CN117933919A - Engineering supervision system based on information terminal - Google Patents

Abstract

The invention discloses an engineering supervision system based on an information terminal, which comprises a supervision information ecological chain module, a supervision data model analysis management module and a supervision data feedback sharing module, and also discloses the operation method steps of the system, comprising the following steps: step one: establishing a staged supervision information ecological chain according to the supervision project engineering; step two: aiming at the data information circulated in the supervision information ecological chain, a project engineering supervision data model is established to manage the content and the flow direction of the information data; step three: analyzing and labeling based on characteristic data of each stage of project engineering supervision; step four: building a project supervision feedback database, and feeding data generated by a multi-supervision mode of each stage of a project back to a project quality information database for sharing analysis and supervision learning; the problem of low-efficiency management of data in the supervision process is solved; the invention has the characteristics of improving the circulation utilization rate of project engineering implementation process data and improving the supervision effectiveness.

Description

Engineering supervision system based on information terminal

Technical Field

The invention relates to the technical field of engineering supervision, in particular to an engineering supervision system based on an information terminal.

Background

The project supervision is a process of managing related links of project projects by specialized technology and level, is beneficial to reducing project cost, controlling project cost and effectively controlling various problems in the project construction process, but the existing project supervision has the problems of multiple data sources, non-uniform formats, multiple expression forms, large information interaction quantity, multiple project participants and difficult coordination when actually supervising project quality and controlling project progress, further the supervision and implementation processes are not effectively connected to a great extent due to the lack of sufficient stage data support, the utilization degree of the generated data of each stage is insufficient, the utilization rate of the production data of each stage is reduced, the construction period is influenced even construction quality, and more resources are needed to be input to process the problem left in the early stage from the project ending stage. Therefore, it is necessary to design an information terminal-based engineering supervision system for improving the circulation utilization rate of project engineering implementation process data and the supervision effectiveness.

Disclosure of Invention

The invention aims to provide an engineering supervision system based on an information terminal so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the engineering supervision system based on the information terminal comprises a supervision information ecological chain module, a supervision data model analysis management module and a supervision data feedback sharing module, wherein the supervision information ecological chain module is used for establishing a staged supervision information ecological chain according to a supervision project; the supervision data model analysis management module is used for establishing a project engineering supervision data model to manage the content and the flow direction of the information data; and the proctoring data feedback sharing module is used for feeding data generated by the multi-proctoring mode of each stage of the engineering project back to the project quality information database for sharing analysis and proctoring learning, and the proctoring information ecological chain module and the proctoring data model analysis management module are electrically connected with the proctoring data feedback sharing module.

According to the above technical scheme, the supervision information ecological chain module comprises: the system comprises an ecological chain link point module, a construction supervision flow establishing module and a project engineering stage dividing module, wherein the ecological chain link point module is used for establishing supervision nodes and implementation nodes in a supervision information ecological chain; the construction supervision flow establishing module is used for establishing a construction supervision flow based on the supervision information ecological chain; the project phase dividing module is used for dividing project into a project preparation phase and a project implementation phase; the ecological chain link point module is electrically connected with the construction supervision flow establishing module and the project engineering stage dividing module.

According to the above technical scheme, the supervision data model analysis management module includes: the system comprises a time sequence relation determining module, a data driving module, a data content flow management module and a characteristic data analysis labeling module; the time sequence relation determining module is used for determining the time sequence relation between the project preparation stage and the project implementation stage; the data driving module is used for carrying out full life cycle analysis on project engineering supervision process by utilizing data driving; the data content flow management module is used for managing the recorded data content and flow of all supervision processes covering the project preparation stage to the project implementation stage; the characteristic data analysis labeling module is used for analyzing and labeling based on characteristic data of each stage of project engineering supervision, the time sequence relation determining module is electrically connected with the data driving module, and the data content flow direction management module is electrically connected with the characteristic data analysis labeling module.

According to the above technical scheme, the supervision data feedback sharing module includes: the system comprises a supervision feedback database module, a data source tag classification and calibration module and a data source cloud storage backup module, wherein the supervision feedback database module is used for building a project supervision feedback database and feeding back the data of each stage of a project into the project supervision feedback database; the data source tag classification and calibration module is used for automatically classifying and collecting the uploaded picture, video and text report data in the supervision process and calibrating tags; the data source cloud storage backup module is used for placing the data source into a cloud database for storage backup, and the supervision feedback database module is electrically connected with the data source tag classification and calibration module and the data source cloud storage backup module.

According to the technical scheme, the engineering supervision method based on the information terminal comprises the following steps of:

step one: establishing a staged supervision information ecological chain according to the supervision project engineering;

Step two: aiming at the data information circulated in the supervision information ecological chain, a project engineering supervision data model is established to manage the content and the flow direction of the information data;

step three: analyzing and labeling based on characteristic data of each stage of project engineering supervision;

Step four: and (3) building a project supervision feedback database, and feeding data generated by a multi-supervision mode of each stage of the project into a project quality information database for sharing analysis and supervision learning.

According to the technical scheme, the method for establishing the staged supervision information ecological chain according to the supervision project engineering comprises the following steps:

The supervision end and the implementation end related to project engineering supervision are corresponding to supervision nodes and implementation nodes in a supervision information ecological chain, the project engineering is divided into a project preparation stage and a project implementation stage, a project engineering information data transmission period is formed according to project engineering planning construction node planning, and a construction supervision flow based on the supervision information ecological chain is established;

The relationships between nodes existing on the ecological chain of the monitoring information include: the supervision nodes of the supervision end and the implementation nodes of the implementation end, and the supervision information data transmitted on the link comprise: the project engineering needs to form and reach standardized data information, implementation process analysis data and project engineering implementation supervision feedback data, the supervision end and the implementation end user adopt an interactive mode of node uplink, and the nodes on the link adopt a circulation mode of information data real-time receiving and transmitting.

According to the above technical scheme, the method for establishing the project engineering supervision data model to manage the content and flow direction of the information data includes:

Step 21: by determining the time sequence relation between the project preparation stage and the project implementation stage, evaluating the supervision process by using a supervision instruction file, establishing the association relation between each time sequence step in the stages, and iterating the project supervision task of the next step according to the project time sequence after the first step of each stage is completed;

Step 22: carrying out full life cycle analysis on the project supervision process by utilizing data driving, determining instructional factor data of project supervision and factor data related to projects, and recording and managing project factor data from project standpoints;

Step 23: describing an organization process of information data in a supervision flow according to the supervision flow of the project, determining supervision guiding factor data, namely project supervision target data, rules and a guiding data chart set, and determining projects for carrying out project supervision control by using the guiding factor data;

step 24: setting data of the guiding factors to be independent of each other, restricting project factors according to the association of the data, establishing a project engineering supervision data model, and managing the recorded data content and flow direction of all supervision processes covering the project preparation stage to the project implementation stage.

According to the technical scheme, the management method further comprises the step of carrying out descriptive analysis and integration on the data information circulated in the supervision information ecological chain, and because the actual implementation of project engineering has the characteristics of dynamic change characteristics and static characteristics of information data in the process, the data information circulated in the supervision information ecological chain is divided into standardized information and non-standardized information, and different implementation nodes adopt different coding rules and circulation paths to carry out transmission and output of information data.

According to the technical scheme, the operation steps for performing analysis labeling comprise:

step 31: determining characteristic data of a project supervision step, and analyzing causal and feedback relations among factors in the project supervision step;

Step 32: combing the relationships among the layers, constructing a project supervision step model, and constructing a model containing all factors and causal relationships in the project supervision step according to the relationships among the layers to obtain a causal relationship diagram of the project supervision step;

Step 33: assigning values to each influence factor in the causal relation graph, and establishing a functional relation;

Step 34: defining objects, scenes and events in the engineering supervision according to project engineering supervision targets, defining characteristic data in each supervision scene, marking supervision objects and scenes corresponding to data information in the supervision information ecological chain according to the characteristic data, and generating marking contents for feeding back the data circulation condition in the engineering supervision ecological chain after analysis;

Step 35: and (3) feeding back confirmed project progress supervision conditions by marked characteristic data, periodically generating a work output value of the project finished in the current period, drawing a corresponding supervision feedback curve according to the project progress conditions in real time, and setting a corresponding time limit to collect and analyze the finished project implementation quantity.

According to the technical scheme, the method for carrying out sharing analysis and supervision learning comprises the following steps:

Step 41: building a project supervision feedback database, feeding data of each stage of a project into the project supervision feedback database, building each specific stage quality control requirement into a functional unit, wherein each function specifically represents an implementation supervision requirement;

step 42: all the functional units are combined to establish a project supervision feedback shared database of a supervision project, so that the sharing analysis and supervision learning of project implementation process data are realized;

step 43: establishing a multi-supervision mode data database of project engineering, and automatically classifying and collecting the picture, video and text report data uploaded in the supervision process;

step 44: all data sources calibrate the corresponding time and the content of supervision, label setting is carried out on the classified and grouped pictures or video files, and the supervision process and the bright spot display supervision results are marked;

Step 46: each terminal of project engineering discusses and analyzes the typical problems of the marks according to the period, displays preset bright spots, automatically generates and files data materials generated in the process by using an informatization technology, and places a data source into a cloud database for storage and backup.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, a staged supervision information ecological chain is established according to a supervision project; establishing a supervision terminal and an implementation terminal, wherein the supervision terminal and the implementation terminal are correspondingly a supervision node and an implementation node in a supervision information ecological chain, dividing project engineering into a project preparation stage and a project implementation stage, establishing a project supervision data model for data information circulated in the supervision information ecological chain to manage the content and the flow direction of information data, and analyzing and labeling based on characteristic data of each stage of project supervision; and finally, a project supervision feedback database is built, data generated by a multi-supervision mode of each stage of a project is fed back to a project quality information database for sharing analysis and supervision learning, the problem of low-efficiency management of the data in the supervision process is solved, the data in each stage in the supervision process is fully circulated and utilized, the circulation utilization rate of the data in the project implementation process is improved, and the supervision effectiveness of the system is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

fig. 1 is a flowchart of an engineering supervision method based on an information terminal according to an embodiment of the present invention;

Fig. 2 is a schematic diagram of module composition of an engineering supervision system based on an information terminal according to a second embodiment of the present invention.

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.

Embodiment one: fig. 1 is a flowchart of an information terminal-based engineering supervision method according to an embodiment of the present invention, where the present embodiment may apply a project engineering supervision scenario, and the method may be executed by an information terminal-based engineering supervision system according to the present embodiment, as shown in fig. 1, and the method specifically includes the following steps:

step one: establishing a staged supervision information ecological chain according to the supervision project engineering;

in the embodiment of the invention, a supervision end and an implementation end related to project engineering supervision are respectively a supervision node and an implementation node in a supervision information ecological chain, the project engineering is divided into a project preparation stage and a project implementation stage, a project engineering information data transmission period is planned and formed according to project engineering planning construction nodes, and a construction supervision flow based on the supervision information ecological chain is established;

Illustratively, the relationships between nodes present on the monitored information ecological chain include: the supervision nodes of the supervision end and the implementation nodes of the implementation end, and the supervision information data transmitted on the link comprise: standardized data information, implementation process analysis data and project engineering implementation supervision feedback data which are required to be formed and achieved by project engineering are adopted, a supervision end and an implementation end user adopt an interactive mode of node uplink, and nodes on a link adopt a circulation mode of information data real-time receiving and transmitting;

in the project preparation stage, the supervision terminal transmits information for generating the project overall management policy and construction resource allocation to the implementation node of the implementation terminal through the supervision node, and a specific implementation user of the implementation terminal performs preparation work before project construction according to the received information data;

In the project engineering implementation stage, the implementation end user transmits the generated original construction information data to the supervision information ecological chain through the implementation node, the supervision end user processes the original construction information data through the supervision node, then carries out comparison judgment on the processed original construction information data and the corresponding project engineering management information, and transmits the processed project management information to the supervision information ecological chain through the supervision node according to the comparison judgment result, so that the construction end user can continue to carry out stage construction based on the received data information.

Step two: aiming at the data information circulated in the supervision information ecological chain, a project engineering supervision data model is established to manage the content and the flow direction of the information data;

In the embodiment of the invention, the method for establishing the project engineering supervision data model to manage the content and the flow direction of the information data comprises the following steps:

Step 21: by determining the time sequence relation between the project preparation stage and the project implementation stage, evaluating the supervision process by using a supervision instruction file, establishing the association relation between each time sequence step in the stages, and iterating the project supervision task of the next step according to the project time sequence after the first step of each stage is completed;

Step 22: carrying out full life cycle analysis on the project supervision process by utilizing data driving, determining instructional factor data of project supervision and factor data related to projects, and recording and managing project factor data from project standpoints;

Step 23: describing an organization process of information data in a supervision flow according to the supervision flow of the project, determining supervision guiding factor data, namely project supervision target data, rules and a guiding data chart set, and determining projects for carrying out project supervision control by using the guiding factor data;

Step 24: setting data of guiding factors to be independent of each other, restricting project factors according to the association of the data, establishing a project engineering supervision data model, and managing the recorded data content and flow direction of all supervision processes covering a project preparation stage to a project implementation stage;

The method is characterized in that the data information transferred in the supervision information ecological chain is divided into standardized information and non-standardized information, and different implementation nodes adopt different coding rules and transfer paths to transfer and output the information data.

Step three: analyzing and labeling based on characteristic data of each stage of project engineering supervision;

In the embodiment of the invention, the operation steps for performing analysis and labeling comprise:

step 31: determining characteristic data of a project supervision step, and analyzing causal and feedback relations among factors in the project supervision step;

Step 32: combing the relationships among the layers, constructing a project supervision step model, and constructing a model containing all factors and causal relationships in the project supervision step according to the relationships among the layers to obtain a causal relationship diagram of the project supervision step;

Step 33: assigning values to each influence factor in the causal relation graph, and establishing a functional relation;

Step 34: defining objects, scenes and events in the engineering supervision according to project engineering supervision targets, defining characteristic data in each supervision scene, marking supervision objects and scenes corresponding to data information in the supervision information ecological chain according to the characteristic data, and generating marking contents for feeding back the data circulation condition in the engineering supervision ecological chain after analysis;

Step 35: and (3) feeding back confirmed project progress supervision conditions by marked characteristic data, periodically generating a work output value of the project finished in the current period, drawing a corresponding supervision feedback curve according to the project progress conditions in real time, and setting a corresponding time limit to collect and analyze the finished project implementation quantity.

Step four: and (3) building a project supervision feedback database, and feeding data generated by a multi-supervision mode of each stage of the project into a project quality information database for sharing analysis and supervision learning.

In the embodiment of the invention, the method for carrying out sharing analysis and supervision learning comprises the following steps:

Step 41: building a project supervision feedback database, feeding data of each stage of a project into the project supervision feedback database, building each specific stage quality control requirement into a functional unit, wherein each function specifically represents an implementation supervision requirement;

step 42: all the functional units are combined to establish a project supervision feedback shared database of a supervision project, so that the sharing analysis and supervision learning of project implementation process data are realized;

step 43: establishing a multi-supervision mode data database of project engineering, and automatically classifying and collecting the picture, video and text report data uploaded in the supervision process;

step 44: all data sources calibrate the corresponding time and the content of supervision, label setting is carried out on the classified and grouped pictures or video files, and the supervision process and the bright spot display supervision results are marked;

step 46: each terminal of project engineering discusses and analyzes the typical problems of the marks according to the period, displays preset bright spots, automatically generates and files data materials generated in the process by using an informatization technology, places a data source into a cloud database for storage and backup, improves the data safety, saves the data storage space, facilitates each terminal of project supervision to review and retrieve at any time, accesses data conveniently, and realizes real-time sharing of data information.

Embodiment two: an embodiment of the present invention provides an engineering supervision system based on an information terminal, and fig. 2 is a schematic block diagram of an engineering supervision system based on an information terminal according to the embodiment of the present invention, as shown in fig. 2, where the system includes:

The supervision information ecological chain module is used for establishing a staged supervision information ecological chain according to the supervision project engineering;

the supervision data model analysis management module is used for establishing a project engineering supervision data model to manage the content and the flow direction of the information data;

and the proctoring data feedback sharing module is used for feeding data generated by the multi-proctoring mode of each stage of the engineering project back to the project quality information database for sharing analysis and proctoring learning.

In some embodiments of the invention, the supervision information ecochain module comprises:

the ecological chain link point module is used for establishing supervision nodes and implementation nodes in the supervision information ecological chain;

the construction supervision flow establishing module is used for establishing a construction supervision flow based on a supervision information ecological chain;

And the project stage dividing module is used for dividing the project into a project preparation stage and a project implementation stage.

In some embodiments of the present invention, the proctoring data model analysis management module includes:

a timing relationship determination module for determining a timing relationship between the project preparation stage and the project implementation stage;

the data driving module is used for carrying out full life cycle analysis on the project engineering supervision process by utilizing data driving;

the data content stream management module is used for managing the recorded data content and stream of all the supervision processes covering the project preparation stage to the project implementation stage;

and the characteristic data analysis labeling module is used for analyzing and labeling based on the characteristic data of each stage of project engineering supervision.

In some embodiments of the present invention, the proctoring data feedback sharing module includes:

The supervision feedback database module is used for building a project engineering supervision feedback database and feeding back the data of each stage of the project to the project engineering supervision feedback database;

the data source tag classification and calibration module is used for automatically classifying and collecting the uploaded picture, video and text report data materials in the supervision process and calibrating tags;

and the data source cloud storage backup module is used for placing the data source into a cloud database for storage backup.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an engineering supervision system based on information terminal, includes supervision information ecological chain module, supervision data model analysis management module and supervision data feedback sharing module, its characterized in that: the supervision information ecological chain module is used for establishing a staged supervision information ecological chain according to the supervision project engineering; the supervision data model analysis management module is used for establishing a project engineering supervision data model to manage the content and the flow direction of the information data; and the proctoring data feedback sharing module is used for feeding data generated by the multi-proctoring mode of each stage of the engineering project back to the project quality information database for sharing analysis and proctoring learning, and the proctoring information ecological chain module and the proctoring data model analysis management module are electrically connected with the proctoring data feedback sharing module.

2. An information terminal-based engineering supervision system according to claim 1, wherein: the supervision information ecological chain module comprises: the system comprises an ecological chain link point module, a construction supervision flow establishing module and a project engineering stage dividing module, wherein the ecological chain link point module is used for establishing supervision nodes and implementation nodes in a supervision information ecological chain; the construction supervision flow establishing module is used for establishing a construction supervision flow based on the supervision information ecological chain; the project phase dividing module is used for dividing project into a project preparation phase and a project implementation phase; the ecological chain link point module is electrically connected with the construction supervision flow establishing module and the project engineering stage dividing module.

3. An information terminal-based engineering supervision system according to claim 2, wherein: the supervision data model analysis management module comprises: the system comprises a time sequence relation determining module, a data driving module, a data content flow management module and a characteristic data analysis labeling module; the time sequence relation determining module is used for determining the time sequence relation between the project preparation stage and the project implementation stage; the data driving module is used for carrying out full life cycle analysis on project engineering supervision process by utilizing data driving; the data content flow management module is used for managing the recorded data content and flow of all supervision processes covering the project preparation stage to the project implementation stage; the characteristic data analysis labeling module is used for analyzing and labeling based on characteristic data of each stage of project engineering supervision, the time sequence relation determining module is electrically connected with the data driving module, and the data content flow direction management module is electrically connected with the characteristic data analysis labeling module.

4. An information terminal-based engineering supervision system according to claim 3, wherein: the supervision data feedback sharing module comprises: the system comprises a supervision feedback database module, a data source tag classification and calibration module and a data source cloud storage backup module, wherein the supervision feedback database module is used for building a project supervision feedback database and feeding back the data of each stage of a project into the project supervision feedback database; the data source tag classification and calibration module is used for automatically classifying and collecting the uploaded picture, video and text report data in the supervision process and calibrating tags; the data source cloud storage backup module is used for placing the data source into a cloud database for storage backup, and the supervision feedback database module is electrically connected with the data source tag classification and calibration module and the data source cloud storage backup module.

5. An information terminal-based engineering supervision system according to claim 4, executing an information terminal-based engineering supervision method, wherein: the method comprises the following steps:

step one: establishing a staged supervision information ecological chain according to the supervision project engineering;

Step two: aiming at the data information circulated in the supervision information ecological chain, a project engineering supervision data model is established to manage the content and the flow direction of the information data;

step three: analyzing and labeling based on characteristic data of each stage of project engineering supervision;

Step four: and (3) building a project supervision feedback database, and feeding data generated by a multi-supervision mode of each stage of the project into a project quality information database for sharing analysis and supervision learning.

6. An information terminal-based engineering supervision method according to claim 5, wherein: the method for establishing the staged supervision information ecological chain according to the supervision project engineering comprises the following steps:

The supervision end and the implementation end related to project engineering supervision are corresponding to supervision nodes and implementation nodes in a supervision information ecological chain, the project engineering is divided into a project preparation stage and a project implementation stage, a project engineering information data transmission period is formed according to project engineering planning construction node planning, and a construction supervision flow based on the supervision information ecological chain is established;

The relationships between nodes existing on the ecological chain of the monitoring information include: the supervision nodes of the supervision end and the implementation nodes of the implementation end, and the supervision information data transmitted on the link comprise: the project engineering needs to form and reach standardized data information, implementation process analysis data and project engineering implementation supervision feedback data, the supervision end and the implementation end user adopt an interactive mode of node uplink, and the nodes on the link adopt a circulation mode of information data real-time receiving and transmitting.

7. The information terminal-based engineering supervision method according to claim 6, wherein: the method for establishing the project engineering supervision data model to manage the content and the flow direction of the information data comprises the following steps:

Step 21: by determining the time sequence relation between the project preparation stage and the project implementation stage, evaluating the supervision process by using a supervision instruction file, establishing the association relation between each time sequence step in the stages, and iterating the project supervision task of the next step according to the project time sequence after the first step of each stage is completed;

Step 22: carrying out full life cycle analysis on the project supervision process by utilizing data driving, determining instructional factor data of project supervision and factor data related to projects, and recording and managing project factor data from project standpoints;

Step 23: describing an organization process of information data in a supervision flow according to the supervision flow of the project, determining supervision guiding factor data, namely project supervision target data, rules and a guiding data chart set, and determining projects for carrying out project supervision control by using the guiding factor data;

step 24: setting data of the guiding factors to be independent of each other, restricting project factors according to the association of the data, establishing a project engineering supervision data model, and managing the recorded data content and flow direction of all supervision processes covering the project preparation stage to the project implementation stage.

8. The information terminal-based engineering supervision method according to claim 7, wherein: the method for managing the information comprises the steps of carrying out descriptive analysis and integration on the data information circulated in the supervision information ecological chain, and dividing the data information circulated in the supervision information ecological chain into standardized information and non-standardized information because the information data in the actual implementation process of project engineering has the characteristics of dynamic change characteristics and static characteristics, and different implementation nodes adopt different coding rules and circulation paths to carry out transmission and output of the information data.

9. The information terminal-based engineering supervision method according to claim 8, wherein: the operation steps for analyzing and labeling comprise:

step 31: determining characteristic data of a project supervision step, and analyzing causal and feedback relations among factors in the project supervision step;

Step 32: combing the relationships among the layers, constructing a project supervision step model, and constructing a model containing all factors and causal relationships in the project supervision step according to the relationships among the layers to obtain a causal relationship diagram of the project supervision step;

Step 33: assigning values to each influence factor in the causal relation graph, and establishing a functional relation;

Step 34: defining objects, scenes and events in the engineering supervision according to project engineering supervision targets, defining characteristic data in each supervision scene, marking supervision objects and scenes corresponding to data information in the supervision information ecological chain according to the characteristic data, and generating marking contents for feeding back the data circulation condition in the engineering supervision ecological chain after analysis;

Step 35: and (3) feeding back confirmed project progress supervision conditions by marked characteristic data, periodically generating a work output value of the project finished in the current period, drawing a corresponding supervision feedback curve according to the project progress conditions in real time, and setting a corresponding time limit to collect and analyze the finished project implementation quantity.

10. An information terminal-based engineering supervision method according to claim 9, wherein: the method for carrying out sharing analysis and supervision learning comprises the following steps:

Step 41: building a project supervision feedback database, feeding data of each stage of a project into the project supervision feedback database, building each specific stage quality control requirement into a functional unit, wherein each function specifically represents an implementation supervision requirement;

step 42: all the functional units are combined to establish a project supervision feedback shared database of a supervision project, so that the sharing analysis and supervision learning of project implementation process data are realized;

step 43: establishing a multi-supervision mode data database of project engineering, and automatically classifying and collecting the picture, video and text report data uploaded in the supervision process;

step 44: all data sources calibrate the corresponding time and the content of supervision, label setting is carried out on the classified and grouped pictures or video files, and the supervision process and the bright spot display supervision results are marked;

Step 46: each terminal of project engineering discusses and analyzes the typical problems of the marks according to the period, displays preset bright spots, automatically generates and files data materials generated in the process by using an informatization technology, and places a data source into a cloud database for storage and backup.