CN116224888A - Intelligent regulation and control system for internet of things monitoring terminal - Google Patents

Abstract

The invention discloses an intelligent regulation and control system for an internet of things monitoring terminal, which comprises a monitoring terminal acquisition module, a monitoring ground acquisition module, a monitoring environment acquisition module, a data processing module, a master control module and an information sending module, wherein the monitoring ground acquisition module is used for acquiring information of the monitoring terminal; the monitoring terminal acquisition module is used for acquiring monitoring terminal information, wherein the monitoring terminal information comprises monitoring terminal quantity information, monitoring terminal coverage area information, monitoring terminal position information, monitoring terminal installation duration information, monitoring terminal predicted service life information and monitoring terminal overhaul information; the monitoring ground information acquisition module is used for acquiring monitoring ground information, wherein the monitoring ground information comprises monitoring ground information and monitoring level information; the monitoring environment acquisition module is used for acquiring environment information of the position of the monitoring place, wherein the environment information comprises weather information, humidity information, temperature information and air quality information. The invention can perform intelligent control of the more comprehensive intelligent monitoring terminal.

Description

Intelligent regulation and control system for internet of things monitoring terminal

Technical Field

The invention relates to the field of regulation and control systems, in particular to an intelligent regulation and control system for an internet of things monitoring terminal.

Background

The intelligent monitoring terminal adopts image processing, pattern recognition and computer vision technology, and by adding an intelligent video analysis module in a monitoring system, useless or interference information of a video picture is filtered by means of strong data processing capacity of a computer, different objects are automatically recognized, key useful information in a video source is analyzed and extracted, an accident scene is rapidly and accurately positioned, abnormal conditions in the monitoring picture are judged, and an alarm is sent out or other actions are triggered in the fastest and optimal mode, so that pre-warning, in-process and full-automatic all-weather and real-time intelligent monitoring of timely evidence collection after the accident scene is effectively carried out;

in the actual use process, the monitoring terminal carries out relevant regulation and control on the monitoring terminal through regulation and control information, so that the monitoring terminal can stably carry out monitoring work.

The existing regulation and control system is single in regulation and control type and poor in regulation and control effect, and brings a certain influence to the use of the regulation and control system, so that the intelligent regulation and control system for the monitoring terminal of the Internet of things is provided.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: how to solve the existing regulation and control system, the regulation and control type is single, and the regulation and control effect is poor, the problem that the use of the regulation and control system is influenced to a certain extent is solved, and the intelligent regulation and control system for the monitoring terminal of the Internet of things is provided.

The invention solves the technical problems through the following technical scheme that the invention comprises a monitoring terminal acquisition module, a monitoring ground acquisition module, a monitoring environment acquisition module, a data processing module, a master control module and an information sending module;

the monitoring terminal acquisition module is used for acquiring monitoring terminal information, wherein the monitoring terminal information comprises monitoring terminal quantity information, monitoring terminal coverage area information, monitoring terminal position information, monitoring terminal installation duration information, monitoring terminal predicted service life information and monitoring terminal overhaul information;

the monitoring ground information acquisition module is used for acquiring monitoring ground information, wherein the monitoring ground information comprises monitoring ground information and monitoring level information;

the monitoring environment acquisition module is used for acquiring environment information of the position of the monitored place, wherein the environment information comprises weather information, humidity information, temperature information and air quality information;

the data processing module is used for processing the monitoring terminal information, the monitoring place information and the environment information to generate first terminal regulation and control information, second terminal regulation and control information and third terminal regulation and control information.

The first terminal regulation information comprises monitoring terminal increase and decrease information and monitoring terminal decrease information, and the specific processing process of the monitoring terminal increase and decrease information and the monitoring terminal decrease information is as follows:

step one: the method comprises the steps of extracting collected monitoring terminal information, obtaining monitoring terminal quantity information and coverage area information of the monitoring terminals from the monitoring terminal information, wherein the coverage area information of the monitoring terminals is the monitoring coverage area of a single monitoring terminal, marking the monitoring terminal quantity information as Q1 and marking the coverage area information of the monitoring terminals as Q2;

step two: extracting monitoring area information and monitoring level information from the total monitoring information, marking the monitoring area as P, wherein the monitoring level comprises primary monitoring, secondary monitoring and tertiary monitoring, the primary monitoring standard is that E1 of a monitoring coverage ratio is larger than a preset value a1, the secondary monitoring standard is that E2 of the monitoring coverage ratio is between the preset values a1 and a2, and the tertiary monitoring standard is that E3 of the monitoring coverage ratio is smaller than the preset value a2, and a1 is larger than a2;

step three: by the formula

Acquiring real-time coverage duty ratio information Qp, when the monitoring level is primary monitoring, generating monitoring terminal increasing information when the real-time coverage duty ratio information Qp is more than E1, and when the real-time coverage duty ratio information Qp is less than E1, generating monitoring terminal decreasing information;

step four: when the monitoring level is two-level monitoring and the real-time coverage duty ratio information Qp is more than E2, generating monitoring terminal increasing information, and when the real-time coverage duty ratio information Qp is less than E2, generating monitoring terminal decreasing information;

step five: when the monitoring level is three-level monitoring and the real-time coverage duty ratio information Qp is more than E3, the monitoring terminal increasing information is generated, and when the real-time coverage duty ratio information Qp is less than E3, the monitoring terminal decreasing information is generated.

Further, after the monitoring terminal reduction information is generated, a manager is prompted to reduce the monitoring terminal at the selected position, and the selecting process of the selected position is as follows: extracting the collected monitoring terminal position information, processing the monitoring terminal position information, extracting all monitoring terminal quantity information with equipment spacing smaller than a preset value, and extracting the area where the monitoring terminals with equipment spacing smaller than the preset value are located as a selected position;

after the selected position is determined, selecting a preset number of selected monitoring terminals from the monitoring terminals at the selected position, and removing the selected monitoring terminals.

Further, the determining process of the selected monitoring terminal is as follows: and extracting the installation time length information of the monitoring terminals at the selected positions and the expected service life information of the monitoring terminals, calculating the difference value between the expected service life information of the monitoring terminals and the installation time length information of the monitoring terminals, namely acquiring the selected parameters Ki and i as the quantity information of the monitoring terminals in the selected positions, and extracting the least m of the selected parameters Ki as the selected monitoring terminals.

Further, the calculation process of the demolition number of the selected monitoring terminal is as follows: extracting the quantity information Q1 of the monitoring terminals, the monitoring area P and the coverage area information Q2 of the monitoring terminals, and passing through the formula

I.e. the number of teardown of the selected monitoring terminal Qqp is obtained.

Further, the second terminal regulation and control information comprises integral overhaul information and partial overhaul information, and the specific processing process of the integral overhaul information and the partial overhaul information is as follows:

s1: extracting the number information of the monitoring terminals, the installation duration information of the monitoring terminals of all the monitoring terminals and the estimated service life information of the monitoring terminals;

s2: marking the number information of the monitoring terminals as T, then calculating the difference between the estimated service life information of the T monitoring terminals and the installation duration information of the monitoring terminals, obtaining the service time information of the T monitoring terminals, and then calculating the average value of the service time information of the T monitoring terminals, and obtaining the monitoring evaluation parameter information;

s3: when the overhaul evaluation parameter information is larger than a preset value, extracting overhaul information of the monitoring terminals, wherein the overhaul information of the monitoring terminals is average overhaul frequency information of all the monitoring terminals, and when the average overhaul frequency information of all the monitoring terminals is smaller than the preset value, generating integral lifting overhaul information;

s5: and when the overhaul evaluation parameter information is smaller than a preset value, generating part of lifting overhaul information when the average overhaul frequency information of all the monitoring terminals is smaller than the preset value.

Further, after the partial lifting maintenance information is generated, the maintenance times of the monitoring terminal of the selected part are lifted, and the process of selecting the monitoring terminal of the selected part is as follows: and extracting the using time length information of the T monitoring terminals, and selecting the monitoring terminals with the using time length information larger than a preset value from the using time length information of the T monitoring terminals as the monitoring terminals of the selected part.

Further, the specific processing procedure of the third terminal regulation information is as follows: extracting the collected environmental information, and acquiring weather information, humidity information, temperature information and air quality information from the environmental information, wherein the weather information is weather information within a preset time period, and the weather information comprises rainfall weather and non-rainfall weather;

processing the weather information to obtain weather scoring information M1, wherein the size of the weather scoring information is in direct proportion to the number of days of non-rainfall weather;

the method comprises the steps that average air humidity information in a preset time period of humidity information is processed to obtain humidity scoring information M2, and the size of the humidity scoring information is inversely proportional to the size of humidity weather;

the temperature information is average temperature information in a preset time period, the temperature information is processed to obtain temperature grading information M3, and the size of the temperature grading information is inversely proportional to the size of the average temperature information;

the air quality information is air particulate matter content average value information in a preset time period, the control quality information is processed to obtain air quality scoring information M4, and the size of the air quality scoring information is inversely proportional to the air particulate matter content average value information;

and calculating the sum of weather scoring information M1, humidity scoring information M2, temperature scoring information M3 and air quality scoring information M4, namely obtaining total scoring information, and generating third terminal regulation and control information when the total scoring information is larger than a preset warning value.

Compared with the prior art, the invention has the following advantages: this an intelligent regulation and control system for thing networking monitor terminal, through the first terminal regulation and control information of processing formation to monitor terminal information, monitor ground information and environmental information, second terminal regulation and control information and third terminal regulation and control information, the first terminal information of formation, whether monitor equipment is excessive or monitor equipment is too little in the monitoring position can be known, thereby increase and decrease of monitor equipment is carried out according to actual conditions, production maintenance cost is reduced when guaranteeing the monitoring effect, the regulation and control of timely generation maintenance frequency can be according to the state of real-time monitor equipment to the second terminal regulation and control information of formation, thereby guarantee the maintenance frequency of monitor terminal, reduce the condition emergence that monitor terminal damage was not in time found, guarantee the monitoring quality, the third terminal regulation and control information is generated at the basis after the second terminal regulation and control information is generated, further guarantee monitor terminal's maintenance frequency stability, thereby make monitor terminal can long-term steady operation, reduce because monitor terminal damage the unexpected emergence that leads to, let this system be worth popularizing more.

Drawings

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

Detailed Description

The following describes in detail the examples of the present invention, which are implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific operation procedures are given, but the scope of protection of the present invention is not limited to the following examples.

As shown in fig. 1, this embodiment provides a technical solution: an intelligent regulation and control system for an internet of things monitoring terminal comprises a monitoring terminal acquisition module, a monitoring ground acquisition module, a monitoring environment acquisition module, a data processing module, a master control module and an information sending module;

the monitoring terminal acquisition module is used for acquiring monitoring terminal information, wherein the monitoring terminal information comprises monitoring terminal quantity information, monitoring terminal coverage area information, monitoring terminal position information, monitoring terminal installation duration information, monitoring terminal predicted service life information and monitoring terminal overhaul information;

the monitoring ground information acquisition module is used for acquiring monitoring ground information, wherein the monitoring ground information comprises monitoring ground information and monitoring level information;

the monitoring environment acquisition module is used for acquiring environment information of the position of the monitored place, wherein the environment information comprises weather information, humidity information, temperature information and air quality information;

the data processing module is used for processing the monitoring terminal information, the monitoring place information and the environment information to generate first terminal regulation information, second terminal regulation information and third terminal regulation information;

according to the invention, the monitoring terminal information, the monitoring place information and the environment information are processed to generate the first terminal regulation information, the second terminal regulation information and the third terminal regulation information, and the generated first terminal information can know whether the monitoring equipment is excessive or too little in the monitoring position, so that the monitoring equipment is increased or decreased according to the actual condition, the production maintenance cost is reduced while the monitoring effect is ensured, and meanwhile, the generated second terminal regulation information can timely generate the regulation and control of the maintenance frequency according to the state of the real-time monitoring equipment, so that the maintenance frequency of the monitoring terminal is ensured, the occurrence of the condition that the damage of the monitoring terminal is not found in time is reduced, the monitoring quality is ensured, the third terminal regulation information is generated on the basis of the second terminal regulation information, and the maintenance frequency of the monitoring terminal is further ensured to be stable, so that the monitoring terminal can stably operate for a long time, the accident caused by the damage of the monitoring terminal is reduced, and the system is more worth popularizing.

The first terminal regulation information comprises monitoring terminal increasing and decreasing information and monitoring terminal decreasing information, and the specific processing process of the monitoring terminal increasing and decreasing information and the monitoring terminal decreasing information is as follows:

step one: the method comprises the steps of extracting collected monitoring terminal information, obtaining monitoring terminal quantity information and coverage area information of the monitoring terminals from the monitoring terminal information, wherein the coverage area information of the monitoring terminals is the monitoring coverage area of a single monitoring terminal, marking the monitoring terminal quantity information as Q1 and marking the coverage area information of the monitoring terminals as Q2;

step two: extracting monitoring area information and monitoring level information from the total monitoring information, marking the monitoring area as P, wherein the monitoring level comprises primary monitoring, secondary monitoring and tertiary monitoring, the primary monitoring standard is that E1 of a monitoring coverage ratio is larger than a preset value a1, the secondary monitoring standard is that E2 of the monitoring coverage ratio is between the preset values a1 and a2, and the tertiary monitoring standard is that E3 of the monitoring coverage ratio is smaller than the preset value a2, and a1 is larger than a2;

step three: by the formula

Acquiring real-time coverage duty ratio information Qp, when the monitoring level is primary monitoring, generating monitoring terminal increasing information when the real-time coverage duty ratio information Qp is more than E1, and when the real-time coverage duty ratio information Qp is less than E1, generating monitoring terminal decreasing information;

step four: when the monitoring level is two-level monitoring and the real-time coverage duty ratio information Qp is more than E2, generating monitoring terminal increasing information, and when the real-time coverage duty ratio information Qp is less than E2, generating monitoring terminal decreasing information;

step five: when the monitoring level is three-level monitoring and the real-time coverage duty ratio information Qp is more than E3, generating monitoring terminal increasing information, and when the real-time coverage duty ratio information Qp is less than E3, generating monitoring terminal decreasing information;

the comprehensive processing is performed on the quantity information of the monitoring terminals and the actual monitoring area, so that the monitoring terminals are increased or reduced according to the real-time situation, the monitoring quality is ensured, and the management and maintenance cost of the monitoring terminals is reduced to the greatest extent.

After the monitoring terminal reduction information is generated, prompting a manager to reduce the monitoring terminal at the selected position, wherein the selected process of the selected position is as follows: extracting the collected monitoring terminal position information, processing the monitoring terminal position information, extracting all monitoring terminal quantity information with equipment spacing smaller than a preset value, and extracting the area where the monitoring terminals with equipment spacing smaller than the preset value are located as a selected position;

after the selected position is determined, selecting a preset number of selected monitoring terminals from the monitoring terminals at the selected position, and removing the selected monitoring terminals;

through the process, the approximate position of the monitoring terminal to be dismantled can be determined more accurately, so that the condition that the monitoring terminal is not covered in place due to the fact that the monitoring terminal is dismantled at will is avoided.

The determining process of the selected monitoring terminal is as follows: the method comprises the steps of extracting the installation time length information of the monitoring terminals at the selected positions and the expected service life information of the monitoring terminals, calculating the difference value between the expected service life information of the monitoring terminals and the installation time length information of the monitoring terminals, namely acquiring selected parameters Ki and i as the quantity information of the monitoring terminals in the selected positions, extracting the least m of the selected parameters Ki as the selected monitoring terminals, and calculating the dismantling quantity of the selected monitoring terminals as follows: extracting the quantity information Q1 of the monitoring terminals, the monitoring area P and the coverage area information Q2 of the monitoring terminals, and passing through the formula

Namely, acquiring the dismantling number Qqp of the selected monitoring terminals;

through the process, the number of the terminal equipment to be removed and the number of the monitoring terminal equipment to be removed can be further determined, and the situations of error removal and the like are prevented.

The second terminal regulation and control information comprises integral overhaul information and partial overhaul information, and the specific processing procedures of the integral overhaul information and the partial overhaul information are as follows:

s1: extracting the number information of the monitoring terminals, the installation duration information of the monitoring terminals of all the monitoring terminals and the estimated service life information of the monitoring terminals;

s2: marking the number information of the monitoring terminals as T, then calculating the difference between the estimated service life information of the T monitoring terminals and the installation duration information of the monitoring terminals, obtaining the service time information of the T monitoring terminals, and then calculating the average value of the service time information of the T monitoring terminals, and obtaining the monitoring evaluation parameter information;

s3: when the overhaul evaluation parameter information is larger than a preset value, extracting overhaul information of the monitoring terminals, wherein the overhaul information of the monitoring terminals is average overhaul frequency information of all the monitoring terminals, and when the average overhaul frequency information of all the monitoring terminals is smaller than the preset value, generating integral lifting overhaul information;

s5: when the overhaul evaluation parameter information is smaller than a preset value, generating partial lifting overhaul information when the average overhaul frequency information of all the monitoring terminals is smaller than the preset value;

through the process, whether the whole terminal equipment is overhauled or partially maintained can be selected according to the actual state of the monitoring terminal, so that blind whole maintenance is avoided, the monitoring terminal is affected to monitor, and meanwhile, the operation and maintenance cost can be reduced to a certain extent.

After the partial lifting overhaul information is generated, overhaul times of the monitoring terminal of the selected part are lifted, and the process of selecting the monitoring terminal of the selected part is as follows: extracting the using time length information of the T monitoring terminals, and selecting the monitoring terminals with the using time length information larger than a preset value from the using time length information of the T monitoring terminals as the monitoring terminals of the selected part;

through the process, the equipment monitoring equipment which needs to be partially lifted for overhauling and maintaining frequency can be more accurately selected, the trouble of manual determination is omitted, and the overhauling and maintaining progress is quickened.

The specific processing process of the third terminal regulation information is as follows: extracting the collected environmental information, and acquiring weather information, humidity information, temperature information and air quality information from the environmental information, wherein the weather information is weather information within a preset time period, and the weather information comprises rainfall weather and non-rainfall weather;

processing the weather information to obtain weather scoring information M1, wherein the size of the weather scoring information is in direct proportion to the number of days of non-rainfall weather;

the method comprises the steps that average air humidity information in a preset time period of humidity information is processed to obtain humidity scoring information M2, and the size of the humidity scoring information is inversely proportional to the size of humidity weather;

the temperature information is average temperature information in a preset time period, the temperature information is processed to obtain temperature grading information M3, and the size of the temperature grading information is inversely proportional to the size of the average temperature information;

the air quality information is air particulate matter content average value information in a preset time period, the control quality information is processed to obtain air quality scoring information M4, and the size of the air quality scoring information is inversely proportional to the air particulate matter content average value information;

calculating the sum of weather scoring information M1, humidity scoring information M2, temperature scoring information M3 and air quality scoring information M4 to obtain total scoring information, and generating third terminal regulation and control information when the total scoring information is larger than a preset warning value;

the third terminal regulation information is generated on the basis of the second terminal regulation information, namely, after the second terminal regulation information is generated, the third terminal regulation information is generated at the same time;

the third terminal regulation information is considered to influence environmental factors on the monitoring terminal, and the mechanical life of the monitoring terminal can be greatly reduced when the monitoring terminal is in a rainy day, a humid environment, a high-temperature environment and an environment with overhigh dust concentration for a long time, so that the overhaul evaluation rate of the monitoring terminal can be further improved according to the change of the environmental state through the generated third terminal regulation information, and the monitoring terminal can still stably monitor under a severe monitoring environment.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means 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 are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the invention, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the invention.

Claims (8)

1. The intelligent regulation and control system for the internet of things monitoring terminal is characterized by comprising a monitoring terminal acquisition module, a monitoring ground acquisition module, a monitoring environment acquisition module, a data processing module, a master control module and an information sending module;

the monitoring terminal acquisition module is used for acquiring monitoring terminal information, wherein the monitoring terminal information comprises monitoring terminal quantity information, monitoring terminal coverage area information, monitoring terminal position information, monitoring terminal installation duration information, monitoring terminal predicted service life information and monitoring terminal overhaul information;

the monitoring ground information acquisition module is used for acquiring monitoring ground information, wherein the monitoring ground information comprises monitoring ground information and monitoring level information;

the monitoring environment acquisition module is used for acquiring environment information of the position of the monitored place, wherein the environment information comprises weather information, humidity information, temperature information and air quality information;

the data processing module is used for processing the monitoring terminal information, the monitoring place information and the environment information to generate first terminal regulation and control information, second terminal regulation and control information and third terminal regulation and control information.

2. The intelligent regulation and control system for an internet of things monitoring terminal according to claim 1, wherein: the first terminal regulation and control information comprises monitoring terminal increase and decrease information and monitoring terminal decrease information, and the specific processing process of the monitoring terminal increase and decrease information and the monitoring terminal decrease information is as follows:

step one: the method comprises the steps of extracting collected monitoring terminal information, obtaining monitoring terminal quantity information and coverage area information of the monitoring terminals from the monitoring terminal information, wherein the coverage area information of the monitoring terminals is the monitoring coverage area of a single monitoring terminal, marking the monitoring terminal quantity information as Q1 and marking the coverage area information of the monitoring terminals as Q2;

step two: extracting monitoring area information and monitoring level information from the total monitoring information, marking the monitoring area as P, wherein the monitoring level comprises primary monitoring, secondary monitoring and tertiary monitoring, the primary monitoring standard is that E1 of a monitoring coverage ratio is larger than a preset value a1, the secondary monitoring standard is that E2 of the monitoring coverage ratio is between the preset values a1 and a2, and the tertiary monitoring standard is that E3 of the monitoring coverage ratio is smaller than the preset value a2, and a1 is larger than a2;

step three: by the formula

Acquiring real-time coverage duty ratio information Qp, when the monitoring level is primary monitoring, generating monitoring terminal increasing information when the real-time coverage duty ratio information Qp is more than E1, and when the real-time coverage duty ratio information Qp is less than E1, generating monitoring terminal decreasing information;

step four: when the monitoring level is two-level monitoring and the real-time coverage duty ratio information Qp is more than E2, generating monitoring terminal increasing information, and when the real-time coverage duty ratio information Qp is less than E2, generating monitoring terminal decreasing information;

step five: when the monitoring level is three-level monitoring and the real-time coverage duty ratio information Qp is more than E3, the monitoring terminal increasing information is generated, and when the real-time coverage duty ratio information Qp is less than E3, the monitoring terminal decreasing information is generated.

3. The intelligent regulation and control system for an internet of things monitoring terminal according to claim 2, wherein: after the monitoring terminal reduction information is generated, a manager is prompted to reduce the monitoring terminal at the selected position, and the selected process of the selected position is as follows: extracting the collected monitoring terminal position information, processing the monitoring terminal position information, extracting all monitoring terminal quantity information with equipment spacing smaller than a preset value, and extracting the area where the monitoring terminals with equipment spacing smaller than the preset value are located as a selected position;

after the selected position is determined, selecting a preset number of selected monitoring terminals from the monitoring terminals at the selected position, and removing the selected monitoring terminals.

4. The intelligent regulation and control system for an internet of things monitoring terminal according to claim 3, wherein: the determining process of the selected monitoring terminal is as follows: and extracting the installation time length information of the monitoring terminals at the selected positions and the expected service life information of the monitoring terminals, calculating the difference value between the expected service life information of the monitoring terminals and the installation time length information of the monitoring terminals, namely acquiring the selected parameters Ki and i as the quantity information of the monitoring terminals in the selected positions, and extracting the least m of the selected parameters Ki as the selected monitoring terminals.

5. The intelligent regulation and control system for an internet of things monitoring terminal according to claim 3, wherein: the calculation process of the dismantling number of the selected monitoring terminals is as follows: extracting the quantity information Q1 of the monitoring terminals, the monitoring area P and the coverage area information Q2 of the monitoring terminals, and passing through the formula

I.e. the number of teardown of the selected monitoring terminal Qqp is obtained.

6. The intelligent regulation and control system for an internet of things monitoring terminal according to claim 1, wherein: the second terminal regulation and control information comprises integral overhaul information and partial overhaul information, and the specific processing procedures of the integral overhaul information and the partial overhaul information are as follows:

s1: extracting the number information of the monitoring terminals, the installation duration information of the monitoring terminals of all the monitoring terminals and the estimated service life information of the monitoring terminals;

s2: marking the number information of the monitoring terminals as T, then calculating the difference between the estimated service life information of the T monitoring terminals and the installation duration information of the monitoring terminals, obtaining the service time information of the T monitoring terminals, and then calculating the average value of the service time information of the T monitoring terminals, and obtaining the monitoring evaluation parameter information;

s3: when the overhaul evaluation parameter information is larger than a preset value, extracting overhaul information of the monitoring terminals, wherein the overhaul information of the monitoring terminals is average overhaul frequency information of all the monitoring terminals, and when the average overhaul frequency information of all the monitoring terminals is smaller than the preset value, generating integral lifting overhaul information;

s5: and when the overhaul evaluation parameter information is smaller than a preset value, generating part of lifting overhaul information when the average overhaul frequency information of all the monitoring terminals is smaller than the preset value.

7. The intelligent regulation and control system for an internet of things monitoring terminal according to claim 6, wherein: after the partial lifting overhaul information is generated, overhaul times of the monitoring terminal of the selected part are lifted, and the process of the monitoring terminal of the selected part is as follows: and extracting the using time length information of the T monitoring terminals, and selecting the monitoring terminals with the using time length information larger than a preset value from the using time length information of the T monitoring terminals as the monitoring terminals of the selected part.

8. The intelligent regulation and control system for an internet of things monitoring terminal according to claim 1, wherein: the specific processing process of the third terminal regulation information is as follows: extracting the collected environmental information, and acquiring weather information, humidity information, temperature information and air quality information from the environmental information, wherein the weather information is weather information within a preset time period, and the weather information comprises rainfall weather and non-rainfall weather;

processing the weather information to obtain weather scoring information M1, wherein the size of the weather scoring information is in direct proportion to the number of days of non-rainfall weather;

the method comprises the steps that average air humidity information in a preset time period of humidity information is processed to obtain humidity scoring information M2, and the size of the humidity scoring information is inversely proportional to the size of humidity weather;

the temperature information is average temperature information in a preset time period, the temperature information is processed to obtain temperature grading information M3, and the size of the temperature grading information is inversely proportional to the size of the average temperature information;

the air quality information is air particulate matter content average value information in a preset time period, the control quality information is processed to obtain air quality scoring information M4, and the size of the air quality scoring information is inversely proportional to the air particulate matter content average value information;

and calculating the sum of weather scoring information M1, humidity scoring information M2, temperature scoring information M3 and air quality scoring information M4, namely obtaining total scoring information, and generating third terminal regulation and control information when the total scoring information is larger than a preset warning value.

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