CN113158849A - Industrial equipment communication microprocessor and method based on 5G - Google Patents

Abstract

The invention discloses a 5G-based industrial equipment communication microprocessor and a method, relates to the technical field of intelligent construction site management, and solves the technical problem that the management efficiency is reduced because an intelligent construction site system in the prior art cannot accurately monitor the environment in a construction site; monitor the environment, improved wisdom building site security performance, improved building site management's work efficiency.

Description

Industrial equipment communication microprocessor and method based on 5G

Technical Field

The invention relates to the technical field of intelligent construction site management, in particular to a 5G-based industrial equipment communication microprocessor and a method.

Background

The intelligent construction site is realized in the industry of the intelligent earth concept in the engineering field, and is a brand-new engineering full life cycle management concept; the intelligent construction site is characterized in that an informatization means is used, engineering projects are accurately designed and simulated through a three-dimensional design platform, a construction project informatization ecological circle with interconnection cooperation, intelligent production and scientific management is built around construction process management, data mining analysis is carried out on the data and engineering information collected by the Internet of things in a virtual reality environment, process trend prediction and expert plans are provided, visual intelligent management of engineering construction is achieved, engineering management informatization level is improved, and green construction and ecological construction are gradually achieved.

However, in the prior art, the wisdom building site system can not accurately monitor the environment in the building site, leads to the managerial efficiency reduction.

Disclosure of Invention

The invention aims to provide a 5G-based industrial equipment communication microprocessor and a method, wherein an environment monitoring unit is used for analyzing environment information of a construction site so as to monitor the environment of the construction site, the maximum decibel value generated when equipment in the construction site operates, the dust content in the air when the equipment in the construction site operates and the average humidity of the surrounding environment of the equipment in the construction site all day are obtained, the environment monitoring coefficients Xi of all areas in the construction site are obtained through a formula, and the environment monitoring coefficients Xi of all areas in the construction site are compared with the environment monitoring coefficient threshold values of the areas; the environment is monitored, so that the safety performance of the intelligent construction site is improved, and the working efficiency of construction site management is improved;

the purpose of the invention can be realized by the following technical scheme:

A5G-based industrial equipment communication microprocessor comprises a microprocessor, wherein the microprocessor is in communication connection with an environment monitoring unit, an equipment monitoring unit, an identity verification unit, a personnel safety monitoring unit, a registration login unit and a database;

the environmental monitoring unit is used for analyzing the environmental information of building site to monitor the environment of building site, environmental information includes decibel data, air data and humidity data, the biggest decibel value that the decibel data produced when equipment was operated in the building site, the dust content in the air of air when the equipment was operated in the building site of air data, humidity data is the average humidity all day of equipment week border ring border in the building site, divide the building site into a plurality of regions, and mark it as i, i is 1, 2, … …, n, n is positive integer, concrete analysis monitoring process is as follows:

step SS 1: acquiring a maximum decibel value generated when equipment in a construction site operates, and marking the maximum decibel value generated when the equipment in the construction site operates as FBi;

step SS 2: acquiring the dust content of the air in the operation of the on-site equipment, and marking the dust content of the air in the operation of the on-site equipment as HLi;

step SS 3: acquiring the average humidity of the surrounding environment of the equipment in the construction site all day, and marking the average humidity of the surrounding environment of the equipment in the construction site all day as SDi;

step SS 4: by the formula

Acquiring environment monitoring coefficients Xi of all regions in a construction site, wherein a1, a2 and a3 are all proportionality coefficients, and a1 is greater than a2 is greater than a3 is greater than 0;

step SS 5: comparing the environmental monitoring coefficients Xi of the various regions within the worksite with the environmental monitoring coefficient threshold values of the regions:

if the environment monitoring coefficient Xi of each area in the construction site is not less than the environment monitoring coefficient threshold of the area, judging that the environment monitoring of the corresponding area is abnormal, generating an environment monitoring abnormal signal and sending the environment monitoring abnormal signal and the corresponding environment monitoring abnormal area to a mobile phone terminal of a maintainer;

and if the environment monitoring coefficient Xi of each region in the construction site is less than the threshold value of the environment monitoring coefficient of the region, judging that the environment monitoring of the corresponding region is normal, generating a normal environment monitoring signal and sending the normal environment monitoring signal and the normal corresponding environment monitoring region to a mobile phone terminal of a manager.

Further, equipment monitoring unit is used for carrying out the analysis to equipment operation information in the building site, thereby monitor equipment in the building site, equipment operation information includes weight data in the building site, wind data and frequency data, weight data is the average weight that rises of equipment all the day in the building site, wind data is the average wind force value all the day in the equipment all the day in the peripheral environment of building site, frequency data is the change frequency of wind direction in the equipment all the day in the peripheral environment of building site, equipment includes lift or tower crane in the building site, with equipment mark in the building site as o, o is 1, 2, … …, m, m is positive integer, concrete analysis monitoring process is as follows:

step S1: acquiring the average lifting weight of equipment in the construction site all day, and marking the average lifting weight of the equipment in the construction site all day as ZLo;

step S2: acquiring an average wind force value of the equipment surrounding environment in the construction site all day, and marking the average wind force value of the equipment surrounding environment in the construction site all day as FLo;

step S3: acquiring the change frequency of the wind direction in the surrounding environment of the equipment in the construction site, and marking the change frequency of the wind direction in the surrounding environment of the equipment in the construction site as PLo;

step S4: by the formula

Acquiring a monitoring coefficient Xo of equipment in a construction site, wherein b1, b2 and b3 are proportional coefficients, b1 is greater than b2 is greater than b3 is greater than 0, and e is a natural constant;

step S5: comparing the monitoring coefficient Xo of the in-site equipment to a monitoring coefficient threshold for the equipment:

if the monitoring coefficient Xo of the equipment in the construction site is not less than the monitoring coefficient threshold of the equipment, judging that the corresponding equipment is abnormal in monitoring, generating a production adjusting signal and sending the production adjusting signal and the corresponding equipment to a mobile phone terminal of a maintainer, and carrying out production frequency adjustment on the corresponding equipment after the maintainer receives the production adjusting signal;

and if the monitoring coefficient Xo of the equipment in the construction site is less than the monitoring coefficient threshold value of the equipment, judging that the corresponding equipment is normally monitored, generating an equipment normal signal and sending the equipment normal signal and the corresponding equipment to a mobile phone terminal of a manager.

Further, the identity verification unit carries out identity verification to the personnel who get into the building site in real time to monitor personnel in the building site, specific identity verification process is as follows:

step T1: acquiring photos of managers and maintainers in a database, and marking the photos of the managers and the maintainers in the database as comparison photos;

step T2: a face acquisition camera is arranged at a position 5m away from a construction site entrance, face photos of people entering the construction site in real time are acquired, the people entering the construction site in real time are marked as real-time people, then three face photos of the real-time people in a motion state are acquired, and frame removing gray processing is carried out on the three face photos;

step T3: and then, respectively comparing the three face photos with the comparison photos, judging whether the comparison photos corresponding to the three comparison results are consistent, if the comparison photos are the same, judging that the real-time personnel are site workers, marking the site workers as familiar personnel, if the comparison photos are not the same, sequencing the similarities corresponding to the comparison results, if the first-ranked similarity is larger than or equal to a similarity threshold value, judging that the real-time personnel corresponding to the first-ranked similarity are site workers, if the first-ranked similarity is smaller than the similarity threshold value, judging that the real-time personnel corresponding to the first-ranked similarity are not site workers, marking the site workers as strangers, generating a registration signal, and sending the registration signal to a mobile phone terminal of a manager.

Further, the personnel safety monitoring unit is used for carrying out safety monitoring on personnel entering a construction site, and the specific safety monitoring process is as follows:

step TT 1: attaching the micro safety helmet tags to photos in a database, acquiring the face photos of all personnel in a construction site, comparing the face photos of the personnel with the photos, to which the safety helmet tags are correspondingly attached, in the database, if the photos are inconsistent, judging that the corresponding personnel do not carry the safety helmet, generating an early warning signal, and sending the early warning signal and the positions of the personnel to a mobile phone terminal of a manager; then, distinguishing the personnel in the construction site according to the familiar personnel and the strangers;

step TT 2: acquiring a daily work area of a familiar person, marking the daily work area as a work area, then acquiring an environment monitoring coefficient and an equipment monitoring coefficient of a corresponding area, and comparing the environment monitoring coefficient and the equipment monitoring coefficient with corresponding threshold values: if the environment monitoring coefficient is larger than or equal to the environment monitoring coefficient threshold value, the equipment monitoring coefficient is larger than or equal to the equipment monitoring coefficient threshold value, the work safety risk corresponding to the familiar person is judged to be high, if the environment monitoring coefficient is smaller than the environment monitoring coefficient threshold value, the equipment monitoring coefficient is larger than or equal to the equipment monitoring coefficient threshold value, the work safety risk corresponding to the familiar person is judged to be high, if the environment monitoring coefficient is larger than or equal to the environment monitoring coefficient threshold value, the equipment monitoring coefficient is smaller than the equipment monitoring coefficient threshold value, the work safety risk corresponding to the familiar person is judged to be high, if the environment monitoring coefficient is smaller than the environment monitoring coefficient threshold value, the equipment monitoring coefficient is smaller than the equipment monitoring coefficient threshold value, the work safety risk corresponding to the familiar person is judged to be low;

step TT 3: acquiring the running track of strangers in a construction site, acquiring a working area covered by the running track, acquiring the stay time of the strangers in the working area, and comparing the stay time of a high-risk area with that of a low-risk area: if the stay time in the high risk area is longer than or equal to that in the low risk area, generating an early warning signal and sending the early warning signal and the geographic position corresponding to the stranger to the mobile phone terminal of the manager, otherwise, generating a safety signal and sending the safety signal to the mobile phone terminal of the manager, wherein the high risk area comprises areas with high environmental safety risk, high equipment safety risk and high environmental safety risk and equipment safety risk, and the low risk area comprises areas with low environmental safety risk and equipment safety risk.

Further, the registration login unit is used for the manager and the maintainer to submit the manager information and the maintainer information for registration through the mobile phone terminal, and the manager information and the maintainer information which are successfully registered are sent to the database for storage, the manager information comprises the name, the age, the time of entry, the photo of the manager and the mobile phone terminal for personal real name authentication, and the maintainer information comprises the name, the age, the time of entry, the photo of the maintainer and the mobile phone terminal for personal real name authentication.

A microprocessor communication method for industrial equipment based on 5G comprises the following steps:

step one, registering and logging, wherein a manager and a maintainer register through a registering and logging unit;

secondly, monitoring the environment, namely analyzing the environment information of the construction site through an environment monitoring unit so as to monitor the environment of the construction site;

step three, equipment monitoring, wherein an equipment monitoring unit analyzes equipment operation information in the construction site so as to monitor equipment in the construction site;

performing personnel identity verification, namely performing identity verification on personnel entering the construction site in real time through an identity verification unit so as to monitor the personnel in the construction site;

and fifthly, monitoring personnel safety, wherein the personnel entering the construction site are monitored safely through a personnel safety monitoring unit.

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

1. the environment monitoring method comprises the steps that an environment monitoring unit is used for analyzing environment information of a construction site so as to monitor the environment of the construction site, the maximum decibel value generated when equipment in the construction site operates, the dust content in air when the equipment in the construction site operates and the average humidity of the surrounding environment of the equipment in the construction site all day around are obtained, the environment monitoring coefficients Xi of all areas in the construction site are obtained through a formula, and the environment monitoring coefficients Xi of all the areas in the construction site are compared with the environment monitoring coefficient threshold values of the areas; the environment is monitored, so that the safety performance of the intelligent construction site is improved, and the working efficiency of construction site management is improved;

2. according to the method, the equipment operation information in the construction site is analyzed through an equipment monitoring unit, so that the equipment in the construction site is monitored, the average lifting weight of the equipment in the construction site all day long, the average wind force value of the equipment in the surrounding environment of the construction site all day long and the change frequency of the wind direction in the surrounding environment of the equipment in the construction site are obtained, the monitoring coefficient Xo of the equipment in the construction site is obtained through a formula, and the monitoring coefficient Xo of the equipment in the construction site is compared with the monitoring coefficient threshold value of the equipment; the device is monitored, the safety factor of worker work is improved, and meanwhile, the safety of workers entering a construction site is improved.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

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

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, a 5G-based industrial equipment communication microprocessor includes a microprocessor, which is in communication connection with an environment monitoring unit, an equipment monitoring unit, an identity authentication unit, a personnel safety monitoring unit, a registration unit and a database;

the registration login unit is used for the manager and the maintainer to submit manager information and maintainer information for registration through the mobile phone terminal, and sending the manager information and the maintainer information which are successfully registered to the database for storage, wherein the manager information comprises the name, the age, the time of entry, the photo of the manager and the mobile phone terminal for authenticating the real name of the manager, and the maintainer information comprises the name, the age, the time of entry, the photo of the maintainer and the mobile phone terminal for authenticating the real name of the maintainer;

the environment monitoring unit is used for analyzing the environmental information of building site, thereby monitor the environment of building site, environmental information includes decibel data, air data and humidity data, the maximum decibel value that the decibel data produced when equipment was operated in the building site, the dust content in the air of air when the air data was operated when equipment was operated in the building site, humidity data is the average humidity all day of equipment week ring border in the building site, divide the building site into a plurality of regions, and mark it as i, i is 1, 2, … …, n, n is the positive integer, concrete analysis monitoring process is as follows:

step SS 1: acquiring a maximum decibel value generated when equipment in a construction site operates, and marking the maximum decibel value generated when the equipment in the construction site operates as FBi;

step SS 2: acquiring the dust content of the air in the operation of the on-site equipment, and marking the dust content of the air in the operation of the on-site equipment as HLi;

step SS 3: acquiring the average humidity of the surrounding environment of the equipment in the construction site all day, and marking the average humidity of the surrounding environment of the equipment in the construction site all day as SDi;

step SS 4: by the formula

Acquiring environment monitoring coefficients Xi of all regions in a construction site, wherein a1, a2 and a3 are all proportionality coefficients, and a1 is greater than a2 is greater than a3 is greater than 0;

step SS 5: comparing the environmental monitoring coefficients Xi of the various regions within the worksite with the environmental monitoring coefficient threshold values of the regions:

if the environment monitoring coefficient Xi of each area in the construction site is not less than the environment monitoring coefficient threshold of the area, judging that the environment monitoring of the corresponding area is abnormal, generating an environment monitoring abnormal signal and sending the environment monitoring abnormal signal and the corresponding environment monitoring abnormal area to a mobile phone terminal of a maintainer;

if the environment monitoring coefficient Xi of each area in the construction site is smaller than the threshold value of the environment monitoring coefficient of the area, judging that the environment monitoring of the corresponding area is normal, generating a normal environment monitoring signal and sending the normal environment monitoring signal and the normal corresponding environment monitoring area to a mobile phone terminal of a manager;

equipment monitoring unit is used for carrying out the analysis to equipment operation information in the building site, thereby monitor equipment in the building site, equipment operation information includes weight data in the building site, wind data and frequency data, weight data is the average hoisting weight of equipment all the day in the building site, wind data is the average wind force value all the day in the equipment all the day in the building site, frequency data is the change frequency of wind direction in the equipment all the day in the building site, equipment includes lift or tower crane in the building site, with equipment mark o in the building site, o is 1, 2, … …, m, m is positive integer, concrete analysis monitored control process is as follows:

step S1: acquiring the average lifting weight of equipment in the construction site all day, and marking the average lifting weight of the equipment in the construction site all day as ZLo;

step S2: acquiring an average wind force value of the equipment surrounding environment in the construction site all day, and marking the average wind force value of the equipment surrounding environment in the construction site all day as FLo;

step S3: acquiring the change frequency of the wind direction in the surrounding environment of the equipment in the construction site, and marking the change frequency of the wind direction in the surrounding environment of the equipment in the construction site as PLo;

step S4: by the formula

Acquiring a monitoring coefficient Xo of equipment in a construction site, wherein b1, b2 and b3 are proportional coefficients, b1 is greater than b2 is greater than b3 is greater than 0, and e is a natural constant;

step S5: comparing the monitoring coefficient Xo of the in-site equipment to a monitoring coefficient threshold for the equipment:

if the monitoring coefficient Xo of the equipment in the construction site is not less than the monitoring coefficient threshold of the equipment, judging that the corresponding equipment is abnormal in monitoring, generating a production adjusting signal and sending the production adjusting signal and the corresponding equipment to a mobile phone terminal of a maintainer, and carrying out production frequency adjustment on the corresponding equipment after the maintainer receives the production adjusting signal;

if the monitoring coefficient Xo of the equipment in the construction site is smaller than the monitoring coefficient threshold value of the equipment, judging that the corresponding equipment is normally monitored, generating an equipment normal signal and sending the equipment normal signal and the corresponding equipment to a mobile phone terminal of a manager;

the identity authentication unit carries out identity authentication to the personnel who get into the building site in real time to monitor personnel in the building site, specific identity authentication process as follows:

step T1: acquiring photos of managers and maintainers in a database, and marking the photos of the managers and the maintainers in the database as comparison photos;

step T2: a face acquisition camera is arranged at a position 5m away from a construction site entrance, face photos of people entering the construction site in real time are acquired, the people entering the construction site in real time are marked as real-time people, then three face photos of the real-time people in a motion state are acquired, and frame removing gray processing is carried out on the three face photos;

step T3: then, the three face photos are compared with the comparison photos respectively, whether the comparison photos corresponding to the three comparison results are consistent is judged, if the comparison photos are the same, the real-time personnel are judged to be site workers, the site workers are marked as familiar personnel, if the comparison photos are not the same, the similarity corresponding to the comparison results is sequenced, if the first similarity is larger than or equal to the similarity threshold value, the real-time personnel corresponding to the first similarity is judged to be site workers, if the first similarity is smaller than the similarity threshold value, the real-time personnel corresponding to the first similarity is judged not to be site workers, the site workers are marked as strangers, and a registration signal is generated and sent to a mobile phone terminal of a manager;

personnel safety monitoring unit is used for carrying out safety monitoring to the personnel that get into the building site, and specific safety monitoring process is as follows:

step TT 1: attaching the micro safety helmet tags to photos in a database, acquiring the face photos of all personnel in a construction site, comparing the face photos of the personnel with the photos, to which the safety helmet tags are correspondingly attached, in the database, if the photos are inconsistent, judging that the corresponding personnel do not carry the safety helmet, generating an early warning signal, and sending the early warning signal and the positions of the personnel to a mobile phone terminal of a manager; then, distinguishing the personnel in the construction site according to the familiar personnel and the strangers;

step TT 2: acquiring a daily work area of a familiar person, marking the daily work area as a work area, then acquiring an environment monitoring coefficient and an equipment monitoring coefficient of a corresponding area, and comparing the environment monitoring coefficient and the equipment monitoring coefficient with corresponding threshold values: if the environment monitoring coefficient is larger than or equal to the environment monitoring coefficient threshold value, the equipment monitoring coefficient is larger than or equal to the equipment monitoring coefficient threshold value, the work safety risk corresponding to the familiar person is judged to be high, if the environment monitoring coefficient is smaller than the environment monitoring coefficient threshold value, the equipment monitoring coefficient is larger than or equal to the equipment monitoring coefficient threshold value, the work safety risk corresponding to the familiar person is judged to be high, if the environment monitoring coefficient is larger than or equal to the environment monitoring coefficient threshold value, the equipment monitoring coefficient is smaller than the equipment monitoring coefficient threshold value, the work safety risk corresponding to the familiar person is judged to be high, if the environment monitoring coefficient is smaller than the environment monitoring coefficient threshold value, the equipment monitoring coefficient is smaller than the equipment monitoring coefficient threshold value;

step TT 3: acquiring the running track of strangers in a construction site, acquiring a working area covered by the running track, acquiring the stay time of the strangers in the working area, and comparing the stay time of a high-risk area with that of a low-risk area: if the stay time in the high risk area is longer than or equal to the stay time in the low risk area, generating an early warning signal and sending the early warning signal and the geographic position corresponding to strangers to a mobile phone terminal of a manager, otherwise, generating a safety signal and sending the safety signal to the mobile phone terminal of the manager, wherein the high risk area comprises areas with high environmental safety risk, high equipment safety risk and high environmental safety risk and equipment safety risk, and the low risk area comprises areas with low environmental safety risk and equipment safety risk;

a microprocessor communication method for industrial equipment based on 5G comprises the following steps:

step one, registering and logging, wherein a manager and a maintainer register through a registering and logging unit;

secondly, monitoring the environment, namely analyzing the environment information of the construction site through an environment monitoring unit so as to monitor the environment of the construction site;

step three, equipment monitoring, wherein an equipment monitoring unit analyzes equipment operation information in the construction site so as to monitor equipment in the construction site;

performing personnel identity verification, namely performing identity verification on personnel entering the construction site in real time through an identity verification unit so as to monitor the personnel in the construction site;

and fifthly, monitoring personnel safety, wherein the personnel entering the construction site are monitored safely through a personnel safety monitoring unit.

The working principle of the invention is as follows:

A5G-based industrial equipment communication microprocessor and a method are disclosed, wherein during operation, an environment monitoring unit is used for analyzing environment information of a construction site so as to monitor the environment of the construction site, the maximum decibel value generated when equipment in the construction site operates, the dust content in the air when the equipment in the construction site operates and the average humidity of the surrounding environment of the equipment in the construction site are obtained, the environment monitoring coefficients Xi of all areas in the construction site are obtained through a formula, and the environment monitoring coefficients Xi of all areas in the construction site are compared with the environment monitoring coefficient threshold of the areas;

the method comprises the steps of analyzing equipment operation information in the construction site through an equipment monitoring unit, monitoring equipment in the construction site, obtaining the average lifting weight of the equipment in the construction site all day long, the average wind force value of the equipment in the peripheral environment all day long and the change frequency of the wind direction in the peripheral environment of the equipment in the construction site, obtaining the monitoring coefficient Xo of the equipment in the construction site through a formula, and comparing the monitoring coefficient Xo of the equipment in the construction site with the monitoring coefficient threshold value of the equipment.

The above formulas are all calculated by taking the numerical value of the dimension, the formula is a formula which obtains the latest real situation by acquiring a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (5)

1. A5G-based industrial equipment communication microprocessor is characterized by comprising a microprocessor, wherein the microprocessor is in communication connection with an environment monitoring unit, an equipment monitoring unit, an identity verification unit, a personnel safety monitoring unit, a registration unit and a database;

the environment monitoring unit is used for analyzing the environment information of the construction site, so that the environment of the construction site is monitored, the maximum decibel value generated when equipment in the construction site operates, the dust content in the air when the equipment in the construction site operates and the average humidity of the surrounding environment of the equipment in the construction site all day around are obtained, the environment monitoring coefficients Xi of all areas in the construction site are obtained through a formula, and the environment monitoring coefficients Xi of all areas in the construction site are compared with the environment monitoring coefficient threshold values of the areas.

2. The 5G-based industrial equipment communication microprocessor according to claim 1, wherein the equipment monitoring unit is used for analyzing operation information of the equipment in the construction site so as to monitor the equipment in the construction site, acquiring the average lifting weight of the equipment in the construction site all day long, the average wind force value of the equipment in the surrounding environment of the construction site all day long and the change frequency of the wind direction in the surrounding environment of the equipment in the construction site, acquiring the monitoring coefficient Xo of the equipment in the construction site through a formula, and comparing the monitoring coefficient Xo of the equipment in the construction site with the monitoring coefficient threshold of the equipment.

3. The 5G-based industrial equipment communication microprocessor according to claim 1, wherein the identity verification unit performs identity verification on personnel entering a construction site in real time, so that the personnel in the construction site are monitored, photos of managers and maintainers in a database are obtained, and the photos of the managers and maintainers in the database are marked as comparison photos; a face acquisition camera is arranged at a position 5m away from a construction site entrance, face photos of people entering the construction site in real time are acquired, the people entering the construction site in real time are marked as real-time people, then three face photos of the real-time people in a motion state are acquired, and frame removing gray processing is carried out on the three face photos; and then, respectively comparing the three face photos with the comparison photos, judging whether the comparison photos corresponding to the three comparison results are consistent, if the comparison photos are the same, judging that the real-time personnel are site workers, marking the site workers as familiar personnel, if the comparison photos are not the same, sequencing the similarities corresponding to the comparison results, if the first-ranked similarity is larger than or equal to a similarity threshold value, judging that the real-time personnel corresponding to the first-ranked similarity are site workers, if the first-ranked similarity is smaller than the similarity threshold value, judging that the real-time personnel corresponding to the first-ranked similarity are not site workers, marking the site workers as strangers, generating a registration signal, and sending the registration signal to a mobile phone terminal of a manager.

4. The 5G-based industrial equipment communication microprocessor according to claim 1, wherein the personnel safety monitoring unit is used for carrying out safety monitoring on personnel entering a construction site, and the specific safety monitoring process is as follows: attaching the safety helmet micro-label to the picture in the database, acquiring the face pictures of all personnel in the construction site, and comparing the face pictures of the personnel with the pictures correspondingly attached with the safety helmet label in the database; acquiring a daily working area of a familiar person, marking the daily working area as a working area, then acquiring an environment monitoring coefficient and an equipment monitoring coefficient of a corresponding area, and comparing the environment monitoring coefficient and the equipment monitoring coefficient with corresponding threshold values; the method comprises the steps of obtaining the running track of strangers in a construction site, obtaining a working area covered by the running track, obtaining the stay time of the strangers in the working area, and comparing the stay time of a high-risk area with that of a low-risk area.

5. A processing method of a 5G-based industrial equipment communication microprocessor is characterized by comprising the following steps:

step one, registering and logging, wherein a manager and a maintainer register through a registering and logging unit;

secondly, monitoring the environment, namely analyzing the environment information of the construction site through an environment monitoring unit so as to monitor the environment of the construction site;

step three, equipment monitoring, wherein an equipment monitoring unit analyzes equipment operation information in the construction site so as to monitor equipment in the construction site;

performing personnel identity verification, namely performing identity verification on personnel entering the construction site in real time through an identity verification unit so as to monitor the personnel in the construction site;

and fifthly, monitoring personnel safety, wherein the personnel entering the construction site are monitored safely through a personnel safety monitoring unit.

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