CN115796608A - Building construction wind control management method and system based on portable interaction - Google Patents

Abstract

The application relates to the technical field of data processing, and provides a building construction wind control management method and system based on portable interaction. The method comprises the following steps: acquiring construction process multi-source data information through a recorder data interaction module and a camera probe data interaction module; encrypting and transmitting the construction process multi-source data information to a data processing module for data preprocessing to obtain construction process standard data information; obtaining a building construction risk analysis model through a data processing module, wherein the building construction risk analysis model comprises a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model, and further obtaining building construction risk analysis information based on the construction process standard data information; and carrying out supervision and interaction management and control on the construction project based on the construction risk analysis information. The technical effects of realizing accurate analysis and high-quality risk control management of wind control management factors in a construction link and further ensuring the construction quality and the safety of construction engineering are achieved.

Description

Building construction wind control management method and system based on portable interaction

Technical Field

The invention relates to the technical field of data processing, in particular to a building construction wind control management method and system based on portable interaction.

Background

In the construction of building engineering, because of the industrial characteristics and the large mobility of personnel, the skill working attitude and the like of each person cannot be well known, so that the uncertainty and the potential safety hazard exist frequently, and the engineering quality cannot be mastered in each link. Therefore, along with the development scale expansion of the building construction industry, a large number of safety accidents occur, including the safety of constructors, unqualified engineering quality, production efficiency and the like. Only by carrying out accurate risk management on the building construction process, the risk loss can be reduced to the minimum degree, so that the safe implementation of construction engineering is ensured.

However, the prior art cannot realize the whole-process monitoring on the building construction process, and the wind control management accuracy is low, so that the technical problem of influencing the safety of the building engineering is caused.

Disclosure of Invention

The application solves the technical problems that the whole building construction process cannot be monitored in the prior art, the wind control management accuracy is low, and the safety of the building engineering is affected, and achieves the technical effects that the whole building construction process is monitored and recorded through an authorized portable recorder, the wind control management factors in the construction link are accurately analyzed and the high-quality risk control management is realized, and further the building construction quality and the safety of the building engineering are ensured.

In view of the above problems, the present invention provides a building construction wind control management method and system based on portable interaction.

In a first aspect, the application provides a building construction wind control management method based on portable interaction, and the method includes: constructing a construction wind control management platform, wherein the construction wind control management platform comprises a data acquisition module, a data processing module and an interaction management and control module; the data acquisition module comprises a recorder data interaction module and a camera probe data interaction module, and construction process multi-source data information is acquired through the recorder data interaction module and the camera probe data interaction module; encrypting and transmitting the construction process multi-source data information to the data processing module, and performing data preprocessing on the construction process multi-source data information by the data processing module to obtain construction process standard data information; obtaining a building construction risk analysis model through the data processing module; the building construction risk analysis model comprises a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model; obtaining building construction risk analysis information based on the construction safety risk analysis model, the engineering quality risk analysis model, the production process risk analysis model and the construction process standard data information; and carrying out supervision and interaction management and control on the construction project based on the construction risk analysis information.

On the other hand, this application still provides a building construction wind control management system based on portable interaction, the system includes: the construction wind control management platform comprises a data acquisition module, a data processing module and an interaction management and control module; the data acquisition module comprises a recorder data interaction module and a camera probe data interaction module, and the recorder data interaction module and the camera probe data interaction module are used for acquiring construction process multi-source data information; the data preprocessing module is used for encrypting and transmitting the construction process multi-source data information to the data processing module, and the data processing module carries out data preprocessing on the construction process multi-source data information to obtain construction process standard data information; the risk analysis model obtaining module is used for obtaining a building construction risk analysis model through the data processing module; the risk analysis model forming module is used for the building construction risk analysis model to comprise a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model; the model risk analysis module is used for obtaining building construction risk analysis information based on the construction safety risk analysis model, the engineering quality risk analysis model, the production process risk analysis model and the construction process standard data information; and the supervision interaction management and control module is used for carrying out supervision interaction management and control on the construction project based on the construction risk analysis information.

One or more technical solutions provided in the present application have at least the following technical effects or advantages:

the construction process multi-source data information is obtained through a recorder data interaction module and a camera probe data interaction module, then the construction process multi-source data information is encrypted and transmitted to a data processing module to be subjected to data preprocessing, construction process standard data information is obtained, a building construction risk analysis model is obtained through the data processing module, the risk analysis model comprises a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model, model analysis is carried out on the construction process standard data information based on the construction safety risk analysis model, the engineering quality risk analysis model and the production process risk analysis model, building construction risk analysis information is output, and finally, based on the building construction risk analysis information, the building engineering project is supervised and interactively controlled. And then reached and monitored the record to the building construction overall process through authorizing portable record appearance, realized that construction link wind accuse management factor's accurate analysis and high quality risk control manage, and then guaranteed the technical effect of building construction quality and building engineering security.

Drawings

Fig. 1 is a schematic flow chart of a building construction wind control management method based on portable interaction according to the present application;

FIG. 2 is a schematic flow diagram of construction flow multi-source data information obtained in the building construction wind control management method based on portable interaction according to the present application;

FIG. 3 is a schematic flow chart illustrating the process of obtaining production construction characteristic information in the building construction wind control management method based on portable interaction according to the present application;

fig. 4 is a schematic structural diagram of a building construction wind control management system based on portable interaction according to the present application.

Description of reference numerals: the system comprises a wind control management platform construction module 11, a multi-source data obtaining module 12, a data preprocessing module 13, a risk analysis model obtaining module 14, a risk analysis model forming module 15, a model risk analysis module 16 and a supervision interaction management and control module 17.

Detailed Description

The application provides a building construction wind control management method system based on portable interaction, solves the technical problems that the whole process monitoring cannot be realized in the building construction process in the prior art, the wind control management accuracy is low, and the safety of the building engineering is influenced, achieves the technical effects that the monitoring and recording are carried out on the whole building construction process through an authorized portable recorder, the accurate analysis and the high-quality risk control management of the wind control management factors in the construction link are realized, and further the building construction quality and the safety of the building engineering are ensured.

Example one

As shown in fig. 1, the present application provides a building construction wind control management method based on portable interaction, the method includes:

step S100: constructing a construction wind control management platform, wherein the construction wind control management platform comprises a data acquisition module, a data processing module and an interaction management and control module;

particularly, in the construction of building engineering, because of the industrial characteristics and the large mobility of personnel, the skill working attitude and the like of each person cannot be well known, so that the uncertainty and the potential safety hazard are high, and the engineering quality cannot be mastered in each link. Therefore, along with the development scale expansion of the building construction industry, a large number of safety accidents occur, including the safety of constructors, unqualified engineering quality, low production efficiency and the like. Only by carrying out accurate risk management on the building construction process, the risk loss can be reduced to the minimum degree, so that the safe implementation of construction engineering is ensured.

The construction wind control management platform is constructed for realizing intelligent monitoring and recording of the whole construction process, is used for a manager to carry out all-around monitoring on the engineering construction process, and further realizes accurate analysis of wind control management factors in construction links, and the platform function module comprises a data acquisition module, a data processing module and an interaction management and control module, and different modules have different functions, and realize high-quality risk control management of the construction process through data interaction processing among the function modules.

Step S200: the data acquisition module comprises a recorder data interaction module and a camera probe data interaction module, and construction process multi-source data information is acquired through the recorder data interaction module and the camera probe data interaction module;

as shown in fig. 2, further to obtain the construction process multi-source data information, step S200 of the present application further includes:

step S210: the recorder data interaction module is in communication connection with a portable recorder, and the portable recorder acquires construction process data information based on an authorized granularity grading access mechanism;

further, the portable recorder obtains the construction process data information based on an authorized granularity grading access mechanism, and step S210 of the present application further includes:

step S211: acquiring a function information set of each construction engineer through an engineering authority management platform;

step S212: acquiring function authority distribution information based on the function information set;

step S213: constructing the authorization granularity grading access mechanism according to the function information set and the function authority distribution information;

step S214: and carrying out parameter configuration and data acquisition of the portable recorder based on the authorized granularity grading access mechanism to obtain the construction process data information.

Specifically, the data acquisition module specifically includes recorder data interaction module and camera probe data interaction module, wherein, recorder data interaction module and portable record appearance communication connection for acquire portable record appearance record data. The portable recorders are worn by the construction personnel, safety supervisor, production responsible person and the like on the construction site, all the portable recorders are connected with the background and perform data transmission interaction with the recorder data interaction module, and data acquisition and recording are performed on the whole construction process of the construction personnel.

The portable recorder acquires construction process data information based on an authorized granularity grading access mechanism, and the specific process is to acquire function information sets of all construction engineering personnel through an engineering authority management platform of the construction engineering project, wherein the function information sets comprise constructors, safety supervisors, production responsible personnel and the like. Based on the function information set, function authority distribution information corresponding to each function is obtained, and exemplarily, a safety supervisor carries out all-around detection on the safety of a construction process. And according to the function information set and the function authority distribution information, establishing an authorized granularity grading access mechanism, wherein the authorized granularity grading access mechanism is based on different construction positions and grants different data acquisition authorities through an authority module.

And carrying out portable recorder parameter configuration based on the authorized granularity grading access mechanism, for example, field construction personnel need to configure physical health acquisition parameters, and carrying out construction process data acquisition based on the recorder configuration parameters to acquire construction process data information of a plurality of recorder user sides. Different recording parameters of the portable recorder are acquired and configured by constructing an authorized granularity grading access mechanism, the comprehensiveness and accuracy of the acquired construction process data information are improved, and the construction risk control management effect is further improved.

Step S220: the camera probe data interaction module is in communication connection with the movable camera probe, and construction monitoring video information is acquired through multi-azimuth acquisition of the movable camera probe;

step S230: performing feature extraction processing on the construction monitoring video information to obtain production construction feature information;

as shown in fig. 3, further to obtain the production construction characteristic information, step S230 of the present application further includes:

step S231: compressing the construction monitoring video information to obtain construction monitoring video compression information;

step S232: extracting i frames of each coding unit in the construction monitoring video compression information to obtain i frame monitoring information;

step S233: performing image segmentation processing based on the i-frame monitoring information, and determining a construction image segmentation result;

step S234: and performing characteristic analysis according to the construction image segmentation result to obtain the production construction characteristic information.

Step S240: and acquiring the construction process multi-source data information based on the construction process data information and the production construction characteristic information.

Specifically, the camera probe data interaction module is in communication connection with the movable camera probe and is used for acquiring recorded data of the camera probe on the construction site. And movable camera probes are arranged in the production construction area in a multi-azimuth mode, and construction monitoring video information is acquired through multi-azimuth acquisition of the movable camera probes. And then, carrying out feature extraction processing on the construction monitoring video information, wherein the specific processing process is that firstly, any compression algorithm is adopted to compress the construction monitoring video information, and image space redundant information is removed to reduce the same data in the continuous frames of the construction monitoring video information, so that the waste of computing resources caused by the invalid processing of redundant data is reduced.

In this embodiment, the construction monitoring video information is compressed, and the construction monitoring video information is compressed in each coding unit by using a plurality of continuous frame images as a coding unit or dividing the construction monitoring video information into a plurality of coding units. And extracting i frames from each coding unit in the construction monitoring video compressed information, wherein the i frames are full-frame compressed coding frames, the information content of the occupied data is large, and a complete image can be reconstructed only by using the i frames during decoding. Only one i frame is provided in the same coding unit, the i frame monitoring information is i frame still images, and only the i frame images are extracted and recombined to form a compressed video which ensures that the image quality is not reduced and has higher compression ratio. And performing image segmentation processing based on the i-frame monitoring information, and determining an image segmentation result, wherein the more the number of segmentation lines is, the more details are contained in an image segmentation area.

According to the construction image segmentation result, image feature analysis processing is respectively carried out according to the segmentation areas, rapid traversal feature calculation and extraction can be carried out on the image based on a convolutional neural network, and production construction feature information is obtained, wherein the production construction feature information comprises production flow operation features, construction process safety features, production process features and the like. Based on the construction process data information and the production construction characteristic information, the construction process multi-source data information is determined in a combined mode, monitoring and recording of the whole building construction process are achieved, comprehensiveness of the construction process multi-source data information is improved, and then the construction risk control management effect is improved.

Step S300: encrypting and transmitting the construction process multi-source data information to the data processing module, and performing data preprocessing on the construction process multi-source data information by the data processing module to obtain construction process standard data information;

further, in the step S300 of obtaining the standard data information of the construction process, the method further includes:

step S310: carrying out normalization processing on the construction process multi-source data information to obtain scalar construction process multi-source data information;

step S320: cleaning and correcting based on the scalar construction process multi-source data information to obtain consistent construction process multi-source data information;

step S330: carrying out attribute classification on the scalar construction process multi-source data information to obtain construction process data attribute information;

step S340: and integrating the consistent construction process multi-source data information according to the construction process data attribute information to obtain the construction process standard data information.

Specifically, the construction process multi-source data information is encrypted and transmitted to the data processing module, and data transmission safety is guaranteed. The data processing module is used for carrying out data preprocessing on the construction process multi-source data information, firstly, the construction process multi-source data information is subjected to normalization processing, multi-source data is converted into dimensionless data, scalar construction process multi-source data information is obtained, data units are unified, and the comparability and the processability among data are guaranteed. And cleaning and correcting the multi-source data information of the scalar construction flow, cleaning invalid values and repeated values in the data, and carrying out consistency check and correction on unreasonable data and contradictory data to obtain the processed multi-source data information of the consistent construction flow.

And then carrying out attribute classification on the scalar construction process multi-source data information, namely carrying out application attribute classification on the data to obtain construction process data attribute information, wherein the construction process data attribute information comprises construction process attribute data, construction safety attribute data, construction quality attribute data and the like. And integrating the consistent construction process multi-source data information according to the construction process data attribute information, namely dividing the data with the same attribute into one type, and integrating to obtain the construction process standard data information. Through carrying out standardized processing on the data, the inconsistency of the data is eliminated, the data comparability is enhanced, and the data processing efficiency is further improved.

Step S400: obtaining a building construction risk analysis model through the data processing module;

step S500: the building construction risk analysis model comprises a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model;

specifically, a building construction risk analysis model is obtained through calling of the data processing module, is a neural network model, is obtained through historical data training, is used for carrying out construction risk assessment analysis on a building project, and is a three-dimensional analysis model which specifically comprises a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model.

Step S600: obtaining building construction risk analysis information based on the construction safety risk analysis model, the engineering quality risk analysis model, the production process risk analysis model and the construction process standard data information;

further, step S600 of the present application further includes:

step S610: acquiring recorder number information through the recorder data interaction module;

step S620: dividing the construction process data information according to the recorder number information to obtain construction process number data information;

step S630: respectively inputting the construction process serial number data information into a constructor supervision model for analysis to obtain constructor supervision and analysis information;

step S640: and supplementing the building construction risk analysis information based on the constructor supervision analysis information.

Specifically, the construction process standard data information is respectively input into the construction safety risk analysis model, the engineering quality risk analysis model and the production process risk analysis model for analysis, and model output results, namely, construction safety risk analysis information, engineering quality risk analysis information and production process risk analysis information, are respectively obtained. And determining building construction risk analysis information in a combined manner based on the construction safety risk analysis information, the engineering quality risk analysis information and the production process risk analysis information, wherein the building construction risk analysis information indicates the risk type and the risk level in the construction process of the building project.

In order to monitor the individual condition of the constructors, recorder serial number information of the portable recorder of each constructor is obtained through the recorder data interaction module. And dividing the construction process data information according to the recorder serial number information to obtain different construction process serial number data information corresponding to each serial number recorder. And respectively inputting the construction process serial number data information into a constructor supervision model for analysis, wherein the constructor supervision model is a neural network model and is used for supervising and evaluating the production and construction process of constructors and outputting supervision and analysis information of each constructor, including the working attitude, the safety condition, the operation specification, the skill state and the like of the constructors. And supplementing the building construction risk analysis information based on the constructor supervision analysis information, improving the accuracy and comprehensiveness of the building construction risk analysis information, enhancing the accurate supervision effect on construction participants, and further improving the construction risk control management effect.

Step S700: and carrying out supervision and interaction management and control on the construction project based on the construction risk analysis information.

Further, said based on said building construction risk analysis information, performing supervision and interaction management and control on the building engineering project, step S700 of this application further includes:

step S710: obtaining an interactive data access level based on the authorization granularity grading access mechanism;

step S720: obtaining interactive data access authority according to the interactive data access level;

step S730: dividing the building construction risk analysis information according to the interactive data access authority to obtain construction risk access data information;

step S740: and carrying out supervision and interaction on the building engineering project personnel through the portable recorder based on the construction risk access data information and the recorder serial number information.

Specifically, based on the building construction risk analysis information, supervision and interaction management and control are carried out on the building engineering project, and illustratively, the building engineering construction process is strengthened or the safety of the building engineering project is rectified and improved. In the aspect of constructor supervision, an interactive data access level, namely an interactive data access level corresponding to each functional construction project worker, is obtained based on the authorized granularity grading access mechanism. And determining interactive data access authority corresponding to each access level, namely the use authority of the interactive data resource, according to the interactive data access levels.

And dividing the building construction risk analysis information according to the interactive data access authority, namely correspondingly dividing the access authority and the accessible use data to obtain construction risk access data information, wherein illustratively, for security supervisor, the accessible authority data are construction security risk analysis information and engineering quality risk analysis information in the building construction risk analysis information and supervision analysis data of a portable recorder thereof.

Based on the construction risk access data information and the recorder number information, the portable recorder is used for carrying out supervision interaction on the construction engineering project personnel, namely accessible risk data of the construction engineering project personnel are interactively transmitted to the portable recorder for supervision according to the construction risk access data information and the recorder number information, for example, the construction personnel are not in standard safety operation, and the portable recorder is used for carrying out supervision and early warning on the construction engineering project personnel. The technical effects of realizing accurate analysis and high-quality risk control management of wind control management factors in a construction link and further ensuring the construction quality and the safety of construction engineering are achieved.

In summary, the building construction wind control management method and system based on portable interaction provided by the application have the following technical effects:

the construction process multi-source data information is obtained through a recorder data interaction module and a camera probe data interaction module, then the construction process multi-source data information is encrypted and transmitted to a data processing module to be subjected to data preprocessing, construction process standard data information is obtained, a building construction risk analysis model is obtained through the data processing module, the risk analysis model comprises a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model, model analysis is carried out on the construction process standard data information based on the construction safety risk analysis model, the engineering quality risk analysis model and the production process risk analysis model, building construction risk analysis information is output, and finally, based on the building construction risk analysis information, the building engineering project is supervised and interactively controlled. And then reached and monitored the record to the building construction overall process through authorizing portable record appearance, realized that construction link wind accuse management factor's accurate analysis and high quality risk control manage, and then guaranteed the technical effect of building construction quality and building engineering security.

Example two

Based on the same inventive concept as the building construction wind control management method based on portable interaction in the foregoing embodiments, the present invention further provides a building construction wind control management system based on portable interaction, as shown in fig. 4, the system includes:

the construction method comprises a wind control management platform construction module 11, a construction wind control management platform and a construction management and control module, wherein the construction wind control management platform comprises a data acquisition module, a data processing module and an interaction management and control module;

the multi-source data obtaining module 12 is used for the data acquisition module to comprise a recorder data interaction module and a camera probe data interaction module, and acquiring construction process multi-source data information through the recorder data interaction module and the camera probe data interaction module;

the data preprocessing module 13 is used for encrypting and transmitting the construction process multi-source data information to the data processing module, and the data processing module performs data preprocessing on the construction process multi-source data information to obtain construction process standard data information;

a risk analysis model obtaining module 14, configured to obtain, through the data processing module, a building construction risk analysis model;

a risk analysis model forming module 15, configured to apply the building construction risk analysis model to include a construction safety risk analysis model, an engineering quality risk analysis model, and a production process risk analysis model;

the model risk analysis module 16 is used for obtaining building construction risk analysis information based on the construction safety risk analysis model, the engineering quality risk analysis model, the production process risk analysis model and the construction process standard data information;

and the supervision interaction management and control module 17 is used for carrying out supervision interaction management and control on the construction project based on the construction risk analysis information.

Further, the multi-source data obtaining module further includes:

the construction process data information acquisition unit is used for the communication connection between the recorder data interaction module and a portable recorder, and the portable recorder acquires construction process data information based on an authorized granularity grading access mechanism;

the construction monitoring video information acquisition unit is used for the camera probe data interaction module to be in communication connection with the movable camera probe and acquiring construction monitoring video information in a multi-azimuth mode through the movable camera probe;

the characteristic extraction processing unit is used for carrying out characteristic extraction processing on the construction monitoring video information to obtain production construction characteristic information;

and the construction process multi-source data obtaining unit is used for obtaining the construction process multi-source data information based on the construction process data information and the production construction characteristic information.

Further, the feature extraction processing unit further includes:

the video compression processing unit is used for compressing the construction monitoring video information to obtain construction monitoring video compression information;

the i-frame extraction unit is used for extracting i frames from each coding unit in the construction monitoring video compression information to obtain i-frame monitoring information;

the image segmentation processing unit is used for carrying out image segmentation processing on the basis of the i-frame monitoring information and determining a construction image segmentation result;

and the image characteristic analysis unit is used for carrying out characteristic analysis according to the construction image segmentation result to obtain the production construction characteristic information.

Further, the construction process data information obtaining unit further includes:

the system comprises a function information obtaining unit, a construction authority management unit and a control unit, wherein the function information obtaining unit is used for obtaining a function information set of each construction engineering worker through an engineering authority management platform;

the function authority distribution information obtaining unit is used for obtaining function authority distribution information based on the function information set;

the authorized granularity grading access mechanism construction unit is used for constructing the authorized granularity grading access mechanism according to the function information set and the function authority distribution information;

the experiment detection unit is used for detecting the catalyst doping treatment sample based on the catalyst experiment characterization information to obtain a catalyst performance optimization information set;

and the parameter configuration acquisition unit is used for carrying out parameter configuration and data acquisition on the portable recorder based on the authorized granularity grading access mechanism to obtain the construction process data information.

Further, the data preprocessing module further includes:

the normalization processing unit is used for performing normalization processing on the construction process multi-source data information to obtain scalar construction process multi-source data information;

the data cleaning and correcting unit is used for cleaning and correcting the scalar construction process multi-source data information to obtain consistent construction process multi-source data information;

the data attribute classification unit is used for carrying out attribute classification on the scalar construction process multi-source data information to obtain construction process data attribute information;

and the data integration unit is used for integrating the consistent construction process multi-source data information according to the construction process data attribute information to obtain the construction process standard data information.

Further, the system further comprises:

the recorder serial number obtaining unit is used for obtaining recorder serial number information through the recorder data interaction module;

the data dividing unit is used for dividing the construction process data information according to the recorder number information to obtain construction process number data information;

the supervision and analysis information obtaining unit is used for respectively inputting the construction process serial number data information into a constructor supervision model for analysis to obtain constructor supervision and analysis information;

and the construction risk analysis information supplementing unit is used for supplementing the building construction risk analysis information based on the constructor supervision analysis information.

Further, the supervision interaction management and control module further comprises:

an access level obtaining unit, configured to obtain an interactive data access level based on the authorized granularity grading access mechanism;

the access authority obtaining unit is used for obtaining the access authority of the interactive data according to the interactive data access hierarchy;

the risk analysis information dividing unit is used for dividing the building construction risk analysis information according to the interactive data access authority to obtain construction risk access data information;

and the personnel supervision and interaction unit is used for carrying out supervision and interaction on the building engineering project personnel through the portable recorder based on the construction risk access data information and the recorder serial number information.

The application provides a building construction wind control management method based on portable interaction, which comprises the following steps: constructing a construction wind control management platform, wherein the construction wind control management platform comprises a data acquisition module, a data processing module and an interaction management and control module; the data acquisition module comprises a recorder data interaction module and a camera probe data interaction module, and construction process multi-source data information is acquired through the recorder data interaction module and the camera probe data interaction module; encrypting and transmitting the construction process multi-source data information to the data processing module, and performing data preprocessing on the construction process multi-source data information by the data processing module to obtain construction process standard data information; obtaining a building construction risk analysis model through the data processing module; the building construction risk analysis model comprises a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model; obtaining building construction risk analysis information based on the construction safety risk analysis model, the engineering quality risk analysis model, the production process risk analysis model and the construction process standard data information; and carrying out supervision and interaction management and control on the construction project based on the construction risk analysis information. The technical problems that the whole process monitoring cannot be realized in the building construction process, the wind control management accuracy is low, and the safety of the building engineering is influenced in the prior art are solved. The technical effects of monitoring and recording the whole construction process through the authorized portable recorder, realizing accurate analysis and high-quality risk control management of wind control management factors in the construction link and further ensuring the construction quality and the safety of construction engineering are achieved.

The specification and drawings are merely illustrative of the present application, and it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the invention and its equivalents.

Claims (8)

1. A building construction wind control management method based on portable interaction is characterized by comprising the following steps:

constructing a construction wind control management platform, wherein the construction wind control management platform comprises a data acquisition module, a data processing module and an interaction management and control module;

the data acquisition module comprises a recorder data interaction module and a camera probe data interaction module, and construction process multi-source data information is acquired through the recorder data interaction module and the camera probe data interaction module;

encrypting and transmitting the construction process multi-source data information to the data processing module, and performing data preprocessing on the construction process multi-source data information by the data processing module to obtain construction process standard data information;

obtaining a building construction risk analysis model through the data processing module;

the building construction risk analysis model comprises a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model;

obtaining building construction risk analysis information based on the construction safety risk analysis model, the engineering quality risk analysis model, the production process risk analysis model and the construction process standard data information;

and carrying out supervision and interaction management and control on the construction project based on the construction risk analysis information.

2. The method of claim 1, wherein the obtaining construction process multi-source data information comprises:

the recorder data interaction module is in communication connection with a portable recorder, and the portable recorder acquires construction process data information based on an authorized granularity grading access mechanism;

the camera probe data interaction module is in communication connection with the movable camera probe, and construction monitoring video information is acquired through multi-directional acquisition of the movable camera probe;

performing feature extraction processing on the construction monitoring video information to obtain production construction feature information;

and acquiring the construction process multi-source data information based on the construction process data information and the production construction characteristic information.

3. The method of claim 2, wherein the obtaining production construction characteristic information comprises:

compressing the construction monitoring video information to obtain construction monitoring video compression information;

extracting i frames of each coding unit in the construction monitoring video compression information to obtain i frame monitoring information;

performing image segmentation processing based on the i-frame monitoring information, and determining a construction image segmentation result;

and performing characteristic analysis according to the construction image segmentation result to obtain the production construction characteristic information.

4. The method of claim 2, wherein the portable recorder obtains construction flow data information based on an authorized granular grading access mechanism, comprising:

acquiring a function information set of each construction engineer through an engineering authority management platform;

acquiring function authority distribution information based on the function information set;

constructing the authorization granularity grading access mechanism according to the function information set and the function authority distribution information;

and carrying out parameter configuration and data acquisition of the portable recorder based on the authorized granularity grading access mechanism to obtain the construction process data information.

5. The method of claim 1, wherein the obtaining construction process standard data information comprises:

carrying out normalization processing on the construction process multi-source data information to obtain scalar construction process multi-source data information;

cleaning and correcting based on the scalar construction process multi-source data information to obtain consistent construction process multi-source data information;

carrying out attribute classification on the scalar construction process multi-source data information to obtain construction process data attribute information;

and integrating the consistent construction process multi-source data information according to the construction process data attribute information to obtain the construction process standard data information.

6. The method of claim 2, wherein the method comprises:

acquiring recorder number information through the recorder data interaction module;

dividing the construction process data information according to the recorder number information to obtain construction process number data information;

respectively inputting the construction process serial number data information into a constructor supervision model for analysis to obtain constructor supervision and analysis information;

and supplementing the building construction risk analysis information based on the constructor supervision analysis information.

7. The method of claim 6, wherein the performing supervised interaction management and control on the construction project based on the construction risk analysis information comprises:

obtaining an interactive data access level based on the authorization granularity grading access mechanism;

obtaining interactive data access authority according to the interactive data access level;

dividing the building construction risk analysis information according to the interactive data access authority to obtain construction risk access data information;

and carrying out supervision and interaction on the building engineering project personnel through the portable recorder based on the construction risk access data information and the recorder serial number information.

8. A building construction wind control management system based on portable interaction, the system comprising:

the construction wind control management platform comprises a data acquisition module, a data processing module and an interaction management and control module;

the data acquisition module comprises a recorder data interaction module and a camera probe data interaction module, and the recorder data interaction module and the camera probe data interaction module are used for acquiring construction process multi-source data information;

the data preprocessing module is used for encrypting and transmitting the construction process multi-source data information to the data processing module, and the data processing module carries out data preprocessing on the construction process multi-source data information to obtain construction process standard data information;

the risk analysis model obtaining module is used for obtaining a building construction risk analysis model through the data processing module;

the risk analysis model forming module is used for the building construction risk analysis model to comprise a construction safety risk analysis model, an engineering quality risk analysis model and a production process risk analysis model;

the model risk analysis module is used for obtaining building construction risk analysis information based on the construction safety risk analysis model, the engineering quality risk analysis model, the production process risk analysis model and the construction process standard data information;

and the supervision interaction management and control module is used for carrying out supervision interaction management and control on the construction project based on the construction risk analysis information.

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