CN114971346A

CN114971346A - Personnel management and control method and system for intelligent construction site

Info

Publication number: CN114971346A
Application number: CN202210648593.7A
Authority: CN
Inventors: 冷斌
Original assignee: Changzhou Zhiconcrete Green Building Technology Co ltd
Current assignee: Changzhou Zhiconcrete Green Building Technology Co ltd
Priority date: 2022-06-09
Filing date: 2022-06-09
Publication date: 2022-08-30

Abstract

The invention provides a personnel management and control method and a system for an intelligent construction site, which relate to the technical field of the intelligent construction site, and the method comprises the following steps: acquiring work order information needing to be constructed in a current construction site; determining multistage operators according to the work order information; acquiring preset multi-level personnel management and control requirements; collecting a plurality of different supervision information sets of the multi-stage operation personnel; respectively analyzing and judging whether the multiple supervision information sets meet the preset multi-level personnel management and control requirements to obtain analysis results; obtaining a construction efficiency parameter according to construction work content and a preset time period in the work order information; according to the analysis result, the construction efficiency parameter is adjusted to obtain a predicted construction efficiency parameter; and managing and controlling the multistage operating personnel based on the predicted construction efficiency parameters. The invention solves the technical problems of low management and control efficiency and low management and control accuracy of the management and control of the personnel in the construction site in the prior art, and achieves the technical effect of improving the personnel management and control efficiency.

Description

Personnel management and control method and system for intelligent construction site

Technical Field

The invention relates to the technical field of intelligent construction sites, in particular to a personnel management and control method and a personnel management and control system for an intelligent construction site.

Background

In the process of carrying out the project construction in the building site, need carry out the management and control to personnel's safety, operating efficiency etc. to guarantee that the safety of construction operation goes on, and guarantee the completion of construction task in the time limit for a project.

At present, the management and control of personnel in a construction site are generally managed based on a worker leader, supervision personnel and the like, and the management and control efficiency is improved by combining video monitoring and the like.

To personnel's management and control in the building site among the prior art, generally go on based on the manpower, artificial participation degree is great, has the technical problem that management and control efficiency is low, the management and control degree of accuracy is low, and then may lead to the unable completion of construction task and the appearance of safety problem.

Disclosure of Invention

The application provides a personnel management and control method and system for an intelligent construction site, which are used for solving the technical problems that the personnel participation degree is large in the management and control work of the personnel in the construction site in the prior art, the existing management and control efficiency is low, and the management and control accuracy is low.

In view of the above problems, the present application provides a personnel management and control method and system for an intelligent worksite.

In a first aspect of the present application, there is provided a method for personnel management and control of an intelligent worksite, the method comprising: acquiring work order information needing to be constructed in a current construction site, wherein the work order information comprises construction work content needing to be completed in a current preset time period; determining multi-stage operation personnel according to the work order information, wherein the multi-stage operation personnel comprise constructors, first-stage management personnel and second-stage management personnel; acquiring preset multi-stage personnel management and control requirements based on the multi-stage operating personnel; collecting the supervision information of the multistage operating personnel to obtain a plurality of different supervision information sets; respectively analyzing and judging whether the plurality of supervision information sets of the multistage operating personnel meet the preset multistage personnel management and control requirements to obtain analysis results; obtaining a construction efficiency parameter according to construction work content in the work order information and the preset time period; according to the analysis result, the construction efficiency parameter is adjusted to obtain a predicted construction efficiency parameter; and managing and controlling the multistage operating personnel based on the predicted construction efficiency parameters.

In a second aspect of the present application, there is provided a personnel management and control system for an intelligent worksite, the system comprising: the work order information acquisition module is used for acquiring and acquiring work order information needing to be constructed in a current construction site, wherein the work order information comprises construction work content needing to be completed in a current preset time period; the operator determining module is used for determining multi-stage operators according to the work order information, wherein the multi-stage operators comprise constructors, first-stage managers and second-stage managers; the management and control requirement acquisition module is used for acquiring preset multi-stage personnel management and control requirements based on the multi-stage operating personnel; the monitoring information acquisition module is used for acquiring monitoring information of the multistage operating personnel to obtain a plurality of different monitoring information sets; the supervision information analysis module is used for respectively analyzing and judging whether the plurality of supervision information sets of the multi-stage operation personnel meet the preset multi-stage personnel management and control requirements to obtain analysis results; the efficiency parameter obtaining module is used for obtaining a construction efficiency parameter according to the construction work content in the work order information and the preset time period; the efficiency parameter adjusting module is used for adjusting the construction efficiency parameter according to the analysis result to obtain a predicted construction efficiency parameter; and the operator control module is used for controlling the multistage operators based on the predicted construction efficiency parameters.

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

the technical scheme that this application provides acquires the work order information that needs to be under construction in the current building site through the collection, confirm the multistage operation personnel who carries out the construction operation in this work order information, obtain the multistage personnel management and control requirement of predetermineeing who carries out the management and control to multistage operation personnel, then gather the supervisory information who obtains multistage operation in fact, whether analysis a plurality of supervisory information sets accord with predetermineeing multistage personnel management and control requirement, further obtain the efficiency of construction parameter that accomplishes the operation needs according to the work order information, adjust the efficiency of construction parameter according to the analysis result, obtain the prediction efficiency of construction parameter of prediction in fact, according to this prediction efficiency of construction parameter, carry out the management and control to multistage operation personnel. The method can more accurately manage personnel based on the construction work order by constructing the work order information including the work order information in the construction work and the preset time period, and analyzes whether the supervision information meets the preset control requirement by collecting the supervision information of the multi-level operation personnel, and according to the analysis result and the work order information, adjusting the theoretical construction efficiency parameter to obtain a predicted construction efficiency parameter, and when the predicted construction efficiency parameter cannot meet the construction efficiency requirement of the work order information, the technical scheme provided by the application constructs a control method of personnel in a construction site, takes the operation efficiency as a starting point, collects supervision information and analyzes the operation efficiency, and then manage and control multistage operation personnel, can effectively reduce the artifical participation degree of personnel's management and control in the building site, reach the technological effect who promotes personnel management and control efficiency and building site operating efficiency.

Drawings

FIG. 1 is a schematic flow chart illustrating a method for managing and controlling personnel at an intelligent construction site according to the present application;

FIG. 2 is a schematic flow chart illustrating a method for determining multiple levels of workers in a personnel management and control method for an intelligent worksite according to the present application;

FIG. 3 is a schematic flow chart illustrating the process of obtaining the output result of the monitoring information analysis model in the personnel management and control method for an intelligent construction site according to the present application;

FIG. 4 is a schematic diagram illustrating a process of obtaining a predicted construction risk coefficient in a personnel management and control method for an intelligent construction site according to the present application;

FIG. 5 is a schematic diagram of an embodiment of a personnel management system for an intelligent worksite.

Description of reference numerals: the system comprises a work order information acquisition module 11, an operating personnel determination module 12, a management and control requirement acquisition module 13, a supervision information acquisition module 14, a supervision information analysis module 15, an efficiency parameter obtaining module 16, an efficiency parameter adjusting module 17 and an operating personnel management and control module 18.

Detailed Description

The application provides a personnel management and control method and system for an intelligent construction site, and aims to solve the technical problems that in the prior art, the personnel participation degree in the management and control work of personnel in the construction site is large, the existing management and control efficiency is low, and the management and control accuracy is low.

Example one

As shown in fig. 1, the present application provides a personnel management and control method for an intelligent worksite, the method comprising:

s100: acquiring work order information needing to be constructed in a current construction site, wherein the work order information comprises construction work content needing to be completed in a current preset time period;

in the embodiment of the present application, the method applies a personnel management and control system for an intelligent construction site, where the intelligent construction site is equipped with the system, and specifically, the system includes a memory, a processor and a supervision device, where the memory stores a program, and the program, when executed by the processor, executes the method provided in the embodiment. This supervision equipment is including setting up monitoring devices and the analytical equipment in this wisdom building site a plurality of regions, exemplarily, this monitoring devices can monitor and gather constructor's image information to based on analytical equipment analysis constructor's action.

Acquiring work order information needing to be constructed in the current construction site, wherein the work order information comprises construction work content needing to be completed in the current preset time period. The work order information is set by combining the personnel who carry out construction and management according to the whole construction content and the whole construction period in the current construction site, and the management of the construction content and the personnel can be more accurately carried out by arranging the whole construction content, the construction period and the personnel into a plurality of work order information.

S200: determining multi-stage operation personnel according to the work order information, wherein the multi-stage operation personnel comprise constructors, first-stage management personnel and second-stage management personnel;

and determining the multistage operating personnel for performing the construction content work in the work order information according to the work order information. The multi-stage operating personnel comprise front-line constructors, first-stage management personnel and second-stage management personnel. Wherein, the managers that second grade managers patrolled and examined for carrying out the actual construction of building site, for example for total package, worker's length etc. and the technical staff of first grade managers for supporting the solution of building site problem, for example manage etc..

As shown in fig. 2, step S200 in the method provided in the embodiment of the present application includes:

s210: constructing a work order information base for construction work in the construction site;

s220: inputting the work order information into the work order information base to obtain a plurality of constructor information and a plurality of secondary manager information;

s230: and obtaining a plurality of first-level manager information according to the plurality of constructor information and the plurality of second-level manager information, and determining the multi-level operation staff.

Wherein, step S210 includes:

s211: acquiring and obtaining a plurality of construction work types needing construction in the construction site at present according to different work contents;

s212: segmenting the construction work contents of the construction work types according to time sequence to obtain a plurality of construction units;

s213: obtaining a plurality of constructor information for carrying out different construction work types according to a plurality of construction work types;

s214: determining a plurality of second-level manager information and a plurality of first-level manager information according to the plurality of constructor information;

s215: constructing a construction topological structure among a plurality of construction units;

s216: arranging a plurality of pieces of constructor information, secondary manager information and primary manager information according to the plurality of construction units to obtain a person topological structure;

s217: and constructing and obtaining the work order information base according to the plurality of construction units, the construction topological structure and the personnel topological structure.

Specifically, a work order information base for performing construction work in the current building site is firstly constructed, the work order information base comprises a plurality of work orders, and all construction contents needing construction work in the current building site are formed by the construction work contents in the work orders.

Based on all construction contents in the current construction site, a plurality of construction work types needing to be constructed in the current construction site are acquired and obtained according to different work contents. Illustratively, the plurality of construction work types includes: template making, reinforcing steel bar binding, concrete pouring, data management, construction command and other work types.

The construction work content of the plurality of construction work types is divided according to time sequence to obtain a plurality of construction units in the construction work types, and illustratively, a building to be built in a current construction site is divided according to the construction time of floors or other units by taking a construction period as a time sequence to obtain a plurality of construction units.

A plurality of constructor information for performing different construction work types is obtained according to the plurality of construction work types, and a plurality of constructor information for performing different construction work types, for example, information of a plurality of reinforcing bar constructors performing a reinforcing bar binding work, information of a plurality of concrete constructors performing a concrete pouring, and the like are determined according to worker information in a current construction site.

According to the information of the plurality of construction personnel, determining a plurality of pieces of second-level management personnel information and a plurality of pieces of first-level management personnel information, wherein the plurality of second-level management personnel are personnel for respectively managing the plurality of construction personnel, such as general packages, workmanship and the like, each second-level management personnel can manage part of the construction personnel, and the plurality of first-level management personnel can manage all the second-level management personnel and the construction personnel, such as supervision and the like.

According to the plurality of construction units, the construction topological structure among the plurality of construction units is constructed according to the matching relation of different construction work types, for example, after the template manufacturing and the steel bar binding are completed, concrete pouring can be carried out, during the concrete pouring, the work such as data management, construction command and the like is mixed, and the construction topological structure is constructed and obtained by combining the time sequence information in the plurality of construction units.

According to the plurality of construction units, arranging a plurality of constructor information, second-level manager information and first-level manager information, specifically, according to the plurality of construction units and the construction topological structure, firstly arranging the constructor information, for example, when template making and steel bar binding are carried out, concrete constructors rest, template making and steel bar binding constructors work, then managing the second-level managers and the first-level managers of the constructors to arrange the second-level managers and the first-level managers, thus, arranging and obtaining the personnel topological structure of the plurality of constructor information, the second-level managers information and the first-level managers information in the construction period, wherein the personnel topological structure comprises the working time, the rest time, the matching condition and the like of each person.

And according to the plurality of construction units, the construction topological structures and the personnel topological structures, obtaining the construction work types and the corresponding workers for construction in each construction unit, obtaining a plurality of work order information, and constructing and obtaining a work order information base.

Based on the work order information base, the work order information in the current time period is input into the work order information base, and a plurality of pieces of construction staff information for performing construction work at present and a plurality of pieces of second-level management staff information for managing the plurality of construction staff are obtained.

And acquiring a plurality of arranged first-level manager information for management according to the plurality of constructor information and the plurality of second-level manager information, and acquiring the multi-level workers.

According to the construction method and the construction system, a plurality of construction units are obtained by division according to construction content, construction work types, construction period and the like in the current construction site, and the personnel who carry out different work types are arranged, the construction topological structure and the personnel topological structure are constructed, then the work order information base is constructed and obtained, modular management can be carried out on construction operation, personnel information needing management and control is rapidly determined, and personnel management and control efficiency is improved.

S300: acquiring preset multi-stage personnel management and control requirements based on the multi-stage operating personnel;

based on this multistage staff, set up multistage staff's management and control requirement. The management and control requirements for constructors, primary managers and secondary managers are different.

For example, it is necessary for a constructor to control whether dangerous behaviors such as no wearing of a helmet, no tying of a safety rope, etc., violations such as smoking, defecation, etc., and negative idling behaviors such as rolling, working, etc., occur. For the primary manager and the secondary manager, whether dangerous behaviors, illegal behaviors, passive idling behaviors and the like occur need to be managed and controlled, but the specific types are different, for example, the passive idling behaviors of the primary manager and the secondary manager include: there is no timed down-site patrol.

Therefore, the preset multi-level personnel management and control requirements of the multi-level workers are set, and the preset multi-level personnel management and control requirements specifically comprise dangerous behavior management and control requirements, violation management and control requirements and passive idling behavior management and control requirements of the multi-level workers, and can be obtained according to construction requirements in a construction site.

S400: collecting the supervision information of the multistage operating personnel to obtain a plurality of different supervision information sets;

to the multistage operation personnel who confirms, based on the monitoring devices monitoring multistage operation personnel that are used for in the personnel management and control system of wisdom building site in the above-mentioned content, obtain multistage operation personnel's supervisory information, and then obtain a plurality of operation personnel's different supervisory information sets.

The detection device can be a camera arranged on a construction site, an office, a data room and construction equipment, can monitor and obtain image information of multi-stage workers, analyzes clothes, behaviors and the like of the workers according to the image information by combining with an image processing technology in the prior art, obtains dangerous behavior supervision information, illegal behavior supervision information and passive idling behavior supervision information of a plurality of workers, and further obtains a plurality of supervision information sets of the workers.

S500: respectively analyzing and judging whether the plurality of supervision information sets of the multistage operating personnel meet the preset multistage personnel management and control requirements to obtain analysis results;

step S500 in the method provided in the embodiment of the present application includes:

s510: fitting the plurality of supervision information sets, inputting a supervision information analysis model, and obtaining an output result;

s520: and obtaining the analysis result according to the output result.

Specifically, the supervision information sets of the operators are fitted, and specifically, based on the supervision information set of a certain operator, the data in the dangerous behavior supervision information, the violation supervision information and the passive idling behavior supervision information are feature fitted.

In the specific fitting process, for example, the option of whether to wear a safety helmet or not in the dangerous behavior supervision information is marked as 1 or not, and is marked as 0 or not, the supervision information such as a slip number in the passive idling behavior supervision information can be scored according to the slip number duration, and the passive idling behavior supervision information of the manager can be scored more highly according to the passive idling time. Therefore, data in the supervision information set of the multi-stage workers are subjected to numerical processing, fitting is carried out based on a fitting method in the prior art, such as least square fitting, a dangerous behavior supervision fitting result, an illegal behavior fitting result and a passive idling behavior fitting result are obtained, and the dangerous behavior supervision fitting result, the illegal behavior fitting result and the passive idling behavior fitting result are input into the supervision information analysis model.

As shown in fig. 3, step S510 in the method provided in the embodiment of the present application includes:

s511: acquiring a plurality of pieces of preset management and control requirement information of the multistage operating personnel according to the preset multistage personnel management and control requirements;

s512: constructing a supervision information coordinate system based on a plurality of pieces of preset management and control requirement information;

s513: inputting a plurality of pieces of preset management and control requirement information into the supervision information coordinate system to obtain a plurality of preset requirement coordinate points;

s514: fitting the plurality of supervision information sets to obtain a plurality of supervision information of the multi-stage operation personnel;

s515: inputting the plurality of pieces of supervision information into the supervision information coordinate system to obtain a plurality of actual supervision coordinate points, wherein each worker corresponds to an actual supervision coordinate point and a preset requirement coordinate point;

s516: respectively calculating Euclidean distances of the actual supervision coordinate points and the preset requirement coordinate points to obtain a plurality of Euclidean distances;

s517: performing weighted calculation on the Euclidean distances to obtain a plurality of weighted Euclidean distances;

s518: and taking the magnitudes of a plurality of weighted Euclidean distances as the output result.

Specifically, according to the preset multi-level personnel management and control requirements, various requirements are fitted to obtain preset management and control requirement information of constructors, first-level managers and second-level managers, and each preset management and control requirement information comprises preset dangerous behavior management and control requirement information, preset violation behavior management and control requirement information and preset negative idling behavior management and control requirement information.

And constructing a supervision information coordinate system according to the plurality of pieces of preset management and control requirement information, specifically, constructing the supervision information coordinate system respectively according to the preset dangerous behavior management and control requirement information, the preset violation behavior management and control requirement information and the preset passive idling behavior management and control requirement information as coordinate axis values of the three-dimensional coordinate system, and using the supervision information coordinate system as the supervision information analysis model.

And based on the constructed supervision information coordinate system, inputting the plurality of preset management and control requirement information of the multistage operating personnel into the supervision information coordinate system, and forming a plurality of preset requirement coordinate points in the supervision information coordinate system according to the preset dangerous behavior management and control requirement information, the preset violation management and control requirement information and the specific numerical value of the preset negative idling behavior management and control requirement information in the preset management and control requirement information.

Further, based on the fitting method in the foregoing, fitting is performed on a plurality of supervision information sets to obtain a plurality of supervision information of the multi-level worker, where each supervision information includes different dangerous behavior supervision fitting results, violation fitting results, and passive idling behavior fitting results.

And inputting a plurality of pieces of supervision information into the supervision information coordinate system to obtain a plurality of actual supervision coordinate points, wherein each worker corresponds to an actual supervision coordinate point and a preset requirement coordinate point, and the same preset requirement coordinate point can correspond to a plurality of same-level workers with the same operation type.

In the supervision information coordinate system, Euclidean distances of a plurality of actual supervision coordinate points and a plurality of corresponding preset requirement coordinate points are respectively calculated to obtain a plurality of Euclidean distances. The size of each Euclidean distance can reflect the difference between the corresponding supervision information of the operator and the preset management and control requirement information, the larger the Euclidean distance is, the less the operator is in line with the preset management and control requirement which the operator should meet, and otherwise, the more the operator is in line with the corresponding preset management and control requirement.

And performing weight distribution according to the Euclidean distances, wherein the larger the Euclidean distance is, the larger the weight value is, obtaining a weight distribution result, performing weighted calculation on the Euclidean distances by adopting the weight distribution result, and obtaining a plurality of weighted Euclidean distances.

The magnitudes of the weighted euclidean distances are used as the output result of the supervisory information analysis model.

Based on the output result, the analysis result is obtained. Whether a plurality of supervision information sets of the multi-stage operation personnel meet the information of the preset multi-stage personnel management and control requirement or not is included in the analysis result, and the analysis result further includes the information of the degree which does not meet the preset management and control requirement according to the weighted Euclidean distance in the output result.

According to the embodiment of the application, based on three behavior management and control requirements in the management and control requirement information, a visual supervision information analysis model is constructed, the difference between preset management and control requirement information and actual supervision information is analyzed, whether a plurality of supervision information sets of multistage operating personnel meet the preset multistage operating personnel management and control requirements or not is analyzed, the degree of non-conformity is analyzed, an accurate analysis result is obtained, and the technical effect of accurately, visually and intelligently analyzing the current supervision information of the multistage operating personnel can be achieved.

S600: obtaining a construction efficiency parameter according to the construction work content in the work order information and the preset time period;

further, according to the construction work content in the work order information and the preset time period for construction corresponding to the work order information, the construction efficiency parameter for completing the construction work within the preset time period is obtained.

S700: according to the analysis result, the construction efficiency parameter is adjusted to obtain a predicted construction efficiency parameter;

specifically, according to the analysis result, the construction efficiency parameter is predicted and adjusted. Specifically, the construction efficiency parameter is adjusted according to the magnitude of the weighted euclidean distances in the analysis result. For example, if the magnitudes of the weighted euclidean distances are all large in the analysis result, the construction efficiency parameter is reduced, and the degree of reduction can be set only according to the magnitudes of the weighted euclidean distances and the construction efficiency experience in the previous construction process, so as to obtain the predicted construction efficiency parameter obtained by adjusting and predicting.

Or, if the magnitudes of the weighted euclidean distances are small in the analysis result, the construction efficiency parameter is reduced to a small extent or is not reduced, and the predicted construction efficiency parameter obtained by the adjustment prediction is obtained.

S800: and managing and controlling the multistage operating personnel based on the predicted construction efficiency parameters.

Based on the efficiency level of this prediction construction efficiency parameter, manage and control the multistage operation personnel, if this prediction construction efficiency parameter is less, can't satisfy and accomplish the construction work content in the time of predetermineeing, then strengthen intensity and punishment dynamics to the multistage operation personnel management and control, promote the supervision information that multistage operation personnel accords with the level of predetermineeing the management and control requirement, and then promote the prediction construction efficiency parameter. And if the predicted construction efficiency parameter can meet the requirement of completing construction work within the preset time, the control means of the multistage operating personnel can be controlled according to the previous control requirement without being adjusted, and the control means can be selected by self.

As shown in fig. 4, the method provided in the embodiment of the present application further includes step S900, and step S900 includes:

s910: obtaining a plurality of construction risk coefficients of the multistage operating personnel according to construction work content in the work order information;

s920: according to the analysis result, adjusting the construction risk coefficients to obtain a plurality of predicted construction risk coefficients;

s930: and managing and controlling the multistage operating personnel according to the plurality of predicted construction risk coefficients.

Specifically, in the construction operation, besides the management and control of the multi-stage operation personnel to ensure the operation efficiency, the safety degree of the multi-stage operation personnel in the operation process needs to be managed and controlled to be ensured.

According to the construction work content in the work order information, a plurality of construction risk coefficients of the multistage operation personnel are obtained, for example, if the work order information comprises contents such as mold making and data management, the construction risk coefficients of the mold making and the data management are obtained according to historical experience of the construction risk coefficients of the construction site, and the construction risk coefficient of the mold making is larger than the construction risk coefficient of the data management.

According to the analysis result, a plurality of construction risk coefficients are adjusted, and step S920 in the method provided by the embodiment of the present application includes:

s921: performing multiple weight distribution according to the danger degree of constructors, primary managers and secondary managers in the multi-stage operation personnel to obtain multiple initial weight distribution results;

s922: calculating to obtain an average weight value of the multistage operating personnel according to a plurality of preliminary weight distribution results to obtain a weight distribution result;

s923: and performing weighting adjustment on the plurality of construction risk coefficients by adopting the analysis result and the weight distribution result to obtain a plurality of predicted construction risk coefficients.

Specifically, according to the construction work content in the current work order information, based on experts in the field of building construction safety, multiple weight distributions are performed according to the risk degrees of constructors, first-level managers and second-level managers among the multi-level workers, and illustratively, multiple weighting can be performed based on multiple experts to obtain multiple preliminary weight distribution results.

And calculating to obtain the average weight value of the multistage workers based on the preliminary weight values of all stages of workers in the plurality of preliminary weight distribution results, and obtaining the final weight distribution result. Thus, the weight distribution is more objective and accurate.

And performing weighted adjustment on the plurality of construction risk coefficients based on the analysis result and the weight distribution result, specifically, firstly performing adjustment prediction on the plurality of construction risk coefficients by using the analysis result, and then performing weighted adjustment on the plurality of construction risk coefficients by using the weight distribution result.

Based on the magnitude of the weighted euclidean distances in the analysis result, the construction risk coefficient of each operator is adjusted and predicted, for example, if the weighted euclidean distance corresponding to a certain operator is large, the risk degree of the construction risk coefficient is increased, the increased degree can be set according to the magnitude level of the weighted euclidean distance and the historical experience of the construction safety problem, and the adjusted and predicted construction risk coefficient is obtained. Alternatively, if the weighted euclidean distance corresponding to a certain operator is small, the corresponding construction risk coefficient may not be adjusted, or the risk level of the corresponding construction risk coefficient may be slightly increased.

And after adjustment based on the analysis result, performing overall weighting adjustment on the predicted construction risk coefficients of the multistage operators based on the weight distribution result, wherein the predicted construction risk coefficients after weighting adjustment are larger for the operators with larger weight values, so that the predicted construction risk coefficients of a plurality of operators are obtained.

And managing and controlling the multistage operation personnel according to the plurality of predicted construction risk coefficients, specifically, judging the risk degree of the predicted construction risk coefficients according to historical construction safety problem experience, and if the risk degree of the predicted construction risk coefficients is large, reinforcing management and control means, corresponding punishment strength and the like to manage and control the multistage operation personnel.

According to the construction risk coefficient of the multi-level operation personnel is obtained according to the work order information, the construction risk coefficient is predicted and adjusted according to the analysis result, weight distribution is carried out according to the risk degree of each level of operation personnel, weighting adjustment is carried out on the predicted construction risk coefficient, the construction risk degree of each operation personnel can be reflected under the current supervision information, and then the construction risk coefficient is used as a data base of the management and control personnel, the efficiency and the efficiency of the management and control personnel are improved, and the occurrence of construction safety problems is reduced.

In summary, the embodiment of the present application has at least the following technical effects:

the embodiment of the application can more accurately manage personnel based on a construction work order by constructing work order information including the work order and a preset time period, analyze whether the supervision information meets preset management and control requirements or not by acquiring supervision information of multi-level workers, adjust theoretical construction efficiency parameters according to analysis results and the work order information to obtain predicted construction efficiency parameters, and perform multi-dimensional management and control on the multi-level workers to improve the operation efficiency when the predicted construction efficiency parameters cannot meet the construction efficiency requirements of the work order information, and the technical scheme provided by the application constructs a management and control method for the workers in a construction site, acquires the supervision information and analyzes the operation efficiency by taking the operation efficiency as a starting point, further manages and controls the multi-level workers, and can effectively reduce the manual participation of the management and control of the workers in the construction site, reach the technological effect who promotes personnel's management and control efficiency and building site operating efficiency.

Example two

Based on the same inventive concept as the method for managing and controlling personnel at an intelligent construction site in the previous embodiment, as shown in fig. 5, the present application provides a system for managing and controlling personnel at an intelligent construction site, wherein the system comprises:

the work order information acquisition module 11 is used for acquiring and acquiring work order information which needs to be constructed in a current construction site, wherein the work order information comprises construction work content which needs to be completed in a current preset time period;

the operator determining module 12 is configured to determine a plurality of levels of operators according to the work order information, where the plurality of levels of operators include constructors, first-level managers, and second-level managers;

a management and control requirement acquisition module 13, configured to obtain a preset multi-level personnel management and control requirement based on the multi-level workers;

a supervision information collecting module 14, configured to collect supervision information of the multistage operating personnel to obtain a plurality of different supervision information sets;

a supervision information analysis module 15, configured to analyze and determine whether the multiple supervision information sets of the multiple levels of operating personnel meet preset multiple levels of personnel management and control requirements, respectively, and obtain an analysis result;

an efficiency parameter obtaining module 16, configured to obtain a construction efficiency parameter according to the construction work content in the work order information and the preset time period;

an efficiency parameter adjusting module 17, configured to adjust the construction efficiency parameter according to the analysis result, to obtain a predicted construction efficiency parameter;

and the operator control module 18 is configured to control the multistage operators based on the predicted construction efficiency parameter.

Further, the operator determination module 12 is further configured to implement the following functions:

constructing a work order information base for construction work in the construction site;

inputting the work order information into the work order information base to obtain a plurality of construction personnel information and a plurality of secondary management personnel information;

and obtaining a plurality of first-level manager information according to the plurality of constructor information and the plurality of second-level manager information, and determining the multi-level operation staff.

Wherein, the current work order information base of carrying out construction work in the building site of construction includes:

acquiring and obtaining a plurality of construction work types needing construction in the construction site at present according to different work contents;

segmenting the construction work contents of the construction work types according to time sequence to obtain a plurality of construction units;

obtaining a plurality of constructor information for carrying out different construction work types according to a plurality of construction work types;

determining a plurality of pieces of second-level manager information and a plurality of pieces of first-level manager information according to the plurality of pieces of constructor information;

constructing a construction topological structure among a plurality of construction units;

arranging a plurality of pieces of constructor information, secondary manager information and primary manager information according to the plurality of construction units to obtain a person topological structure;

and constructing and obtaining the work order information base according to the plurality of construction units, the construction topological structure and the personnel topological structure.

Further, the supervision information analysis module 15 is configured to implement the following functions:

fitting the plurality of supervision information sets, inputting a supervision information analysis model, and obtaining an output result;

and obtaining the analysis result according to the output result.

Wherein fitting the plurality of the sets of regulatory information and inputting a regulatory information analysis model comprises:

acquiring a plurality of pieces of preset management and control requirement information of the multistage operating personnel according to the preset multistage personnel management and control requirements;

constructing a supervision information coordinate system based on a plurality of pieces of preset management and control requirement information;

inputting a plurality of pieces of preset management and control requirement information into the supervision information coordinate system to obtain a plurality of preset requirement coordinate points;

fitting the plurality of supervision information sets to obtain a plurality of supervision information of the multi-stage operation personnel;

inputting the plurality of pieces of supervision information into the supervision information coordinate system to obtain a plurality of actual supervision coordinate points, wherein each worker corresponds to an actual supervision coordinate point and a preset requirement coordinate point;

respectively calculating Euclidean distances of the actual supervision coordinate points and the preset requirement coordinate points to obtain a plurality of Euclidean distances;

performing weighted calculation on the plurality of Euclidean distances to obtain a plurality of weighted Euclidean distances;

and taking the magnitudes of a plurality of weighted Euclidean distances as the output result.

Further, the system also comprises a risk factor management and control module, which is used for realizing the following functions:

according to construction work content in the work order information, a plurality of construction risk coefficients of the multistage operating personnel are obtained;

according to the analysis result, adjusting the construction risk coefficients to obtain a plurality of predicted construction risk coefficients;

and managing and controlling the multistage operating personnel according to the plurality of predicted construction risk coefficients.

Wherein, according to the analysis result, the construction risk coefficient is adjusted, including:

performing multiple weight distribution according to the danger degree of constructors, primary managers and secondary managers in the multi-stage operation personnel to obtain multiple initial weight distribution results;

calculating to obtain an average weight value of the multistage operating personnel according to a plurality of preliminary weight distribution results to obtain a weight distribution result;

and performing weighting adjustment on the plurality of construction risk coefficients by adopting the analysis result and the weight distribution result to obtain a plurality of predicted construction risk coefficients.

The specification and figures are merely exemplary of the application and are intended to cover any and all modifications, variations, combinations, or equivalents within the scope of the application. It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the present application and its equivalent technology, it is intended that the present application include such modifications and variations.

Claims

1. A method of personnel management and control for an intelligent worksite, the method comprising:

acquiring work order information needing to be constructed in a current construction site, wherein the work order information comprises construction work content needing to be completed in a current preset time period;

determining multi-stage operation personnel according to the work order information, wherein the multi-stage operation personnel comprise constructors, first-stage management personnel and second-stage management personnel;

acquiring preset multi-stage personnel management and control requirements based on the multi-stage operating personnel;

collecting the supervision information of the multistage operating personnel to obtain a plurality of different supervision information sets;

respectively analyzing and judging whether the plurality of supervision information sets of the multistage operating personnel meet the preset multistage personnel management and control requirements to obtain analysis results;

obtaining a construction efficiency parameter according to construction work content in the work order information and the preset time period;

according to the analysis result, the construction efficiency parameter is adjusted to obtain a predicted construction efficiency parameter;

and managing and controlling the multistage operating personnel based on the predicted construction efficiency parameters.

2. The method of claim 1, wherein said determining a multi-stage worker from said work order information comprises:

inputting the work order information into the work order information base to obtain a plurality of constructor information and a plurality of secondary manager information;

3. The method of claim 2, wherein said constructing a work order information base for construction work currently performed within said worksite comprises:

determining a plurality of second-level manager information and a plurality of first-level manager information according to the plurality of constructor information;

4. The method according to claim 1, wherein the analyzing and determining whether the plurality of supervision information sets of the multi-level workers meet the preset multi-level worker management and control requirements respectively comprises:

and obtaining the analysis result according to the output result.

5. The method of claim 4, wherein said fitting a plurality of said regulatory information sets into a regulatory information analysis model comprises:

fitting the plurality of supervision information sets to obtain a plurality of supervision information of the multistage operating personnel;

performing weighted calculation on the Euclidean distances to obtain a plurality of weighted Euclidean distances;

6. The method of claim 1, further comprising:

obtaining a plurality of construction risk coefficients of the multistage operating personnel according to construction work content in the work order information;

7. The method of claim 6, wherein said adjusting said construction risk factor based on said analysis comprises:

8. A personnel management and control system for a smart worksite, the system comprising:

the work order information acquisition module is used for acquiring and acquiring work order information needing to be constructed in a current construction site, wherein the work order information comprises construction work content needing to be completed in a current preset time period;

the operator determining module is used for determining multi-stage operators according to the work order information, wherein the multi-stage operators comprise constructors, first-stage managers and second-stage managers;

the management and control requirement acquisition module is used for acquiring preset multi-stage personnel management and control requirements based on the multi-stage operating personnel;

the monitoring information acquisition module is used for acquiring monitoring information of the multistage operating personnel to obtain a plurality of different monitoring information sets;

the supervision information analysis module is used for respectively analyzing and judging whether the plurality of supervision information sets of the multi-stage operation personnel meet the preset multi-stage personnel management and control requirements to obtain analysis results;

the efficiency parameter obtaining module is used for obtaining a construction efficiency parameter according to the construction work content in the work order information and the preset time period;

the efficiency parameter adjusting module is used for adjusting the construction efficiency parameters according to the analysis result to obtain predicted construction efficiency parameters;

and the operator control module is used for controlling the multistage operators based on the predicted construction efficiency parameters.