CN115271432A - Intelligent engineering information management method, system, storage medium and equipment - Google Patents

Abstract

The invention discloses an intelligent engineering information management method, a system, a storage medium and equipment, wherein the method comprises the following steps: acquiring current progress information of engineering construction; comparing the current construction progress in the current progress information with the planning progress in the project planning progress information to determine the subsequent construction items of the engineering construction; sequencing construction time of a plurality of items to be constructed in subsequent construction items to determine a current construction item; judging whether the current construction item lacks construction configuration or not according to the requirement configuration and the requirement feedback information; after the construction configuration is completed, acquiring construction progress information of the current construction item; and predicting the first time required by the execution main body to finish the current construction item according to the construction progress information, and predicting the second time for finishing all the to-be-constructed items in the subsequent construction items according to the first time. The invention can reasonably control the engineering construction period, thereby improving the engineering construction quality.

Description

Intelligent engineering information management method, system, storage medium and equipment

Technical Field

The invention relates to the technical field of engineering management, in particular to an intelligent engineering information management method, system, storage medium and equipment.

Background

In the construction process of the building engineering, the building engineering needs to be managed so as to better master and control the engineering progress.

In the prior art, the control of the project progress is basically manually analyzed, and the overall progress is generally controlled by collecting all construction parties or project parties for progress reporting. Obviously, this method is not accurate enough to control the project progress, and when the project progress is delayed, a countermeasure cannot be made in a targeted manner.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide an intelligent engineering information management method, system, storage medium and equipment, and aims to solve the technical problem that the engineering progress cannot be ensured due to the fact that the engineering construction progress is not accurately controlled in the prior art.

The invention provides an intelligent engineering information management method, which comprises the following steps:

acquiring current progress information of engineering construction;

comparing the current construction progress in the current progress information with the planning progress in the project planning progress information to determine the subsequent construction items of the engineering construction;

according to the planning progress information, time sequencing of construction sequence is carried out on a plurality of items to be constructed in the subsequent construction items so as to determine a current construction item with the earliest construction time requirement;

determining the demand configuration of the current construction item, acquiring demand feedback information fed back by an execution main body of the current construction item, and judging whether the current construction item lacks construction configuration or not according to the demand configuration and the demand feedback information;

after the construction configuration is completed, construction progress information of the execution main body for constructing the current construction item is obtained;

and predicting the first time required by the execution main body to finish the current construction item according to the construction progress information, and predicting to obtain the second time for finishing all items to be constructed in the subsequent construction items according to the first time.

According to one aspect of the above technical solution, the step of predicting a first time required for the execution main body to complete the current construction item according to the construction progress information, and obtaining a second time for completing all items to be constructed in the subsequent construction items according to the first time prediction specifically includes:

acquiring meteorological data of a later time period according to the construction progress information;

judging whether a weather interference time period which is not beneficial to the current construction item appears in a later time period or not according to the weather data;

if so, adding the weather interference time period into the construction time of the execution main body for completing the current construction item so as to predict and obtain the first time for completing the current construction item;

and predicting second time for completing all items to be constructed in the subsequent construction items according to the first time.

According to an aspect of the foregoing technical solution, after the step of adding the weather disturbance time period to the construction time for the execution subject to complete the current construction item to predict a first time for completing the current construction item, the method further includes:

acquiring the actual time of the execution main body for completing the current construction item;

comparing the actual time of the execution main body for completing the current construction item with the first time, and judging whether the time difference between the actual time and the first time is within a time difference threshold value;

if not, sending early warning prompt information about the current construction item to the execution main body of the current construction item.

According to one aspect of the above technical solution, the step of sending an early warning prompt message about the current construction item to the execution subject of the current construction item specifically includes:

generating a time difference label corresponding to the execution main body completing the current construction item according to the time difference between the actual time and the first time;

generating early warning prompt information of the current construction item according to the time difference label;

and sending the early warning prompt information to the execution main body of the current construction item.

According to an aspect of the foregoing technical solution, the method further includes:

acquiring an engineering construction image provided by any participant of the engineering construction and a description label corresponding to the engineering construction image;

generating a simulated construction scene of the engineering construction based on the engineering construction image and the description label, and sharing the simulated construction scene to all participating parties of the engineering construction;

judging whether supervision information fed back by any participating party in all participating parties of the engineering construction is acquired or not, wherein the supervision information at least comprises an expected completion date of the participating party on the current construction item of the engineering construction;

and if so, sending the supervision information to an execution main body of the current construction item of the engineering construction so as to adjust the first time according to the expected completion date.

According to an aspect of the above technical solution, the step of generating a simulated construction scene of the engineering construction based on the engineering construction image and the description tag, and sharing the simulated construction scene to all participating parties of the engineering construction specifically includes:

identifying the engineering construction image, determining a construction object in the engineering construction image, and generating an engineering component corresponding to the construction object according to the construction object in the engineering construction image;

analyzing the description label to acquire description information about the engineering construction in the description label;

and simulating and assembling the engineering components into an engineering construction model according to the corresponding description information to generate a simulated construction scene corresponding to the engineering construction, and sharing the simulated construction scene to all the participating parties of the engineering construction.

According to an aspect of the above technical solution, the step of identifying the construction image, determining a construction object in the construction image, and generating a construction member corresponding to the construction object according to the construction object in the construction image specifically includes:

identifying the engineering construction image, extracting a plurality of characteristic points in the engineering construction image, and determining the arrangement relation among the plurality of characteristic points;

identifying a construction object in the engineering construction image through a pre-trained neural network model according to the plurality of feature points and the arrangement relation thereof;

and generating an engineering component corresponding to the construction object according to the construction object in the engineering construction image and a preset proportion.

A second aspect of the present invention provides an intelligent engineering information management system, including:

the first progress acquisition module is used for acquiring current progress information of engineering construction;

the progress comparison module is used for comparing the current construction progress in the current progress information with the planning progress in the project planning progress information to determine the subsequent construction project of the engineering construction;

the time sequencing module is used for sequencing the construction sequence of a plurality of items to be constructed in the subsequent construction items according to the planning progress information so as to determine a current construction item with the earliest construction time requirement;

the requirement judging module is used for determining the requirement configuration of the current construction item, acquiring requirement feedback information fed back by an execution main body of the current construction item, and judging whether the current construction item lacks construction configuration or not according to the requirement configuration and the requirement feedback information;

the second progress acquisition module is used for acquiring the construction progress information of the execution main body for constructing the current construction item after the construction configuration is completed;

and the time prediction module is used for predicting the first time required by the execution main body to finish the current construction item according to the construction progress information and obtaining the second time for finishing all the items to be constructed in the subsequent construction items according to the first time prediction.

A third aspect of the present invention is to provide a computer-readable storage medium, on which computer instructions are stored, which computer instructions, when executed by a processor, implement the steps of the method as described in the above technical solution.

A fourth aspect of the present invention provides a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the steps of the method according to the above technical solution when executing the program.

Compared with the prior art, the intelligent engineering information management method, the intelligent engineering information management system, the intelligent engineering information management storage medium and the intelligent engineering information management equipment have the advantages that:

the method has the advantages that the first time for completing the current construction item can be predicted based on the current construction item of the engineering construction, the second time for completing all items to be constructed in the subsequent construction items can be predicted based on the first time of the current construction item, the completion of the quality and the guarantee of the engineering construction can be effectively promoted by carrying out efficient information interaction in the process of the engineering construction, and the importance of the method for the engineering construction is self-evident.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a flowchart illustrating an intelligent engineering information management method according to a first embodiment of the present invention;

FIG. 2 is a block diagram of an intelligent engineering information management system according to a third embodiment of the present invention.

Detailed Description

In order to make the objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. Several embodiments of the invention are presented in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Example one

Referring to fig. 1, a first embodiment of the present invention provides an intelligent engineering information management method applied to an intelligent engineering information system, which can be implemented by software and/or hardware, the method including steps S10-S60, wherein:

and S10, acquiring current progress information of engineering construction.

Among them, the construction period of engineering construction such as bridge, tunnel and building is usually long and is easily affected by interference factors including but not limited to material supply, personnel configuration, weather conditions, etc., thereby causing uncertainty of the construction period and failing to meet the pre-judged construction period requirement.

For better explaining the invention, a building construction project is taken as an example for explanation. For example, in the construction of a frame-type residential building (hereinafter referred to as a residential building), the residential building is planned to have 20 floors, each floor is 3.5 meters, the engineering construction period is determined to be half a year (180 days) in the pre-study and judgment process, and a plurality of construction items including land leveling, foundation construction, frame construction, brick filling and the like need to be completed in the construction process.

In step S10, the current progress information of the building construction includes the current progress of the building in the construction process, for example, the building is in the construction stage of the first floor frame at the current time.

In the embodiment, the acquiring of the current progress information of the engineering construction includes, but is not limited to, information feedback of an execution subject, wherein the execution subject is a direct participating party of the engineering construction.

Wherein, the information feedback of execution main part carries out information feedback through communications facilities such as intercom, intelligent terminal, and feedback information can explain with characters or speech mode to real current progress in can confirming the engineering construction, be convenient for carry out overall arrangement to later stage engineering construction.

And S20, comparing the current construction progress in the current progress information with the planning progress in the project planning progress information, and determining the subsequent construction project of the engineering construction.

Still taking the construction of the residential building as an example, in step S20, the overall progress of the current progress of the residential building in the planning progress can be determined by acquiring the current progress of the construction of the residential building and comparing the current progress of the construction of the residential building with the planning progress in the project planning progress information, so that the subsequent construction project of the construction of the residential building can be determined.

The planning progress in the project planning progress information is a progress determined in project data through research and judgment in advance, the planning progress can be input into the system through means such as image scanning and the like, the planning progress can also be input into the system through modes such as manual input and the like, and the period of the engineering construction can be controlled and planned after the project planning progress is determined.

And S30, sequencing the construction time sequence of a plurality of items to be constructed in the subsequent construction items according to the planning progress information so as to determine a current construction item with the earliest construction time.

Still taking the construction of the residential building as an example, in step S30, the time sequence of construction of the multiple items to be constructed of the subsequent construction items can be performed by determining the planning progress in the planning progress information, so as to determine the current construction item with the earliest required construction time.

The subsequent construction items are, for example, the construction of 2-layer frames after the construction of 1-layer frames, the construction of 3-layer frames, and the like, or the filling of 1-layer bricks after the construction of 1-layer frames, so that the sequencing of the construction sequence time of a plurality of items to be constructed in the subsequent construction items should be determined based on project data which is judged in advance.

And S40, determining the requirement configuration of the current construction item, acquiring requirement feedback information fed back by an execution main body of the current construction item, and judging whether the current construction item lacks construction configuration or not according to the requirement configuration and the requirement feedback information.

Next, taking the 1-storey frame construction of the residential building as the current construction item, it should be understood by those in the building field that the frame construction requires steel bars, concrete, casting equipment for casting the concrete, and a construction team, and therefore, the required configuration includes the steel bars, the concrete, the casting equipment, and the construction team, for example, the construction team is required to be 20 people.

At this time, the feedback information of the requirement fed back by the execution subject of the current construction item is obtained, and if the information includes, for example, the situations that the pouring equipment is not in place, the personnel is not in place, and the like, it is determined that the current construction item is still short of the construction configuration, and the construction configuration can be supplemented after the subject feedback is executed.

Step S50, after the construction configuration is completed, construction progress information of the execution main body for constructing the current construction item is obtained;

for example, after the pouring equipment and the constructors are supplemented at a later time, the execution main body can build the 1-layer frame, and feeds back construction progress information of the 1-layer frame in the building process or after the building, wherein the construction progress information comprises the current progress of the building of the frame (for example, the current progress is steel bar binding, which is called reinforcement for short).

And S60, predicting first time required by the execution main body to finish the current construction item according to the construction progress information, and predicting second time for finishing all to-be-constructed items in the subsequent construction items according to the first time.

For example, according to the current progress in the construction progress information, that is, the current progress is in reinforcement binding, it is determined that the first time of the processes of template fixing, grouting, slurry curing, template dismantling, brick filling and the like after the reinforcing steel bars in the 1-layer framework construction are finished needs 5 days, and the second time of finishing all the items to be constructed (20 layers) in the subsequent construction items (20 layers) can be determined and predicted by referring to the first time 5 days needed by the current construction item 1-layer framework construction to be 100 days.

Therefore, after the second time for completing all the items to be constructed in the subsequent construction items is predicted to be 100 days, the opening promotion including but not limited to the residential building and the like can be carried out based on the time.

Compared with the prior art, the intelligent engineering information management method disclosed by the embodiment has the beneficial effects that:

the method can predict the first time for completing the current construction item based on the current construction item of the engineering construction, predict the second time for completing all the items to be constructed in the subsequent construction items based on the first time of the current construction item, and effectively promote the completion of the quality and the guarantee of the engineering construction by performing efficient information interaction in the engineering construction process.

Example two

A second embodiment of the present invention provides an intelligent engineering information management method, applied to an intelligent engineering information system, which can be implemented by software and/or hardware, and the intelligent engineering information management method shown in this embodiment is different from the intelligent engineering information management method shown in the first embodiment in that:

in this embodiment, the step of predicting a first time required by the execution main body to complete the current construction item according to the construction progress information, and obtaining a second time for completing all items to be constructed in the subsequent construction items according to the first time prediction specifically includes steps S61 to S64, where:

and S61, acquiring meteorological data of a later time period according to the construction progress information.

For example, when it is determined that the construction progress in the construction progress information for constructing the 1-layer frame is the first day, the construction of the 1-layer frame needs 5 days according to a preset construction period, and weather data of 5 days in the future is acquired.

And S62, judging whether a weather interference time period which is unfavorable for the current construction item appears in a later time period or not according to the weather data.

For example, according to the weather data of the next 5 days, it is determined whether a weather disturbance time period that is not favorable for building a 1-story frame will occur within the next 5 days, for example, typhoon, thunderstorm weather, etc., which results in unsuitable construction, if it is determined that the time period in which the weather occurs is the weather disturbance time period, the method shown in this embodiment proceeds to step S63, otherwise, no processing is performed.

Step S63, adding the weather interference time period into the construction time of the execution main body for completing the current construction item so as to predict and obtain the first time for completing the current construction item;

for example, if the time of building a frame at 1 level influenced by typhoon weather is 2 days, 2 days influenced by typhoon weather are added into the construction time required by a frame building construction team to complete the building of the frame at 1 level, and the first time of completing the building of the frame at 1 level is predicted to be 5+2 days.

Of course, in other embodiments, meteorological data may be acquired for a longer period of time in the future, but the longer the period of time, the lower the accuracy.

And S64, predicting second time for completing all items to be constructed in the subsequent construction items according to the first time.

In conclusion, the first time of completing the construction of the 1-layer framework under meteorological interference is prolonged to 7 days, and then the second time of obtaining all items to be constructed in the subsequent construction items is predicted to be 100+2. Therefore, the completion time of the construction item can be reasonably predicted based on the meteorological data in the present embodiment.

However, as is well known to those skilled in the construction field, the construction period is usually shortened by compressing the construction period, for example, by compressing 180 days to 120 days, so that the construction time allocated to each construction item needs to be shortened.

However, in this embodiment, by reasonably managing and controlling the completion time of the construction item, the engineering construction can be prompted to be performed according to the regulations, specifically:

in this embodiment, after the step of adding the weather disturbance time period to the construction time for the execution subject to complete the current construction item to predict the first time for completing the current construction item, the method further includes steps S631-S632:

step S631, acquiring an actual time for the execution subject to complete the current construction item.

Here, the construction items of the 1-layer framework construction are taken as an example, and when the first time required for completing the 1-layer framework construction is predicted to be 5 days, the actual time for completing the 1-layer framework construction is obtained, and the actual time may be 3 days, 5 days, or 7 days, for example.

Step S632 of comparing the actual time of the execution main body completing the current construction item with the first time, and determining whether a time difference between the actual time and the first time is within a time difference threshold;

for example, the actual time (3 days or 7 days) for completing the construction of the 1-layer frame is compared with the predicted first time of 5 days, and whether the actual time for completing the construction of the 1-layer frame is greater than 5 days is judged. In this embodiment, the time difference threshold is set to plus or minus 0.5 days, the minimum construction time is 4.5 days, and the maximum construction time is 5.5 days when the construction is not disturbed by external factors.

In this case, if the actual time for completing the 1-layer framework erection is 7 days, it is explained that there is no compression period when the 1-layer framework erection is performed, and it is judged that there is only a case where the period for constructing the 1-layer framework is extended, and there is generally no quality problem.

However, when the actual time for completing the construction of the 1-layer framework is 3 days, which indicates that there is a situation that the construction period is shortened when the construction of the 1-layer framework is performed, which may cause a certain quality problem in the construction, the method shown in this embodiment proceeds to step S633.

Step S633, sending out early warning prompt information about the current construction item to the execution subject of the current construction item.

The system can send early warning prompt information of 'construction progress is too fast and construction quality is noticed' to the execution main body, so that a good supervision effect is achieved on engineering construction.

In this embodiment, the step of sending the warning prompt information about the current construction item to the execution main body of the current construction item specifically includes steps S6331 to S6333.

Step S6331, generating a time difference label corresponding to the execution subject completing the current construction item according to the time difference between the actual time and the first time.

It should be noted that the time difference label corresponding to the current construction item includes the first time of the current construction item and the actual time for completing the current construction item, and then the time difference label of the current construction item is generated according to the first time and the actual time.

Step S6332, generating early warning prompt information of the current construction item according to the time difference label;

and step S6333, sending the early warning prompt information to the execution main body of the current construction item.

Compared with the prior art, the intelligent engineering information management method disclosed by the embodiment has the beneficial effects that:

the method shown in the embodiment can predict the first time for completing the current construction item based on the current construction item of the engineering construction, predict the second time for completing all items to be constructed in the subsequent construction items based on the first time of the current construction item, and effectively promote the completion of the quality and guarantee of the engineering construction by performing efficient information interaction in the process of the engineering construction.

EXAMPLE III

A third embodiment of the present invention provides an intelligent engineering information management method for an intelligent engineering information system, which can be implemented by software and/or hardware, and the intelligent engineering information management method shown in this embodiment is different from the intelligent engineering information management method shown in the first embodiment or the second embodiment in that the method further includes:

and acquiring an engineering construction image provided by any participant of the engineering construction and a description label corresponding to the engineering construction image.

For example, the execution subject uploads an engineering construction image obtained by shooting through an intelligent terminal to the system and provides a description corresponding to the engineering construction image, so that the system can obtain the engineering construction image and a description label corresponding to the engineering construction image.

The method further comprises the steps of generating a simulated construction scene of the engineering construction based on the engineering construction image and the description label, and sharing the simulated construction scene to all the participating parties of the engineering construction.

The simulation construction scene is displayed in a video mode, a VR mode and the like, and after the simulation construction scene is shared, all participating parties of the engineering construction can check the engineering construction live on the system to know the overall progress of the engineering construction.

The method further comprises the step of judging whether supervision information fed back by any of all the participating parties of the engineering construction is acquired, wherein the supervision information at least comprises the expected completion date of the participating party to the current construction item of the engineering construction.

Specifically, when any participant (such as the first participant) in all participants of the engineering construction is not full of the overall progress of the engineering construction, the intelligent terminal can feed back the supervision information of the participant to the system, and the supervision information contains the expected completion date of the participant on the current construction item, that is, the participant can request to accelerate the current progress of the current construction item and the overall progress of the engineering construction in an information feedback manner.

And upon receiving supervision information, sending the supervision information to an execution subject of a current construction item of the engineering construction to adjust the first time according to the expected completion date.

In other feasible embodiments, after receiving the supervision information, the system automatically checks the expected completion date in the supervision information fed back by the participating party according to project information, and sends the supervision information to the execution main body of the current construction project in order to accelerate the overall progress of the construction project as much as possible under the condition that the supervision information is passed, so that the first time for the expected completion of the current construction project is adjusted according to the expected completion date, and the quality and guarantee of the construction project can be promoted to be completed to a certain extent.

In this embodiment, the step of generating a simulated construction scene of the engineering construction based on the engineering construction image and the description tag, and sharing the simulated construction scene to all participating parties of the engineering construction specifically includes:

identifying the engineering construction image, determining a construction object in the engineering construction image, and generating an engineering component corresponding to the construction object according to the construction object in the engineering construction image;

the engineering construction image includes but is not limited to file formats such as JPG, PDF and the like, for example, if the engineering construction is set to the JPG format, the system identifies the engineering construction image in the JPG format that executes the main body feedback, and identifies and obtains a construction object and an interference object in the engineering construction image; illustratively, the construction object is an image of a frame, for example, and the interfering object is a background in the construction image other than the frame.

After the construction object in the construction image is determined, the construction object can be converted into a construction component according to the construction image, wherein the construction component is a virtual three-dimensional model and can be used for simulating assembly.

Analyzing the description label to obtain description information about the engineering construction in the description label;

the description label includes description information of the engineering construction image, and after the description label is analyzed, the description information about the engineering construction in the description label can be obtained.

For example, the construction of the frame is displayed in the engineering construction image for executing the subject feedback, and the description label includes specific description information of the frame, for example, the description information corresponding to the engineering construction image is: the image is a 1-layer frame.

The method further comprises the steps of assembling the engineering components into an engineering construction model according to the corresponding description information in a simulation mode, generating a simulation construction scene corresponding to the engineering construction, and sharing the simulation construction scene to all the participating parties of the engineering construction.

Specifically, the generated engineering component is simulated and assembled into an engineering construction model according to the description information, and therefore a simulated construction scene is generated. When the engineering construction is gradually completed, the engineering construction simulation is also completed through the gradual assembly of a plurality of engineering components, and all the participating parties of the engineering construction can know the overall progress of the engineering construction in real time through the simulated construction scene.

In this embodiment, the step of recognizing the engineering construction image, determining a construction object in the engineering construction image, and generating an engineering component corresponding to the construction object according to the construction object in the engineering construction image specifically includes:

identifying the engineering construction image, extracting a plurality of characteristic points in the engineering construction image, and determining the arrangement relation among the plurality of characteristic points;

identifying a construction object in the engineering construction image through a pre-trained neural network model according to the plurality of feature points and the arrangement relation thereof;

and generating an engineering component corresponding to the construction object according to the construction object in the engineering construction image and a preset proportion.

Compared with the prior art, the intelligent engineering information management method disclosed by the embodiment has the beneficial effects that:

the method shown in the embodiment can predict the first time for completing the current construction item based on the current construction item of the engineering construction, predict the second time for completing all items to be constructed in the subsequent construction items based on the first time of the current construction item, and effectively promote the completion of the quality and guarantee of the engineering construction by performing efficient information interaction in the process of the engineering construction.

Example four

Referring to fig. 2, a fourth embodiment of the present invention provides an intelligent engineering information management system, which includes: the system comprises a first progress obtaining module 10, a progress comparing module 20, a time sorting module 30, a demand judging module 40, a second progress obtaining module 50 and a time predicting module 60.

The first progress acquiring module 10 is configured to acquire current progress information of the engineering construction.

Among them, the construction period of engineering construction such as bridge, tunnel and building is usually long and is easily affected by interference factors including but not limited to material supply, personnel configuration, weather conditions, etc., thereby causing uncertainty of the construction period and failing to meet the pre-judged construction period requirement.

In order to better explain the invention, a building construction project is taken as an example for explanation. For example, in the construction of a frame-type residential building (hereinafter, referred to as a residential building), the residential building is planned to have 20 floors, each floor is 3.5 meters, the engineering construction period is determined to be half a year (180 days) in the pre-study process, and a plurality of construction items including land leveling, foundation construction, frame construction, brick filling and the like need to be completed in the construction process.

In the embodiment, the acquiring of the current progress information of the engineering construction includes, but is not limited to, information feedback of an execution subject, wherein the execution subject is a direct participating party of the engineering construction.

Wherein, the information feedback of execution main part carries out information feedback through communications facilities such as intercom, intelligent terminal, and feedback information can explain with characters or speech mode to real current progress in can confirming the engineering construction, be convenient for carry out overall arrangement to later stage engineering construction.

And the progress comparison module 20 is configured to compare the current construction progress in the current progress information with the planning progress in the project planning progress information, and determine a subsequent construction project of the engineering construction.

Still taking the construction of the residential building as an example, by obtaining the current progress of the construction of the residential building and comparing the current progress of the construction of the residential building with the planning progress in the project planning progress information, the overall progress of the current progress of the residential building in the planning progress can be determined, and the subsequent construction project of the construction of the residential building can be determined.

The planning progress in the project planning progress information is a progress determined in project data through research and judgment in advance, the planning progress can be input into the system through means such as image scanning and the like, the planning progress can also be input into the system through modes such as manual input and the like, and the period of the engineering construction can be controlled and planned after the project planning progress is determined.

And the time sequencing module 30 is configured to perform time sequencing on the construction sequence of the plurality of items to be constructed in the subsequent construction items according to the planning progress information, so as to determine a current construction item requiring the earliest construction time.

Still taking the construction of the residential building as an example, in step S30, the time sequence of construction of the multiple items to be constructed of the subsequent construction items can be performed by determining the planning progress in the planning progress information, so as to determine the current construction item with the earliest required construction time.

The subsequent construction items are, for example, the construction of 2-layer frames after the construction of 1-layer frames, the construction of 3-layer frames, and the like, or the filling of 1-layer bricks after the construction of 1-layer frames, so that the sequencing of the construction sequence time of a plurality of items to be constructed in the subsequent construction items should be determined based on project data which is judged in advance.

And the requirement judging module 40 is configured to determine the requirement configuration of the current construction item, acquire requirement feedback information fed back by an execution main body of the current construction item, and judge whether the current construction item lacks the construction configuration according to the requirement configuration and the requirement feedback information.

Taking the construction of 1-storey frame of a residential building as a current construction item, it should be understood by those in the construction field that the frame construction requires steel bars, concrete, casting equipment for casting the concrete, and a construction team, and therefore, the required configuration includes the steel bars, the concrete, the casting equipment, and the construction team, for example, 20 people are required for the construction team.

At this time, the feedback information of the requirement fed back by the execution subject of the current construction item is obtained, and if the information includes, for example, the situations that the pouring equipment is not in place, the personnel is not in place, and the like, it is determined that the current construction item is still short of the construction configuration, and the construction configuration can be supplemented after the subject feedback is executed.

A second progress acquiring module 50, configured to acquire construction progress information of the execution main body for constructing the current construction item after the construction configuration is completed;

for example, after the pouring equipment and the constructors are completed at a later time, the execution main body can build the 1-layer framework, and feedback the construction progress information of the 1-layer framework in the building process or after the building, wherein the construction progress information comprises the current progress of the framework building (for example, the current progress is steel bar binding, which is called as reinforcement bar binding for short).

And the time prediction module 60 is configured to predict a first time required by the execution main body to complete the current construction item according to the construction progress information, and obtain a second time for completing all items to be constructed in the subsequent construction items according to the first time prediction.

For example, according to the current progress in the construction progress information, that is, the current progress is in reinforcement binding, it is determined that the first time of the processes of template fixing, grouting, slurry curing, template dismantling, brick filling and the like after the reinforcing steel bars in the 1-layer framework construction are finished needs 5 days, and the second time of finishing all the items to be constructed (20 layers) in the subsequent construction items (20 layers) can be determined and predicted by referring to the first time 5 days needed by the current construction item 1-layer framework construction to be 100 days.

Therefore, after the second time for completing all the items to be constructed in the subsequent construction items is predicted to be 100 days, opening publicity including but not limited to residential buildings and the like can be carried out based on the time.

Compared with the prior art, adopt the intelligent engineering information management system who shows among this embodiment, beneficial effect lies in:

the system shown in the embodiment can predict the first time for completing the current construction item based on the current construction item of the engineering construction, predict the second time for completing all items to be constructed in the subsequent construction items based on the first time of the current construction item, and effectively promote the completion of the quality and guarantee of the engineering construction by performing efficient information interaction in the process of the engineering construction.

EXAMPLE five

A fifth embodiment of the present invention provides a computer-readable storage medium having stored thereon computer instructions which, when executed by a processor, implement the steps of the method described in the above-mentioned embodiments.

EXAMPLE six

A sixth embodiment of the invention provides a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the steps of the method in the above embodiments when executing the program.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above embodiments only express several embodiments of the present invention, and the description is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An intelligent engineering information management method, characterized in that the method comprises:

acquiring current progress information of engineering construction;

comparing the current construction progress in the current progress information with the planning progress in the project planning progress information to determine the subsequent construction items of the engineering construction;

according to the planning progress information, time sequencing of construction sequence is carried out on a plurality of items to be constructed in the subsequent construction items so as to determine a current construction item with the earliest required construction time;

determining the demand configuration of the current construction item, acquiring demand feedback information fed back by an execution main body of the current construction item, and judging whether the current construction item lacks construction configuration or not according to the demand configuration and the demand feedback information;

after the construction configuration is completed, acquiring construction progress information of the execution main body for constructing the current construction item;

and predicting the first time required by the execution main body to finish the current construction item according to the construction progress information, and predicting to obtain the second time for finishing all items to be constructed in the subsequent construction items according to the first time.

2. The intelligent engineering information management method according to claim 1, wherein the step of predicting a first time required for the execution main body to complete the current construction item according to the construction progress information and obtaining a second time for completing all items to be constructed in the subsequent construction items according to the first time prediction specifically comprises:

acquiring meteorological data of a later time period according to the construction progress information;

judging whether a weather interference time period which is not beneficial to the current construction item appears in a later time period or not according to the weather data;

if so, adding the weather interference time period into the construction time of the execution main body for completing the current construction item so as to predict and obtain the first time for completing the current construction item;

and predicting second time for completing all items to be constructed in the subsequent construction items according to the first time.

3. The intelligent engineering information management method according to claim 2, wherein after the step of adding the weather interference period to the construction time for the execution main body to complete the current construction item to predict the first time for completing the current construction item, the method further comprises:

acquiring the actual time of the execution main body for completing the current construction item;

comparing the actual time of the execution main body for completing the current construction item with the first time, and judging whether the time difference between the actual time and the first time is within a time difference threshold value;

if not, sending early warning prompt information about the current construction item to the execution main body of the current construction item.

4. The intelligent engineering information management method according to claim 3, wherein the step of sending an early warning prompt about the current construction item to the execution subject of the current construction item specifically includes:

generating a time difference label corresponding to the execution main body completing the current construction item according to the time difference between the actual time and the first time;

generating early warning prompt information of the current construction item according to the time difference label;

and sending the early warning prompt information to the execution main body of the current construction item.

5. The intelligent engineering information management method according to any one of claims 1-4, further comprising:

acquiring an engineering construction image provided by any participant of the engineering construction and a description label corresponding to the engineering construction image;

generating a simulated construction scene of the engineering construction based on the engineering construction image and the description label, and sharing the simulated construction scene to all participating parties of the engineering construction;

judging whether supervision information fed back by any participating party in all participating parties of the engineering construction is acquired or not, wherein the supervision information at least comprises an expected completion date of the participating party on the current construction item of the engineering construction;

and if so, sending the supervision information to an execution main body of the current construction item of the engineering construction so as to adjust the first time according to the expected completion date.

6. The intelligent project information management method according to claim 5, wherein the step of generating a simulated construction scene of the project construction based on the project construction image and the description label and sharing the simulated construction scene to all participants of the project construction specifically comprises:

identifying the engineering construction image, determining a construction object in the engineering construction image, and generating an engineering component corresponding to the construction object according to the construction object in the engineering construction image;

analyzing the description label to acquire description information about the engineering construction in the description label;

and simulating and assembling the engineering components into an engineering construction model according to the corresponding description information to generate a simulated construction scene corresponding to the engineering construction, and sharing the simulated construction scene to all the participants of the engineering construction.

7. The intelligent project information management method according to claim 6, wherein the step of recognizing the project construction image, identifying a construction object in the project construction image, and generating a project member corresponding to the construction object based on the construction object in the project construction image, specifically comprises:

identifying the engineering construction image, extracting a plurality of characteristic points in the engineering construction image, and determining the arrangement relation among the plurality of characteristic points;

identifying a construction object in the engineering construction image through a pre-trained neural network model according to the plurality of feature points and the arrangement relation thereof;

and generating an engineering component corresponding to the construction object according to the construction object in the engineering construction image and a preset proportion.

8. An intelligent engineering information management system, the system comprising:

the first progress acquisition module is used for acquiring current progress information of engineering construction;

the progress comparison module is used for comparing the current construction progress in the current progress information with the planning progress in the project planning progress information to determine the subsequent construction items of the engineering construction;

the time sequencing module is used for sequencing the construction sequence of a plurality of items to be constructed in the subsequent construction items according to the planning progress information so as to determine a current construction item with the earliest construction time requirement;

the requirement judging module is used for determining the requirement configuration of the current construction item, acquiring requirement feedback information fed back by an execution main body of the current construction item, and judging whether the current construction item lacks construction configuration or not according to the requirement configuration and the requirement feedback information;

the second progress acquisition module is used for acquiring the construction progress information of the execution main body for constructing the current construction item after the construction configuration is completed;

and the time prediction module is used for predicting first time required by the execution main body to finish the current construction item according to the construction progress information and obtaining second time for finishing all the to-be-constructed items in the subsequent construction items according to the first time prediction.

9. A computer-readable storage medium having stored thereon computer instructions, which when executed by a processor, perform the steps of the method according to any one of claims 1-7.

10. A computer arrangement comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the steps of the method according to any of claims 1-7 when executing the program.

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