CN117474238A - System and method for managing and controlling construction progress based on WEB terminal - Google Patents

Abstract

The invention discloses a system and a method for managing and controlling construction progress based on a WEB end, and relates to the technical field of data processing of construction supervision and prediction. In order to solve the problem that the cooperative work capacity is low because the number of project participants is large and information is difficult to share and exchange among different departments; a system based on WEB end construction progress control comprises a user management unit, a progress control unit and an information sharing unit; through the real-time monitoring to the job site, the transparency of data and the timeliness of feedback are improved, the accurate analysis and the prediction of the construction progress are realized, the accurate prediction and the adjustment of the construction progress are realized, the precision of project management is improved, related personnel can remotely know and control the condition of the job site, the working efficiency is improved, a user can conveniently inquire and compare, the management and control level of the construction progress is greatly improved, the problems can be timely found and treated, the project risk is reduced, and the efficiency and the precision of the project management are improved.

Description

System and method for managing and controlling construction progress based on WEB terminal

Technical Field

The invention relates to the technical field of data processing of construction supervision prediction, in particular to a system and a method for managing and controlling construction progress based on a WEB end.

Background

The project construction project is characterized in that in the whole project construction life cycle, the number of project participants is large, the project information content is various and large in number, and in the project cooperative management process, the phenomena of fuzzy project information data, serious information loss and the like often occur; regarding engineering project construction progress management and control, related patents such as chinese patent publication No. CN116644878A disclose engineering monitoring BIM collaboration platform based on internet of things, including: the progress management module is used for controlling the progress, and comprises the steps of carrying out feasibility comparison on the actual construction progress and the planned progress on the spot based on the aerial photo of the unmanned aerial vehicle and the real-time generation characteristic of the BIM three-dimensional model, so as to ensure the controllable engineering progress; and based on the progress plan and simulation of BIM, the project progress plan is continuously refined and adjusted by utilizing the visual and transparent BIM model and the actual field progress condition, so that the possibility of deducting a reasonable, feasible and shorter working period under the basic progress target is ensured; the field visual monitoring management module is used for field visual monitoring, and by combining BIM, the safety standard of personnel equipment is controlled through mobile intelligent video monitoring, so that the engineering progress and the engineering quality are ensured; the system comprises a quality management module, a cost control module and a labor management module, wherein the quality management module, the cost control module and the labor management module are used for performing personnel management, and performing real-time background management and allocation on site construction personnel based on intuitiveness of a BIM model and internet data.

The above patent, although carrying out real-time background management and deployment on site constructors based on a BIM model, still has the following problems:

in the prior art, a large amount of human resources are needed for manual management, meanwhile, the processed information is huge, the problem of low efficiency is caused, the precision of data is difficult to guarantee in a manual management mode, delay of construction period or waste of resources can be caused, meanwhile, due to the fact that the number of project participants is large, information is difficult to share and exchange among different departments, and the collaborative work capacity is low.

Disclosure of Invention

The invention aims to provide a system and a method for managing and controlling construction progress based on a WEB end, which effectively improve the management and control efficiency and precision of the construction progress, can also improve the cooperative work capacity among all the participants, and are beneficial to the smooth implementation of projects so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a system based on WEB end construction progress management and control comprises:

the user management unit is used for managing the user of the construction progress management and control system, comprising the steps of user registration, login and authority allocation, acquiring user data logged in by a WEB terminal, acquiring key information and authority level of the user data, and storing and managing logged-in user operation data;

the data acquisition unit is used for collecting various data of a construction site, preprocessing the collected data, and displaying construction tasks, daily progress, monthly progress and predicted completion time corresponding to current user data on a WEB terminal respectively;

the progress management and control unit is used for extracting real-time monitoring data in the collected data, processing and analyzing the real-time monitoring, generating a construction progress report and a chart, pre-warning the construction progress according to construction tasks, and sending out pre-warning signals when the construction progress is found to have delay risks;

and the information sharing unit is used for sharing the data of the data acquisition unit and the progress management and control unit to each participant of the project, and each participant logs in the WEB terminal based on the intelligent terminal to call the data related to the query.

Further, the user management unit includes:

the user registration module is used for creating and adding a plurality of users based on a system administrator, establishing an association relation with the system administrator for each user, and establishing an independent password based on user data;

the user login module is used for acquiring user data and a corresponding password thereof, verifying whether the identity information is correct or not, and acquiring corresponding rights after login;

the permission management module is used for distributing different permission levels to each user according to post requirements and distributing the distributed users in groups based on the permission levels;

and the operation monitoring module is used for establishing a log management system, recording key operation and abnormal time, and supervising the user operation by adopting a real-time monitoring technology.

Further, the data acquisition unit includes:

the data acquisition module is used for arranging sensors and monitoring equipment on a construction site, collecting engineering quantity and construction progress data in real time, and transmitting the collected data to a server through the Internet for processing and storage;

the data processing module is used for classifying the data uploaded by the sensor and the monitoring equipment based on the categories of the sensor and the monitoring equipment, cleaning the data and storing the processed data into a database;

the project management module is used for acquiring the data uploaded by the system administrator actively, creating a corresponding construction project based on the data uploaded by the system administrator actively, and adjusting and making a new construction plan.

Further, the data acquisition module includes:

the data acquisition execution module is used for acquiring engineering quantity and construction progress data in real time in an acquisition period; the acquisition period comprises a plurality of unit time, and the value range of the unit time is 1s-3s; the acquisition unit comprises a value range of 30 unit time to 50 unit time in unit time;

the data quantity extraction module is used for extracting the data quantity of the data information acquired in each unit acquisition time in the acquisition period;

the factor acquisition module is used for setting a first thread adjusting factor and a second thread adjusting factor by utilizing the data quantity of the data information acquired in each unit acquisition time in the acquisition period, wherein the first thread adjusting factor and the second thread adjusting factor are acquired through the following formula:

wherein E is ₀₁ And E is ₀₂ Representing a first thread adjustment factor and a second thread adjustment factor, respectively; n represents the number of unit time contained in the acquisition period; c (C) _i Representing the data amount acquired in the ith unit time; cz represents the total amount of data acquired in the acquisition period; exp represents an exponential function operation with e as the base;

the thread parameter acquisition module is used for setting thread parameters by utilizing the first thread adjusting factor and the second thread adjusting factor, and constructing a data transmission thread between the data acquisition module and the server according to the thread parameters;

and the data transmission execution module is used for transmitting the data information acquired in the acquisition period to a server through the data transmission thread.

Further, the thread parameter obtaining module includes:

extracting the first thread adjustment factor and the second thread adjustment factor;

setting the maximum allowable transmission data amount of the unit time of the data transmission thread by using the first thread regulating factor and the second thread regulating factor; the maximum allowable transmission data amount of the unit time of the data transmission thread is obtained through the following formula:

wherein C is _max Representing the maximum allowable transmission data amount of the unit time of the data transmission thread; c (C) ₀ Representing a preset reference allowable transmission data amount; e (E) ₀₁ And E is ₀₂ Representing a first thread adjustment factor and a second thread adjustment factor, respectively; lambda (lambda) ₀₁ And lambda (lambda) ₀₂ Representing a first thread adjustment factor and a second thread adjustment, respectivelyCoefficient, and lambda ₀₁ The value of (C) is in the range of 0.36-0.47, lambda ₀₂ The value range of (2) is 0.12-0.24;

constructing a data transmission thread between a data acquisition module and the server according to the maximum allowable transmission data quantity of the data transmission thread in unit time, wherein the data transmission thread between the data acquisition module and the server corresponds to an acquisition period one by one;

and after the data transmission thread finishes the data information acquired in the current acquisition period, performing thread revocation operation.

Further, the project management module specifically includes:

acquiring a project to be created based on the data actively uploaded by the system administrator, reading the project to be created, and determining a construction plan of the project to be created;

the project to be created is at least one, and the construction plan comprises the project name, the construction type and the construction task of the project to be created;

analyzing the construction plan, determining the priority of the construction task based on the predicted completion time of the construction task, and executing the construction plan based on the priority;

and determining worker requirements corresponding to the construction plan based on the attribute information of the project to be created, and creating worker positions and the number of workers based on the worker requirements.

Further, the progress management and control unit includes:

the progress monitoring module is used for extracting construction progress data from the collected data and monitoring the construction progress of a construction site in real time;

the progress data statistics module is used for comparing the actual construction progress with the planned construction progress, and carrying out construction plan prediction based on the comparison result and the historical construction progress data to obtain a prediction result;

the progress report generation module is used for generating a corresponding construction report and a construction progress chart of a construction project based on the prediction result;

and the early warning module is used for carrying out early warning judgment on the construction progress, sending an early warning signal when judging that the construction progress has delay risk, and sending early warning information to management staff through the Internet.

Further, the progress report generating module generates a construction progress chart of the construction project, specifically:

real-time monitoring and determining the actual progress degree of a construction plan based on construction progress data, and calling the associated information of the construction plan according to the actual progress degree of the construction plan;

the association information includes: actual daily schedule data, actual monthly schedule data, and the estimated completion time of the project at the current schedule;

combining the related information of the construction plan with the progress of the construction plan to form a corresponding relation in the current construction progress state;

determining a data fluctuation relationship according to the corresponding relationship in the current construction progress state and the corresponding relationship in the historical construction progress state;

and filling the data fluctuation relation into a chart template to obtain a construction progress chart of the construction plan, and highlighting abnormal data in the construction progress chart of the construction plan.

Further, the information sharing unit includes:

the data interaction module is used for establishing a data sharing mechanism, sharing construction progress data and real-time monitoring data of the project to all participants of the project based on the data sharing mechanism, and enabling all the participants to realize multi-party online cooperative work based on a WEB page;

the data visualization module is used for generating a construction progress chart according to the processed data, and a user visually checks the construction progress through a WEB page and provides inquiry and comparison functions for the user;

and the feedback module is used for acquiring feedback information of evaluating or making comments on the current construction progress by the user, and processing and storing the feedback information of the user.

The invention provides another technical scheme, a method for managing and controlling construction progress based on a WEB terminal, which comprises the following steps:

step one: user data logged in at a WEB end is obtained, basic information and authority level of the user data are obtained, and log recording is carried out on user operation data;

step two: setting a sensor and a camera on a construction site, collecting construction data in real time, analyzing the collected construction data, and generating a report and a chart reflecting construction progress;

step three: when the analysis result shows that the construction progress has abnormality or potential problem, the early warning is automatically sent out, and after receiving the early warning, relevant personnel adjust and control the construction according to actual conditions.

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

through the real-time supervision to the job site, the timeliness of data transparency and feedback has been improved, the accurate analysis and the prediction of construction progress, realize the accurate prediction and the adjustment of construction progress, the precision of project management has been improved, through using the WEB end platform, the condition of job site can be known and controlled by the relevant personnel in a long-range, work efficiency has been improved, convenience of customers inquires and compares, the management and control level of construction progress is improved greatly, make the problem in time discover and obtain handling, reduce project risk, improve project management's efficiency and precision.

Drawings

FIG. 1 is a system block diagram of the invention based on WEB-side construction progress management and control.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problem of low collaborative work capability caused by the difficulty in sharing and exchanging information among different departments due to the large number of project participants, referring to fig. 1, the present embodiment provides the following technical scheme:

a system based on WEB end construction progress management and control comprises:

the user management unit is used for managing the user of the construction progress management and control system, comprising the registration, login and authority allocation of the user, acquiring the user data logged in by the WEB terminal, acquiring the key information and the authority level of the user data, and storing and managing the logged-in user operation data;

a user management unit comprising:

the user registration module is used for creating and adding a plurality of users based on a system administrator, establishing an association relation with the system administrator for each user, and establishing an independent password based on user data;

the user login module is used for acquiring user data and a corresponding password thereof, verifying whether the identity information is correct or not, and acquiring corresponding rights after login;

the authority management module is used for distributing different authority levels for each user according to post requirements, such as common users, administrators, superadministrators and the like, and distributing the distributed users in groups based on the authority levels;

the operation monitoring module is used for establishing a log management system, recording key operation and abnormal time, and supervising user operation by adopting a real-time monitoring technology;

specifically, the authority level is finely divided according to the post and the work requirement so as to better control the azimuth and the operation range, meanwhile, the approval link and the approval personnel are definitely determined, the rationality and the scientificity of the authority allocation are ensured, the fairness and the accuracy of the authority allocation are ensured, the work efficiency is improved, a log management system is established, the tracking of a plastic source is facilitated, the compliance and the safety of the operation are ensured, abnormal operation is found in time, the responsibility and the treatment are carried out on related personnel, the importance degree of the staff on the safety operation is improved, and the management level is continuously improved;

the data acquisition unit is used for collecting various data of a construction site, including but not limited to engineering quantity, construction progress, human resources, material use conditions and the like, preprocessing the collected data, and displaying construction tasks, daily progress, monthly progress and predicted completion time corresponding to current user data on a WEB side respectively;

the progress management and control unit is used for extracting real-time monitoring data in the collected data, including but not limited to engineering quantity, manpower, material resources and the like, processing and analyzing the real-time monitoring, generating a construction progress report and chart, pre-warning the construction progress according to construction tasks, and sending out pre-warning signals when the construction progress is found to have delay risks;

the information sharing unit is used for sharing the data of the data acquisition unit and the progress management and control unit to all the participants of the project, including but not limited to a construction unit, a supervision unit, a design unit, a proprietor and the like, and all the participants log in a WEB terminal based on the intelligent terminal to call the data related to the query;

an information sharing unit including:

the data interaction module is used for establishing a data sharing mechanism, sharing construction progress data and real-time monitoring data of the project to all participants of the project based on the data sharing mechanism, and enabling all the participants to realize multi-party online cooperative work based on a WEB page;

the data visualization module is used for generating a construction progress chart according to the processed data, and a user visually checks the construction progress through a WEB page and provides inquiry and comparison functions for the user;

and the feedback module is used for acquiring feedback information of evaluating or making comments on the current construction progress by the user, and processing and storing the feedback information of the user.

Specifically, the construction progress is pre-warned according to the construction task, when the construction progress is found to have delay risk, a pre-warning signal is sent, so that a manager can take corresponding measures in time, the manager can visually check the construction progress through a WEB page, so that the manager can visually know the construction progress and the existing problems, the user can evaluate the current construction progress or put forward feedback information of comments, each party can make corresponding decisions according to the latest data, the follow-up data processing and analysis are facilitated, the management and control efficiency and precision of the construction progress are effectively improved, and meanwhile, the collaborative work capacity among all parties can be improved, so that the project is smoothly implemented.

In order to solve the technical problem that the accuracy of the data is difficult to be ensured by the manual management method, which may cause delay of the construction period or waste of resources, referring to fig. 1, the present embodiment provides the following technical scheme:

a data acquisition unit comprising:

the data acquisition module is used for arranging sensors and monitoring equipment on a construction site, collecting engineering quantity and construction progress data in real time, and transmitting the collected data to a server through the Internet for processing and storage;

the data processing module is used for classifying the data uploaded by the sensor and the monitoring equipment based on the categories of the sensor and the monitoring equipment, cleaning the data and storing the processed data into a database;

the project management module is used for acquiring the data actively uploaded by the system administrator, creating a corresponding construction project based on the data actively uploaded by the system administrator, and adjusting and making a new construction plan;

specifically, the data acquisition module includes:

the data acquisition execution module is used for acquiring engineering quantity and construction progress data in real time in an acquisition period; the acquisition period comprises a plurality of unit time, and the value range of the unit time is 1s-3s; the acquisition unit comprises a value range of 30 unit time to 50 unit time in unit time;

the data quantity extraction module is used for extracting the data quantity of the data information acquired in each unit acquisition time in the acquisition period;

the factor acquisition module is used for setting a first thread adjusting factor and a second thread adjusting factor by utilizing the data quantity of the data information acquired in each unit acquisition time in the acquisition period, wherein the first thread adjusting factor and the second thread adjusting factor are acquired through the following formula:

wherein E is ₀₁ And E is ₀₂ Representing a first thread adjustment factor and a second thread adjustment factor, respectively; n represents the number of unit time contained in the acquisition period; c (C) _i Representing the data amount acquired in the ith unit time; cz represents the total amount of data acquired in the acquisition period; exp represents an exponential function operation with e as the base;

the thread parameter acquisition module is used for setting thread parameters by utilizing the first thread adjusting factor and the second thread adjusting factor, and constructing a data transmission thread between the data acquisition module and the server according to the thread parameters;

and the data transmission execution module is used for transmitting the data information acquired in the acquisition period to a server through the data transmission thread.

The technical effects of the technical scheme are as follows: and (3) real-time data acquisition: the system can collect engineering quantity and construction progress data in real time in a very short collection period (the value range of each unit time is 1 to 3 seconds). This helps to get the engineering progress in time.

Dynamically adjusting the data volume: by utilizing the amount of data acquired per unit acquisition time in an acquisition cycle, the system can dynamically set the first thread adjustment factor and the second thread adjustment factor to accommodate different data generation rates and amounts of data. This facilitates the system to adapt to the actual needs and data characteristics.

Thread parameter adjustment: the system uses the first thread adjustment factor and the second thread adjustment factor to set parameters of the data acquisition thread. This allows the system to optimize the performance of the threads during data transfer to handle different data volumes and acquisition cycles.

Efficient data transmission: by constructing a data transfer thread and using dynamically adjusted thread parameters, the system can achieve efficient data transfer. This ensures that the collected data can be transmitted to the server in time for further analysis and management.

Data reliability: real-time acquisition and efficient transmission help ensure the reliability of the data. The data will not lag, thus supporting the timely monitoring and decision of engineering quantity and construction progress.

In general, the technical effect of the technical scheme is that the efficiency, the real-time performance and the reliability of engineering data acquisition are improved, meanwhile, the requirements of different data conditions and acquisition periods are met, and better management and monitoring of engineering progress are facilitated.

Specifically, the thread parameter obtaining module includes:

extracting the first thread adjustment factor and the second thread adjustment factor;

setting the maximum allowable transmission data amount of the unit time of the data transmission thread by using the first thread regulating factor and the second thread regulating factor; the maximum allowable transmission data amount of the unit time of the data transmission thread is obtained through the following formula:

wherein C is _max Representing the maximum allowable transmission data amount of the unit time of the data transmission thread; c (C) ₀ Representing a preset reference allowable transmission data amount; e (E) ₀₁ And E is ₀₂ Representing a first thread adjustment factor and a second thread adjustment factor, respectively; lambda (lambda) ₀₁ And lambda (lambda) ₀₂ Respectively representing a first thread adjustment factor and a second thread adjustment factor, and lambda ₀₁ The value of (C) is in the range of 0.36-0.47, lambda ₀₂ The value range of (2) is 0.12-0.24;

constructing a data transmission thread between a data acquisition module and the server according to the maximum allowable transmission data quantity of the data transmission thread in unit time, wherein the data transmission thread between the data acquisition module and the server corresponds to an acquisition period one by one;

and after the data transmission thread finishes the data information acquired in the current acquisition period, performing thread revocation operation.

The technical effects of the technical scheme are as follows: dynamic thread adjustment: by obtaining the first thread adjustment factor and the second thread adjustment factor, the system is able to dynamically adjust parameters of the data transfer thread during each acquisition cycle. This helps to optimize thread performance to accommodate the needs of different acquisition cycles.

The adaptability: the thread parameters are set according to the first thread adjusting factor and the second thread adjusting factor, and can be flexibly adjusted according to actual data conditions and adjustment coefficients. This provides flexibility of the system and can cope with different data situations.

Maximum allowable transmission data amount per unit time is set: the system dynamically calculates the maximum allowable transmission data quantity of the unit time of the data transmission thread according to a formula. This helps control the speed of data transmission to avoid data loss or transmission overload.

Thread undo operation: and executing thread revocation operation after the data transmission thread finishes data transmission of the current acquisition period. This helps to release resources in time in preparation for data transmission for the next acquisition cycle.

Efficiency and performance optimization: by dynamically adjusting the thread parameters, the system can realize high-efficiency data transmission under different conditions so as to improve the efficiency of data acquisition and transmission.

In general, the technical effect of the technical scheme is to improve the adaptability and performance of the data transmission thread, ensure the real-time performance and reliability of data transmission and optimize the efficiency of data acquisition and transmission. This is important for management and monitoring of engineering quantity and construction progress data.

The project management module specifically comprises:

acquiring a project to be created based on data actively uploaded by a system administrator, reading the project to be created, and determining a construction plan of the project to be created;

the project to be created is at least one, and the construction plan comprises the project name, the construction type and the construction task of the project to be created;

analyzing the construction plan, determining the priority of the construction task based on the predicted completion time of the construction task, and executing the construction plan based on the priority;

determining worker requirements corresponding to a construction plan based on attribute information of a project to be created, and creating worker positions and the number of workers based on the worker requirements;

specifically, through data collection, processing and planning, a detailed construction progress plan formulated by project managers according to project requirements and resource conditions is read, accurate and effective creation of projects to be created is realized, the priority of construction tasks is determined based on the estimated completion time of the construction tasks, the priority comprises the time arrangement of construction stages, resource allocation, key figures and the like, construction task management is carried out on constructors, construction task data analysis is carried out, responsibility is carried out on the constructors, the construction process can be managed more finely, the construction efficiency and quality are improved, and the accuracy and the effectiveness of the plan are further improved;

progress management and control unit includes:

the progress monitoring module is used for extracting construction progress data from the collected data and monitoring the construction progress of a construction site in real time;

the progress data statistics module is used for comparing the actual construction progress with the planned construction progress, and carrying out construction plan prediction based on the comparison result and the historical construction progress data to obtain a prediction result;

the progress report generation module is used for generating a corresponding construction report and a construction progress chart of a construction project based on the prediction result;

the progress report generation module generates a construction progress chart of a construction project, specifically:

real-time monitoring and determining the actual progress degree of the construction plan based on the construction progress data, and calling the associated information of the construction plan according to the actual progress degree of the construction plan;

the association information includes: actual daily schedule data, actual monthly schedule data, and the estimated completion time of the project at the current schedule;

the association information of the construction plan is combined with the progress of the construction plan to form a corresponding relation in the current construction progress state;

determining a data fluctuation relationship according to the corresponding relationship in the current construction progress state and the corresponding relationship in the historical construction progress state;

filling the data fluctuation relation into a chart template to obtain a construction progress chart of the construction plan, and highlighting abnormal data in the construction progress chart of the construction plan;

specifically, the chart has a uniform format through the chart template, the construction progress chart of the construction plan can be formed only by filling, the efficiency of the construction progress chart of the construction plan is effectively improved, the sensitivity to the abnormal data is improved through highlighting the abnormal data in the construction progress chart of the construction plan, the progress data statistics module predicts the construction progress condition in advance, intervenes in the lagging risk project as soon as possible, and the stable completion of the engineering progress is ensured;

and the early warning module is used for carrying out early warning judgment on the construction progress, sending an early warning signal when judging that the construction progress has delay risk, and sending early warning information to management staff through the Internet.

Specifically, the real-time monitoring of the construction site is realized through the progress monitoring module, the transparency of data and the timeliness of feedback are improved, the accurate analysis and prediction of the construction progress are realized, the accurate prediction and adjustment of the construction progress are realized, the precision of project management is improved, the visual progress display function is realized, through using the WEB end platform, related personnel can remotely know and control the condition of the construction site, the working efficiency is improved, a user can conveniently inquire and compare, the management and control level of the construction progress is greatly improved, the problem can be timely found and treated, the project risk is reduced, and the efficiency and the precision of project management are improved.

In order to better demonstrate the realization of the system for managing and controlling the construction progress based on the WEB terminal, the embodiment provides a method for managing and controlling the construction progress based on the WEB terminal, which comprises the following steps:

step one: user data logged in at a WEB end, basic information and authority level of the user data are obtained, log recording is carried out on user operation data, and a user can log in a system through equipment such as a mobile phone, a computer and the like and can check construction progress and related reports at any time;

step two: setting a sensor and a camera on a construction site, collecting construction data in real time, analyzing the collected construction data, and generating a report and a chart reflecting the construction progress so that a manager can intuitively know the construction progress and existing problems;

step three: when the analysis result shows that the construction progress has abnormality or potential problem, the early warning is automatically sent out, and after receiving the early warning, related personnel adjust and control the construction according to actual conditions, so that management personnel can take corresponding measures in time.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (10)

1. A system based on WEB end construction progress management and control is characterized in that: comprising the following steps:

the user management unit is used for managing the user of the construction progress management and control system, comprising the steps of user registration, login and authority allocation, acquiring user data logged in by a WEB terminal, acquiring key information and authority level of the user data, and storing and managing logged-in user operation data;

the data acquisition unit is used for collecting various data of a construction site, preprocessing the collected data, and displaying construction tasks, daily progress, monthly progress and predicted completion time corresponding to current user data on a WEB terminal respectively;

the progress management and control unit is used for extracting real-time monitoring data in the collected data, processing and analyzing the real-time monitoring, generating a construction progress report and a chart, pre-warning the construction progress according to construction tasks, and sending out pre-warning signals when the construction progress is found to have delay risks;

and the information sharing unit is used for sharing the data of the data acquisition unit and the progress management and control unit to each participant of the project, and each participant logs in the WEB terminal based on the intelligent terminal to call the data related to the query.

2. The system for managing and controlling construction progress based on a WEB side according to claim 1, wherein: a user management unit comprising:

the user registration module is used for creating and adding a plurality of users based on a system administrator, establishing an association relation with the system administrator for each user, and establishing an independent password based on user data;

the user login module is used for acquiring user data and a corresponding password thereof, verifying whether the identity information is correct or not, and acquiring corresponding rights after login;

the permission management module is used for distributing different permission levels to each user according to post requirements and distributing the distributed users in groups based on the permission levels;

and the operation monitoring module is used for establishing a log management system, recording key operation and abnormal time, and supervising the user operation by adopting a real-time monitoring technology.

3. The system for managing and controlling construction progress based on a WEB side according to claim 2, wherein: a data acquisition unit comprising:

the data acquisition module is used for arranging sensors and monitoring equipment on a construction site, collecting engineering quantity and construction progress data in real time, and transmitting the collected data to a server through the Internet for processing and storage;

the data processing module is used for classifying the data uploaded by the sensor and the monitoring equipment based on the categories of the sensor and the monitoring equipment, cleaning the data and storing the processed data into a database;

the project management module is used for acquiring the data uploaded by the system administrator actively, creating a corresponding construction project based on the data uploaded by the system administrator actively, and adjusting and making a new construction plan.

4. The system for managing and controlling construction progress based on a WEB side according to claim 3, wherein: a data acquisition module comprising:

the data acquisition execution module is used for acquiring engineering quantity and construction progress data in real time in an acquisition period; the acquisition period comprises a plurality of unit time, and the value range of the unit time is 1s-3s; the acquisition unit comprises a value range of 30 unit time to 50 unit time in unit time;

the data quantity extraction module is used for extracting the data quantity of the data information acquired in each unit acquisition time in the acquisition period;

the factor acquisition module is used for setting a first thread adjusting factor and a second thread adjusting factor by utilizing the data quantity of the data information acquired in each unit acquisition time in the acquisition period, wherein the first thread adjusting factor and the second thread adjusting factor are acquired through the following formula:

wherein E is ₀₁ And E is ₀₂ Representing a first thread adjustment factor and a second thread adjustment factor, respectively; n represents the number of unit time contained in the acquisition period; c (C) _i Representing the data amount acquired in the ith unit time; cz represents the total amount of data acquired in the acquisition period; expRepresenting an exponential function operation with e as a base;

the thread parameter acquisition module is used for setting thread parameters by utilizing the first thread adjusting factor and the second thread adjusting factor, and constructing a data transmission thread between the data acquisition module and the server according to the thread parameters;

and the data transmission execution module is used for transmitting the data information acquired in the acquisition period to a server through the data transmission thread.

5. The system for managing and controlling construction progress based on a WEB side according to claim 4, wherein: the thread parameter acquisition module comprises:

extracting the first thread adjustment factor and the second thread adjustment factor;

setting the maximum allowable transmission data amount of the unit time of the data transmission thread by using the first thread regulating factor and the second thread regulating factor; the maximum allowable transmission data amount of the unit time of the data transmission thread is obtained through the following formula:

wherein C is _max Representing the maximum allowable transmission data amount of the unit time of the data transmission thread; c (C) ₀ Representing a preset reference allowable transmission data amount; e (E) ₀₁ And E is ₀₂ Representing a first thread adjustment factor and a second thread adjustment factor, respectively; lambda (lambda) ₀₁ And lambda (lambda) ₀₂ Respectively representing a first thread adjustment factor and a second thread adjustment factor, and lambda ₀₁ The value of (C) is in the range of 0.36-0.47, lambda ₀₂ The value range of (2) is 0.12-0.24;

constructing a data transmission thread between a data acquisition module and the server according to the maximum allowable transmission data quantity of the data transmission thread in unit time, wherein the data transmission thread between the data acquisition module and the server corresponds to an acquisition period one by one;

and after the data transmission thread finishes the data information acquired in the current acquisition period, performing thread revocation operation.

6. The system for managing and controlling construction progress based on a WEB side according to claim 3, wherein: the project management module specifically comprises:

acquiring a project to be created based on the data actively uploaded by the system administrator, reading the project to be created, and determining a construction plan of the project to be created;

the project to be created is at least one, and the construction plan comprises the project name, the construction type and the construction task of the project to be created;

analyzing the construction plan, determining the priority of the construction task based on the predicted completion time of the construction task, and executing the construction plan based on the priority;

and determining worker requirements corresponding to the construction plan based on the attribute information of the project to be created, and creating worker positions and the number of workers based on the worker requirements.

7. The system for managing and controlling construction progress based on a WEB side according to claim 6, wherein: progress management and control unit includes:

the progress monitoring module is used for extracting construction progress data from the collected data and monitoring the construction progress of a construction site in real time;

the progress data statistics module is used for comparing the actual construction progress with the planned construction progress, and carrying out construction plan prediction based on the comparison result and the historical construction progress data to obtain a prediction result;

the progress report generation module is used for generating a corresponding construction report and a construction progress chart of a construction project based on the prediction result;

and the early warning module is used for carrying out early warning judgment on the construction progress, sending an early warning signal when judging that the construction progress has delay risk, and sending early warning information to management staff through the Internet.

8. The system for managing and controlling construction progress based on a WEB side according to claim 7, wherein: the progress report generation module generates a construction progress chart of a construction project, specifically:

real-time monitoring and determining the actual progress degree of a construction plan based on construction progress data, and calling the associated information of the construction plan according to the actual progress degree of the construction plan;

the association information includes: actual daily schedule data, actual monthly schedule data, and the estimated completion time of the project at the current schedule;

combining the related information of the construction plan with the progress of the construction plan to form a corresponding relation in the current construction progress state;

determining a data fluctuation relationship according to the corresponding relationship in the current construction progress state and the corresponding relationship in the historical construction progress state;

and filling the data fluctuation relation into a chart template to obtain a construction progress chart of the construction plan, and highlighting abnormal data in the construction progress chart of the construction plan.

9. The system for managing and controlling construction progress based on a WEB side according to claim 8, wherein: an information sharing unit including:

the data interaction module is used for establishing a data sharing mechanism, sharing construction progress data and real-time monitoring data of the project to all participants of the project based on the data sharing mechanism, and enabling all the participants to realize multi-party online cooperative work based on a WEB page;

the data visualization module is used for generating a construction progress chart according to the processed data, and a user visually checks the construction progress through a WEB page and provides inquiry and comparison functions for the user;

and the feedback module is used for acquiring feedback information of evaluating or making comments on the current construction progress by the user, and processing and storing the feedback information of the user.

10. The method for managing and controlling the construction progress based on the WEB side is realized based on the system based on the construction progress management and control of the WEB side as claimed in claim 9, and is characterized in that: the method comprises the following steps:

step one: user data logged in at a WEB end is obtained, basic information and authority level of the user data are obtained, and log recording is carried out on user operation data;

step two: setting a sensor and a camera on a construction site, collecting construction data in real time, analyzing the collected construction data, and generating a report and a chart reflecting construction progress;

step three: when the analysis result shows that the construction progress has abnormality or potential problem, the early warning is automatically sent out, and after receiving the early warning, relevant personnel adjust and control the construction according to actual conditions.