CN117354859A - Mobile terminal communication quality detection and early warning system based on Internet of things - Google Patents

Abstract

The invention discloses a mobile terminal communication quality detection and early warning system based on the Internet of things, which relates to the technical field of communication quality detection and early warning, and solves the technical problem that quality detection cannot be carried out through two aspects of hardware early warning and communication end quality evaluation in the use process in the prior art; after hardware fault evaluation is completed, the communication quality analysis unit analyzes the communication quality of the mobile terminal in the communication period, analyzes and judges whether the communication quality of the mobile terminal in the communication period is qualified from the communication end, and analyzes the mobile terminal with qualified communication quality at the same time through the time analysis unit.

Description

Mobile terminal communication quality detection and early warning system based on Internet of things

Technical Field

The invention relates to the technical field of communication quality detection and early warning, in particular to a mobile terminal communication quality detection and early warning system based on the Internet of things.

Background

Along with the transition of the era, the mobile communication technology is increasingly advanced and more careful along with the high-speed development of electronic semiconductor technology and computer technology, and the communication quality is also increasingly high, so that the mobile internet surfing function can be realized in real time and on the spot, and the internet can be connected to the full coverage of the current high-speed 5G network through the mobile phone.

However, in the prior art, quality detection cannot be performed according to usage data during communication of a mobile terminal, reliability of the usage data cannot be checked during usage data acquisition, quality detection cannot be performed in two aspects of hardware early warning and communication end quality evaluation during usage, and meanwhile synchronous time efficiency analysis cannot be performed when quality is qualified, so that communication quality detection is inefficient.

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 mobile terminal communication quality detection and early warning system based on the Internet of things.

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

the mobile terminal communication quality detection early warning system based on the Internet of things is characterized in that a detection early warning platform is in communication connection with a use data analysis unit and a communication end detection unit, wherein the communication end detection unit is also connected with a communication quality analysis unit, a simultaneous analysis unit and a hardware fault assessment unit;

the hardware fault evaluation unit performs hardware fault evaluation on the mobile terminal in the communication period, generates a hardware high risk signal or a hardware low risk signal through the hardware fault evaluation, and transmits the hardware high risk signal or the hardware low risk signal to the server through the communication terminal detection unit; after hardware fault evaluation is completed, the communication quality analysis unit analyzes the communication quality of the mobile terminal in the communication period, analyzes and judges whether the communication quality of the mobile terminal in the communication period is qualified from the communication end, and analyzes the mobile terminal with qualified communication quality at the same time through the time analysis unit.

As a preferred embodiment of the present invention, the usage data of the mobile terminal is simultaneously and reliably evaluated using the data analysis unit; acquiring mobile terminal use data in a communication period of the mobile terminal, wherein the mobile terminal use data comprises communication complaint data, time data and sample data of the mobile terminal, and the communication complaint data is expressed as complaint type or complaint time effect in the communication period; the time data is expressed as the fault occurrence time or continuous occurrence time in the communication period of the mobile terminal, and the sample data is expressed as the fault occurrence times in the same period of the mobile terminal.

As a preferred embodiment of the invention, the number ratio of complaint types describing the joint communication faults in the communication complaint types in the communication time period of the mobile terminal and the average time length difference between the occurrence time of the communication faults and the communication complaint time in the communication time period are obtained;

acquiring the times of the communication faults which can be acquired in the same time period in the communication time period of the mobile terminal;

acquiring a reliability evaluation coefficient of the usage data in the communication period; comparing the reliability evaluation coefficient of the usage data in the communication period with a reliability evaluation coefficient threshold value: if the reliability evaluation coefficient of the usage data in the communication period exceeds the reliability evaluation coefficient threshold, judging that the reliability of the usage data in the communication period is qualified; if the reliability evaluation coefficient of the usage data in the communication period does not exceed the reliability evaluation coefficient threshold, judging that the reliability of the usage data in the communication period is unqualified;

and analyzing the qualified use data, and if any data increment span in the qualified use data exceeds a span threshold, debugging and maintaining the communication equipment operated in the current communication period.

As a preferred embodiment of the present invention, the hardware fault evaluation unit operates as follows:

obtaining the running buffer time extension speed of the mobile terminal hardware equipment corresponding to the adjacent time points in the communication period and the maximum difference value of the instruction processing speed of the mobile terminal hardware equipment corresponding to any two time points in the communication period, and comparing the maximum difference value with an extension speed threshold and a minimum difference value threshold respectively:

if the running buffer time length extension speed of the mobile terminal hardware equipment corresponding to the adjacent time points in the communication time period exceeds the extension speed threshold, or the maximum difference value of the instruction processing speeds of the mobile terminal hardware equipment corresponding to any two time points in the communication time period exceeds the maximum difference value threshold, generating a hardware high risk signal and transmitting the hardware high risk signal to a server by a communication end detection unit;

if the running buffer time length extension speed of the mobile terminal hardware equipment corresponding to the adjacent time points in the communication period does not exceed the extension speed threshold and the maximum difference value of the instruction processing speed of the mobile terminal hardware equipment corresponding to any two time points in the communication period does not exceed the maximum difference value threshold, generating a hardware low risk signal and transmitting the hardware low risk signal to a server through a communication terminal detection unit.

As a preferred embodiment of the present invention, the communication quality analysis unit operates as follows:

the method comprises the steps of obtaining deviation amounts of real-time communication congestion rates of mobile terminals in different communication demands in a communication period and switching success rates of switching communication nodes in the communication process of the mobile terminals in the communication period, and comparing the deviation amounts with congestion rate deviation amount thresholds and switching success rate thresholds respectively:

if the deviation amount of the real-time communication congestion rate exceeds the congestion rate deviation amount threshold value in the communication time period when the mobile terminal has different communication demands, or the switching success rate of switching the communication node in the communication process of the mobile terminal does not exceed the switching success rate threshold value in the communication time period, generating a communication quality abnormal signal and transmitting the communication quality abnormal signal to a server by a communication terminal detection unit;

if the deviation of the real-time communication congestion rate does not exceed the congestion rate deviation threshold value in different communication demands of the mobile terminal in the communication period, and the switching success rate of switching the communication node in the communication process of the mobile terminal in the communication period exceeds the switching success rate threshold value, generating a communication quality normal signal and transmitting the communication quality normal signal to the server by the communication terminal detection unit.

As a preferred embodiment of the invention, the simultaneous analysis unit operates as follows:

dividing a communication period into i subperiods, wherein i is a natural number larger than 1, obtaining call drop rate of each subperiod in the communication period, setting a call drop rate threshold value, dividing the subperiod into a high call drop rate period and a low call drop rate period according to the call drop rate threshold value, obtaining deviation duration of the same call drop time in each subperiod in the communication period, corresponding to the connection time of the mobile terminal, and the disconnection time of the mobile terminal, and synchronous frequency of any call drop time in each subperiod, corresponding to the connection time of the mobile terminal, the disconnection time of the mobile terminal, and the synchronous frequency of any call drop time in each subperiod in the communication period, respectively marking the call drop time and the disconnection time of the mobile terminal as the synchronous frequency of call drop.

As a preferred embodiment of the present invention, an average call drop constant value corresponding to a high call drop rate period and a low call drop rate period in a communication period and a floating speed of a call drop frequency corresponding to the high call drop rate period and the low call drop rate period are collected, and compared with an average call drop constant value threshold and a call drop frequency floating speed threshold, respectively:

if the constant value of the average call drop time quantity corresponding to the high call drop rate time period and the low call drop rate time period in the communication time period exceeds the constant value threshold of the average call drop time quantity, or the floating speed of the call drop frequency quantity corresponding to the high call drop rate time period and the low call drop rate time period exceeds the floating speed threshold of the call drop frequency quantity, generating a same-time low-efficiency signal and transmitting the same-time low-efficiency signal to a server by a communication terminal detection unit;

if the constant value of the average call drop time quantity corresponding to the high call drop rate time period and the low call drop rate time period in the communication time period does not exceed the constant value threshold of the average call drop time quantity, and the floating speed of the call drop frequency quantity corresponding to the high call drop rate time period and the low call drop rate time period does not exceed the floating speed threshold of the call drop frequency quantity, generating a same-time high-efficiency signal and transmitting the same-time high-efficiency signal to a server by a communication terminal detection unit.

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

1. in the invention, after the usage data analysis unit receives the usage data analysis signal, the usage data of the mobile terminal is evaluated, and the reliability of the usage data is evaluated, so that the detection and early warning accuracy of the usage data of the mobile terminal is ensured, and the early warning analysis and the timely control of the mobile terminal are facilitated.

2. In the invention, after the hardware fault evaluation unit receives the hardware fault evaluation signal, the hardware fault evaluation is carried out on the mobile terminal in the communication period, and whether the mobile terminal has a risk in the communication period is judged, so that the communication quality of the mobile terminal is detected and early-warned, the running stability of the mobile terminal is improved, and the influence on the communication efficiency caused by untimely early-warning of the hardware fault is avoided; and the mobile terminal in the communication period is subjected to communication quality analysis, and whether the communication quality of the mobile terminal in the communication period is qualified or not is judged through the analysis of the communication terminal, so that the communication detection early warning efficiency of the mobile terminal is improved.

3. According to the method and the device for the communication quality control of the mobile terminal, the mobile terminal is analyzed at the same time, whether the communication efficiency of the mobile terminal meets the requirement is judged, the situation that the communication efficiency of the terminal cannot be guaranteed when the communication quality is qualified is avoided, the communication quality control early warning cannot be performed to the greatest extent, and the communication efficiency of the mobile terminal cannot be guaranteed to meet the actual requirement.

Drawings

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

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

Detailed Description

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 mobile terminal communication quality detection and early warning system based on the internet of things is shown, wherein a detection and early warning platform is in communication connection with a use data analysis unit and a communication end detection unit, and the communication end detection unit is also connected with a communication quality analysis unit, a simultaneous analysis unit and a hardware fault evaluation unit;

when the mobile terminal communicates, the detection and early warning platform generates a usage data analysis signal and sends the usage data analysis signal to the usage data analysis unit, and the usage data analysis unit receives the usage data analysis signal, evaluates the usage data of the mobile terminal and evaluates the reliability of the usage data, thereby ensuring the detection and early warning accuracy of the usage data of the mobile terminal and facilitating early warning analysis and timely control of the mobile terminal;

acquiring mobile terminal use data in a mobile terminal communication period, wherein the mobile terminal use data comprises communication complaint data, time data and sample data of the mobile terminal, the communication complaint data are represented as data such as complaint types or complaint time and the like in the communication period, the time data are represented as parameters such as fault occurrence time or continuous occurrence time and the like in the mobile terminal communication period, and the sample data are represented as parameters such as fault occurrence times and the like in the same period of the mobile terminal;

acquiring the number proportion of complaint types describing joint communication faults in the communication complaint types of the mobile terminal in the communication period and the average time difference between the occurrence time of the communication faults and the communication complaint time in the communication period, and marking the number proportion of the complaint types describing the joint communication faults in the communication complaint types of the mobile terminal in the communication period and the average time difference between the occurrence time of the communication faults and the communication complaint time in the communication period as SLZ and PSC respectively; acquiring the times of the communication faults which can be acquired in the same time period in the communication time period of the mobile terminal, and marking the times of the communication faults which can be acquired in the same time period in the communication time period of the mobile terminal as GCS;

by the formulaAcquiring a reliability evaluation coefficient G of the use data in the communication period, wherein f1, f2 and f3 are preset proportionality coefficients, and f1 is more than f2 and more than f3 is more than 0;

comparing the reliability evaluation coefficient G of the usage data in the communication period with a reliability evaluation coefficient threshold value:

if the reliability evaluation coefficient G of the usage data in the communication period exceeds the reliability evaluation coefficient threshold, judging that the reliability of the usage data in the communication period is qualified; if the reliability evaluation coefficient G of the usage data in the communication period does not exceed the reliability evaluation coefficient threshold, judging that the reliability of the usage data in the communication period is unqualified;

analyzing the qualified use data, and if any data growth span in the qualified use data exceeds a span threshold value, debugging and maintaining the communication equipment operated in the current communication period;

the detection and early warning platform generates a communication end detection signal and sends the communication end detection signal to the communication end detection unit, the communication end detection unit generates a hardware fault assessment signal and sends the hardware fault assessment signal to the hardware fault assessment unit after receiving the communication end detection signal, and the hardware fault assessment unit carries out hardware fault assessment on the mobile terminal in a communication period after receiving the hardware fault assessment signal, and judges whether the mobile terminal has a risk of hardware fault in the communication period, so that the communication quality of the mobile terminal is detected and early warned, the operation stability of the mobile terminal is improved, and the influence on communication efficiency caused by untimely early warning of the hardware fault is avoided;

obtaining the running buffer time extension speed of the mobile terminal hardware equipment corresponding to the adjacent time point in the communication period and the maximum difference value of the instruction processing speed of the mobile terminal hardware equipment corresponding to any two time points in the communication period, and comparing the running buffer time extension speed of the mobile terminal hardware equipment corresponding to the adjacent time point in the communication period and the maximum difference value of the instruction processing speed of the mobile terminal hardware equipment corresponding to any two time points in the communication period with an extension speed threshold value and a minimum difference value threshold value respectively:

if the operation buffer time length extension speed of the mobile terminal hardware equipment corresponding to the adjacent time points in the communication time period exceeds an extension speed threshold value, or the maximum difference value of the instruction processing speeds of the mobile terminal hardware equipment corresponding to any two time points in the communication time period exceeds a maximum difference value threshold value, judging that the hardware fault evaluation in the communication time period is abnormal, generating a hardware high risk signal, transmitting the hardware high risk signal to a server by a communication terminal detection unit, and performing operation debugging on the hardware equipment in the mobile terminal after the server receives the hardware high risk signal;

if the running buffer time length extension speed of the mobile terminal hardware equipment corresponding to the adjacent time points in the communication period does not exceed the extension speed threshold and the maximum difference value of the instruction processing speed of the mobile terminal hardware equipment corresponding to any two time points in the communication period does not exceed the maximum difference value threshold, judging that the hardware fault evaluation in the communication period is normal, generating a hardware low risk signal and transmitting the hardware low risk signal to a server by a communication terminal detection unit;

after hardware fault evaluation is completed, the communication terminal detection unit generates a communication quality analysis signal and sends the communication quality analysis signal to the communication quality analysis unit, the communication quality analysis unit analyzes the communication quality of the mobile terminal in the communication period after receiving the communication quality analysis signal, and the communication terminal analyzes and judges whether the communication quality of the mobile terminal in the communication period is qualified or not, so that the communication detection early warning efficiency of the mobile terminal is improved;

the method comprises the steps of obtaining deviation amounts of real-time communication congestion rates of mobile terminals in different communication demands in a communication period and switching success rates of switching communication nodes in the communication process of the mobile terminals in the communication period, and comparing the deviation amounts of the real-time communication congestion rates of the mobile terminals in the different communication demands in the communication period and the switching success rates of the switching communication nodes in the communication process of the mobile terminals in the communication period with congestion rate deviation amount thresholds and switching success rate thresholds respectively:

if the deviation amount of the real-time communication congestion rate exceeds the congestion rate deviation amount threshold value in the communication time period when the mobile terminal has different communication demands, or the switching success rate of switching communication nodes in the communication process of the mobile terminal does not exceed the switching success rate threshold value in the communication time period, judging that the communication quality analysis of the mobile terminal in the communication time period is abnormal, generating a communication quality abnormal signal and transmitting the communication quality abnormal signal to a server by a communication terminal detection unit; after receiving the communication quality abnormal signal, the server carries out network maintenance on the corresponding mobile terminal;

if the deviation amount of the real-time communication congestion rate does not exceed the congestion rate deviation amount threshold value in different communication demands of the mobile terminal in the communication period and the switching success rate of the switching communication node exceeds the switching success rate threshold value in the communication process of the mobile terminal in the communication period, judging that the communication quality analysis of the mobile terminal in the communication period is normal, generating a communication quality normal signal and transmitting the communication quality normal signal to a server by a communication terminal detection unit; simultaneously generating a simultaneous analysis signal and transmitting the simultaneous analysis signal to a simultaneous analysis unit;

after the simultaneous analysis unit receives the simultaneous analysis signal, the simultaneous analysis is carried out on the mobile terminal, so as to judge whether the communication efficiency of the mobile terminal meets the requirement, and the situation that the communication efficiency of the terminal cannot be ensured when the communication quality is qualified, the communication quality control early warning cannot be carried out to the greatest extent, and the communication efficiency of the mobile terminal cannot be ensured to meet the actual requirement is avoided;

dividing a communication period into i subperiods, wherein i is a natural number larger than 1, obtaining call drop rate of each subperiod in the communication period, setting a call drop rate threshold value, dividing the subperiod into a high call drop rate period and a low call drop rate period according to the call drop rate threshold value, obtaining deviation duration of the same call drop time in each subperiod corresponding to the connection time of the mobile terminal and the disconnection time of the mobile terminal in the communication period and synchronous frequency of the same call drop time in each subperiod corresponding to the connection time of the mobile terminal and the disconnection time of the mobile terminal in the communication period, and marking the deviation duration of the same call drop time in each subperiod corresponding to the connection time of the mobile terminal and the disconnection time of the mobile terminal in the communication period and the synchronous frequency of the same call drop time in each subperiod as call drop time quantity and call drop frequency quantity respectively;

collecting constant values of the average call drop time quantity corresponding to the high call drop rate time period and the low call drop rate time period in the communication time period and floating speeds of the call drop frequency quantity corresponding to the high call drop rate time period and the low call drop rate time period, and comparing the constant values of the average call drop time quantity corresponding to the high call drop rate time period and the low call drop rate time period and the floating speeds of the call drop frequency quantity corresponding to the high call drop rate time period and the low call drop rate time period with the constant value threshold value of the average call drop time quantity and the floating speed threshold value of the call drop frequency quantity respectively:

if the constant value of the average call drop time quantity corresponding to the high call drop rate time period and the low call drop rate time period in the communication time period exceeds the constant value threshold of the average call drop time quantity, or the floating speed of the call drop frequency quantity corresponding to the high call drop rate time period and the low call drop rate time period exceeds the floating speed threshold of the call drop frequency quantity, judging that the simultaneous analysis of the mobile terminal is abnormal, generating simultaneous low-efficiency signals, transmitting the simultaneous low-efficiency signals to a server by a communication terminal detection unit, and controlling the communication quantity of the mobile terminal after the server receives the simultaneous low-efficiency signals;

if the constant value of the average call drop time quantity corresponding to the high call drop rate time period and the low call drop rate time period in the communication time period does not exceed the constant value threshold of the average call drop time quantity, and the floating speed of the call drop frequency quantity corresponding to the high call drop rate time period and the low call drop rate time period does not exceed the floating speed threshold of the call drop frequency quantity, judging that the analysis of the mobile terminal is normal at the same time, generating a high-efficiency signal at the same time, and transmitting the high-efficiency signal at the same time to a server by a communication terminal detection unit;

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 hardware fault evaluation unit performs hardware fault evaluation on the mobile terminal in the communication period, generates a hardware high risk signal or a hardware low risk signal through the hardware fault evaluation, and transmits the hardware high risk signal or the hardware low risk signal to the server through the communication terminal detection unit; after hardware fault evaluation is completed, the communication quality analysis unit analyzes the communication quality of the mobile terminal in the communication period, analyzes and judges whether the communication quality of the mobile terminal in the communication period is qualified from the communication end, and analyzes the mobile terminal with qualified communication quality at the same time through the time analysis unit.

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 mobile terminal communication quality detection and early warning system based on the Internet of things is characterized in that a detection and early warning platform is in communication connection with a use data analysis unit and a communication end detection unit, wherein the communication end detection unit is also connected with a communication quality analysis unit, a simultaneous analysis unit and a hardware fault evaluation unit;

the hardware fault evaluation unit performs hardware fault evaluation on the mobile terminal in the communication period, generates a hardware high risk signal or a hardware low risk signal through the hardware fault evaluation, and transmits the hardware high risk signal or the hardware low risk signal to the server through the communication terminal detection unit; after hardware fault evaluation is completed, the communication quality analysis unit analyzes the communication quality of the mobile terminal in the communication period, analyzes and judges whether the communication quality of the mobile terminal in the communication period is qualified from the communication end, and analyzes the mobile terminal with qualified communication quality at the same time through the time analysis unit.

2. The mobile terminal communication quality detection and early warning system based on the internet of things according to claim 1, wherein the usage data of the mobile terminal is evaluated simultaneously and the reliability of the usage data is evaluated by using the data analysis unit; acquiring mobile terminal use data in a communication period of the mobile terminal, wherein the mobile terminal use data comprises communication complaint data, time data and sample data of the mobile terminal, and the communication complaint data is expressed as complaint type or complaint time effect in the communication period; the time data is expressed as the fault occurrence time or continuous occurrence time in the communication period of the mobile terminal, and the sample data is expressed as the fault occurrence times in the same period of the mobile terminal.

3. The mobile terminal communication quality detection and early warning system based on the Internet of things according to claim 2, characterized in that,

acquiring the number proportion of complaint types describing the joint communication faults in the communication complaint types of the mobile terminal in the communication period and the average time difference value between the occurrence time of the communication faults and the communication complaint time in the communication period;

acquiring the times of the communication faults which can be acquired in the same time period in the communication time period of the mobile terminal;

acquiring a reliability evaluation coefficient of the usage data in the communication period; comparing the reliability evaluation coefficient of the usage data in the communication period with a reliability evaluation coefficient threshold value: if the reliability evaluation coefficient of the usage data in the communication period exceeds the reliability evaluation coefficient threshold, judging that the reliability of the usage data in the communication period is qualified; if the reliability evaluation coefficient of the usage data in the communication period does not exceed the reliability evaluation coefficient threshold, judging that the reliability of the usage data in the communication period is unqualified;

and analyzing the qualified use data, and if any data increment span in the qualified use data exceeds a span threshold, debugging and maintaining the communication equipment operated in the current communication period.

4. The mobile terminal communication quality detection and early warning system based on the internet of things according to claim 1, wherein the operation process of the hardware fault evaluation unit is as follows:

obtaining the running buffer time extension speed of the mobile terminal hardware equipment corresponding to the adjacent time points in the communication period and the maximum difference value of the instruction processing speed of the mobile terminal hardware equipment corresponding to any two time points in the communication period, and comparing the maximum difference value with an extension speed threshold and a minimum difference value threshold respectively:

if the running buffer time length extension speed of the mobile terminal hardware equipment corresponding to the adjacent time points in the communication time period exceeds the extension speed threshold, or the maximum difference value of the instruction processing speeds of the mobile terminal hardware equipment corresponding to any two time points in the communication time period exceeds the maximum difference value threshold, generating a hardware high risk signal and transmitting the hardware high risk signal to a server by a communication end detection unit;

if the running buffer time length extension speed of the mobile terminal hardware equipment corresponding to the adjacent time points in the communication period does not exceed the extension speed threshold and the maximum difference value of the instruction processing speed of the mobile terminal hardware equipment corresponding to any two time points in the communication period does not exceed the maximum difference value threshold, generating a hardware low risk signal and transmitting the hardware low risk signal to a server through a communication terminal detection unit.

5. The mobile terminal communication quality detection and early warning system based on the internet of things according to claim 1, wherein the operation process of the communication quality analysis unit is as follows:

the method comprises the steps of obtaining deviation amounts of real-time communication congestion rates of mobile terminals in different communication demands in a communication period and switching success rates of switching communication nodes in the communication process of the mobile terminals in the communication period, and comparing the deviation amounts with congestion rate deviation amount thresholds and switching success rate thresholds respectively:

if the deviation amount of the real-time communication congestion rate exceeds the congestion rate deviation amount threshold value in the communication time period when the mobile terminal has different communication demands, or the switching success rate of switching the communication node in the communication process of the mobile terminal does not exceed the switching success rate threshold value in the communication time period, generating a communication quality abnormal signal and transmitting the communication quality abnormal signal to a server by a communication terminal detection unit;

if the deviation of the real-time communication congestion rate does not exceed the congestion rate deviation threshold value in different communication demands of the mobile terminal in the communication period, and the switching success rate of switching the communication node in the communication process of the mobile terminal in the communication period exceeds the switching success rate threshold value, generating a communication quality normal signal and transmitting the communication quality normal signal to the server by the communication terminal detection unit.

6. The mobile terminal communication quality detection and early warning system based on the internet of things according to claim 1, wherein the operation process of the simultaneous analysis unit is as follows:

dividing a communication period into i subperiods, wherein i is a natural number larger than 1, obtaining call drop rate of each subperiod in the communication period, setting a call drop rate threshold value, dividing the subperiod into a high call drop rate period and a low call drop rate period according to the call drop rate threshold value, obtaining deviation duration of the same call drop time in each subperiod in the communication period, corresponding to the connection time of the mobile terminal, and the disconnection time of the mobile terminal, and synchronous frequency of any call drop time in each subperiod, corresponding to the connection time of the mobile terminal, the disconnection time of the mobile terminal, and the synchronous frequency of any call drop time in each subperiod in the communication period, respectively marking the call drop time and the disconnection time of the mobile terminal as the synchronous frequency of call drop.

7. The system for detecting and warning the communication quality of the mobile terminal based on the internet of things according to claim 6, wherein the constant value of the average call drop amount corresponding to the high call drop rate period and the low call drop rate period in the communication period and the floating speed of the call drop amount corresponding to the high call drop rate period and the low call drop rate period are collected, and compared with the constant value threshold value of the average call drop amount and the floating speed threshold value of the call drop amount respectively:

if the constant value of the average call drop time quantity corresponding to the high call drop rate time period and the low call drop rate time period in the communication time period exceeds the constant value threshold of the average call drop time quantity, or the floating speed of the call drop frequency quantity corresponding to the high call drop rate time period and the low call drop rate time period exceeds the floating speed threshold of the call drop frequency quantity, generating a same-time low-efficiency signal and transmitting the same-time low-efficiency signal to a server by a communication terminal detection unit;

if the constant value of the average call drop time quantity corresponding to the high call drop rate time period and the low call drop rate time period in the communication time period does not exceed the constant value threshold of the average call drop time quantity, and the floating speed of the call drop frequency quantity corresponding to the high call drop rate time period and the low call drop rate time period does not exceed the floating speed threshold of the call drop frequency quantity, generating a same-time high-efficiency signal and transmitting the same-time high-efficiency signal to a server by a communication terminal detection unit.