address information (including but not limited to GPS address information) is added, and then the paper labels are uploaded to the cloud server, the cloud server screens database information according to the address information, content comparison and image comparison are performed on the respective photographs, corresponding association information and route topological graph information are called in the database, and the information is downloaded to intelligent terminals of constructors for use by the constructors on site. The positioning prompter on the distribution frame where the paper label is located can be activated reversely through the optical port code, and the corresponding paper label can be found through the acousto-optic prompt.

The invention can be applied to the following various occasions:

1. File establishment of a newly built machine room: newly-built machine rooms, constructors insert connectors into required light ports according to requirements, record the names, cabinet numbers, frames and rows of the machine rooms, the service types, line codes and opposite-end light port positions of the connectors, record the lengths of the connectors and form paper labels; photographing a paper label, and then associating the photograph of the paper label with the information of the optical port, the optical fiber line loss at the optical port, the end face loss of an optical fiber connection point and personnel information, and the time information in an APP;

2. File electronization (paper label electronization) of the existing machine room: the constructor photographs the existing paper labels, and adds GPS position information, a system code is formed by the system according to a machine room address, a machine room name, a machine cabinet name number, a frame and a row for searching, and the photographs of the paper labels are subjected to automatic boundary alignment and sharpening of a mobile phone APP and then uploaded to a server for identification and query;

3. And (3) locating and searching an optical port: the constructor activates the optical port code through the APP, the activation information instructs the optical port locator installed on the machine room and the machine cabinet where the optical port is located through the cloud server to emit light and sound, prompts the on-site constructor to find the corresponding machine cabinet, finds the connector on the corresponding optical port according to the optical port coordinate prompted by the APP, or displays the optical port position through the prompting lamp connected to each optical port through the optical port locator, compares the paper label bound on the connector with the paper label in the optical port information downloaded by the APP, and if the paper label is matched with the paper label, performs the optical port operation; if the content is inconsistent, photographing the paper label bound on the optical port connector, uploading the paper label to a cloud server for identification and search, searching the associated information of the wrong optical port, inquiring through a history record, aligning routing information, and finally calibrating the optical port information, so that the consistency of the field information and the information of the cloud server is finally realized, the working efficiency can be effectively improved, and the errors can be corrected;

4. large data management is realized after files in the existing machine room are electronized: all relevant paper label information is connected together through the electronic information of the paper label of the existing machine room, through the optical path coding and the service type to form a route circuit diagram, or a line, namely the same route, is determined through opposite-end information;

5. Connector troubleshooting: when the connector fails to eject the optical port, the paper label is photographed, the complete information is downloaded through the server, the position of the optical port is confirmed, and the rapid release of the failure is realized;

6. Discarded fiber optic connector validation: some unused connectors in the machine room are not cleaned in time after being pulled out, or the connectors without service are still inserted into the optical port, the upstream optical fiber connectors are pulled out, and the connectors are connected, so that constructors are not dared to determine whether the connectors are in use or not, thereby causing resource waste, and at the moment, whether the optical fiber connectors are abandoned or not can be finally determined by photographing paper labels, downloading the information of the whole optical port connectors and the route information;

7. Detect the connection quality of optical port connector and circuit: 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 port connector through the electronic photographing identification of the paper label, automatically records the detection data through the all-data detector, finally analyzes the deteriorated optical fiber line and connection point through the historical data graph, and performs maintenance in advance to remove the obstacle;

8. Paper label replaces electronic label: the electronic tag has three functions, namely, information recording, optical port positioning, misplug alarming, the automatic identification of the paper tag can realize the first two functions, and the third misplug alarming belongs to redundant functions, because the line condition of a construction site and the design content of a drawing are in and out, a constructor inserts a connector into which optical port site is adjustable, if which optical port is bad in connection condition, the optical port is replaced extremely normally, whether a service is opened or not is judged, the constructor can write correct information on the paper tag finally, and the information is uploaded through photographing, so that the on-site information and server information are ensured to be correctly consistent, and the working efficiency is high; the electronic tag in the prior art is misplaced and gives an alarm, and a field constructor is required to inform a background personnel to replace the work order, so that the work order is changed according to the field optical port, and the efficiency is low;

9. Photon tag function in paper tag automatic identification system: when the paper label of some old machine rooms is lost and wrong, the exact route and the optical port connector information are found through the route searching of the photon label, and finally a new paper label is formed.

Of course, the present invention is capable of other various embodiments and its several details are capable of modification and variation in light of the present invention, as will be apparent to those skilled in the art, without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. An intelligent management method for an optical fiber network is characterized by comprising the following steps:

S100, information acquisition, namely photographing paper labels on connectors of all optical fiber routing ports in a machine room through an intelligent terminal to acquire pictures;

s200, processing the pictures, and generating picture information after processing each picture;

S300, information synthesis, namely merging the picture information and the information of the optical fiber routing port corresponding to the picture information to generate optical port information;

S400, uploading information, and uploading the optical port information to a background server or a cloud server; and

S500, a database is established, and after the background server or the cloud server receives the optical port information, an optical port information tag database is generated;

the information of the optical fiber routing port comprises: service name, location address information, connection device information, history, and routing information.

2. The method for intelligent management of a fiber optic network of claim 1, wherein the information of the fiber optic routing port further comprises:

Optical port coding, optical path coding, special line number, distance between upstream and downstream optical ports, junction line and end face loss information, history of loss change, jumper connection and change information, operator information, time node information and fault record.

3. The intelligent management method of an optical fiber network according to claim 2, wherein the location address information includes machine room address information, GPS address information, and/or location coordinates corresponding to paper labels on connectors of the optical fiber routing ports on an optical fiber distribution frame of the machine room.

4. The intelligent management method of optical fiber network according to claim 2 or 3, wherein when the database is established in step S500, the method further comprises a step of identifying the newly uploaded optical port information through searching comparison, and further comprises:

s501, judging the character patterns in the newly uploaded optical port information, and dividing the character patterns into printing bodies, handwriting bodies or mixed bodies;

S502, if the optical interface information label database is a printing body, directly carrying out content identification and searching and comparing with picture information in the existing optical interface information in the optical interface information label database;

S503, if the optical interface information is a handwriting, performing content identification after track identification, rubbing identification or screening identification, and performing search comparison with picture information in the existing optical interface information in the optical interface information tag database;

S504, if the object is a mixture, the method of step S502 is used to identify the print, and if the unique target picture information cannot be determined, the method of step S503 is used to identify the handwriting.

5. The intelligent management method of optical fiber network according to claim 4, wherein,

The rubbing identification comprises the following steps:

Setting the picture information in the newly uploaded optical port information as a sub-label, setting the picture information in the optical port information label database as a master label, scaling and rotating the sub-label to be the same as the master label in size, respectively calculating the total pixel points of the sub-label and the master label, and if the total pixel points of the sub-label and the master label are the same, identifying the sub-label and the master label as the same label.

6. The method of claim 4, wherein the track recognition is to process handwriting on picture information in the newly uploaded optical port information according to a single pixel, and perform track comparison.

7. The method for intelligent management of a fiber optic network of claim 5, wherein the screening identification includes word count identification, line count identification, and rubbing identification.

8. The method of claim 4, wherein the paper label is used for photographing and collecting pictures, and further comprising marking at least two positioning points on the paper label to facilitate positioning and alignment during picture processing.

9. The method of claim 8, further comprising sharpening the picture in an enhanced manner and performing boundary alignment on the picture according to the anchor point when processing the picture to generate the picture information.

10. An intelligent management system for an optical fiber network, which is characterized in that the intelligent management method for the optical fiber network according to any one of claims 1-9 is adopted to manage an optical fiber distribution frame of a machine room, and the intelligent management system is characterized in that the intelligent management system comprises:

The intelligent terminal is used for information acquisition, identification and supplementary correction of the optical fiber routing ports, and is used for acquiring pictures by photographing paper labels on connectors of all the optical fiber routing ports in a machine room, processing each picture to generate picture information, combining the picture information with the information of the optical fiber routing ports corresponding to the picture information to generate optical port information, and sending the optical port information; and

The background server or the cloud server is connected with the intelligent terminal and is used for receiving the optical port information uploaded by the intelligent terminal, generating an optical port information tag database and updating the optical port information tag database in time.