CN117098173A - 5G base station signal processing method based on wireless communication - Google Patents

Abstract

The invention belongs to the field of base station signal processing, relates to a data analysis technology, and is used for solving the problem that the existing 5G base station signal processing method cannot monitor the signal transmission state differences of different areas, in particular to a 5G base station signal processing method based on wireless communication, which comprises the following steps: and detecting and analyzing the signal transmission quality of the 5G base station: the method comprises the steps of generating a detection period, dividing a signal coverage area of a 5G base station into a plurality of detection areas, obtaining intensity data QD, signal-to-noise data XZ and bandwidth data DK of the detection areas in the detection period, and carrying out numerical calculation to obtain a transmission representation value.

Description

5G base station signal processing method based on wireless communication

Technical Field

The invention belongs to the field of base station signal processing, relates to a data analysis technology, and particularly relates to a 5G base station signal processing method based on wireless communication.

Background

The 5G base station is core equipment of the 5G network, provides wireless coverage, and realizes wireless signal transmission between the wired communication network and the wireless terminal. The architecture and the morphology of the base station directly influence how the 5G network is deployed, and the higher the frequency is, the greater the attenuation in the signal propagation process is, and the higher the base station density of the 5G network is.

The existing 5G base station signal processing method cannot monitor the transmission quality and the transmission stability of the 5G base station signal, and cannot monitor the signal transmission state differences of different areas, so that the signal of the 5G base station cannot be evaluated integrally.

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

Disclosure of Invention

The invention aims to provide a 5G base station signal processing method based on wireless communication, which is used for solving the problem that the existing 5G base station signal processing method cannot monitor the signal transmission state difference of different areas;

the technical problems to be solved by the invention are as follows: how to provide a 5G base station signal processing method based on wireless communication, which can monitor the signal transmission state difference of different areas.

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

A5G base station signal processing method based on wireless communication comprises the following steps:

step one: and detecting and analyzing the signal transmission quality of the 5G base station: generating a detection period, dividing a signal coverage area of a 5G base station into a plurality of detection areas, acquiring intensity data QD, signal-to-noise data XZ and bandwidth data DK of the detection areas in the detection period, performing numerical calculation to obtain a transmission representation value, and marking the detection areas as normal areas or abnormal areas through the transmission representation value;

step two: detecting and analyzing the signal transmission stability of the 5G base station, obtaining a plurality of analysis areas, marking a normal area with a central point in the analysis area as a marked area of the analysis area, forming a marked set of the analysis area by transmission representation values of all the normal areas in the analysis area, performing variance calculation on the marked set of the analysis area to obtain a stability coefficient, and marking the analysis area as a stable area or a fluctuation area through the stability coefficient;

step three: overall evaluation analysis is performed on signals of the 5G base station: the method comprises the steps of obtaining marking times of an abnormal area and a fluctuation area in a detection period, marking the marking times as an abnormal value YC and a fluctuation value BD respectively, carrying out numerical calculation on the abnormal value YC and the fluctuation value BD to obtain an evaluation coefficient PG, and marking signal evaluation grades of a 5G base station in the detection period as a grade, a second grade or a third grade through the evaluation coefficient PG.

As a preferred embodiment of the present invention, in the step one, the process of acquiring the intensity data QD includes: acquiring transmission intensity values of all base station signals in a detection area, summing and averaging to obtain intensity data QD; the acquisition process of the signal-to-noise data XZ comprises the following steps: obtaining the transmission signal-to-noise ratio of all base station signals in the detection area, and summing and averaging to obtain signal-to-noise data XZ; the acquisition process of the bandwidth data DK comprises the following steps: and obtaining transmission bandwidth values of all base station signals in the detection area, summing and averaging to obtain bandwidth data DK.

As a preferred embodiment of the present invention, in the step one, the transmission representation value acquisition process includes: and carrying out numerical calculation on the intensity data QD, the signal-to-noise data XZ and the bandwidth data DK to obtain a transmission coefficient CS of the detection area, and summing the maximum value and the minimum value of the transmission coefficient CS of the detection area in the detection period to obtain a transmission representation value of the detection area.

As a preferred embodiment of the present invention, in the first step, the specific process of marking the detection area as a normal area or an abnormal area includes: acquiring a transmission performance threshold value through a storage module, and comparing the transmission performance value with the transmission performance threshold value: if the transmission representation value is smaller than the transmission representation threshold value, judging that the signal transmission quality of the base station of the detection area does not meet the requirement, marking the detection area as an abnormal area, sending the abnormal area to a server, and sending the abnormal area to a signal evaluation module after the server receives the abnormal area; if the transmission representation value is greater than or equal to the transmission representation threshold value, judging that the signal transmission quality of the base station in the detection area meets the requirement, marking the detection area as a normal area, sending the normal area to a server, and sending the normal area to a signal stability analysis module after the server receives the normal area.

In a preferred embodiment of the present invention, in the second step, the process of acquiring the analysis area includes: an inner ring region is obtained by taking a 5G base station as a circle center and r1 as a radius, a plurality of outer ring regions i, i=1, 2, …, n and n are positive integers, ai is larger than r1, a first analysis region is formed by the inner ring region, a second analysis region is formed by the contour line of the inner ring region and the outer ring region 1, a third analysis region is formed by the outer ring region 1 and the outer ring region 2, and the like, and an n+1th analysis region is formed by the outer ring region n-1 and the outer ring region n.

As a preferred embodiment of the present invention, in the second step, the specific process of marking the analysis region as the stable region or the fluctuation region includes: the stability threshold is obtained through the storage module, and the stability coefficient of the analysis area is compared with the stability threshold: if the stability coefficient is smaller than the stability threshold, judging that the signal transmission stability of the base station in the analysis area meets the requirement, and marking the corresponding analysis area as a stability area; if the stability coefficient is greater than or equal to the stability threshold, judging that the signal transmission stability of the base station in the analysis area does not meet the requirement, marking the corresponding analysis area as a fluctuation area, sending the fluctuation area to a server, and sending the fluctuation area to a signal evaluation module after the server receives the fluctuation area.

As a preferred embodiment of the present invention, in the third step, the specific process of marking the signal evaluation level of the 5G base station in the detection period includes: the method comprises the steps that evaluation thresholds PGmin and PGmax are obtained through a storage module, and evaluation coefficients PG of a detection period are compared with the evaluation thresholds PGmin and PGmax: if PG is less than or equal to PGmin, marking the signal evaluation grade of the detection period as a grade; if PGmin is less than PG and less than PGmax, marking the signal evaluation grade of the detection period as a second grade; if PG is more than or equal to PGmax, marking the signal evaluation grade of the detection period as three grades; and sending the signal evaluation grade of the 5G base station in the detection period to a mobile phone terminal of a manager through a server.

The invention is applied to a 5G base station signal processing system based on wireless communication, and comprises a server which is in communication connection with a signal quality detection module, a signal stability analysis module, a signal evaluation module and a storage module;

the signal quality detection module is used for detecting and analyzing the signal transmission quality of the 5G base station, obtaining a transmission representation value of a detection area, and judging whether the signal transmission quality of the base station in the detection area meets the requirement or not through the transmission representation value;

the signal stability analysis module is used for detecting and analyzing the signal transmission stability of the 5G base station and obtaining a stability coefficient of an analysis area, and judging whether the signal transmission stability of the base station in the analysis area meets the requirement or not through the stability coefficient;

the signal evaluation module is used for carrying out overall evaluation analysis on the signals of the 5G base station and marking the signal evaluation grade of the signals of the 5G base station in the detection period as a grade one, a grade two or a grade three; and sending the signal evaluation grade of the 5G base station in the detection period to a mobile phone terminal of a manager through a server.

The invention has the following beneficial effects:

1. the signal quality detection module can detect and analyze the signal transmission quality of the 5G base station, comprehensively analyze and calculate various signal transmission quality parameters in each detection area in an area division mode to obtain transmission coefficients, feed back the quality degree of the signal transmission of the base station in the detection area through the transmission coefficients, mark abnormal areas in the detection area, and improve the signal transmission quality of the abnormal areas by adopting targeted measures;

2. the signal stability analysis module can detect and analyze the signal transmission stability of the 5G base station, the base station is taken as the center to re-divide the area, then the analysis area and the detection area are subjected to association analysis according to the center point of the detection area, the stability coefficient is obtained by calculating the transmission coefficients of all the marked areas in the analysis area, and the transmission stability of the base station signal is fed back through the stability coefficient;

3. the signal evaluation module can carry out overall evaluation analysis on the signals of the 5G base station, an evaluation coefficient is obtained by calculating the marking times of the abnormal area and the fluctuation area, the 5G base station signal evaluation grade in the detection period is marked by the evaluation coefficient, and the signal transmission state of the 5G base station is fed back by the signal evaluation grade.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a system block diagram of a first embodiment of the present invention;

fig. 2 is a flowchart of a method according to a second embodiment of the 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.

Example 1

As shown in fig. 1, a 5G base station signal processing system based on wireless communication includes a server, and the server is communicatively connected with a signal quality detection module, a signal stability analysis module, a signal evaluation module and a storage module.

The signal quality detection module is used for detecting and analyzing the signal transmission quality of the 5G base station: generating a detection period, dividing a signal coverage area of a 5G base station into a plurality of detection areas, and acquiring intensity data QD, signal-to-noise data XZ and bandwidth data DK of the detection areas in the detection period, wherein the acquiring process of the intensity data QD comprises the following steps: acquiring transmission intensity values of all base station signals in a detection area, summing and averaging to obtain intensity data QD; the acquisition process of the signal-to-noise data XZ comprises the following steps: obtaining the transmission signal-to-noise ratio of all base station signals in the detection area, and summing and averaging to obtain signal-to-noise data XZ; the acquisition process of the bandwidth data DK comprises the following steps: obtaining transmission bandwidth values of all base station signals in a detection area, summing and averaging to obtain bandwidth data DK; obtaining a transmission coefficient CS of a detection area through a formula CS= (alpha 1X QD+alpha 2X Z+alpha 3X DK)/JL, wherein alpha 1, alpha 2 and alpha 3 are all proportional coefficients, alpha 1 > alpha 2 > alpha 3 > 1, and JL is a linear distance value between a central point of the detection area and a 5G base station; summing the maximum value and the minimum value of the transmission coefficient CS of the detection area in the detection period, averaging to obtain a transmission representation value of the detection area, acquiring a transmission representation threshold value through a storage module, and comparing the transmission representation value with the transmission representation threshold value: if the transmission representation value is smaller than the transmission representation threshold value, judging that the signal transmission quality of the base station of the detection area does not meet the requirement, marking the detection area as an abnormal area, sending the abnormal area to a server, and sending the abnormal area to a signal evaluation module after the server receives the abnormal area; if the transmission representation value is greater than or equal to the transmission representation threshold value, judging that the signal transmission quality of the base station in the detection area meets the requirement, marking the detection area as a normal area, sending the normal area to a server, and sending the normal area to a signal stability analysis module after the server receives the normal area; and detecting and analyzing the signal transmission quality of the 5G base station, comprehensively analyzing and calculating various signal transmission quality parameters in each detection area in a region division mode to obtain transmission coefficients, feeding back the signal transmission quality degree of the base station in the detection area through the transmission coefficients, marking the abnormal area in the detection area, and adopting targeted measures to improve the signal transmission quality of the abnormal area.

The signal stability analysis module is used for detecting and analyzing the signal transmission stability of the 5G base station: drawing a circle by taking a 5G base station as a circle center and r1 as a radius to obtain an inner ring region, drawing a circle by taking a 5G base station as a circle center and Ai as a radius to obtain a plurality of outer ring regions i, i=1, 2, …, n, n being a positive integer, wherein Ai is larger than r1, the inner ring region forms a first analysis region, the contour line of the inner ring region and the outer ring region 1 form a second analysis region, the outer ring region 1 and the outer ring region 2 form a third analysis region, and so on, and the outer ring region n-1 and the outer ring region n form an n+1th analysis region; marking a normal region with a central point in the analysis region as a marked region of the analysis region, forming a marked set of the analysis region by transmission representation values of all the normal regions in the analysis region, performing variance calculation on the marked set of the analysis region to obtain a stability coefficient, acquiring a stability threshold value by a storage module, and comparing the stability coefficient of the analysis region with the stability threshold value: if the stability coefficient is smaller than the stability threshold, judging that the signal transmission stability of the base station in the analysis area meets the requirement, and marking the corresponding analysis area as a stability area; if the stability coefficient is greater than or equal to the stability threshold, judging that the signal transmission stability of the base station in the analysis area does not meet the requirement, marking the corresponding analysis area as a fluctuation area, sending the fluctuation area to a server, and sending the fluctuation area to a signal evaluation module after the server receives the fluctuation area; and detecting and analyzing the signal transmission stability of the 5G base station, re-dividing the area by taking the base station as the center, performing association analysis on the analysis area and the detection area according to the center point of the detection area, calculating the stability coefficient by combining the transmission coefficients of all the marked areas in the analysis area, and feeding back the transmission stability of the base station signal through the stability coefficient.

The signal evaluation module is used for carrying out overall evaluation analysis on the signals of the 5G base station: acquiring the marking times of an abnormal region and a fluctuation region in a detection period, marking the marking times as an abnormal value YC and a fluctuation value BD respectively, and obtaining an evaluation coefficient PG of the detection period through a formula PG=β1YC+β2BD, wherein β1 and β2 are both proportionality coefficients, and β1 is more than β2 is more than 1; the method comprises the steps that evaluation thresholds PGmin and PGmax are obtained through a storage module, and evaluation coefficients PG of a detection period are compared with the evaluation thresholds PGmin and PGmax: if PG is less than or equal to PGmin, marking the signal evaluation grade of the detection period as a grade; if PGmin is less than PG and less than PGmax, marking the signal evaluation grade of the detection period as a second grade; if PG is more than or equal to PGmax, marking the signal evaluation grade of the detection period as three grades; the signal evaluation grade of the 5G base station in the detection period is sent to a mobile phone terminal of a manager through a server; and carrying out overall evaluation analysis on signals of the 5G base station, calculating the number of marking times of the abnormal area and the fluctuation area to obtain an evaluation coefficient, marking the evaluation level of the signals of the 5G base station in the detection period through the evaluation coefficient, and feeding back the signal transmission state of the 5G base station through the signal evaluation level.

Example two

As shown in fig. 2, a 5G base station signal processing method based on wireless communication includes the following steps:

step one: and detecting and analyzing the signal transmission quality of the 5G base station: generating a detection period, dividing a signal coverage area of a 5G base station into a plurality of detection areas, acquiring intensity data QD, signal-to-noise data XZ and bandwidth data DK of the detection areas in the detection period, performing numerical calculation to obtain a transmission representation value, and marking the detection areas as normal areas or abnormal areas through the transmission representation value;

step two: detecting and analyzing the signal transmission stability of the 5G base station, obtaining a plurality of analysis areas, marking a normal area with a central point in the analysis area as a marked area of the analysis area, forming a marked set of the analysis area by transmission representation values of all the normal areas in the analysis area, performing variance calculation on the marked set of the analysis area to obtain a stability coefficient, and marking the analysis area as a stable area or a fluctuation area through the stability coefficient;

step three: overall evaluation analysis is performed on signals of the 5G base station: the method comprises the steps of obtaining marking times of an abnormal area and a fluctuation area in a detection period, marking the marking times as an abnormal value YC and a fluctuation value BD respectively, carrying out numerical calculation on the abnormal value YC and the fluctuation value BD to obtain an evaluation coefficient PG, and marking signal evaluation grades of a 5G base station in the detection period as a grade, a second grade or a third grade through the evaluation coefficient PG.

The 5G base station signal processing method based on wireless communication is characterized in that a detection period is generated during operation, a signal coverage area of a 5G base station is divided into a plurality of detection areas, the intensity data QD, the signal-to-noise data XZ and the bandwidth data DK of the detection areas in the detection period are obtained, a transmission representation value is obtained through numerical value calculation, and the detection areas are marked as normal areas or abnormal areas through the transmission representation value; detecting and analyzing the signal transmission stability of the 5G base station, obtaining a plurality of analysis areas, marking a normal area with a central point in the analysis area as a marked area of the analysis area, forming a marked set of the analysis area by transmission representation values of all the normal areas in the analysis area, performing variance calculation on the marked set of the analysis area to obtain a stability coefficient, and marking the analysis area as a stable area or a fluctuation area through the stability coefficient; the method comprises the steps of obtaining marking times of an abnormal area and a fluctuation area in a detection period, marking the marking times as an abnormal value YC and a fluctuation value BD respectively, carrying out numerical calculation on the abnormal value YC and the fluctuation value BD to obtain an evaluation coefficient PG, and marking signal evaluation grades of a 5G base station in the detection period as a grade, a second grade or a third grade through the evaluation coefficient PG.

The foregoing is merely illustrative of the structures of this invention and various modifications, additions and substitutions for those skilled in the art can be made to the described embodiments without departing from the scope of the invention or from the scope of the invention as defined in the accompanying claims.

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; such as: the formula cs= (α1×qd+α2×xz+α3×dk)/JL; collecting a plurality of groups of sample data by a person skilled in the art and setting a corresponding transmission coefficient for each group of sample data; substituting the set transmission coefficient and the acquired sample data into a formula, forming a ternary one-time equation set by any three formulas, screening the calculated coefficient, and taking an average value to obtain values of alpha 1, alpha 2 and alpha 3 which are respectively 4.28, 3.65 and 3.21;

the size of the coefficient is a specific numerical value obtained by quantizing each parameter, so that the subsequent comparison is convenient, and the size of the coefficient depends on the number of sample data and the corresponding transmission coefficient is preliminarily set for each group of sample data by a person skilled in the art; as long as the proportional relation between the parameter and the quantized value is not affected, for example, the transmission coefficient is proportional to the value of the intensity data.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

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 (8)

1. The 5G base station signal processing method based on wireless communication is characterized by comprising the following steps:

step one: and detecting and analyzing the signal transmission quality of the 5G base station: generating a detection period, dividing a signal coverage area of a 5G base station into a plurality of detection areas, acquiring intensity data QD, signal-to-noise data XZ and bandwidth data DK of the detection areas in the detection period, performing numerical calculation to obtain a transmission representation value, and marking the detection areas as normal areas or abnormal areas through the transmission representation value;

step two: detecting and analyzing the signal transmission stability of the 5G base station, obtaining a plurality of analysis areas, marking a normal area with a central point in the analysis area as a marked area of the analysis area, forming a marked set of the analysis area by transmission representation values of all the normal areas in the analysis area, performing variance calculation on the marked set of the analysis area to obtain a stability coefficient, and marking the analysis area as a stable area or a fluctuation area through the stability coefficient;

step three: overall evaluation analysis is performed on signals of the 5G base station: the method comprises the steps of obtaining marking times of an abnormal area and a fluctuation area in a detection period, marking the marking times as an abnormal value YC and a fluctuation value BD respectively, carrying out numerical calculation on the abnormal value YC and the fluctuation value BD to obtain an evaluation coefficient PG, and marking signal evaluation grades of a 5G base station in the detection period as a grade, a second grade or a third grade through the evaluation coefficient PG.

2. The method for processing a 5G base station signal based on wireless communication according to claim 1, wherein in the step one, the acquiring procedure of the intensity data QD includes: acquiring transmission intensity values of all base station signals in a detection area, summing and averaging to obtain intensity data QD; the acquisition process of the signal-to-noise data XZ comprises the following steps: obtaining the transmission signal-to-noise ratio of all base station signals in the detection area, and summing and averaging to obtain signal-to-noise data XZ; the acquisition process of the bandwidth data DK comprises the following steps: and obtaining transmission bandwidth values of all base station signals in the detection area, summing and averaging to obtain bandwidth data DK.

3. The method for processing a 5G base station signal based on wireless communication according to claim 2, wherein in the step one, the process of obtaining the transmission representation value includes: and carrying out numerical calculation on the intensity data QD, the signal-to-noise data XZ and the bandwidth data DK to obtain a transmission coefficient CS of the detection area, and summing the maximum value and the minimum value of the transmission coefficient CS of the detection area in the detection period to obtain a transmission representation value of the detection area.

4. A method for processing a 5G base station signal based on wireless communication according to claim 3, wherein in the first step, the specific process of marking the detection area as a normal area or an abnormal area comprises: acquiring a transmission performance threshold value through a storage module, and comparing the transmission performance value with the transmission performance threshold value: if the transmission representation value is smaller than the transmission representation threshold value, judging that the signal transmission quality of the base station of the detection area does not meet the requirement, marking the detection area as an abnormal area, sending the abnormal area to a server, and sending the abnormal area to a signal evaluation module after the server receives the abnormal area; if the transmission representation value is greater than or equal to the transmission representation threshold value, judging that the signal transmission quality of the base station in the detection area meets the requirement, marking the detection area as a normal area, sending the normal area to a server, and sending the normal area to a signal stability analysis module after the server receives the normal area.

5. The method for processing a 5G base station signal based on wireless communication according to claim 4, wherein in the step two, the process of acquiring the analysis area includes: an inner ring region is obtained by taking a 5G base station as a circle center and r1 as a radius, a plurality of outer ring regions i, i=1, 2, …, n and n are positive integers, ai is larger than r1, a first analysis region is formed by the inner ring region, a second analysis region is formed by the contour line of the inner ring region and the outer ring region 1, a third analysis region is formed by the outer ring region 1 and the outer ring region 2, and the like, and an n+1th analysis region is formed by the outer ring region n-1 and the outer ring region n.

6. The method for processing a 5G base station signal based on wireless communication according to claim 5, wherein in the second step, the specific process of marking the analysis area as the stable area or the fluctuation area comprises: the stability threshold is obtained through the storage module, and the stability coefficient of the analysis area is compared with the stability threshold: if the stability coefficient is smaller than the stability threshold, judging that the signal transmission stability of the base station in the analysis area meets the requirement, and marking the corresponding analysis area as a stability area; if the stability coefficient is greater than or equal to the stability threshold, judging that the signal transmission stability of the base station in the analysis area does not meet the requirement, marking the corresponding analysis area as a fluctuation area, sending the fluctuation area to a server, and sending the fluctuation area to a signal evaluation module after the server receives the fluctuation area.

7. The method for processing a 5G base station signal based on wireless communication according to claim 6, wherein in the third step, the specific process of marking the signal evaluation level of the 5G base station in the detection period comprises: the method comprises the steps that evaluation thresholds PGmin and PGmax are obtained through a storage module, and evaluation coefficients PG of a detection period are compared with the evaluation thresholds PGmin and PGmax: if PG is less than or equal to PGmin, marking the signal evaluation grade of the detection period as a grade; if PGmin is less than PG and less than PGmax, marking the signal evaluation grade of the detection period as a second grade; if PG is more than or equal to PGmax, marking the signal evaluation grade of the detection period as three grades; and sending the signal evaluation grade of the 5G base station in the detection period to a mobile phone terminal of a manager through a server.

8. The method for processing 5G base station signals based on wireless communication according to any one of claims 1 to 7, wherein the method is applied to a 5G base station signal processing system based on wireless communication, and comprises a server, wherein the server is communicatively connected with a signal quality detection module, a signal stability analysis module, a signal evaluation module and a storage module;

the signal quality detection module is used for detecting and analyzing the signal transmission quality of the 5G base station, obtaining a transmission representation value of a detection area, and judging whether the signal transmission quality of the base station in the detection area meets the requirement or not through the transmission representation value;

the signal stability analysis module is used for detecting and analyzing the signal transmission stability of the 5G base station and obtaining a stability coefficient of an analysis area, and judging whether the signal transmission stability of the base station in the analysis area meets the requirement or not through the stability coefficient;

the signal evaluation module is used for carrying out overall evaluation analysis on the signals of the 5G base station and marking the signal evaluation grade of the signals of the 5G base station in the detection period as a grade one, a grade two or a grade three; and sending the signal evaluation grade of the 5G base station in the detection period to a mobile phone terminal of a manager through a server.