CN116208531A - Communication information transmission safety monitoring system based on big data - Google Patents

Abstract

The invention discloses a communication information transmission safety monitoring system based on big data, which relates to the technical field of communication information transmission safety monitoring, and solves the technical problems that in the prior art, the reliability of information communication cannot be monitored, so that the information transmission efficiency and the safety cannot be ensured; the performance of the hardware equipment for information communication transmission is detected, and whether the error detection performance meets the requirement or not is judged when the hardware equipment is abnormal in the operation process, so that the safety and stability of the information communication transmission are improved, the hardware equipment is prevented from being abnormal and not found in time, and the efficiency of the information communication transmission is reduced.

Description

Communication information transmission safety monitoring system based on big data

Technical Field

The invention relates to the technical field of communication information transmission safety monitoring, in particular to a communication information transmission safety monitoring system based on big data.

Background

With the continuous progress of global computer level, the information age has come, and a series of network applications represented by network communication, electronic commerce, electronic finance and electronic government affairs make the relationship between daily work and life of people and the network more and more intimate.

However, in the prior art, in the process of communication information transmission, the reliability of the information communication itself cannot be monitored, so that the information transmission efficiency and the safety cannot be guaranteed, and meanwhile, the equipment influence analysis and the external influence analysis cannot be performed in the communication process, so that the safety and the effectiveness cannot be guaranteed in the process of communication information transmission.

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 communication information transmission safety monitoring system based on big data, which is used for detecting the performance of hardware equipment for information communication transmission and judging whether the error-detecting performance meets the requirement when the hardware equipment is abnormal in the operation process, so that the safety and the stability of the information communication transmission are improved, and the efficiency of the information communication transmission is reduced because the hardware equipment is abnormal and not found in time; and carrying out external influence monitoring analysis on the information communication transmission process, judging whether the external influence has influence on the information communication transmission, and controlling the time period of the external influence according to different influence degrees.

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

the communication information transmission safety monitoring system based on big data comprises a server, wherein the server is in communication connection with a communication performance monitoring and analyzing unit, a hardware operation influence monitoring unit and an external influence monitoring and analyzing unit;

the communication performance monitoring analysis unit is used for carrying out real-time monitoring analysis on the information communication performance, judging whether the real-time transmission reliability in the information communication process is qualified or not, acquiring an information communication transmission time period, acquiring an information transmission performance monitoring coefficient in the information communication transmission time period, comparing according to the information transmission performance monitoring coefficient to generate a performance monitoring qualified signal or a performance monitoring unqualified signal, and sending the performance monitoring qualified signal or the performance monitoring unqualified signal to the server;

the method comprises the steps that performance detection is carried out on hardware equipment transmitted through information communication through a hardware operation influence monitoring unit, whether the error detection performance of the hardware equipment meets requirements when abnormality occurs in the operation process of the hardware equipment is judged, a hardware equipment influence signal or a hardware equipment qualified signal is generated through analysis, and the hardware equipment influence signal or the hardware equipment qualified signal is sent to a server;

and carrying out external influence monitoring analysis on the information communication transmission process by an external influence monitoring analysis unit, judging whether the external influence has influence on the information communication transmission, generating an external high influence signal or an external low influence signal by analysis, and sending the external high influence signal or the external low influence signal to a server.

As a preferred embodiment of the present invention, the operation of the communication performance monitoring and analyzing unit is as follows:

the method comprises the steps of collecting the maximum fluctuation speed of the synchronous transmission information quantity of the same area in the information communication transmission time period and the floating quantity of the real-time transmission speed when the synchronous transmission information quantity of the same area continuously increases, and marking the maximum fluctuation speed of the synchronous transmission information quantity of the same area in the information communication transmission time period and the floating quantity of the real-time transmission speed when the synchronous transmission information quantity of the same area continuously increases as ZV and FD respectively; acquiring the maximum density difference of the synchronous transmission information quantity in the same area in the information communication transmission time period, and marking the maximum density difference of the synchronous transmission information quantity in the same area in the information communication transmission time period as MC;

by the formula

Acquiring an information transmission performance monitoring coefficient B in an information communication transmission time period, wherein f1, f2 and f3 are preset proportionality coefficients, f1 is more than f2 and more than f3 is more than 0, beta is an error correction factor, and the value is 0.985; and comparing the information transmission performance monitoring coefficient B in the information communication transmission time period with an information transmission performance monitoring coefficient threshold value.

As a preferred embodiment of the present invention, the coefficient comparison process is as follows:

if the information transmission performance monitoring coefficient B in the information communication transmission time period exceeds the information transmission performance monitoring coefficient threshold, judging that the information transmission performance monitoring in the information communication transmission time period is qualified, generating a performance monitoring qualified signal and sending the performance monitoring qualified signal to a server;

if the information transmission performance monitoring coefficient B in the information communication transmission time period does not exceed the information transmission performance monitoring coefficient threshold value, judging that the information transmission performance monitoring in the information communication transmission time period is unqualified, generating a performance monitoring unqualified signal and sending the performance monitoring unqualified signal to a server.

As a preferred embodiment of the invention, the operation of the hardware operation influence monitoring unit is as follows:

and comparing the floatable amount of the operating parameters of the hardware equipment and the buffer duration of the information communication transmission control when the floatable amount of the operating parameters of the hardware equipment exceeds the corresponding floatable amount with a floatable amount threshold and a buffer duration threshold respectively.

As a preferred embodiment of the present invention, the specific comparison procedure is as follows:

if the floatable amount of the operation parameters of the hardware equipment exceeds a floatable amount threshold in the information communication transmission process or the buffer time of the information communication transmission control exceeds a buffer time threshold when the floatable amount of the operation parameters of the hardware equipment exceeds the corresponding floatable amount, judging that error detection analysis of the hardware equipment for information communication transmission is unqualified, generating a hardware equipment influence signal and sending the hardware equipment influence signal to a server;

if the floatability of the operation parameters of the hardware equipment in the information communication transmission process does not exceed the floatability threshold, and the buffer duration of the information communication transmission control does not exceed the buffer duration threshold when the floatability of the operation parameters of the hardware equipment exceeds the corresponding floatability, judging that the error detection analysis of the hardware equipment for information communication transmission is qualified, generating a hardware equipment qualified signal and sending the hardware equipment qualified signal to a server.

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

the method comprises the steps of collecting the floating amount of the information transmission qualification rate when the external influence parameters float in the information communication transmission process and the fluctuation value of the information communication transmission speed when the external influence parameters float, and comparing the floating amount of the information transmission qualification rate when the external influence parameters float in the information communication transmission process and the fluctuation value of the information communication transmission speed when the external influence parameters float with a qualification rate floating threshold and a transmission speed fluctuation value threshold respectively.

As a preferred embodiment of the present invention, the specific comparison procedure is as follows:

if the floating quantity of the information transmission qualification rate exceeds a qualification rate floating quantity threshold value when the external influence parameters float in the information communication transmission process or the fluctuation value of the information communication transmission speed exceeds a transmission speed fluctuation value threshold value when the external influence parameters float, judging that the external influence monitoring analysis of the information communication transmission process is unqualified, generating an external high influence signal and sending the external high influence signal to a server;

if the floating amount of the information transmission qualification rate does not exceed the qualification rate floating amount threshold value when the external influence parameters float in the information communication transmission process, and the fluctuation value of the information communication transmission speed does not exceed the transmission speed fluctuation value threshold value when the external influence parameters float, judging that the external influence monitoring analysis in the information communication transmission process is qualified, generating an external low influence signal and sending the external low influence signal to a server.

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

1. in the invention, the information communication performance is monitored and analyzed in real time, and whether the real-time transmission reliability in the information communication process is qualified or not is judged, so that the information communication performance is monitored without external influence, the reliability and detection strength of the information transmission are improved, the information transmission efficiency is prevented from being low due to the abnormality of the information transmission, and the normal communication requirement cannot be met;

2. in the invention, the performance of the hardware equipment for information communication transmission is detected, and whether the error detection performance of the hardware equipment meets the requirement when the abnormality occurs in the operation process of the hardware equipment is judged, so that the safety and stability of the information communication transmission are improved, and the abnormal and untimely discovery of the hardware equipment is prevented, thereby reducing the efficiency of the information communication transmission; the information communication transmission process is monitored and analyzed by external influence, whether the external influence has influence on the information communication transmission is judged, the control is carried out according to the influence degree in the time period of the influence on the external environment so as to reduce the external influence to the minimum, and meanwhile, the targeted control is carried out according to the external influence degree, so that the information transmission safety and stability are improved.

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 schematic block diagram of a big data based communication information transmission safety monitoring system of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent 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.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Referring to fig. 1, a communication information transmission safety monitoring system based on big data includes a server, wherein the server is connected with a communication performance monitoring and analyzing unit, a hardware operation influence monitoring unit and an external influence monitoring and analyzing unit in a communication manner, and the server is connected with the communication performance monitoring and analyzing unit, the hardware operation influence monitoring unit and the external influence monitoring and analyzing unit in a two-way communication manner;

the server generates a communication performance monitoring analysis signal and sends the communication performance monitoring analysis signal to the communication performance monitoring analysis unit, and after the communication performance monitoring analysis unit receives the communication performance monitoring analysis signal, the communication performance monitoring analysis unit carries out real-time monitoring analysis on the information communication performance and judges whether the real-time transmission reliability in the information communication process is qualified or not, so that the information communication performance is monitored under the condition of no external influence, the reliability and the detection force of the information transmission are improved, the information transmission efficiency is prevented from being low due to the fact that the information transmission is abnormal, and the normal communication requirement cannot be met;

acquiring an information communication transmission time period, acquiring the maximum fluctuation speed of the synchronous transmission information quantity of the same area in the information communication transmission time period and the floating quantity of the real-time transmission speed when the synchronous transmission information quantity of the same area continuously increases, and respectively marking the maximum fluctuation speed of the synchronous transmission information quantity of the same area in the information communication transmission time period and the floating quantity of the real-time transmission speed when the synchronous transmission information quantity of the same area continuously increases as ZV and FD; acquiring the maximum density difference of the synchronous transmission information quantity in the same area in the information communication transmission time period, and marking the maximum density difference of the synchronous transmission information quantity in the same area in the information communication transmission time period as MC;

it can be understood that the larger the information quantity density difference is, the different densities in the same area are indicated, the transmission speeds are consistent, and the information transmission efficiency is high;

by the formula

Acquiring an information transmission performance monitoring coefficient B in an information communication transmission time period, whereinF1, f2 and f3 are preset proportionality coefficients, and f1 > f2 > f3 > 0, beta is an error correction factor, and the value is 0.985;

comparing the information transmission performance monitoring coefficient B in the information communication transmission time period with an information transmission performance monitoring coefficient threshold value:

if the information transmission performance monitoring coefficient B in the information communication transmission time period exceeds the information transmission performance monitoring coefficient threshold, judging that the information transmission performance monitoring in the information communication transmission time period is qualified, generating a performance monitoring qualified signal and sending the performance monitoring qualified signal to a server; if the information transmission performance monitoring coefficient B in the information communication transmission time period does not exceed the information transmission performance monitoring coefficient threshold value, judging that the information transmission performance monitoring in the information communication transmission time period is unqualified, generating a performance monitoring unqualified signal and sending the performance monitoring unqualified signal to a server; after receiving the performance monitoring failure signal, the server generates a regulation and control instruction and sends the regulation and control instruction to an administrator terminal, and after receiving the instruction, the administrator terminal carries out peak shifting regulation and control on information transmission in a corresponding area and simultaneously replaces transmission equipment;

after receiving the performance monitoring qualified signal, the server generates a hardware operation influence monitoring signal and sends the hardware operation influence monitoring signal to a hardware operation influence monitoring unit, and after receiving the hardware operation influence monitoring signal, the hardware operation influence monitoring unit detects the performance of the hardware equipment for information communication transmission and judges whether the error detection of the hardware equipment meets the requirement when the hardware equipment is abnormal in the operation process, so that the safety and stability of the information communication transmission are improved, the hardware equipment is prevented from being abnormal and not found in time, and the efficiency of the information communication transmission is reduced; the hardware equipment is represented as equipment such as a hard disk in the prior art;

collecting the floatability of the operation parameters of the hardware equipment in the information communication transmission process and the buffer time of the information communication transmission control when the floatability of the operation parameters of the hardware equipment exceeds the corresponding floatability, and comparing the floatability of the operation parameters of the hardware equipment in the information communication transmission process and the buffer time of the information communication transmission control when the floatability of the operation parameters of the hardware equipment exceeds the corresponding floatability with a floatability threshold and a buffer time threshold respectively: the operation parameters are expressed as performance parameters of hardware equipment, such as parameters of processing speed, memory and the like;

if the floatable amount of the operation parameters of the hardware equipment exceeds a floatable amount threshold value in the information communication transmission process or the buffer time of the information communication transmission control exceeds a buffer time threshold value when the floatable amount of the operation parameters of the hardware equipment exceeds the corresponding floatable amount, judging that error detection analysis of the hardware equipment for information communication transmission is unqualified, generating a hardware equipment influence signal and sending the hardware equipment influence signal to a server, generating an equipment adjustment instruction and sending the equipment adjustment instruction to an administrator terminal after the server receives the hardware equipment influence signal, and maintaining the corresponding hardware equipment and replacing the corresponding hardware equipment when the requirement cannot be met after the administrator terminal receives the equipment adjustment instruction;

if the floatability of the operation parameters of the hardware equipment in the information communication transmission process does not exceed the floatability threshold, and the buffer duration of the information communication transmission control does not exceed the buffer duration threshold when the floatability of the operation parameters of the hardware equipment exceeds the corresponding floatability, judging that the error detection analysis of the hardware equipment for information communication transmission is qualified, generating a hardware equipment qualified signal and sending the hardware equipment qualified signal to a server;

after receiving the qualified signals of the hardware equipment, the server generates external influence monitoring analysis signals and sends the external influence monitoring analysis signals to the external influence monitoring analysis unit, and after receiving the external influence monitoring analysis signals, the external influence monitoring analysis unit monitors and analyzes the external influence in the information communication transmission process, judges whether the external influence has influence on the information communication transmission, controls the time period of the influence in the external according to different influence degrees so as to minimize the external influence, and simultaneously carries out targeted control according to the external influence degrees, thereby being beneficial to improving the safety and stability of the information transmission;

the method comprises the steps of collecting the floating amount of information transmission qualification rate when external influence parameters float in the information communication transmission process and the fluctuation value of information communication transmission speed when the external influence parameters float, and comparing the floating amount of information transmission qualification rate when the external influence parameters float and the fluctuation value of information communication transmission speed when the external influence parameters float with a qualification rate floating threshold and a transmission speed fluctuation value threshold respectively:

if the floating amount of the information transmission qualification rate exceeds the threshold value of the qualification rate floating amount when the external influence parameters float in the information communication transmission process, or the fluctuation value of the information communication transmission speed exceeds the threshold value of the fluctuation value of the transmission speed when the external influence parameters float, judging that the external influence monitoring analysis of the information communication transmission process is unqualified, generating an external high influence signal and sending the external high influence signal to a server, generating a control instruction and sending the control instruction to an administrator terminal after the server receives the external high influence signal, and limiting the current and staggering the time period in advance in the information communication transmission process when the external influence parameters float after the administrator terminal receives the control instruction;

if the floating amount of the information transmission qualification rate does not exceed the qualification rate floating amount threshold value when the external influence parameters float in the information communication transmission process, and the fluctuation value of the information communication transmission speed does not exceed the transmission speed fluctuation value threshold value when the external influence parameters float, judging that the external influence monitoring analysis in the information communication transmission process is qualified, generating an external low influence signal and sending the external low influence signal 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 method is used, the communication performance monitoring and analyzing unit is used for carrying out real-time monitoring and analyzing on the information communication performance, judging whether the real-time transmission reliability in the information communication process is qualified or not, acquiring an information communication transmission time period, acquiring an information transmission performance monitoring coefficient in the information communication transmission time period, comparing according to the information transmission performance monitoring coefficient to generate a performance monitoring qualified signal or a performance monitoring unqualified signal, and sending the performance monitoring qualified signal or the performance monitoring unqualified signal to the server; the method comprises the steps that performance detection is carried out on hardware equipment transmitted through information communication through a hardware operation influence monitoring unit, whether the error detection performance of the hardware equipment meets requirements when abnormality occurs in the operation process of the hardware equipment is judged, a hardware equipment influence signal or a hardware equipment qualified signal is generated through analysis, and the hardware equipment influence signal or the hardware equipment qualified signal is sent to a server; and carrying out external influence monitoring analysis on the information communication transmission process by an external influence monitoring analysis unit, judging whether the external influence has influence on the information communication transmission, generating an external high influence signal or an external low influence signal by analysis, and sending the external high influence signal or the external low influence 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 (7)

1. The communication information transmission safety monitoring system based on big data is characterized by comprising a server, wherein the server is in communication connection with a communication performance monitoring and analyzing unit, a hardware operation influence monitoring unit and an external influence monitoring and analyzing unit;

the communication performance monitoring analysis unit is used for carrying out real-time monitoring analysis on the information communication performance, judging whether the real-time transmission reliability in the information communication process is qualified or not, acquiring an information communication transmission time period, acquiring an information transmission performance monitoring coefficient in the information communication transmission time period, comparing according to the information transmission performance monitoring coefficient to generate a performance monitoring qualified signal or a performance monitoring unqualified signal, and sending the performance monitoring qualified signal or the performance monitoring unqualified signal to the server;

the method comprises the steps that performance detection is carried out on hardware equipment transmitted through information communication through a hardware operation influence monitoring unit, whether the error detection performance of the hardware equipment meets requirements when abnormality occurs in the operation process of the hardware equipment is judged, a hardware equipment influence signal or a hardware equipment qualified signal is generated through analysis, and the hardware equipment influence signal or the hardware equipment qualified signal is sent to a server;

and carrying out external influence monitoring analysis on the information communication transmission process by an external influence monitoring analysis unit, judging whether the external influence has influence on the information communication transmission, generating an external high influence signal or an external low influence signal by analysis, and sending the external high influence signal or the external low influence signal to a server.

2. The big data based communication information transmission safety monitoring system according to claim 1, wherein the operation process of the communication performance monitoring analysis unit is as follows:

the method comprises the steps of collecting the maximum fluctuation speed of the synchronous transmission information quantity of the same area in the information communication transmission time period and the floating quantity of the real-time transmission speed when the synchronous transmission information quantity of the same area continuously increases, and marking the maximum fluctuation speed of the synchronous transmission information quantity of the same area in the information communication transmission time period and the floating quantity of the real-time transmission speed when the synchronous transmission information quantity of the same area continuously increases as ZV and FD respectively; acquiring the maximum density difference of the synchronous transmission information quantity in the same area in the information communication transmission time period, and marking the maximum density difference of the synchronous transmission information quantity in the same area in the information communication transmission time period as MC;

by the formula

Acquiring an information transmission performance monitoring coefficient B in an information communication transmission time period, wherein f1, f2 and f3 are preset proportionality coefficients, f1 is more than f2 and more than f3 is more than 0, beta is an error correction factor, and the value is 0.985; and comparing the information transmission performance monitoring coefficient B in the information communication transmission time period with an information transmission performance monitoring coefficient threshold value.

3. The big data based communication information transmission security monitoring system of claim 2, wherein the coefficient comparison process is as follows:

if the information transmission performance monitoring coefficient B in the information communication transmission time period exceeds the information transmission performance monitoring coefficient threshold, judging that the information transmission performance monitoring in the information communication transmission time period is qualified, generating a performance monitoring qualified signal and sending the performance monitoring qualified signal to a server;

if the information transmission performance monitoring coefficient B in the information communication transmission time period does not exceed the information transmission performance monitoring coefficient threshold value, judging that the information transmission performance monitoring in the information communication transmission time period is unqualified, generating a performance monitoring unqualified signal and sending the performance monitoring unqualified signal to a server.

4. The big data based communication information transmission safety monitoring system according to claim 1, wherein the operation process of the hardware operation influence monitoring unit is as follows:

and comparing the floatable amount of the operating parameters of the hardware equipment and the buffer duration of the information communication transmission control when the floatable amount of the operating parameters of the hardware equipment exceeds the corresponding floatable amount with a floatable amount threshold and a buffer duration threshold respectively.

5. The big data based communication information transmission safety monitoring system according to claim 4, wherein the specific comparison process is as follows:

if the floatable amount of the operation parameters of the hardware equipment exceeds a floatable amount threshold in the information communication transmission process or the buffer time of the information communication transmission control exceeds a buffer time threshold when the floatable amount of the operation parameters of the hardware equipment exceeds the corresponding floatable amount, judging that error detection analysis of the hardware equipment for information communication transmission is unqualified, generating a hardware equipment influence signal and sending the hardware equipment influence signal to a server;

if the floatability of the operation parameters of the hardware equipment in the information communication transmission process does not exceed the floatability threshold, and the buffer duration of the information communication transmission control does not exceed the buffer duration threshold when the floatability of the operation parameters of the hardware equipment exceeds the corresponding floatability, judging that the error detection analysis of the hardware equipment for information communication transmission is qualified, generating a hardware equipment qualified signal and sending the hardware equipment qualified signal to a server.

6. The big data based communication information transmission safety monitoring system according to claim 1, wherein the operation process of the external influence monitoring analysis unit is as follows:

the method comprises the steps of collecting the floating amount of the information transmission qualification rate when the external influence parameters float in the information communication transmission process and the fluctuation value of the information communication transmission speed when the external influence parameters float, and comparing the floating amount of the information transmission qualification rate when the external influence parameters float in the information communication transmission process and the fluctuation value of the information communication transmission speed when the external influence parameters float with a qualification rate floating threshold and a transmission speed fluctuation value threshold respectively.

7. The big data based communication information transmission safety monitoring system according to claim 6, wherein the specific comparison process is as follows:

if the floating quantity of the information transmission qualification rate exceeds a qualification rate floating quantity threshold value when the external influence parameters float in the information communication transmission process or the fluctuation value of the information communication transmission speed exceeds a transmission speed fluctuation value threshold value when the external influence parameters float, judging that the external influence monitoring analysis of the information communication transmission process is unqualified, generating an external high influence signal and sending the external high influence signal to a server;

if the floating amount of the information transmission qualification rate does not exceed the qualification rate floating amount threshold value when the external influence parameters float in the information communication transmission process, and the fluctuation value of the information communication transmission speed does not exceed the transmission speed fluctuation value threshold value when the external influence parameters float, judging that the external influence monitoring analysis in the information communication transmission process is qualified, generating an external low influence signal and sending the external low influence signal to a server.

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