CN116506009B - Performance monitoring system for laser fiber communication based on 5G network - Google Patents

Abstract

The invention discloses a performance monitoring system for laser fiber communication based on a 5G network, which relates to the technical field of fiber performance monitoring, and solves the technical problems that in the prior art, the influence and the process influence of fiber equipment cannot be analyzed, so that the fiber performance monitoring analysis is inaccurate; analyzing the operation process of the laser optical fiber equipment, and judging whether the operation process of the laser optical fiber equipment affects the optical fiber communication efficiency, so that the accuracy of optical fiber communication monitoring is improved, and the working efficiency of optical fiber communication is qualified; and monitoring and analyzing the communication efficiency of the corresponding analysis object, and monitoring and controlling the optical fiber communication efficiency in real time so as to enhance the qualification of the optical fiber communication efficiency.

Description

Performance monitoring system for laser fiber communication based on 5G network

Technical Field

The invention relates to the technical field of optical fiber performance monitoring, in particular to a performance monitoring system for laser optical fiber communication based on a 5G network.

Background

The transmission medium based on the optical fiber communication technology has the advantages of high transmission broadband, low loss, good anti-interference capability and the like, so that the network which is established by the optical fiber communication technology and occupies the dominant position of the communication base network in the foreseeable future is always the optical fiber communication technology so as to bear more than 80% of information traffic in the communication network. The requirement of mass information transmission promotes the continuous update and development of networks, and simultaneously, the requirement of communication capacity and transmission rate of optical fiber communication is higher, which further promotes the development of novel optical fiber technology, so that the optical fiber communication is brought to a high-technology road.

However, in the prior art, during the optical fiber communication process, the influence of the optical fiber equipment and the influence of the process cannot be analyzed, so that the monitoring and analysis of the optical fiber performance are inaccurate, the optical fiber operation efficiency cannot be ensured, and meanwhile, the maintenance of the optical fiber equipment cannot be analyzed, so that the maintenance efficiency is unqualified, and the working efficiency of the optical fiber communication is reduced.

In view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The invention aims to solve the problems, and provides a performance monitoring system for laser fiber communication based on a 5G network, which is used for analyzing laser fiber equipment and judging whether the operation of the laser fiber equipment is affected or not, so that the performance of the laser fiber communication is accurately monitored, the qualification of the performance of the laser fiber communication is improved, and the laser fiber equipment is ensured to have no influence on the fiber communication; analyzing the operation process of the laser optical fiber equipment, and judging whether the operation process of the laser optical fiber equipment affects the optical fiber communication efficiency, so that the accuracy of optical fiber communication monitoring is improved, and the working efficiency of optical fiber communication is qualified; the communication efficiency of the corresponding analysis object is monitored and analyzed, and the optical fiber communication efficiency is monitored and controlled in real time, so that the qualification of the optical fiber communication efficiency is enhanced, meanwhile, the optical fiber communication efficiency can be maintained timely when abnormal, the adverse effect caused by the optical fiber communication fault is reduced, and the use quality of the optical fiber data transmission by a user is enhanced.

The aim of the invention can be achieved by the following technical scheme:

a performance monitoring system for laser fiber communication based on a 5G network comprises a server, wherein the server is connected with:

the device influence analysis unit is used for analyzing the laser optical fiber device, judging whether the operation of the laser optical fiber device is influenced, generating a device operation influence signal and a device operation non-influence signal through the analysis of the laser optical fiber device, and sending the device operation influence signal and the device operation non-influence signal to the server;

the process influence analysis unit is used for analyzing the operation process of the laser optical fiber equipment, judging whether the operation process of the laser optical fiber equipment affects the optical fiber communication efficiency, marking the laser optical fiber equipment as an analysis object, obtaining real-time process influence analysis coefficients of the analysis object through analysis, comparing the real-time process influence analysis coefficients of the analysis object to generate a process high-risk signal and a process low-risk signal, and sending the process high-risk signal and the process low-risk signal to the server;

the communication efficiency monitoring and analyzing unit is used for monitoring and analyzing the communication efficiency of the corresponding analysis object, monitoring and controlling the communication efficiency of the optical fiber in real time, generating a communication efficiency analysis unqualified signal and a communication efficiency analysis qualified signal through monitoring and analyzing, and sending the communication efficiency analysis unqualified signal and the communication efficiency analysis qualified signal to the server;

and the real-time maintenance analysis unit is used for analyzing the corresponding analysis object, judging whether the corresponding analysis object needs maintenance or not, generating a real-time maintenance signal and a non-real-time maintenance signal through analysis, and sending the real-time maintenance signal and the non-real-time maintenance signal to the server.

As a preferred embodiment of the invention, the operation of the device influence analysis unit is as follows:

acquiring the optical fiber communication transmission rate after the temperature rises in the operation process of the laser optical fiber equipment, acquiring a temperature influence speed floating value through the optical fiber communication transmission rate after the temperature rises in the operation process of the laser optical fiber equipment, and judging that the operation of the corresponding laser optical fiber equipment is influenced by the temperature if the temperature influence speed floating value exceeds a floating value threshold; if the temperature-affected speed floating value does not exceed the floating value threshold, judging that the operation of the corresponding laser fiber equipment is not affected by temperature;

the method comprises the steps of collecting the frequency of rising of the temperature of the laser optical fiber device after rising of the ambient temperature, and the difference value between the rising speed of the corresponding ambient temperature and the rising speed of the temperature of the laser optical fiber device, and comparing the frequency with a rising frequency threshold value and a rising speed difference value respectively:

if the frequency of the rising of the temperature of the laser optical fiber device per se exceeds the rising frequency threshold value after the rising of the temperature of the surrounding environment or the difference value between the rising speed of the temperature of the corresponding surrounding environment and the rising speed of the temperature of the laser optical fiber device per se exceeds the rising speed difference value threshold value, judging that the equipment operation influence analysis is unqualified, generating an equipment operation influence signal and sending the equipment operation influence signal to a server; after receiving the equipment operation influence signal, the server stops operation and maintains the corresponding laser fiber equipment;

if the frequency of the temperature rise of the laser optical fiber equipment per se does not exceed the rising frequency threshold value after the temperature of the surrounding environment rises and the difference value of the corresponding rising speed of the temperature of the surrounding environment and the temperature rise speed of the laser optical fiber equipment per se does not exceed the rising speed difference value threshold value, judging that the equipment operation influence analysis is qualified, generating an equipment operation influence-free signal and sending the equipment operation influence-free signal to a server.

As a preferred embodiment of the invention, the operation of the process influence analysis unit is as follows:

acquiring the number of channels, the frequency spectrum width of a signal and the occurrence frequency of transmission faults of an analysis object in the operation process, and acquiring real-time process influence analysis coefficients of the analysis object through analysis;

comparing the real-time process impact analysis coefficients of the analysis object with a process impact analysis coefficient threshold:

if the real-time process influence analysis coefficient of the analysis object exceeds the process influence analysis coefficient threshold, judging that the current operation process of the corresponding analysis object has high influence risk, generating a process high risk signal and sending the process high risk signal to a server, after the server receives the process high risk signal, controlling the operation process of the corresponding analysis object, controlling the channel number and the signal spectrum width, and enhancing the monitoring of the corresponding analysis object along with the increase and the widening of the channel number and the signal spectrum width; if the real-time process influence analysis coefficient of the analysis object does not exceed the process influence analysis coefficient threshold, determining that the influence risk of the current running process of the corresponding analysis object is low, generating a process low risk signal and sending the process low risk signal to the server.

As a preferred embodiment of the present invention, the communication efficiency monitoring and analyzing unit operates as follows:

the method comprises the steps of collecting the interval duration of a data transmission instruction received by an analysis object and an execution data transmission instruction and the maximum transmission speed floating value of data transmission corresponding to the analysis object, and comparing the interval duration of the data transmission instruction received by the analysis object and the execution data transmission instruction and the maximum transmission speed floating value of data transmission corresponding to the analysis object with an interval duration threshold and a speed floating value threshold respectively:

if the interval time between the data transmission instruction received by the analysis object and the execution of the data transmission instruction exceeds an interval time threshold, or the maximum transmission speed floating value of the data transmission corresponding to the analysis object exceeds a speed floating value threshold, judging that the communication efficiency monitoring analysis of the corresponding analysis object is unqualified, generating a communication efficiency analysis unqualified signal and sending the communication efficiency analysis unqualified signal to a server, after receiving the communication efficiency analysis unqualified signal, the server pauses the data transmission of the current analysis object, and transmits the data after the adjustment of the analysis object, and if the adjustment time is too long, retransmitting the current transmission data;

if the interval time length between the data transmission instruction receiving and the data transmission instruction executing is not more than the interval time length threshold and the transmission speed maximum floating value of the data transmission corresponding to the analysis object is not more than the speed floating value threshold, judging that the communication efficiency monitoring analysis corresponding to the analysis object is qualified, generating a communication efficiency analysis qualified signal and sending the communication efficiency analysis qualified signal to a server.

As a preferred embodiment of the invention, the operation of the real-time maintenance analysis unit is as follows:

the method comprises the steps of collecting the times of data transmission pause regulation of an analysis object and the increasing speed of an average floating value of the data transmission speed of the corresponding analysis object, and comparing the times of data transmission pause regulation of the analysis object and the increasing speed of the average floating value of the data transmission speed of the corresponding analysis object with a regulation time threshold and an increasing speed threshold respectively:

if the number of times of pause regulation of the data transmission of the analysis object exceeds a regulation number threshold, or the increasing speed of the average floating value of the data transmission speed of the corresponding analysis object exceeds an increasing speed threshold, judging that the corresponding analysis object can be maintained in real time, generating a real-time maintenance signal and transmitting the real-time maintenance signal and the serial number of the corresponding analysis object to a server; if the number of times of pause regulation of the data transmission of the analysis object does not exceed the regulation number threshold and the increasing speed of the average floating value of the data transmission speed of the corresponding analysis object does not exceed the increasing speed threshold, judging that the corresponding analysis object cannot be maintained in real time, generating a non-real-time maintenance signal and transmitting the non-real-time maintenance signal and the number of the corresponding analysis object to a server.

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

in the invention, the laser fiber equipment is analyzed to judge whether the operation of the laser fiber equipment is affected, so that the communication performance of the laser fiber is accurately monitored, the qualification of the communication performance of the laser fiber is improved, and the laser fiber equipment is ensured to have no influence on the fiber communication; analyzing the operation process of the laser optical fiber equipment, and judging whether the operation process of the laser optical fiber equipment affects the optical fiber communication efficiency, so that the accuracy of optical fiber communication monitoring is improved, and the working efficiency of optical fiber communication is qualified; the communication efficiency of the corresponding analysis object is monitored and analyzed, and the optical fiber communication efficiency is monitored and controlled in real time, so that the qualification of the optical fiber communication efficiency is enhanced, and meanwhile, the optical fiber communication efficiency can be maintained in time when abnormal, thereby reducing the adverse effect caused by the optical fiber communication fault and enhancing the use quality of the optical fiber data transmission by a user; the corresponding analysis object is analyzed to judge whether the corresponding analysis object needs to be maintained, so that the pertinence and the rationality of the maintenance of the analysis object are improved, the problem that the maintenance efficiency is reduced due to improper maintenance time of the analysis object is avoided, and the efficiency of optical fiber transmission is also reduced.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

Fig. 1 is a functional block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

Referring to fig. 1, a performance monitoring system for laser fiber communication based on a 5G network includes a server, where the server is communicatively connected with an equipment impact analysis unit, a process impact analysis unit, a communication efficiency monitoring analysis unit and a real-time maintenance analysis unit, and the server is in bidirectional communication connection with the equipment impact analysis unit, the process impact analysis unit, the communication efficiency monitoring analysis unit and the real-time maintenance analysis unit;

the server generates an equipment influence analysis signal and sends the equipment influence analysis signal to the equipment influence analysis unit, and after receiving the equipment influence analysis signal, the equipment influence analysis unit analyzes the laser fiber equipment and judges whether the operation of the laser fiber equipment is influenced, so that the communication performance of the laser fiber is accurately monitored, the qualification of the communication performance of the laser fiber is improved, and the laser fiber equipment is ensured to have no influence on the fiber communication;

acquiring the optical fiber communication transmission rate after the temperature rises in the operation process of the laser optical fiber equipment, acquiring a temperature influence speed floating value through the optical fiber communication transmission rate after the temperature rises in the operation process of the laser optical fiber equipment, and judging that the operation of the corresponding laser optical fiber equipment is influenced by the temperature if the temperature influence speed floating value exceeds a floating value threshold; if the temperature-affected speed floating value does not exceed the floating value threshold, judging that the operation of the corresponding laser fiber equipment is not affected by temperature;

the method comprises the steps of collecting the frequency of the rising of the temperature of the laser optical fiber device after the rising of the ambient temperature and the difference value between the rising speed of the corresponding ambient temperature and the rising speed of the temperature of the laser optical fiber device, and comparing the frequency of the rising of the temperature of the laser optical fiber device after the rising of the ambient temperature and the difference value between the rising speed of the corresponding ambient temperature and the rising speed of the temperature of the laser optical fiber device with a rising frequency threshold and a rising speed difference value respectively:

if the frequency of the rising of the temperature of the laser optical fiber device per se exceeds the rising frequency threshold value after the rising of the temperature of the surrounding environment or the difference value between the rising speed of the temperature of the corresponding surrounding environment and the rising speed of the temperature of the laser optical fiber device per se exceeds the rising speed difference value threshold value, judging that the equipment operation influence analysis is unqualified, generating an equipment operation influence signal and sending the equipment operation influence signal to a server; after receiving the equipment operation influence signal, the server stops operation and maintains the corresponding laser fiber equipment;

if the frequency of the temperature rise of the laser optical fiber equipment per se does not exceed the rising frequency threshold value after the temperature rise of the surrounding environment, and the difference value between the corresponding rising speed of the temperature of the surrounding environment and the rising speed of the temperature of the laser optical fiber equipment per se does not exceed the rising speed difference value threshold value, judging that the equipment operation influence analysis is qualified, generating an equipment operation influence-free signal and sending the equipment operation influence-free signal to a server;

after receiving the equipment operation influence-free signal, the server generates a process influence analysis signal and sends the process influence analysis signal to a process influence analysis unit, and after receiving the process influence analysis signal, the process influence analysis unit analyzes the operation process of the laser optical fiber equipment to judge whether the operation process of the laser optical fiber equipment influences the optical fiber communication efficiency, so that the accuracy of optical fiber communication monitoring is improved, and the working efficiency of optical fiber communication is ensured to be qualified;

marking laser fiber equipment as an analysis object, setting a reference number i as a natural number larger than 1, collecting the channel number and the signal spectrum width of the analysis object in the operation process, and marking the channel number and the signal spectrum width of the analysis object in the operation process as XDSi and PPKi respectively; collecting the occurrence frequency of transmission faults of an analysis object in the operation process, and marking the occurrence frequency of the transmission faults of the analysis object in the operation process as CPLI;

by the formulaAcquiring real-time process influence analysis coefficients Xi of an analysis object, wherein a1, a2 and a3 are preset proportionality coefficients, and a1 is more than a2 and a3 is more than 0;

comparing the real-time process influence analysis coefficient Xi of the analysis object with a process influence analysis coefficient threshold value:

if the real-time process influence analysis coefficient Xi of the analysis object exceeds the process influence analysis coefficient threshold, judging that the current operation process of the corresponding analysis object has high influence risk, generating a process high risk signal and sending the process high risk signal to a server, after receiving the process high risk signal, controlling the operation process of the corresponding analysis object, controlling the channel number and the signal spectrum width, and enhancing the monitoring of the corresponding analysis object along with the increase and the widening of the channel number and the signal spectrum width;

if the real-time process influence analysis coefficient Xi of the analysis object does not exceed the process influence analysis coefficient threshold value, judging that the influence risk of the current operation process of the corresponding analysis object is low, generating a process low risk signal and transmitting the process low risk signal to a server;

the server generates a communication efficiency monitoring analysis signal and sends the communication efficiency monitoring analysis signal to the communication efficiency monitoring analysis unit, the communication efficiency monitoring analysis unit monitors and analyzes the communication efficiency of a corresponding analysis object after receiving the communication efficiency monitoring analysis signal, and real-time monitoring and controlling the optical fiber communication efficiency so as to enhance the qualification of the optical fiber communication efficiency, and simultaneously, the server can timely maintain the optical fiber communication efficiency when the optical fiber communication efficiency is abnormal, thereby reducing the adverse effect caused by optical fiber communication faults and enhancing the use quality of optical fiber data transmission for users;

the method comprises the steps of collecting the interval duration of a data transmission instruction received by an analysis object and an execution data transmission instruction and the maximum transmission speed floating value of data transmission corresponding to the analysis object, and comparing the interval duration of the data transmission instruction received by the analysis object and the execution data transmission instruction and the maximum transmission speed floating value of data transmission corresponding to the analysis object with an interval duration threshold and a speed floating value threshold respectively:

if the interval time between the data transmission instruction received by the analysis object and the execution of the data transmission instruction exceeds an interval time threshold, or the maximum transmission speed floating value of the data transmission corresponding to the analysis object exceeds a speed floating value threshold, judging that the communication efficiency monitoring analysis of the corresponding analysis object is unqualified, generating a communication efficiency analysis unqualified signal and sending the communication efficiency analysis unqualified signal to a server, after receiving the communication efficiency analysis unqualified signal, the server pauses the data transmission of the current analysis object, and transmits the data after the adjustment of the analysis object, and if the adjustment time is too long, retransmitting the current transmission data;

if the interval time length between the data transmission instruction receiving and the data transmission instruction executing is not more than the interval time length threshold value and the transmission speed maximum floating value of the data transmission of the corresponding analysis object is not more than the speed floating value threshold value, judging that the communication efficiency monitoring analysis of the corresponding analysis object is qualified, generating a communication efficiency analysis qualified signal and sending the communication efficiency analysis qualified signal to a server;

the server generates a real-time maintenance analysis signal and sends the real-time maintenance analysis signal to the real-time maintenance analysis unit, and after receiving the real-time maintenance analysis signal, the real-time maintenance analysis unit analyzes the corresponding analysis object and judges whether the corresponding analysis object needs maintenance, thereby improving the pertinence and the rationality of the maintenance of the analysis object, preventing the maintenance of the analysis object from being unsuitable in time, reducing the maintenance efficiency and reducing the efficiency of optical fiber transmission;

the method comprises the steps of collecting the times of data transmission pause regulation of an analysis object and the increasing speed of an average floating value of the data transmission speed of the corresponding analysis object, and comparing the times of data transmission pause regulation of the analysis object and the increasing speed of the average floating value of the data transmission speed of the corresponding analysis object with a regulation time threshold and an increasing speed threshold respectively:

if the number of times of pause regulation of data transmission of the analysis object exceeds a regulation number threshold value, or the increasing speed of the average floating value of the data transmission speed of the corresponding analysis object exceeds an increasing speed threshold value, judging that the corresponding analysis object can be maintained in real time, generating a real-time maintenance signal, sending the real-time maintenance signal and the serial number of the corresponding analysis object to a server, and stopping operation and maintenance of the corresponding analysis object after the server receives the real-time maintenance signal;

if the number of times of pause regulation of the data transmission of the analysis object does not exceed the regulation number threshold and the increasing speed of the average floating value of the data transmission speed of the corresponding analysis object does not exceed the increasing speed threshold, judging that the corresponding analysis object cannot be maintained in real time, generating a non-real-time maintenance signal and transmitting the non-real-time maintenance signal and the number of the corresponding analysis object to a server.

The formulas are all formulas obtained by collecting a large amount of data for software simulation and selecting a formula close to a true value, and coefficients in the formulas are set by a person skilled in the art according to actual conditions;

when the device is used, the device influence analysis unit is used for analyzing the laser optical fiber device, judging whether the operation of the laser optical fiber device is influenced or not, generating a device operation influence signal and a device operation influence-free signal through the laser optical fiber device analysis, and sending the device operation influence signal and the device operation influence-free signal to the server; the method comprises the steps of performing operation process analysis on the laser optical fiber equipment through a process influence analysis unit, judging whether the operation process of the laser optical fiber equipment influences the optical fiber communication efficiency, marking the laser optical fiber equipment as an analysis object, obtaining real-time process influence analysis coefficients of the analysis object through analysis, comparing the real-time process influence analysis coefficients of the analysis object to generate a process high-risk signal and a process low-risk signal, and sending the process high-risk signal and the process low-risk signal to a server; monitoring and analyzing the communication efficiency of the corresponding analysis object through a communication efficiency monitoring and analyzing unit, monitoring and controlling the communication efficiency of the optical fiber in real time, generating a communication efficiency analysis unqualified signal and a communication efficiency analysis qualified signal through monitoring and analyzing, and transmitting the communication efficiency analysis unqualified signal and the communication efficiency analysis qualified signal to a server; and analyzing the corresponding analysis object through a real-time maintenance analysis unit, judging whether the corresponding analysis object needs maintenance or not, generating a real-time maintenance signal and a non-real-time maintenance signal through analysis, and sending the real-time maintenance signal and the non-real-time maintenance signal to a server.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (4)

1. A performance monitoring system for laser optical fiber communication based on a 5G network is characterized by comprising a server, wherein the server is connected with:

the device influence analysis unit is used for analyzing the laser optical fiber device, judging whether the operation of the laser optical fiber device is influenced, generating a device operation influence signal and a device operation non-influence signal through the analysis of the laser optical fiber device, and sending the device operation influence signal and the device operation non-influence signal to the server;

the process influence analysis unit is used for analyzing the operation process of the laser optical fiber equipment, judging whether the operation process of the laser optical fiber equipment affects the optical fiber communication efficiency, marking the laser optical fiber equipment as an analysis object, obtaining real-time process influence analysis coefficients of the analysis object through analysis, comparing the real-time process influence analysis coefficients of the analysis object to generate a process high-risk signal and a process low-risk signal, and sending the process high-risk signal and the process low-risk signal to the server;

the communication efficiency monitoring and analyzing unit is used for monitoring and analyzing the communication efficiency of the corresponding analysis object, monitoring and controlling the communication efficiency of the optical fiber in real time, generating a communication efficiency analysis unqualified signal and a communication efficiency analysis qualified signal through monitoring and analyzing, and sending the communication efficiency analysis unqualified signal and the communication efficiency analysis qualified signal to the server;

the real-time maintenance analysis unit is used for analyzing the corresponding analysis object, judging whether the corresponding analysis object needs maintenance or not, generating a real-time maintenance signal and a non-real-time maintenance signal through analysis, and sending the real-time maintenance signal and the non-real-time maintenance signal to the server;

the operation process of the device influence analysis unit is as follows:

acquiring the optical fiber communication transmission rate after the temperature rises in the operation process of the laser optical fiber equipment, acquiring a temperature influence speed floating value through the optical fiber communication transmission rate after the temperature rises in the operation process of the laser optical fiber equipment, and judging that the operation of the corresponding laser optical fiber equipment is influenced by the temperature if the temperature influence speed floating value exceeds a floating value threshold; if the temperature-affected speed floating value does not exceed the floating value threshold, judging that the operation of the corresponding laser fiber equipment is not affected by temperature;

the method comprises the steps of collecting the frequency of rising of the temperature of the laser optical fiber device after rising of the ambient temperature, and the difference value between the rising speed of the corresponding ambient temperature and the rising speed of the temperature of the laser optical fiber device, and comparing the frequency with a rising frequency threshold value and a rising speed difference value respectively:

if the frequency of the rising of the temperature of the laser optical fiber device per se exceeds the rising frequency threshold value after the rising of the temperature of the surrounding environment or the difference value between the rising speed of the temperature of the corresponding surrounding environment and the rising speed of the temperature of the laser optical fiber device per se exceeds the rising speed difference value threshold value, judging that the equipment operation influence analysis is unqualified, generating an equipment operation influence signal and sending the equipment operation influence signal to a server; after receiving the equipment operation influence signal, the server stops operation and maintains the corresponding laser fiber equipment;

if the frequency of the temperature rise of the laser optical fiber equipment per se does not exceed the rising frequency threshold value after the temperature of the surrounding environment rises and the difference value of the corresponding rising speed of the temperature of the surrounding environment and the temperature rise speed of the laser optical fiber equipment per se does not exceed the rising speed difference value threshold value, judging that the equipment operation influence analysis is qualified, generating an equipment operation influence-free signal and sending the equipment operation influence-free signal to a server.

2. The performance monitoring system for laser fiber communication based on the 5G network according to claim 1, wherein the operation process of the process influence analysis unit is as follows:

acquiring the number of channels, the frequency spectrum width of a signal and the occurrence frequency of transmission faults of an analysis object in the operation process, and acquiring real-time process influence analysis coefficients of the analysis object through analysis;

comparing the real-time process impact analysis coefficients of the analysis object with a process impact analysis coefficient threshold:

if the real-time process influence analysis coefficient of the analysis object exceeds the process influence analysis coefficient threshold, judging that the current operation process of the corresponding analysis object has high influence risk, generating a process high risk signal and sending the process high risk signal to a server, after the server receives the process high risk signal, controlling the operation process of the corresponding analysis object, controlling the channel number and the signal spectrum width, and enhancing the monitoring of the corresponding analysis object along with the increase and the widening of the channel number and the signal spectrum width; if the real-time process influence analysis coefficient of the analysis object does not exceed the process influence analysis coefficient threshold, determining that the influence risk of the current running process of the corresponding analysis object is low, generating a process low risk signal and sending the process low risk signal to the server.

3. The performance monitoring system for laser fiber communication based on the 5G network according to claim 1, wherein the operation process of the communication efficiency monitoring and analyzing unit is as follows:

the method comprises the steps that the interval duration of a data transmission instruction received by an analysis object, an execution data transmission instruction and the transmission speed maximum floating value of data transmission of a corresponding analysis object are collected, the interval duration and the maximum floating value are marked as the execution interval duration and the maximum floating value respectively, and the execution interval duration and the maximum floating value are compared with an interval duration threshold and a speed floating value threshold respectively:

if the execution interval time exceeds the interval time threshold or the maximum floating value exceeds the speed floating value threshold, judging that the communication efficiency monitoring analysis of the corresponding analysis object is unqualified, generating a communication efficiency analysis unqualified signal and sending the communication efficiency analysis unqualified signal to a server; if the execution interval duration does not exceed the interval duration threshold and the maximum floating value does not exceed the speed floating value threshold, judging that the communication efficiency monitoring analysis of the corresponding analysis object is qualified, generating a communication efficiency analysis qualified signal and sending the communication efficiency analysis qualified signal to a server.

4. The performance monitoring system for laser fiber communication based on the 5G network according to claim 1, wherein the operation process of the real-time maintenance analysis unit is as follows:

the method comprises the steps of collecting the times of data transmission pause regulation of an analysis object and the increasing speed of an average floating value of the data transmission speed of the corresponding analysis object, and comparing the times of data transmission pause regulation of the analysis object and the increasing speed of the average floating value of the data transmission speed of the corresponding analysis object with a regulation time threshold and an increasing speed threshold respectively:

if the number of times of pause regulation of the data transmission of the analysis object exceeds a regulation number threshold, or the increasing speed of the average floating value of the data transmission speed of the corresponding analysis object exceeds an increasing speed threshold, judging that the corresponding analysis object can be maintained in real time, generating a real-time maintenance signal and transmitting the real-time maintenance signal and the serial number of the corresponding analysis object to a server; if the number of times of pause regulation of the data transmission of the analysis object does not exceed the regulation number threshold and the increasing speed of the average floating value of the data transmission speed of the corresponding analysis object does not exceed the increasing speed threshold, judging that the corresponding analysis object cannot be maintained in real time, generating a non-real-time maintenance signal and transmitting the non-real-time maintenance signal and the number of the corresponding analysis object to a server.