CN115293508B - Visual optical cable running state monitoring method and system - Google Patents

Abstract

The invention relates to a visual optical cable running state monitoring method and system, and relates to the technical field of optical cable monitoring. The method comprises the following steps: the monitoring equipment monitors the area paved with the optical cable to obtain first monitoring information, and the first monitoring information is transmitted to a background server; the background server processes the first monitoring information, and identifies an abnormal picture, wherein the abnormal picture is a picture of an optical cable fault area where an optical cable with an abnormal running state is located; the background server performs coordinate positioning on the optical cable with abnormal running state based on the abnormal picture; and the background server remotely controls the multiple cameras to monitor the optical cable fault area to obtain second monitoring information, and the second monitoring information is sent to terminal equipment of maintenance personnel. The method can realize automatic monitoring of the operation state of the optical cable, saves human resources, can discover faults in time, accurately positions the faulty optical cable, and improves the efficiency of fault investigation.

Description

Visual optical cable running state monitoring method and system

Technical Field

The invention belongs to the technical field of optical cable monitoring, and particularly relates to a visual optical cable running state monitoring method and system.

Background

Along with the development of optical cable communication technology and the large-scale construction of an optical cable transmission network, optical cable communication plays an increasingly important role in the communication field, meanwhile, the number of optical cables is increased, the optical cables are laid in early stages and aged, the number of faults of optical cable lines is continuously increased, maintenance and rush repair are carried out in a traditional mode, the line fault recovery duration is long, and hidden danger of service faults exists at any time.

Optical cable monitoring in the market can waste a large amount of human resources when monitoring the optical cable, and simultaneously is inconvenient to select a maintenance scheme according to the approximate condition of optical cable faults, and has potential safety hazards.

Disclosure of Invention

The invention mainly aims to overcome the defects and the shortcomings of the prior art, and provides a visual optical cable running state monitoring method and a visual optical cable running state monitoring system, which can realize automatic monitoring of the optical cable running state, save manpower resources, simultaneously can discover faults in time, accurately position the faulty optical cable and improve the efficiency of fault detection.

According to one aspect of the present invention, there is provided a visual optical cable operation status monitoring method, the method comprising the steps of:

s1: the monitoring equipment monitors the area paved with the optical cable to obtain first monitoring information, and the first monitoring information is transmitted to a background server;

s2: the background server processes the first monitoring information, and identifies an abnormal picture, wherein the abnormal picture is a picture of an optical cable fault area where an optical cable with an abnormal running state is located;

s3: the background server performs coordinate positioning on the optical cable with abnormal running state based on the abnormal picture;

s4: and the background server remotely controls the multiple cameras to monitor the optical cable fault area to obtain second monitoring information, and the second monitoring information is sent to terminal equipment of maintenance personnel.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

and (3) carrying out image acquisition on the laid optical cable line by using shooting equipment, and splicing the acquired image architecture into a panoramic map.

Preferably, the shooting device adopts a panoramic image, and the panoramic map adopts spherical projection and three-dimensional modeling.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

marking, partitioning, filling and collecting panoramic map and optical cable laying peripheral monitoring equipment information, editing required target elements according to the optical cable environment of a current area, comparing the data of the picture shot in the monitoring video with the data of a normal picture, and intercepting an abnormal picture in the monitoring video when the comparison result is different; and the normal picture is an area picture of the optical cable when the operation state is normal.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

and performing secondary verification on the abnormal picture, independently extracting the picture which is intercepted abnormally in the monitoring video, and comparing the extracted picture with the normal picture again.

According to another aspect of the present invention, the present invention further provides a visual optical cable operation status monitoring system, where the system includes a monitoring device and a background server;

the monitoring equipment monitors the area paved with the optical cable to obtain first monitoring information, and the first monitoring information is transmitted to the background server;

the background server processes the first monitoring information, and identifies an abnormal picture, wherein the abnormal picture is a picture of an optical cable fault area where an optical cable with an abnormal running state is located;

the background server performs coordinate positioning on the optical cable with abnormal running state based on the abnormal picture;

and the background server remotely controls the multiple cameras to monitor the optical cable fault area to obtain second monitoring information, and the second monitoring information is sent to terminal equipment of maintenance personnel.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

and (3) carrying out image acquisition on the laid optical cable line by using shooting equipment, and splicing the acquired image architecture into a panoramic map.

Preferably, the shooting device adopts a panoramic image, and the panoramic map adopts spherical projection and three-dimensional modeling.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

marking, partitioning, filling and collecting panoramic map and optical cable laying peripheral monitoring equipment information, editing required target elements according to the optical cable environment of a current area, comparing the data of the picture shot in the monitoring video with the data of a normal picture, and intercepting an abnormal picture in the monitoring video when the comparison result is different; and the normal picture is an area picture of the optical cable when the operation state is normal.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

and performing secondary verification on the abnormal picture, independently extracting the picture which is intercepted abnormally in the monitoring video, and comparing the extracted picture with the normal picture again.

The beneficial effects are that: according to the invention, the panoramic camera equipment can learn the laying line and the external condition of the optical cable, the remote monitoring camera is used for monitoring the outside of the optical cable, the abnormal optical cable region can be subjected to screenshot in the monitoring, the intercepted picture is compared with the optical cable in the normal state of the region by using artificial intelligence, and the spherical projection design can be used for projecting the optical cable region into a coordinate system when the abnormal intercepted picture of the optical cable is found for the first time, so that the optical cable fault point can be conveniently obtained. The invention can realize automatic monitoring of the operation state of the optical cable, saves human resources, can discover faults in time, accurately positions the faulty optical cable and improves the efficiency of fault detection.

Features and advantages of the present invention will become apparent by reference to the following drawings and detailed description of embodiments of the invention.

Drawings

FIG. 1 is a flow chart of a method for visually monitoring the operation state of an optical cable;

fig. 2 is a schematic diagram of a visual cable operation status monitoring system.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

FIG. 1 is a flow chart of a method for visually monitoring the operation state of an optical cable. As shown in fig. 1, the present embodiment provides a visual optical cable operation state monitoring method, which includes the following steps:

s1: the monitoring equipment monitors the area paved with the optical cable to obtain first monitoring information, and the first monitoring information is transmitted to the background server.

Specifically, the monitoring device monitors the area paved with the optical cable to obtain first monitoring information, and the first monitoring information is transmitted to the background server in a wired or wireless mode, wherein the wireless mode comprises but is not limited to wifi, zigbee and the like.

S2: the background server processes the first monitoring information, and identifies an abnormal picture, wherein the abnormal picture is a picture of an optical cable fault area where an optical cable with an abnormal running state is located.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

and (3) carrying out image acquisition on the laid optical cable line by using shooting equipment, and splicing the acquired image architecture into a panoramic map.

Preferably, the shooting device adopts a panoramic image, and the panoramic map adopts spherical projection and three-dimensional modeling.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

marking, partitioning, filling and collecting panoramic map and optical cable laying peripheral monitoring equipment information, editing required target elements according to the optical cable environment of a current area, comparing the data of the picture shot in the monitoring video with the data of a normal picture, and intercepting an abnormal picture in the monitoring video when the comparison result is different; and the normal picture is an area picture of the optical cable when the operation state is normal. The data comparison in this step is performed using artificial intelligence.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

and performing secondary verification on the abnormal picture, independently extracting the picture which is intercepted abnormally in the monitoring video, and comparing the extracted picture with the normal picture again.

S3: and the background server performs coordinate positioning on the optical cable with abnormal running state based on the abnormal picture.

Specifically, the background server acquires the coordinates of the positions of the optical cables in the images with abnormal confirmation on the panoramic map.

S4: and the background server remotely controls the multiple cameras to monitor the optical cable fault area to obtain second monitoring information, and the second monitoring information is sent to terminal equipment of maintenance personnel.

Specifically, when maintenance personnel do not reach an optical cable fault area, remote control multiple shooting is used for monitoring the fault area, monitoring information is synchronized to a mobile phone end on the basis of a 5G network, maintenance personnel can conveniently check the monitoring information in the mobile phone end, the multiple shooting of the step adopts an unmanned aerial vehicle and fixed point monitoring equipment, and the fixed point monitoring equipment is installed in a hidden mode.

The optical cable running state monitoring method based on optical cable visualization provided by the embodiment firstly adopts panoramic image shooting equipment to carry out image acquisition on a laid optical cable line and the periphery, then carries out data comparison on pictures shot in a monitoring video with normal pictures, is convenient for finding out the fault point rapidly when the fault point of the optical cable is found subsequently, then collects the optical cable line and the periphery fixed point monitoring equipment information after the construction, carries out marked regional filling collection on the obtained information according to the distance, the staggered condition and the periphery condition, assists in rapidly obtaining the optical cable laying fault point, can edit required attention focusing elements according to the optical cable environment of a current area, can then carry out data comparison on the pictures shot in the monitoring video with the normal pictures, then independently extracts the pictures intercepted abnormally in the monitoring video when the difference exists, compares the extracted pictures with the normal pictures again by utilizing artificial intelligent optical cable projection to obtain the optical cable running fault point in a design coordinate system when the first finding out the abnormal picture, can conveniently obtain the optical cable running fault point by utilizing the spherical projection, can conveniently carry out remote control on the optical cable running state in real time by utilizing the optical cable, can conveniently find out the fault point by utilizing the remote control equipment to realize the current situation when the fault point is found out the fault point, can be more convenient for a remote control by a remote control system, and can conveniently find out the fault point by utilizing the remote control equipment at the remote control end when the current fault situation is more when the fault situation is found out is more than the current by utilizing the mobile phone, and the malicious damage to the monitoring equipment is avoided.

According to the embodiment, the operation state of the optical cable can be automatically monitored, human resources are saved, meanwhile, faults can be timely found, the fault optical cable can be accurately positioned, and the fault investigation efficiency is improved.

Example 2

Fig. 2 is a schematic diagram of a visual cable operation status monitoring system. As shown in fig. 2, the embodiment further provides a visual optical cable operation state monitoring system, which comprises monitoring equipment and a background server;

the monitoring equipment monitors the area paved with the optical cable to obtain first monitoring information, and the first monitoring information is transmitted to the background server;

the background server processes the first monitoring information, and identifies an abnormal picture, wherein the abnormal picture is a picture of an optical cable fault area where an optical cable with an abnormal running state is located;

the background server performs coordinate positioning on the optical cable with abnormal running state based on the abnormal picture;

and the background server remotely controls the multiple cameras to monitor the optical cable fault area to obtain second monitoring information, and the second monitoring information is sent to terminal equipment of maintenance personnel.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

and (3) carrying out image acquisition on the laid optical cable line by using shooting equipment, and splicing the acquired image architecture into a panoramic map.

Preferably, the shooting device adopts a panoramic image, and the panoramic map adopts spherical projection and three-dimensional modeling.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

marking, partitioning, filling and collecting panoramic map and optical cable laying peripheral monitoring equipment information, editing required target elements according to the optical cable environment of a current area, comparing the data of the picture shot in the monitoring video with the data of a normal picture, and intercepting an abnormal picture in the monitoring video when the comparison result is different; and the normal picture is an area picture of the optical cable when the operation state is normal.

Preferably, the background server processes the first monitoring information, and identifying the abnormal picture includes:

and performing secondary verification on the abnormal picture, independently extracting the picture which is intercepted abnormally in the monitoring video, and comparing the extracted picture with the normal picture again.

The implementation process of the functions implemented by the monitoring device and the background server in embodiment 2 is the same as that in embodiment 1, and will not be described here again.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the specification and drawings of the present invention or direct/indirect application in other related technical fields are included in the scope of the present invention.

Claims (2)

1. A method for monitoring the operation state of a visual optical cable, which is characterized by comprising the following steps:

s1: the monitoring equipment monitors the area paved with the optical cable to obtain first monitoring information, and the first monitoring information is transmitted to a background server;

s2: the background server processes the first monitoring information, and identifies an abnormal picture, wherein the abnormal picture is a picture of an optical cable fault area where an optical cable with an abnormal running state is located;

s3: the background server performs coordinate positioning on the optical cable with abnormal running state based on the abnormal picture;

s4: the background server remotely controls multiple shooting to monitor the optical cable fault area to obtain second monitoring information, and the second monitoring information is sent to terminal equipment of maintenance personnel; the background server processes the first monitoring information, and the identifying of the abnormal picture comprises the following steps:

using shooting equipment to collect images of the laid optical cable lines, and splicing the collected image structures into a panoramic map;

the shooting equipment adopts panoramic images, and the panoramic map adopts spherical projection and three-dimensional modeling; the background server processes the first monitoring information, and the identifying of the abnormal picture comprises the following steps:

marking, partitioning, filling and collecting panoramic map and optical cable laying peripheral monitoring equipment information, editing required target elements according to the optical cable environment of a current area, comparing the data of the picture shot in the monitoring video with the data of a normal picture, and intercepting an abnormal picture in the monitoring video when the comparison result is different; the normal picture is an area picture in which the optical cable is positioned when the operation state is normal; the background server processes the first monitoring information, and the identifying of the abnormal picture comprises the following steps:

and performing secondary verification on the abnormal picture, independently extracting the picture which is intercepted abnormally in the monitoring video, and comparing the extracted picture with the normal picture again.

2. The visual optical cable running state monitoring system is characterized by comprising monitoring equipment and a background server;

the monitoring equipment monitors the area paved with the optical cable to obtain first monitoring information, and the first monitoring information is transmitted to the background server;

the background server processes the first monitoring information, and identifies an abnormal picture, wherein the abnormal picture is a picture of an optical cable fault area where an optical cable with an abnormal running state is located;

the background server performs coordinate positioning on the optical cable with abnormal running state based on the abnormal picture;

the background server remotely controls multiple shooting to monitor the optical cable fault area to obtain second monitoring information, and the second monitoring information is sent to terminal equipment of maintenance personnel; the background server processes the first monitoring information, and the identifying of the abnormal picture comprises the following steps:

using shooting equipment to collect images of the laid optical cable lines, and splicing the collected image structures into a panoramic map;

the shooting equipment adopts panoramic images, and the panoramic map adopts spherical projection and three-dimensional modeling; the background server processes the first monitoring information, and the identifying of the abnormal picture comprises the following steps:

marking, partitioning, filling and collecting panoramic map and optical cable laying peripheral monitoring equipment information, editing required target elements according to the optical cable environment of a current area, comparing the data of the picture shot in the monitoring video with the data of a normal picture, and intercepting an abnormal picture in the monitoring video when the comparison result is different; the normal picture is an area picture in which the optical cable is positioned when the operation state is normal; the background server processes the first monitoring information, and the identifying of the abnormal picture comprises the following steps:

and performing secondary verification on the abnormal picture, independently extracting the picture which is intercepted abnormally in the monitoring video, and comparing the extracted picture with the normal picture again.

Images