CN116051037A - Project progress supervision system based on data analysis - Google Patents

Abstract

The invention discloses a project progress supervision system based on data analysis, which relates to the technical field of project progress supervision and is used for solving the problems that in the prior art, management and control of projects are difficult to reasonably adjust, delay of one project is caused, supervision imbalance among a plurality of projects is caused, and acceptance progress of the plurality of projects is influenced due to heavy weight; the project progress supervision system can classify a plurality of sub projects in the project, monitor the completion progress of each sub project in real time, avoid influencing the completion progress of the whole project, improve the stability of the completion of the project, excavate scientific projects which can be declared in the project by utilizing the research module after the project is completed, and manage the scientific projects which can be declared in the whole process and monitor the progress by utilizing the scientific project management module.

Description

Project progress supervision system based on data analysis

Technical Field

The invention relates to the technical field of project progress supervision, in particular to a project progress supervision system based on data analysis.

Background

Project progress management refers to determining a progress target by a scientific method, making a progress plan and a resource supply plan, performing progress control, and realizing a project period target on the basis of coordination with quality and cost targets. The main goal of project progress management is to make a reasonable and economic progress plan in a specified time, and then check whether the actual progress is consistent with the planned progress in the execution process of the plan, so as to ensure that the project is completed on time.

At present, when a project supervision system is used for supervising construction projects, reasonable adjustment is difficult to achieve on project supervision, delay of one project is caused by light weight, supervision imbalance among a plurality of projects is caused by heavy weight, acceptance progress of the projects is influenced, immeasurable loss is caused, and therefore the project progress supervision system based on data analysis is designed.

In order to solve the above-mentioned defect, a technical scheme is provided.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, when a project supervision system is used for supervising construction projects, project supervision is difficult to reasonably adjust, delay of one project is caused if the project is light, imbalance of supervision among a plurality of projects is caused if the project is heavy, acceptance progress of the plurality of projects is influenced, and immeasurable loss is caused, and provides a project progress supervision system based on data analysis.

The aim of the invention can be achieved by the following technical scheme:

the project progress supervision system based on data analysis comprises a planning module, a progress statistics module, an intervention item acquisition module, an analysis module, an execution module, a display module, a research module and a scientific research project management module;

the planning module is used for classifying a plurality of projects in the projects to form a plurality of sub projects, planning the completion period of the plurality of sub projects to form a planning start time node and a planning end time node, and establishing a data report according to each sub project and the corresponding planning start time node and the corresponding planning end time node and the project names of the sub projects; the planning module is provided with a progress monitoring unit which is used for monitoring the flow progress of each sub-project in real time and forming a plurality of progress data, and the progress data corresponding to the project names, the total number of sub-projects and the flow progress of each sub-project are utilized in the data report; the planning module is also internally provided with a scheduling unit which is used for setting the starting time, the task range and the front-rear relation of the tasks of the plurality of sub-projects and establishing project task scheduling according to the starting time, the task range and the front-rear relation of the tasks of the plurality of sub-projects;

the progress statistics module is used for receiving project data of a plurality of sub projects in the planning module and establishing a project Gantt chart; the progress statistics module is internally provided with a setting unit which is used for setting the project settable data by project management personnel and displaying the progress completion ratio of the input sub project; the progress statistics module is also internally provided with a resource allocation unit, and the resource allocation unit is used for carrying out corresponding resource allocation on each item engineering;

the intervention item acquisition module is used for acquiring intervention factor information of completion of the progress of the sub-engineering; the intervention item acquisition module is also internally provided with a rating unit, and the rating unit is used for rating each item of intervention factor information acquired by the intervention item acquisition module; the intervention item acquisition module is also used for packaging the intervention factor information rated by the evaluation unit to form an intervention factor information group and transmitting the intervention factor information group to the analysis module;

the analysis module is used for receiving the intervention factor information group transmitted by the intervention item acquisition module, analyzing and obtaining various item of intervention factor information data after evaluation, analyzing and calculating the data to obtain intervention parameter values of the sub-item engineering, forming a plurality of intervention parameter values by a plurality of sub-item engineering, establishing a pie chart or a column chart by using the intervention parameter values for intuitively checking the intervention parameter values of the sub-item engineering, judging the probability that the sub-item engineering cannot be completed in the expected time, comparing the probability with the preset probability, marking the sub-item engineering with the probability higher than the preset probability, and transmitting a change signaling to the execution module;

the analysis module is also used for receiving the progress completion ratios of the plurality of sub-projects, calculating and obtaining an average value of the progress completion ratios of the plurality of sub-projects, comparing the progress completion ratios of the plurality of sub-projects with the average value respectively, marking sub-projects lower than the average value in the progress completion ratios of the plurality of sub-projects, and generating a progress adjustment signaling to transmit to the execution module; the system is also used for selecting a highest value and a lowest value from the progress completion ratios of a plurality of sub projects, calculating the difference value between the highest value and the lowest value, comparing the difference value with a preset difference value interval arranged in the analysis module, and generating a resource integration allocation signaling and transmitting the resource integration allocation signaling to the execution module when the difference value is out of the preset difference value interval range;

the execution module is used for receiving the change signaling transmitted by the analysis module and adjusting the progress of the marked sub project so as to reduce the probability that the marked sub project cannot be completed in the expected time; the execution module is also used for receiving the adjustment signaling transmitted by the analysis module and the resource integration allocation signaling, and when receiving the adjustment signaling transmitted by the analysis module, adjusting the progress completion ratio of the plurality of sub-projects, which is lower than the average value in the progress completion ratio of the plurality of sub-projects and corresponds to the subsequent progress of the sub-projects, so that the completion speed of the marked sub-projects is improved, and the delay phenomenon is avoided; when a resource integration allocation signaling transmitted by an analysis module is received, performing resource integration and reallocation on two sub-projects corresponding to the lowest and highest values in the progress completion ratios of a plurality of sub-projects, so that the time for completing the whole project is shortened, and the project completion effect is improved;

the display module is used for receiving a data report established according to each sub project and a corresponding project start time node and project end time node in the planning module and the project names of the sub projects, and project task scheduling and project sweet-end graphs counted in the project task scheduling and progress counting module established according to the starting time, the task range and the front-back relation of a plurality of sub projects in the scheduling unit, and updating and displaying the data report, the project task scheduling and the project sweet-end graphs in real time.

The research module is used for researching the scientific research project which can be declared in the project after the whole project is completed and transmitting the excavated scientific research project which can be declared to the scientific research project management module;

the scientific research project management module is used for receiving the scientific research projects which can be declared and are mined by the research module, and carrying out whole-course management and progress monitoring on the scientific research projects which can be declared from project application, stand-up demonstration, organization implementation, inspection evaluation, acceptance identification, achievement declaration, scientific popularization and archives.

Further, the progress statistics module receives project data of a plurality of sub projects in the planning module, wherein the project data comprises project names, a project start time node, a project end time node, progress data, a task range and a front-back relation of tasks, and according to real-time update of the progress data of each sub project, the project end time node of each sub project synchronously changes, so that project management personnel can display the progress of the whole project in real time.

Further, in the setting unit, project manager adds or reduces the project to the project Gantt chart, sets the project planning starting time node and project planning ending time node, and inputs the project progress completion ratio according to the display of the progress data; the resource allocation unit calculates the duration period of the sub-project through the planning start time node and the planning end time node, and performs corresponding resource allocation on each sub-project by utilizing the duration period, the task range and the progress data.

Furthermore, the intervention item acquisition module acquires intervention factor information of completion of the project progress of the sub-project, wherein the intervention factor information comprises construction condition factors, construction unit influence factors, project fund influence factors, project unreasonable factors, manager capacity ratings and project member capacity ratings.

Further, the specific operation steps of the grading unit for grading each item of intervention factor information collected by the intervention item collection module are as follows:

the construction condition factors are used for grading the construction conditions through adverse factors in terms of climate, geology, surrounding environment and the like by the grading unit to form construction condition parameters, wherein the higher the construction condition parameters are, the higher the intervention degree of the construction condition factors on the sub-project is, and otherwise, the lower the intervention degree of the sub-project is; the construction unit influence factors are rated by the evaluation unit through qualification and efficiency of the construction contractor units and related units of the construction project to form construction unit risk parameters, and the higher the construction unit risk parameters are, the lower the intervention degree of the construction unit influence factors to the project is, and otherwise, the higher the intervention degree of the construction unit influence factors to the project is; the engineering funds influencing factors are counted by the rating unit through funds and flowable cash flows which are delivered by the construction completion of the engineering, funds influencing parameters are formed, the higher the funds influencing parameters are, the lower the intervention degree of the engineering funds influencing factors to the sub-engineering is, and otherwise, the higher the intervention degree of the sub-engineering is; the project irrational factors are subjected to statistical analysis on irrational tasks in the project by an evaluation unit to obtain project irrational parameters, wherein the higher the project irrational parameters are, the higher the intervention degree of the project irrational factors on the project is, and otherwise, the lower the intervention degree of the project is; the manager capability evaluation is performed by a rating unit through rating the capability of coordinating contract approval time, construction planning and arrangement and construction organization of the split project manager to form a management level parameter, wherein the higher the management level parameter is, the lower the intervention degree of the split project is, and otherwise, the higher the intervention degree of the split project is; the project member capacity rating is analyzed by the rating unit through the construction personnel qualification, experience, level and total construction number of the project, so that project member risk parameters are formed, the higher the project member risk parameters are, the lower the intervention degree of the project member capacity rating is, and otherwise, the higher the intervention degree of the project member is.

Further, the specific operation steps of the analysis module for analyzing and calculating the intervention parameter value of the sub-project are as follows:

and normalizing the six values of the construction condition parameter, the construction unit risk parameter, the fund influence parameter, the project unreasonable parameter, the management level parameter and the project member risk parameter, substituting the normalized values into a calculation formula to calculate an intervention parameter value of the sub-project, and setting a preset probability which is compared with the probabilities that the sub-projects cannot be completed in the expected time in an analysis module.

Further, the display module is also used for receiving a pie chart or a column chart established by utilizing the intervention parameter values in the analysis module and updating and displaying the pie chart or the column chart in real time.

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

(1) According to the project progress monitoring system, a plurality of sub projects in the project can be classified, the completion progress of each sub project is monitored in real time, abnormal data are found in the first time, the completion progress of the problem sub project is adjusted, the influence on the whole project completion progress is avoided, the project completion stability is improved, and the project completion time is consistent with the expected time;

(2) According to the invention, the intervention item acquisition module is utilized to acquire the information of the intervention factors completed on the progress of each item project, the acquired information is composed of construction condition factors, construction unit influence factors, engineering fund influence factors, project unreasonable factors, manager capacity ratings and project member capacity ratings, the acquisition range of the information of the intervention factors completed on the progress of each item project is wide, and the probability of occurrence of project delay is reduced;

(3) According to the invention, the display module can be used for updating and displaying the data report, the project task schedule and the project Gantt chart in real time, so that project managers can more intuitively and conveniently check and monitor the whole project progress, and after the project is completed, the research module is used for excavating scientific projects which can be declared in the project, and the scientific projects which can be declared are subjected to whole-course management and progress monitoring through the scientific project management module.

Drawings

For the convenience of those skilled in the art, the present invention will be further described with reference to the accompanying drawings;

fig. 1 is a general block diagram of the system of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, 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.

It should be understood that the terms "comprises" and "comprising," when used in this specification and the claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the present disclosure is for the purpose of describing particular embodiments only, and is not intended to be limiting of the disclosure. As used in the specification and claims of this disclosure, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should be further understood that the term "and/or" as used in the present disclosure and claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

As shown in fig. 1, the project progress supervision system based on data analysis includes:

the planning module is used for classifying a plurality of projects in the projects to form a plurality of sub projects, planning the completion period of the plurality of sub projects to form a plurality of planning start time nodes and planning end time nodes corresponding to the sub projects, and establishing a data report according to each sub project and the corresponding planning start time node and planning end time node matched with the project names of the sub projects;

the planning module is also internally provided with a progress monitoring unit which is used for monitoring the flow progress of each sub-project in real time and forming a plurality of progress data, and the most visual overall monitoring is carried out on the total project formed by the plurality of sub-projects by utilizing the project names, the total sub-projects and the progress data corresponding to the flow progress of each sub-project in the data report;

the planning module is also internally provided with a scheduling unit which is used for setting the starting time, the task range and the front-rear relation of the tasks of the plurality of sub-projects and establishing project task scheduling according to the starting time, the task range and the front-rear relation of the tasks of the plurality of sub-projects;

the progress statistics module is used for receiving project names, project starting time nodes, project ending time nodes, progress data, task ranges and front-back relation of tasks of a plurality of sub projects in the planning module, establishing a project Gantt chart, updating the progress data in real time, correspondingly changing the project ending time nodes, and displaying the progress of the whole project to project management personnel in real time; the progress statistics module is internally provided with a setting unit which is used for a project manager to newly add or reduce the project to the project Gantt chart, set a project starting time node and a project ending time node of the project and input the progress completion ratio of the project according to the display of the progress data; the progress statistics module is also internally provided with a resource allocation unit which is used for calculating the duration period of each sub-project through a planning start time node and a planning end time node and allocating the corresponding resources to each sub-project by utilizing the duration period, the task range and the progress data;

the intervention item acquisition module is used for acquiring intervention factor information of the progress completion of the sub-item engineering, the intervention factor information comprises construction condition factors, construction unit influence factors, engineering fund influence factors, project unreasonable factors, manager capacity ratings and project member capacity ratings, a rating unit is further arranged in the intervention item acquisition module and used for rating the intervention factor information, the construction condition factors are used for rating construction conditions through adverse factors in the aspects of climate, geology, surrounding environment and the like by the rating unit, construction condition parameters are formed and calibrated to be S, the higher the construction condition parameters are, the higher the intervention degree of the construction condition factors on the sub-item engineering is, and the lower the intervention degree of the sub-item engineering is otherwise; the construction unit influence factors are rated by the evaluation unit through qualification and efficiency of the construction contractor units and related units of the construction project to form construction unit risk parameters, the construction unit risk parameters are calibrated to be J, the higher the construction unit risk parameters J are, the lower the intervention degree of the construction unit influence factors to the project is, and otherwise, the higher the intervention degree to the project is; counting funds and flowable cash flows delivered by the construction engineering completion by the rating unit to form a funds influence parameter, and calibrating the funds influence parameter as Z, wherein the higher the funds influence parameter Z is, the lower the intervention degree of the engineering funds influence factor on the sub-engineering is, and otherwise, the higher the intervention degree of the sub-engineering is; the project unreasonable factors are subjected to statistical analysis on unreasonable tasks in the project by an evaluation unit to obtain project unreasonable parameters, the project unreasonable parameters are calibrated to be H, the higher the project unreasonable parameters H are, the higher the intervention degree of the project unreasonable factors on the project is, and otherwise, the lower the intervention degree of the project is; the manager capability evaluation is rated by the rating unit through the capability of coordinating contract approval time, construction planning and arrangement and construction organization of the split project manager to form a management level parameter, the management level parameter is marked as G, the higher the management level parameter G is, the lower the intervention degree of the split project is, and otherwise, the higher the intervention degree of the split project is; the project member capacity rating is formed into project member risk parameters through analysis of constructors qualification, experience, level and total constructors of the project by the rating unit, and is marked as C, the higher the project member risk parameter C is, the lower the intervention degree of the project is, otherwise, the higher the intervention degree of the project is; the intervention item acquisition module is also used for packaging the construction condition parameters S, the construction unit risk parameters J, the fund influence parameters Z, the project unreasonable parameters H, the management level parameters G and the project member risk parameters C which are evaluated by the rating unit to form an intervention factor information set and sending the intervention factor information set to the analysis module;

the analysis module is used for receiving the intervention factor information set transmitted by the intervention item acquisition module, obtaining a construction condition parameter S, a construction unit risk parameter J, a fund influence parameter Z, an item unreasonable parameter H, a management level parameter G and an item member risk parameter C, carrying out normalization processing on six numerical values of the construction condition parameter S, the construction unit risk parameter J, the fund influence parameter Z, the item unreasonable parameter H, the management level parameter G and the item member risk parameter C in the intervention factor information set, and substituting the six numerical values into a calculation formula:

obtaining intervention parameter values GF of the sub-projects, wherein alpha is a preset weight coefficient of construction condition parameters, beta is a preset weight coefficient of construction unit risk parameters, χ is a preset weight coefficient of fund influence parameters, δ is a preset weight coefficient of project unreasonable parameters, φ is a preset weight coefficient of management level parameters, φ is a preset weight coefficient of project member risk parameters, the sub-projects form a plurality of intervention parameter values GF, a pie chart or a cylindrical chart is established by utilizing the intervention parameter values GF for intuitively checking the intervention parameter values of the sub-projects, judging the probability that the sub-projects cannot be completed in the expected time, comparing the probability that the sub-projects cannot be completed in the expected time with the preset probability, marking the sub-projects with the probability higher than the preset probability, and transmitting a change signaling to an execution module;

the analysis module is also used for receiving the progress completion ratios of a plurality of sub-projects, eliminating the sub-projects with the progress completion ratios of 0 or 1, and respectively calibrating the sub-projects as W ₁ 、W ₂ 、W ₃ 、......W _n N is the number of the sub projects, n is a positive integer greater than five, and W is ₁ 、W ₂ 、W ₃ 、......W _n Substituting into the calculation formula:

to obtain the average value of the progress completion ratios of a plurality of sub projects, and the average value is calibrated as JW, W ₁ 、W ₂ 、W ₃ 、......W _n Respectively comparing with JW, and comparing W ₁ 、W ₂ 、W ₃ 、......W _n Marking the middle value lower than the average value JW, generating a progress adjustment signaling, transmitting the progress adjustment signaling to an execution module, and transmitting W ₁ 、W ₂ 、W ₃ 、......W _n Comparing, namely selecting a highest value and a lowest value, calculating the difference value between the highest value and the lowest value, comparing the difference value with a preset difference interval arranged in the analysis module, and generating a resource integration allocation signaling and transmitting the resource integration allocation signaling to the execution module when the difference value is out of the preset difference interval range;

the execution module is used for receiving the change signaling transmitted by the analysis module and adjusting the progress of the marked sub project so as to reduce the probability that the marked sub project cannot be completed in the expected time, wherein the adjustment process can be adjusted by means of increasing the allocation of resources or improving the construction speed and the like; and is also used for receiving the adjustment signaling transmitted by the analysis module and the resource integration allocation signaling, and when receiving the adjustment signaling transmitted by the analysis module, the W is transmitted ₁ 、W ₂ 、W ₃ 、......W _n The progress completion ratio of a plurality of marked sub projects lower than the average value JW is adjusted to the subsequent progress of the corresponding sub projects, so that the completion speed of the marked sub projects is improved, and the delay phenomenon is avoided; when the resource integration allocation signaling transmitted by the analysis module is received, then the method is to W ₁ 、W ₂ 、W ₃ 、......W _n The two sub projects corresponding to the lowest and highest values of the project are subjected to resource integration and reallocation, so that the time for completing the whole project is shortened, and the project completion efficiency is improved.

The display module is used for receiving a data report established according to each sub-project and a corresponding project start time node and project end time node in the planning module and the project names of the sub-projects, and project task scheduling and project Gantt charts counted in the project task scheduling and progress statistics module established according to the starting time, the task range and the front-rear relation of a plurality of sub-projects in the scheduling unit, and updating and displaying the data report, the project task scheduling and the project Gantt charts in real time; the system is also used for receiving and analyzing the cake-shaped diagram or the column diagram established by utilizing a plurality of intervention parameter values GF in the module and updating and displaying the cake-shaped diagram or the column diagram in real time;

the research module is used for researching the scientific research projects which can be declared in the projects after the whole project is completed and transmitting the excavated scientific research projects which can be declared to the scientific research project management module;

the scientific research project management module is used for receiving the scientific research projects which can be declared and are mined by the research module, and carrying out whole-course management and progress monitoring on the scientific research projects which can be declared from project application, stand-up demonstration, organization implementation, inspection evaluation, acceptance identification, achievement declaration, scientific popularization and archives.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (7)

1. The project progress supervision system based on data analysis is characterized by comprising a planning module, a progress statistics module, an intervention item acquisition module, an analysis module, an execution module, a display module, a research module and a scientific research project management module;

the planning module is used for classifying a plurality of projects in the projects to form a plurality of sub projects, planning the completion period of the plurality of sub projects to form a planning start time node and a planning end time node, and establishing a data report according to each sub project and project names of the corresponding planning start time node and the corresponding planning end time node matched with the sub projects; the planning module is provided with a progress monitoring unit which is used for monitoring the flow progress of each sub-project in real time and forming a plurality of progress data, and the progress data corresponding to the project names, the total number of sub-projects and the flow progress of each sub-project are utilized in the data report; the planning module is also internally provided with a scheduling unit which is used for setting the starting time, the task range and the front-rear relation of the tasks of the plurality of sub-projects and establishing project task scheduling according to the starting time, the task range and the front-rear relation of the tasks of the plurality of sub-projects;

the progress statistics module is used for receiving project data of a plurality of sub projects in the planning module and establishing a project Gantt chart; the progress statistics module is internally provided with a setting unit which is used for setting the project settable data by project management personnel and displaying the progress completion ratio of the input sub project; the progress statistics module is also internally provided with a resource allocation unit, and the resource allocation unit is used for carrying out corresponding resource allocation on each item engineering;

the intervention item acquisition module is used for acquiring intervention factor information of completion of the progress of the sub-engineering; the intervention item acquisition module is also internally provided with a rating unit, and the rating unit is used for rating each item of intervention factor information acquired by the intervention item acquisition module; the intervention item acquisition module is also used for packaging the intervention factor information rated by the evaluation unit to form an intervention factor information group and transmitting the intervention factor information group to the analysis module;

the analysis module is used for receiving the intervention factor information group transmitted by the intervention item acquisition module, analyzing and obtaining various item of intervention factor information data after evaluation, analyzing and calculating the data to obtain intervention parameter values of the sub-item engineering, forming a plurality of intervention parameter values by a plurality of sub-item engineering, establishing a pie chart or a column chart by using the intervention parameter values for intuitively checking the intervention parameter values of the sub-item engineering, judging the probability that the sub-item engineering cannot be completed in the expected time, comparing the probability with the preset probability, marking the sub-item engineering with the probability higher than the preset probability, and transmitting a change signaling to the execution module;

the analysis module is also used for receiving the progress completion ratios of the plurality of sub-projects, calculating and obtaining an average value of the progress completion ratios of the plurality of sub-projects, comparing the progress completion ratios of the plurality of sub-projects with the average value respectively, marking sub-projects lower than the average value in the progress completion ratios of the plurality of sub-projects, and generating a progress adjustment signaling to transmit to the execution module; the system is also used for selecting a highest value and a lowest value from the progress completion ratios of a plurality of sub projects, calculating the difference value between the highest value and the lowest value, comparing the difference value with a preset difference value interval arranged in the analysis module, and generating a resource integration allocation signaling and transmitting the resource integration allocation signaling to the execution module when the difference value is out of the preset difference value interval range;

the execution module is used for receiving the change signaling transmitted by the analysis module and adjusting the progress of the marked sub project so as to reduce the probability that the marked sub project cannot be completed in the expected time; the execution module is also used for receiving the adjustment signaling transmitted by the analysis module and the resource integration allocation signaling, and when receiving the adjustment signaling transmitted by the analysis module, adjusting the progress completion ratio of the plurality of sub-projects, which is lower than the average value in the progress completion ratio of the plurality of sub-projects and corresponds to the subsequent progress of the sub-projects, so that the completion speed of the marked sub-projects is improved, and the delay phenomenon is avoided; when a resource integration allocation signaling transmitted by an analysis module is received, performing resource integration and reallocation on two sub-projects corresponding to the lowest and highest values in the progress completion ratios of a plurality of sub-projects, so that the time for completing the whole project is shortened, and the project completion effect is improved;

the display module is used for receiving a data report established according to each sub project and project names of the corresponding project starting time node and project ending time node matched with the sub projects in the planning module, and project task scheduling and project sweet-end graphs counted in the project task scheduling and progress counting module established according to the starting time, the task range and the front-back relation of a plurality of sub projects in the scheduling unit, and updating and displaying the data report, the project task scheduling and the project sweet-end graphs in real time.

The research module is used for researching the scientific research project which can be declared in the project after the whole project is completed and transmitting the excavated scientific research project which can be declared to the scientific research project management module;

the scientific research project management module is used for receiving the scientific research projects which can be declared and are mined by the research module, and carrying out whole-course management and progress monitoring on the scientific research projects which can be declared from project application, stand-up demonstration, organization implementation, inspection evaluation, acceptance identification, achievement declaration, scientific popularization and archives.

2. The project progress monitoring system based on data analysis according to claim 1, wherein the progress statistics module receives project data of a plurality of sub projects in the planning module, wherein the project data comprises project names, project start time nodes, project end time nodes, progress data, task ranges and front-back relations of tasks, and the project end time nodes of the sub projects synchronously change according to real-time update of the progress data of each sub project, so that project managers can display the progress of the whole project in real time.

3. The project progress monitoring system based on data analysis according to claim 1, wherein the project manager in the setting unit adds or reduces the project to the project Gantt chart, sets a scheduled start time node and a scheduled end time node of the project, and inputs a progress completion ratio of the project according to the display of the progress data; the resource allocation unit calculates the duration period of the sub-project through the planning start time node and the planning end time node, and performs corresponding resource allocation on each sub-project by utilizing the duration period, the task range and the progress data.

4. The project progress monitoring system based on data analysis of claim 1, wherein the intervention item collection module collects intervention factor information of completion of a project progress of a sub-project, which is composed of construction condition factors, construction unit influence factors, project fund influence factors, project irrational factors, manager capacity ratings and project member capacity ratings.

5. The project progress monitoring system based on data analysis according to claim 1, wherein the specific operation steps of the rating unit for rating each item of intervention factor information collected by the intervention item collection module are as follows:

the construction condition factors are used for grading the construction conditions through adverse factors in terms of climate, geology, surrounding environment and the like by the grading unit to form construction condition parameters, wherein the higher the construction condition parameters are, the higher the intervention degree of the construction condition factors on the sub-project is, and otherwise, the lower the intervention degree of the sub-project is; the construction unit influence factors are rated by the evaluation unit through qualification and efficiency of the construction contractor units and related units of the construction project to form construction unit risk parameters, and the higher the construction unit risk parameters are, the lower the intervention degree of the construction unit influence factors to the project is, and otherwise, the higher the intervention degree of the construction unit influence factors to the project is; the engineering funds influencing factors are counted by the rating unit through funds and flowable cash flows which are delivered by the construction completion of the engineering, funds influencing parameters are formed, the higher the funds influencing parameters are, the lower the intervention degree of the engineering funds influencing factors to the sub-engineering is, and otherwise, the higher the intervention degree of the sub-engineering is; the project irrational factors are subjected to statistical analysis on irrational tasks in the project by an evaluation unit to obtain project irrational parameters, wherein the higher the project irrational parameters are, the higher the intervention degree of the project irrational factors on the project is, and otherwise, the lower the intervention degree of the project is; the manager capability evaluation is performed by a rating unit through rating the capability of coordinating contract approval time, construction planning and arrangement and construction organization of the split project manager to form a management level parameter, wherein the higher the management level parameter is, the lower the intervention degree of the split project is, and otherwise, the higher the intervention degree of the split project is; the project member capacity rating is analyzed by the rating unit through the construction personnel qualification, experience, level and total construction number of the project, so that project member risk parameters are formed, the higher the project member risk parameters are, the lower the intervention degree of the project member capacity rating is, and otherwise, the higher the intervention degree of the project member is.

6. The project progress monitoring system based on data analysis according to claim 1, wherein the specific operation steps of analyzing and calculating the intervention parameter value of the project by the analysis module are as follows:

and normalizing the six values of the construction condition parameter, the construction unit risk parameter, the fund influence parameter, the project unreasonable parameter, the management level parameter and the project member risk parameter, substituting the normalized values into a calculation formula to calculate an intervention parameter value of the sub-project, and setting a preset probability which is compared with the probabilities that the sub-projects cannot be completed in the expected time in an analysis module.

7. The project progress monitoring system of claim 1, wherein the display module is further configured to receive a pie chart or bar chart created by the analysis module using the plurality of intervention parameters and update the pie chart in real time.

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