CN116321270A - Short message transmission risk assessment system based on data analysis - Google Patents

Abstract

The invention discloses a short message transmission risk assessment system based on data analysis, which relates to the technical field of short message transmission risk assessment, solves the technical problem that in the prior art, the real-time burst risk assessment cannot be carried out for the short message transmission of an area, carries out burst risk prediction in an analysis area, carries out prediction analysis according to the real-time communication demand in the current analysis area, prevents the burst risk of the short message transmission in the analysis area caused by the increase of the communication demand in the analysis area, and simultaneously increases the control cost of the short message transmission in the analysis area, reduces the emergency efficiency of the analysis area, so that the influence cannot be reduced to the minimum, carries out performance detection on base stations in the area, carries out performance detection on the supporting base stations of the short message transmission in each area, and judges whether the base stations in each area normally operate.

Description

Short message transmission risk assessment system based on data analysis

Technical Field

The invention relates to the technical field of short message transmission risk assessment, in particular to a short message transmission risk assessment system based on data analysis.

Background

Short message protocols supported by mobile phones, namely multimedia protocols, are currently mainly three types of SMS, EMS and MMS. SMS is: and (5) short message service. Is the earliest short message service, is also the short message service with the highest popularity at present, and EMS means enhanced short message service. It has an advantage over SMS in that it can transmit simple information such as images, sounds, and moving pictures, in addition to a text short message like SMS. MMS translates into a multimedia messaging service.

However, in the prior art, the short message cannot be monitored in real time in the transmission process, and meanwhile, the real-time burst risk assessment cannot be performed on the short message transmission of the area, so that the safety and stability of the short message transmission are 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 short message transmission risk assessment system based on data analysis, which is used for detecting the performance of base stations in an area, detecting the performance of supporting base stations for short message transmission in each area, judging whether the current base stations in each area operate normally or not, accurately predicting the risk of the regional short message transmission, and preventing inaccurate prediction results caused by the risk of the base stations after the prediction is completed, so that the efficiency of predicting the risk of the regional short message transmission is reduced; and detecting serial channels corresponding to the base stations in the analysis area, and judging whether the detection of each serial channel in the short message transmission process in the analysis area is qualified, so that the safety detection strength of the short message transmission in the analysis area is improved.

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

a short message transmission risk assessment system based on data analysis comprises a server, wherein the server is connected with an area base station detection unit, a short message serial channel detection unit and an area burst risk prediction unit in a communication way;

the method comprises the steps that a server generates an area base station detection signal and sends the area base station detection signal to an area base station detection unit, the area base station detection unit detects the performance of an area base station after receiving the area base station detection signal, the performance of a supporting base station for short message transmission in each area is detected, a base station coverage area is set to be an analysis area, an analysis area is set to be a natural number with a mark i being larger than 1, a base station operation efficiency detection coefficient in the analysis area is obtained, a base station management control signal or a base station operation efficiency qualified signal is generated according to the base station operation efficiency detection coefficient comparison, and the base station management control signal or the base station operation efficiency qualified signal is sent to the server;

the server generates a short message serial channel detection signal and sends the short message serial channel detection signal to the short message serial channel detection unit, and after receiving the short message serial channel detection signal, the short message serial channel detection unit detects a serial channel corresponding to a base station in an analysis area, generates a serial channel high risk signal or a serial channel low risk signal through analysis and sends the serial channel high risk signal or the serial channel low risk signal to the server;

after receiving the serial channel low risk signal, the server generates an area burst risk prediction signal and sends the area burst risk prediction signal to an area burst risk prediction unit, after receiving the area burst risk prediction signal, the area burst risk prediction unit predicts burst risk in an analysis area, divides the analysis area into o sub-areas, wherein o is a natural number larger than 1, divides the sub-areas into a high-demand area and a low-demand area through analysis, and analyzes the high-demand area and the low-demand area.

As a preferred embodiment of the present invention, the operation of the regional base station detecting unit is as follows:

collecting a floating value of short message transmission delay in a current analysis area in the operation process of a base station; collecting the replacement frequency of a base station connected with a short message transmission terminal at the boundary position of an adjacent analysis area and the transmission speed deviation values of different connection base stations of the short message transmission terminal at the boundary position;

obtaining a detection coefficient of the operation efficiency of the base station in the analysis area through analysis; and comparing the detection coefficient of the operation efficiency of the base station in the analysis area with the threshold value of the detection coefficient of the operation efficiency.

As a preferred embodiment of the present invention, the comparison process of the operation efficiency detection coefficient and the operation efficiency detection coefficient threshold value is as follows:

if the detection coefficient of the operation efficiency of the base station in the analysis area exceeds the threshold value of the detection coefficient of the operation efficiency, judging that the operation efficiency of the base station in the current analysis area has risks, generating a base station control signal and sending the base station control signal to a server, and after receiving the base station control signal, the server tests and adjusts the performance of the base station in the corresponding analysis area, and meanwhile, the screening accuracy of the boundary terminal of the coverage area of the base station is enhanced; if the detection coefficient of the base station operation efficiency in the analysis area does not exceed the threshold value of the detection coefficient of the operation efficiency, judging that the risk of the base station operation efficiency in the current analysis area does not exist, generating a base station operation efficiency qualified signal and sending the base station operation efficiency qualified signal to a server.

As a preferred implementation mode of the invention, the short message serial channel detection unit has the following operation process:

collecting serial port signal transmission speed floating frequency of a serial channel in a short message transmission process in an analysis area and floating quantity of serial port signal data transmission speed in a serial channel in a serial port signal quantity increasing process in the analysis area, and comparing the serial port signal transmission speed floating frequency of the serial channel in the short message transmission process in the analysis area and the floating quantity of the serial port data transmission speed in the serial port signal quantity increasing process in the serial channel with a speed floating frequency threshold and a transmission speed floating quantity threshold respectively:

if the serial port signal transmission speed floating frequency of the serial port channel exceeds a speed floating frequency threshold in the short message transmission process in the analysis area or the serial port signal transmission speed floating quantity exceeds a transmission speed floating quantity threshold in the serial port signal quantity increasing process in the serial port channel, judging that the serial port channel detection analysis in the analysis area is unqualified, generating a serial port high risk signal and sending the serial port high risk signal to a server, and maintaining a base station and communication equipment in the corresponding analysis area after the server receives the serial port high risk signal;

if the serial port signal transmission speed floating frequency of the serial port channel in the short message transmission process in the analysis area does not exceed the speed floating frequency threshold value and the serial port signal data transmission speed floating quantity in the serial port signal quantity increasing process in the serial port channel does not exceed the transmission speed floating quantity threshold value, judging that the serial port channel in the analysis area is qualified in detection and analysis, generating a serial port low risk signal and transmitting the serial port low risk signal to a server,

as a preferred embodiment of the present invention, the regional burst risk prediction unit operates as follows:

the method comprises the steps of collecting the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in an analysis area and the average time length of the short message transmitting and receiving terminals in the same subarea for continuous short message transmission and reception, and comparing the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in the analysis area and the average time length of the short message transmitting and receiving terminals in the same subarea with a density increasing speed threshold and a receiving average time length threshold respectively:

if the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in the analysis area exceeds a density increasing speed threshold value, or the average duration of continuous short message transmission and receiving of the short message transmitting and receiving terminals in the same subarea exceeds a receiving average duration threshold value, judging that the communication requirement of the corresponding subarea in the analysis area is high, and marking the corresponding subarea as a high-requirement area; if the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in the analysis area does not exceed the density increasing speed threshold value, and the average duration of continuous short message transmitting and receiving of the short message transmitting and receiving terminals in the same subarea does not exceed the receiving average duration threshold value, judging that the communication requirement of the corresponding subarea in the analysis area is low, and marking the corresponding subarea as a low-requirement area.

As a preferred embodiment of the invention, the high-demand area and the low-demand area are analyzed, if the number ratio of the high-demand area to the low-demand area in the analyzed area increases more than the ratio increase speed, and the number deviation value of the high-demand area and the low-demand area exceeds the deviation value threshold, the analyzed area is judged to have burst high risk, a high risk alarm signal is generated and sent to a server, and after the server receives the high risk alarm signal, the analyzed area is maintained and controlled;

if the number ratio of the high-demand area to the low-demand area in the analysis area increases more than the ratio of the high-demand area to the low-demand area, or the number deviation value of the high-demand area to the low-demand area exceeds the deviation value threshold, determining that the analysis area has burst low risk, generating a high-risk early-warning signal and sending the high-risk early-warning signal to a server, and continuously evaluating the analysis area after the server receives the high-risk early-warning signal;

if the number ratio of the high-demand area to the low-demand area in the analysis area does not exceed the ratio increase speed, and the number deviation value of the high-demand area and the low-demand area does not exceed the deviation value threshold, judging that the analysis area has no burst risk, generating a period monitoring signal and sending the period monitoring signal to a server, and after receiving the period monitoring signal, the server sets the period for monitoring the analysis area and carries out regional burst assessment under the set period.

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

1. in the invention, the performance of the base station in the area is detected, the performance of the supporting base station for transmitting the short message in each area is detected, and whether the current base station in each area operates normally is judged, so that the risk of transmitting the short message in the area is accurately predicted, and the inaccurate prediction result caused by the risk of the base station after the prediction is finished is prevented, so that the efficiency of predicting the risk of transmitting the short message in the area is reduced; and detecting serial channels corresponding to the base stations in the analysis area, and judging whether the detection of each serial channel in the short message transmission process in the analysis area is qualified, so that the safety detection strength of the short message transmission in the analysis area is improved, and the working efficiency of the short message transmission in the analysis area is ensured.

2. According to the invention, burst risk prediction is carried out in the analysis area, prediction analysis is carried out according to the real-time communication demand in the current analysis area, the burst risk of short message transmission in the analysis area caused by the increase of the communication demand in the analysis area is prevented, the short message transmission risk in the analysis area is increased caused by the incapability of timely maintenance, meanwhile, the control cost of the short message transmission in the analysis area is increased, and the emergency efficiency of the analysis area is reduced, so that the influence cannot be reduced to the minimum.

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 short message transmission risk assessment system based on data analysis.

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 short message transmission risk assessment system based on data analysis includes a server, wherein the server is communicatively connected with an area base station detection unit, a short message serial channel detection unit and an area burst risk prediction unit, and the server is in bidirectional communication connection with the area base station detection unit, the short message serial channel detection unit and the area burst risk prediction unit;

the method comprises the steps that a server generates an area base station detection signal and sends the area base station detection signal to an area base station detection unit, the area base station detection unit detects the performance of an area base station after receiving the area base station detection signal, and detects the performance of a supporting base station for short message transmission in each area, and judges whether the current base station in each area operates normally or not, so that the risk of the short message transmission in the area is accurately predicted, inaccurate prediction results caused by the risk of the base station after the prediction is completed are prevented, and the efficiency of predicting the risk of the short message transmission in the area is reduced;

setting a base station coverage area as an analysis area, setting a label i in the analysis area as a natural number larger than 1, collecting a floating value of short message transmission delay in the current analysis area in the operation process of the base station, and marking the floating value of the short message transmission delay in the current analysis area in the operation process of the base station as FD i; collecting the replacement frequency of a base station connected with a short message transmission terminal at the boundary position of an adjacent analysis area and the transmission speed deviation values of different connection base stations of the short message transmission terminal at the boundary position, and marking the replacement frequency of the base station connected with the short message transmission terminal at the boundary position of the adjacent analysis area and the transmission speed deviation values of different connection base stations of the short message transmission terminal at the boundary position as GPi and PCi respectively; it can be understood that when the short message transmission terminal is at the boundary of the coverage areas of the adjacent base stations, the distance deviation value between the short message transmission terminal and the two base stations is not large, different base stations are easy to connect, and the operation efficiency of the base stations can be further improved by analysis under the current situation;

by the formula

Obtaining a detection coefficient Xi of the base station operation efficiency in an analysis area, wherein f1, f2 and f3 are preset proportional coefficients, f1 is more than f2 is more than f3 is more than 0, beta is an error correction factor, and the value is 1.35;

comparing the detection coefficient Xi of the base station operation efficiency in the analysis area with the threshold value of the detection coefficient of the operation efficiency:

if the detection coefficient Xi of the base station operation efficiency in the analysis area exceeds the detection coefficient threshold of the operation efficiency, judging that the risk exists in the base station operation efficiency in the current analysis area, generating a base station control signal and sending the base station control signal to a server, and after receiving the base station control signal, the server tests and adjusts the performance of the base station in the corresponding analysis area, and meanwhile, the screening accuracy of the boundary terminal of the coverage area of the base station is enhanced;

if the detection coefficient Xi of the base station operation efficiency in the analysis area does not exceed the detection coefficient threshold of the operation efficiency, judging that the risk of the base station operation efficiency in the current analysis area does not exist, generating a base station operation efficiency qualified signal and sending the base station operation efficiency qualified signal to a server;

the server generates a short message serial channel detection signal and sends the short message serial channel detection signal to the short message serial channel detection unit, and after the short message serial channel detection unit receives the short message serial channel detection signal, the short message serial channel detection unit detects a serial channel corresponding to a base station in an analysis area and judges whether each serial channel detection in the short message transmission process in the analysis area is qualified, so that the safety detection strength of the short message transmission in the analysis area is improved, and the working efficiency of the short message transmission in the analysis area is ensured;

collecting serial port signal transmission speed floating frequency of a serial channel in a short message transmission process in an analysis area and floating quantity of serial port signal data transmission speed in a serial channel in a serial port signal quantity increasing process in the analysis area, and comparing the serial port signal transmission speed floating frequency of the serial channel in the short message transmission process in the analysis area and the floating quantity of the serial port data transmission speed in the serial port signal quantity increasing process in the serial channel with a speed floating frequency threshold and a transmission speed floating quantity threshold respectively:

if the serial port signal transmission speed floating frequency of the serial port channel exceeds a speed floating frequency threshold in the short message transmission process in the analysis area or the serial port signal transmission speed floating quantity exceeds a transmission speed floating quantity threshold in the serial port signal quantity increasing process in the serial port channel, judging that the serial port channel detection analysis in the analysis area is unqualified, generating a serial port high risk signal and sending the serial port high risk signal to a server, and maintaining a base station and communication equipment in the corresponding analysis area after the server receives the serial port high risk signal;

if the serial port signal transmission speed floating frequency of the serial channel in the short message transmission process in the analysis area does not exceed the speed floating frequency threshold value and the serial port signal quantity in the serial channel increases, judging that the serial channel in the analysis area is qualified in detection and analysis, generating a serial channel low risk signal and transmitting the serial channel low risk signal to a server;

after receiving the serial channel low-risk signal, the server generates an area burst risk prediction signal and sends the area burst risk prediction signal to an area burst risk prediction unit, and after receiving the area burst risk prediction signal, the area burst risk prediction unit predicts burst risk in an analysis area and performs prediction analysis according to real-time communication requirements in the current analysis area, so that the problem that short message transmission burst risk in the analysis area is increased due to the increase of communication requirements in the analysis area, and short message transmission risk in the analysis area is increased due to the incapability of being maintained in time is solved, meanwhile, the control cost of short message transmission in the analysis area is increased, and the emergency efficiency of the analysis area is reduced, so that the influence cannot be reduced to the minimum;

dividing an analysis area into o subareas, wherein o is a natural number greater than 1, acquiring the increasing speed of the number density of the short message transmission and reception terminals of each subarea in the analysis area and the average duration of continuous short message transmission and reception of the short message transmission and reception terminals in the same subarea, and comparing the increasing speed of the number density of the short message transmission and reception terminals of each subarea in the analysis area and the average duration of continuous short message transmission and reception of the short message transmission and reception terminals in the same subarea with a density increasing speed threshold and a reception average duration threshold respectively:

if the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in the analysis area exceeds a density increasing speed threshold value, or the average duration of continuous short message transmission and receiving of the short message transmitting and receiving terminals in the same subarea exceeds a receiving average duration threshold value, judging that the communication requirement of the corresponding subarea in the analysis area is high, and marking the corresponding subarea as a high-requirement area; if the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in the analysis area does not exceed the density increasing speed threshold value, and the average duration of continuous short message transmission and receiving of the short message transmitting and receiving terminals in the same subarea does not exceed the receiving average duration threshold value, judging that the communication requirement of the corresponding subarea in the analysis area is low, and marking the corresponding subarea as a low-requirement area;

analyzing the high-demand area and the low-demand area, if the increase rate of the number ratio of the high-demand area to the low-demand area in the analysis area exceeds the increase rate of the ratio, and the number deviation value of the high-demand area to the low-demand area exceeds the deviation value threshold, judging that the analysis area has burst high risk, generating a high risk alarm signal and sending the high risk alarm signal to a server, and after receiving the high risk alarm signal, carrying out maintenance control on the analysis area;

if the number ratio of the high-demand area to the low-demand area in the analysis area increases more than the ratio of the high-demand area to the low-demand area, or the number deviation value of the high-demand area to the low-demand area exceeds the deviation value threshold, determining that the analysis area has burst low risk, generating a high-risk early-warning signal and sending the high-risk early-warning signal to a server, and continuously evaluating the analysis area after the server receives the high-risk early-warning signal;

if the number ratio of the high-demand area to the low-demand area in the analysis area does not exceed the ratio increase speed, and the number deviation value of the high-demand area and the low-demand area does not exceed the deviation value threshold, judging that the analysis area has no burst risk, generating a period monitoring signal and sending the period monitoring signal to a server, and after receiving the period monitoring signal, the server sets the period for monitoring the analysis area and carries out regional burst assessment under the set period.

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 base station in the area is subjected to performance detection through the area base station detection unit, the supporting base stations for short message transmission in each area are subjected to performance detection, the base station coverage area is set as an analysis area, the analysis area is set with the reference numbers i and i being natural numbers larger than 1, the base station operation efficiency detection coefficient in the analysis area is obtained, the base station control signal or the base station operation efficiency qualified signal is generated according to the base station operation efficiency detection coefficient comparison, and the base station control signal or the base station operation efficiency qualified signal is sent to the server; detecting a serial channel corresponding to a base station in an analysis area through a short message serial channel detection unit, generating a serial channel high-risk signal or a serial channel low-risk signal through analysis, and sending the serial channel high-risk signal or the serial channel low-risk signal to a server; the method comprises the steps of carrying out burst risk prediction in an analysis area through an area burst risk prediction unit, dividing the analysis area into o sub-areas, wherein o is a natural number larger than 1, dividing the sub-areas into a high-demand area and a low-demand area through analysis, and analyzing the high-demand area and the low-demand area.

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 (6)

1. The short message transmission risk assessment system based on data analysis is characterized by comprising a server, wherein the server is connected with a regional base station detection unit, a short message serial channel detection unit and a regional burst risk prediction unit in a communication manner;

the method comprises the steps that a server generates an area base station detection signal and sends the area base station detection signal to an area base station detection unit, the area base station detection unit detects the performance of an area base station after receiving the area base station detection signal, the performance of a supporting base station for short message transmission in each area is detected, a base station coverage area is set to be an analysis area, an analysis area is set to be a natural number with a mark i being larger than 1, a base station operation efficiency detection coefficient in the analysis area is obtained, a base station management control signal or a base station operation efficiency qualified signal is generated according to the base station operation efficiency detection coefficient comparison, and the base station management control signal or the base station operation efficiency qualified signal is sent to the server;

the server generates a short message serial channel detection signal and sends the short message serial channel detection signal to the short message serial channel detection unit, and after receiving the short message serial channel detection signal, the short message serial channel detection unit detects a serial channel corresponding to a base station in an analysis area, generates a serial channel high risk signal or a serial channel low risk signal through analysis and sends the serial channel high risk signal or the serial channel low risk signal to the server;

after receiving the serial channel low risk signal, the server generates an area burst risk prediction signal and sends the area burst risk prediction signal to an area burst risk prediction unit, after receiving the area burst risk prediction signal, the area burst risk prediction unit predicts burst risk in an analysis area, divides the analysis area into o sub-areas, wherein o is a natural number larger than 1, divides the sub-areas into a high-demand area and a low-demand area through analysis, and analyzes the high-demand area and the low-demand area.

2. The system for risk assessment of sms transmission based on data analysis of claim 1, wherein the regional base station detection unit operates as follows:

collecting a floating value of short message transmission delay in a current analysis area in the operation process of a base station; collecting the replacement frequency of a base station connected with a short message transmission terminal at the boundary position of an adjacent analysis area and the transmission speed deviation values of different connection base stations of the short message transmission terminal at the boundary position;

obtaining a detection coefficient of the operation efficiency of the base station in the analysis area through analysis; and comparing the detection coefficient of the operation efficiency of the base station in the analysis area with the threshold value of the detection coefficient of the operation efficiency.

3. The system for risk assessment of sms transmission based on data analysis of claim 2, wherein the comparison process between the operation efficiency detection coefficient and the operation efficiency detection coefficient threshold is as follows:

if the detection coefficient of the operation efficiency of the base station in the analysis area exceeds the threshold value of the detection coefficient of the operation efficiency, judging that the operation efficiency of the base station in the current analysis area has risks, generating a base station control signal and sending the base station control signal to a server, and after receiving the base station control signal, the server tests and adjusts the performance of the base station in the corresponding analysis area, and meanwhile, the screening accuracy of the boundary terminal of the coverage area of the base station is enhanced; if the detection coefficient of the base station operation efficiency in the analysis area does not exceed the threshold value of the detection coefficient of the operation efficiency, judging that the risk of the base station operation efficiency in the current analysis area does not exist, generating a base station operation efficiency qualified signal and sending the base station operation efficiency qualified signal to a server.

4. The short message transmission risk assessment system based on data analysis according to claim 1, wherein the short message serial channel detection unit operates as follows:

collecting serial port signal transmission speed floating frequency of a serial channel in a short message transmission process in an analysis area and floating quantity of serial port signal data transmission speed in a serial channel in a serial port signal quantity increasing process in the analysis area, and comparing the serial port signal transmission speed floating frequency of the serial channel in the short message transmission process in the analysis area and the floating quantity of the serial port data transmission speed in the serial port signal quantity increasing process in the serial channel with a speed floating frequency threshold and a transmission speed floating quantity threshold respectively:

if the serial port signal transmission speed floating frequency of the serial port channel exceeds a speed floating frequency threshold in the short message transmission process in the analysis area or the serial port signal transmission speed floating quantity exceeds a transmission speed floating quantity threshold in the serial port signal quantity increasing process in the serial port channel, judging that the serial port channel detection analysis in the analysis area is unqualified, generating a serial port high risk signal and sending the serial port high risk signal to a server, and maintaining a base station and communication equipment in the corresponding analysis area after the server receives the serial port high risk signal;

if the serial port signal transmission speed floating frequency of the serial channel in the short message transmission process in the analysis area does not exceed the speed floating frequency threshold value, and the serial port signal data transmission speed floating quantity in the serial port signal quantity increasing process in the serial channel does not exceed the transmission speed floating quantity threshold value, judging that the serial channel in the analysis area is qualified in detection and analysis, generating a serial channel low risk signal and transmitting the serial channel low risk signal to a server.

5. The short message transmission risk assessment system based on data analysis according to claim 1, wherein the operation process of the regional burst risk prediction unit is as follows:

the method comprises the steps of collecting the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in an analysis area and the average time length of the short message transmitting and receiving terminals in the same subarea for continuous short message transmission and reception, and comparing the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in the analysis area and the average time length of the short message transmitting and receiving terminals in the same subarea with a density increasing speed threshold and a receiving average time length threshold respectively:

if the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in the analysis area exceeds a density increasing speed threshold value, or the average duration of continuous short message transmission and receiving of the short message transmitting and receiving terminals in the same subarea exceeds a receiving average duration threshold value, judging that the communication requirement of the corresponding subarea in the analysis area is high, and marking the corresponding subarea as a high-requirement area; if the increasing speed of the number density of the short message transmitting and receiving terminals in each subarea in the analysis area does not exceed the density increasing speed threshold value, and the average duration of continuous short message transmitting and receiving of the short message transmitting and receiving terminals in the same subarea does not exceed the receiving average duration threshold value, judging that the communication requirement of the corresponding subarea in the analysis area is low, and marking the corresponding subarea as a low-requirement area.

6. The short message transmission risk assessment system based on data analysis according to claim 1, wherein the high-demand area and the low-demand area are analyzed, if the number ratio of the high-demand area to the low-demand area in the analysis area increases more than the ratio, and the number deviation value of the high-demand area and the low-demand area exceeds the deviation value threshold, the analysis area is judged to have burst high risk, a high risk alarm signal is generated and sent to a server, and after the server receives the high risk alarm signal, the analysis area is maintained and controlled;

if the number ratio of the high-demand area to the low-demand area in the analysis area increases more than the ratio of the high-demand area to the low-demand area, or the number deviation value of the high-demand area to the low-demand area exceeds the deviation value threshold, determining that the analysis area has burst low risk, generating a high-risk early-warning signal and sending the high-risk early-warning signal to a server, and continuously evaluating the analysis area after the server receives the high-risk early-warning signal;

if the number ratio of the high-demand area to the low-demand area in the analysis area does not exceed the ratio increase speed, and the number deviation value of the high-demand area and the low-demand area does not exceed the deviation value threshold, judging that the analysis area has no burst risk, generating a period monitoring signal and sending the period monitoring signal to a server, and after receiving the period monitoring signal, the server sets the period for monitoring the analysis area and carries out regional burst assessment under the set period.

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