CN117853075B - Intelligent management platform for building engineering data information - Google Patents

Intelligent management platform for building engineering data information Download PDF

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CN117853075B
CN117853075B CN202410256659.7A CN202410256659A CN117853075B CN 117853075 B CN117853075 B CN 117853075B CN 202410256659 A CN202410256659 A CN 202410256659A CN 117853075 B CN117853075 B CN 117853075B
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荣荣
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Linyi Jinmingyu Construction Technology Co ltd
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Abstract

The invention relates to the technical field of building engineering management, and discloses a building engineering data information intelligent management platform, which comprises a building engineering data management platform, wherein the building engineering data management platform comprises an engineering project management system, an operator management system and an engineering material management system; the project management system is used for managing project progress and project construction speed data information of a plurality of project; the intelligent management platform for the construction engineering data information can judge whether the construction speed is matched with the condition of a constructor or not when the construction project progress, the construction condition of the constructor and the consumable amount of the construction material are monitored through the combined design of the project management system, the worker management system and the project material management system in the construction engineering data management platform, and whether the consumable amount of the construction material is matched with the construction progress or not so as to discover the construction progress problem and the construction material consumption problem in time.

Description

Intelligent management platform for building engineering data information
Technical Field
The invention relates to the technical field of building engineering management, in particular to an intelligent management platform for building engineering data information.
Background
In the construction process of the building engineering, various data information in the engineering needs to be managed, including the construction progress of the building engineering, the construction information of constructors, the use information of building materials and the like, so that a special management system platform is needed to monitor and manage the various data information of the building engineering.
The traditional building engineering information management system can only monitor and record various data information in the building engineering, intelligent feedback supervision can not be carried out on the construction speed of the building engineering, constructors and the consumption of building materials according to the monitored and recorded data, meanwhile, the traditional building engineering information management system monitors the site construction operation condition of the constructors through monitoring equipment video, the monitored area of the monitoring equipment is very limited, in addition, the constructors are distributed by leaders according to experience, and the unreasonable distribution of the constructors can directly influence the construction quality and the construction progress of the building engineering.
Disclosure of Invention
In order to solve the problems that the traditional building engineering information management system cannot carry out intelligent feedback supervision on the construction speed of the building engineering, the construction personnel and the consumption of building materials according to the monitored and recorded data, and meanwhile, the traditional building engineering information management system has poor construction monitoring effect on the construction personnel, and in addition, the construction personnel is distributed by a leader according to experience, so that the construction quality and the construction progress of the building engineering can be directly influenced, the invention is realized by the following technical scheme: the intelligent management platform for the construction engineering data information comprises a construction engineering data management platform, wherein the construction engineering data management platform comprises an engineering project management system, an operator management system and an engineering material management system;
the project management system is used for managing project progress and project construction speed data information of a plurality of project;
The worker management system is used for managing data information of construction work types, construction personnel numbers and construction work time of constructors;
the engineering material management system is used for managing data information of consumption of different construction materials and loss reporting amount of the construction materials in construction of engineering projects;
Judging whether the data information of project construction speed in the engineering project management system accords with expectations or not according to the data information of construction work types, construction people and construction operation time of constructors in the operator management system; the number of constructors and the working time of constructors are direct factors of the construction speed, and the construction type is also one of factors of the construction speed; the more the number of construction people is, the faster the project construction speed is; the easier the construction is, the faster the construction speed is.
Judging whether the data information of the consumption of different construction materials in the engineering material management system accords with the standard according to the data information of the project progress in the engineering material management system, wherein the project progress determines the consumption of the construction materials, the consumption of the different construction materials can be estimated according to the project progress of the engineering project, and compared with the actual consumption of the different construction materials, whether the construction materials are excessively consumed or whether the engineering project is subjected to material stealing or material subtracting is judged.
Further, an engineering project module is arranged in the engineering project management system, a plurality of project sub-modules are arranged in the engineering project module, and the project sub-modules correspond to a plurality of engineering projects;
Each project sub-module is provided with a project progress management unit and a project speed management unit, wherein the project progress management unit is used for managing data information of project progress of engineering projects, and the project speed management unit is used for managing data information of project construction speed of engineering projects.
Further, a staff work type management module is arranged in the staff management system, a plurality of work type sub-modules are arranged in the staff management module, and the plurality of work type sub-modules correspond to a plurality of construction works;
each worker seed module is internally provided with a personnel number unit and a personnel operation time unit, wherein the personnel number unit is used for managing the number information of constructors in a certain construction work type, and the personnel operation time unit is used for managing the construction operation time of all constructors in the same construction work type.
Further, the personnel work species management module is provided with a personnel distribution unit, and the personnel distribution unit is used for distributing constructors to different construction work species.
Further, the concrete method for distributing constructors by the personnel distributing unit comprises the following steps:
Counting the proficiency of each constructor in the qualified construction type;
determining construction types including a type 1, a type 2, a type 3, a type … …, a type n and the number of personnel required by each construction type;
selecting constructors which can be superior to the skill level ranking m1 of the work class 1 as pre-constructors of the work class 1 according to the number m1 of the personnel required by the work class 1;
Selecting the rest constructors which can be qualified for the class 2 and are m2 in front of the proficiency rank of the class 2 as pre-constructors of the class 2 according to the number of the required personnel m2, and adjusting the constructors which can be qualified for the class 1 and the class 2 from high to low in the pre-constructors of the class 1 into the pre-constructors of the class 2 according to the proficiency rank when the rest constructors are less than m2, and simultaneously supplementing the pre-constructors of the class 1 according to the proficiency rank of the class 1;
Selecting the rest constructors which can be qualified for the m3 before the proficiency ranking of the work class 3 as pre-constructors of the work class 3 according to the number m3 of the required work class 3, adjusting the constructors which can be qualified for the work class 2 and the work class 3 simultaneously from high to low in proficiency when the rest constructors are less than the m3 of the work class 2 as pre-constructors of the work class 3, or adjusting the constructors which can be qualified for the work class 1 and the work class 3 simultaneously from high to low in proficiency as pre-constructors of the work class 3, and simultaneously supplementing the pre-constructors of the work class 2 or the work class 1 according to the proficiency ranking of the work class 2 or the work class 1;
And sequentially circulating, selecting the rest constructors which can be qualified for the mn before the proficiency ranking of the n as pre-constructors of the n according to the number mn of the personnel required by the n, and adjusting the constructors which can be qualified for the z and the n in the 1-1 into the pre-constructors of the n according to the proficiency ranking of the z when the rest constructors are less than the mn, and simultaneously compensating the pre-constructors of the z according to the proficiency ranking of the z.
By adopting the constructor distribution method, the proficiency of constructors of each construction work can be ensured, the constructors which can be qualified for the construction work can be ensured to be obtained by all construction work, the distribution of constructors is facilitated to be optimized, the construction quality and the construction speed of engineering projects are improved, and when the constructors cannot be distributed according to the distribution method, the fact that the number of the constructors which can be qualified for the construction work is insufficient in one or more construction work can be judged.
Further, an action monitoring unit is arranged in the operator management system, a motion coordinate monitoring module is worn at the wrist and ankle of the constructor, the motion coordinate monitoring module is in electrical signal connection with the action monitoring unit, the motion coordinate monitoring module is used for monitoring the limb action change of the constructor, the monitored limb action change data information of the constructor is transmitted to the operator management system through the action monitoring unit, and whether the constructor is in a construction operation state is judged according to the limb action change of the constructor.
The motion coordinate monitoring module adopts a displacement sensor, and the displacement sensor is used for monitoring the displacement variation of the wrists and/or ankles of constructors relative to the trunk of the upper body.
Further, the specific method for judging whether the constructor is in the construction operation state comprises the following steps:
The motion coordinate monitoring module is worn at the wrist and the ankle of the constructor, the constructor performs the operation action of the construction work, and the motion coordinate monitoring module records the operation action of the constructor, which is related to the construction work, of the wrist or the ankle or the combination of the wrist and the ankle, namely, the displacement variable quantity of the constructor, which is related to the construction work, of the wrist or the ankle or the combination of the wrist and the ankle relative to the trunk of the upper half body when the constructor performs the operation action related to the construction work;
The motion coordinate monitoring module is used for recording the operation actions of wrists or ankles or combination of wrists and ankles which are related to all construction works and made by constructors, and establishing a construction work operation database;
Setting a minimum threshold value of the similarity between the operation actions of constructors and the operation actions in the construction work type operation action database, and setting the minimum threshold value as S, wherein:
wherein (A, B, C) is the three-dimensional coordinate of the displacement variation of the limb action of the constructor relative to the trunk of the upper body, and (a, B, C) is the three-dimensional coordinate of the displacement variation of the construction work relative to the trunk of the upper body stored in the construction work action database, Is the weight coefficient of X-axis coordinate,/>Is the weight coefficient of Y-axis coordinate,/>Is the weight coefficient of the Z-axis coordinate.
And monitoring the limb action change of the constructor by using the motion coordinate monitoring module, judging that the limb action of the constructor is a construction operation action when the similarity of the limb action of the constructor and the operation action in the construction work type operation action database is not smaller than a set minimum threshold, and otherwise, judging that the limb action of the constructor is a non-construction operation action.
Further, according to the data information of the construction work types, the number of construction people and the construction work time of the constructors in the worker management system, when the data information of the project construction speed in the project management system is judged to be not in accordance with the expectations, the action monitoring unit is utilized to identify whether the work time of the constructors meets the requirements.
And monitoring the limb action change of the constructor by using a motion coordinate monitoring module, and determining that the limb action of the constructor is the duration time of the construction operation action, so as to judge the operation time of the constructor, and according to the actual operation time of the constructor, identifying whether the operation time of the constructor meets the time required by the regulation, and further judging whether the project construction speed is slower or not due to insufficient operation time of the constructor, so as to prompt the constructor to construct in time.
Further, a material type management module is arranged in the engineering material management system, a plurality of consumable management modules are arranged in the material type management module, and the consumable management modules correspond to a plurality of engineering materials;
Each consumable management module is internally provided with a project consumable unit and a material loss reporting unit, wherein the project consumable unit is used for managing data information of consumption of different construction materials in engineering project construction, and the material loss reporting unit is used for managing data information of loss reporting of different construction materials.
Compared with the prior art, the invention has the following beneficial effects:
1. The intelligent management platform for the construction engineering data information can judge whether the construction speed is matched with the condition of a constructor or not when the construction progress, the construction condition of the constructor and the consumable amount of the construction material are monitored through the combined design of the engineering project management system, the worker management system and the engineering material management system in the construction engineering data management platform, and whether the consumable amount of the construction material is matched with the construction progress or not so as to discover the construction progress problem and the construction material consumption problem in time, avoid the phenomena of slow construction progress, high construction consumable amount or material loss during stealth, and ensure the construction efficiency and the construction quality of the construction engineering.
2. This intelligent management platform of building engineering data information through set up personnel allocation unit in personnel work kind management module to according to the construction work kind that constructor can be qualified and the proficiency of the construction work kind that can be qualified, distribute the required number of different construction work kinds, can more reasonable distribute the construction work kind that corresponds with constructor, effectively improve constructor's construction quality and efficiency of construction, can discover simultaneously whether there is the condition that constructor is not sufficient, so that in time supply constructor.
3. The intelligent management platform for the construction engineering data information can monitor the construction operation state of constructors in a construction operation time period according to the change of limb actions of the constructors through the combined design of the construction work operation action database, the action monitoring unit and the motion coordinate monitoring module so as to prompt the constructors to normally construct in time, so that the normal construction speed and the construction progress of the construction engineering are ensured.
Drawings
FIG. 1 is a schematic diagram of a construction engineering data management platform according to the present invention;
FIG. 2 is a schematic diagram of a worker management system according to 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.
The embodiment of the intelligent management platform for the construction engineering data information is as follows:
Referring to fig. 1-2, an intelligent management platform for construction engineering data information comprises a construction engineering data management platform, wherein the construction engineering data management platform comprises an engineering project management system, an operator management system and an engineering material management system.
The project management system is used for managing project progress and project construction speed data information of a plurality of project; the project management system is provided with a project module, a plurality of project sub-modules are arranged in the project module, and the project sub-modules correspond to the project.
Each project sub-module is provided with a project progress management unit and a project speed management unit, wherein the project progress management unit is used for managing data information of project progress of engineering projects, and the project speed management unit is used for managing data information of project construction speed of engineering projects.
The worker management system is used for managing data information of construction work types, construction personnel numbers and construction work time of constructors; the working personnel management system is provided with a personnel and work species management module, the personnel and work species management module is provided with a plurality of work species sub-modules, and the work species sub-modules correspond to a plurality of construction work species.
Each worker seed module is internally provided with a personnel number unit and a personnel operation time unit, wherein the personnel number unit is used for managing the number information of constructors in a certain construction work type, and the personnel operation time unit is used for managing the construction operation time of all constructors in the same construction work type.
The personnel and work species management module is provided with a personnel distribution unit, and the personnel distribution unit is used for distributing constructors to different construction work species. The concrete method for distributing constructors by the personnel distributing unit comprises the following steps:
Counting the proficiency of each constructor in the qualified construction type;
determining construction types including a type 1, a type 2, a type 3, a type … …, a type n and the number of personnel required by each construction type;
selecting constructors which can be superior to the skill level ranking m1 of the work class 1 as pre-constructors of the work class 1 according to the number m1 of the personnel required by the work class 1;
Selecting the rest constructors which can be qualified for the class 2 and are m2 in front of the proficiency rank of the class 2 as pre-constructors of the class 2 according to the number of the required personnel m2, and adjusting the constructors which can be qualified for the class 1 and the class 2 from high to low in the pre-constructors of the class 1 into the pre-constructors of the class 2 according to the proficiency rank when the rest constructors are less than m2, and simultaneously supplementing the pre-constructors of the class 1 according to the proficiency rank of the class 1;
Selecting the rest constructors which can be qualified for the m3 before the proficiency ranking of the work class 3 as pre-constructors of the work class 3 according to the number m3 of the required work class 3, adjusting the constructors which can be qualified for the work class 2 and the work class 3 simultaneously from high to low in proficiency when the rest constructors are less than the m3 of the work class 2 as pre-constructors of the work class 3, or adjusting the constructors which can be qualified for the work class 1 and the work class 3 simultaneously from high to low in proficiency as pre-constructors of the work class 3, and simultaneously supplementing the pre-constructors of the work class 2 or the work class 1 according to the proficiency ranking of the work class 2 or the work class 1;
And sequentially circulating, selecting the rest constructors which can be qualified for the mn before the proficiency ranking of the n as pre-constructors of the n according to the number mn of the personnel required by the n, and adjusting the constructors which can be qualified for the z and the n in the 1-1 into the pre-constructors of the n according to the proficiency ranking of the z when the rest constructors are less than the mn, and simultaneously compensating the pre-constructors of the z according to the proficiency ranking of the z.
By adopting the constructor distribution method, the proficiency of constructors of each construction work can be ensured, the constructors which can be qualified for the construction work can be ensured to be obtained by all construction work, the distribution of constructors is facilitated to be optimized, the construction quality and the construction speed of engineering projects are improved, and when the constructors cannot be distributed according to the distribution method, the fact that the number of the constructors which can be qualified for the construction work is insufficient in one or more construction work can be judged.
The operation personnel management system is provided with an action monitoring unit, the wrist and ankle of the constructor are respectively provided with a motion coordinate monitoring module, the motion coordinate monitoring modules are connected with the action monitoring unit through electrical signals, the motion coordinate monitoring modules are used for monitoring the limb action change of the constructor, the monitored limb action change data information of the constructor is transmitted to the operation personnel management system through the action monitoring unit, and whether the constructor is in a construction operation state is judged according to the limb action change of the constructor.
The motion coordinate monitoring module adopts a displacement sensor, and the displacement sensor is used for monitoring the displacement variation of the wrists and/or ankles of constructors relative to the trunk of the upper body. The concrete method for judging whether the constructor is in the construction operation state comprises the following steps:
The motion coordinate monitoring module is worn at the wrist and ankle of the constructor, the constructor performs the operation action of the construction work, the motion coordinate monitoring module records the operation action of the constructor, which is related to the construction work, of the wrist or the ankle or the combination of the wrist and the ankle, namely, the displacement variable quantity of the constructor, which is related to the construction work, of the wrist or the ankle or the combination of the wrist and the ankle relative to the trunk of the upper half body when the constructor performs the operation action related to the construction work.
The motion coordinate monitoring module is used for recording the operation actions of wrists or ankles or combination of wrists and ankles which are related to all construction works and made by constructors, and establishing a construction work operation database;
Setting a minimum threshold value of the similarity between the operation actions of constructors and the operation actions in the construction work type operation action database, and setting the minimum threshold value as S, wherein:
wherein (A, B, C) is the three-dimensional coordinate of the displacement variation of the limb action of the constructor relative to the trunk of the upper body, and (a, B, C) is the three-dimensional coordinate of the displacement variation of the construction work relative to the trunk of the upper body stored in the construction work action database, Is the weight coefficient of X-axis coordinate,/>Is the weight coefficient of Y-axis coordinate,/>Is the weight coefficient of the Z-axis coordinate.
And monitoring the limb action change of the constructor by using the motion coordinate monitoring module, judging that the limb action of the constructor is a construction operation action when the similarity of the limb action of the constructor and the operation action in the construction work type operation action database is not smaller than a set minimum threshold, and otherwise, judging that the limb action of the constructor is a non-construction operation action.
And when the data information of project construction speed in the engineering project management system is judged to be not in accordance with the expected data information of construction work types, construction people and construction operation time of constructors in the operator management system, the action monitoring unit is utilized to identify whether the operation time of the constructors meets the requirement.
And monitoring the limb action change of the constructor by using a motion coordinate monitoring module, and determining that the limb action of the constructor is the duration time of the construction operation action, so as to judge the operation time of the constructor, and according to the actual operation time of the constructor, identifying whether the operation time of the constructor meets the time required by the regulation, and further judging whether the project construction speed is slower or not due to insufficient operation time of the constructor, so as to prompt the constructor to construct in time.
The engineering material management system is used for managing data information of consumption of different construction materials and loss reporting amount of the construction materials in construction of engineering projects; the engineering material management system is provided with a material type management module, a plurality of consumable management modules are arranged in the material type management module, and the consumable management modules correspond to the engineering materials.
Each consumable management module is internally provided with a project consumable unit and a material loss reporting unit, wherein the project consumable unit is used for managing data information of consumption of different construction materials in engineering project construction, and the material loss reporting unit is used for managing data information of loss reporting of different construction materials.
Judging whether the data information of project construction speed in the engineering project management system accords with expectations or not according to the data information of construction work types, construction people and construction operation time of constructors in the operator management system; the number of constructors and the working time of constructors are direct factors of the construction speed, and the construction type is also one of factors of the construction speed; the more the number of construction people, the faster the project construction speed, the easier the construction work is to construct, and the faster the construction speed is.
Judging whether the data information of the consumption of different construction materials in the engineering material management system accords with the standard according to the data information of the project progress in the engineering material management system, wherein the project progress determines the consumption of the construction materials, the consumption of the different construction materials can be estimated according to the project progress of the engineering project, and compared with the actual consumption of the different construction materials, whether the construction materials are excessively consumed or whether the engineering project is subjected to material stealing or material subtracting is judged.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a building engineering data information intelligent management platform, includes building engineering data management platform, its characterized in that: the construction engineering data management platform comprises an engineering project management system, an operator management system and an engineering material management system;
the project management system is used for managing project progress and project construction speed data information of a plurality of project;
The worker management system is used for managing data information of construction work types, construction personnel numbers and construction work time of constructors;
the engineering material management system is used for managing data information of consumption of different construction materials and loss reporting amount of the construction materials in construction of engineering projects;
Judging whether the data information of project construction speed in the engineering project management system accords with expectations or not according to the data information of construction work types, construction people and construction operation time of constructors in the operator management system; judging whether the data information of consumption of different construction materials in the engineering material management system accords with a standard or not according to the data information of project progress in the engineering project management system;
The worker management system is provided with a worker species management module, a plurality of worker species modules are arranged in the worker species management module, and the plurality of worker species modules correspond to a plurality of construction work species;
each worker seed module is internally provided with a personnel number unit and a personnel operation time unit;
The operation personnel management system is provided with an action monitoring unit, the wrists and ankles of the constructors are respectively provided with a motion coordinate monitoring module, the motion coordinate monitoring modules are connected with the action monitoring unit through electric signals, the motion coordinate monitoring modules are used for monitoring the limb action changes of the constructors, and whether the constructors are in a construction operation state is judged according to the limb action changes of the constructors;
the concrete method for judging whether the constructor is in the construction operation state comprises the following steps:
The motion coordinate monitoring module is worn on the wrist and the ankle of the constructor, the constructor performs the operation action of the construction work, and the motion coordinate monitoring module records the operation action of the constructor, which is related to the construction work, or the combination of the wrist and the ankle;
The motion coordinate monitoring module is used for recording the operation actions of wrists or ankles or combination of wrists and ankles which are related to all construction works and made by constructors, and establishing a construction work operation database;
Setting a minimum threshold value of the similarity between the operation actions of constructors and the operation actions in the construction work type operation action database, and setting the minimum threshold value as S, wherein:
wherein (A, B, C) is the three-dimensional coordinate of the displacement variation of the limb action of the constructor relative to the trunk of the upper body, and (a, B, C) is the three-dimensional coordinate of the displacement variation of the construction work relative to the trunk of the upper body stored in the construction work action database, Is the weight coefficient of X-axis coordinate,/>Is the weight coefficient of Y-axis coordinate,/>The weight coefficient of the Z-axis coordinate;
And monitoring the limb action change of the constructor by using the motion coordinate monitoring module, judging that the limb action of the constructor is a construction operation action when the similarity of the limb action of the constructor and the operation action in the construction work type operation action database is not smaller than a set minimum threshold, and otherwise, judging that the limb action of the constructor is a non-construction operation action.
2. The intelligent management platform for building engineering data information according to claim 1, wherein an engineering project module is arranged in the engineering project management system, a plurality of project sub-modules are arranged in the engineering project module, and the project sub-modules correspond to a plurality of engineering projects;
and each project sub-module is internally provided with a project progress management unit and a project speed management unit.
3. The intelligent management platform for building engineering data information according to claim 1, wherein the personnel allocation unit is arranged in the personnel work management module and is used for allocating constructors to different construction works.
4. The intelligent management platform for construction engineering data information according to claim 3, wherein the concrete method for distributing constructors by the personnel distributing unit comprises the following steps:
Counting the proficiency of each constructor in the qualified construction type;
determining construction types including a type 1, a type 2, a type 3, a type … …, a type n and the number of personnel required by each construction type;
selecting constructors which can be superior to the skill level ranking m1 of the work class 1 as pre-constructors of the work class 1 according to the number m1 of the personnel required by the work class 1;
Selecting the rest constructors which can be qualified for the class 2 and are m2 in front of the proficiency rank of the class 2 as pre-constructors of the class 2 according to the number of the required personnel m2, and adjusting the constructors which can be qualified for the class 1 and the class 2 from high to low in the pre-constructors of the class 1 into the pre-constructors of the class 2 according to the proficiency rank when the rest constructors are less than m2, and simultaneously supplementing the pre-constructors of the class 1 according to the proficiency rank of the class 1;
Selecting the rest constructors which can be qualified for the class 3 and are m3 in front of the proficiency ranking of the class 3 as pre-constructors of the class 3 according to the number m3 of the required staff, adjusting the constructors which can be qualified for the class 2 and the class 3 in the pre-constructors of the class 2 from high to low according to the proficiency ranking when the rest of constructors are less than m3, and or adjusting the constructors which can be qualified for the class 1 and the class 3 in the pre-constructors of the class 1 from high to low according to the proficiency ranking of the class 2 or the class 1 into pre-constructors of the class 3, and simultaneously supplementing the pre-constructors of the class 2 or the class 1 according to the proficiency ranking of the class 2 or the class 1;
And sequentially circulating, selecting the rest constructors which can be qualified for the mn before the proficiency ranking of the n as pre-constructors of the n according to the number mn of the personnel required by the n, and adjusting the constructors which can be qualified for the z and the n in the 1-1 into the pre-constructors of the n according to the proficiency ranking of the z when the rest constructors are less than the mn, and simultaneously compensating the pre-constructors of the z according to the proficiency ranking of the z.
5. The intelligent management platform for construction engineering data information according to claim 4, wherein when it is determined that the data information of the project construction speed in the project management system does not meet the expectations according to the data information of the construction work types, the number of construction persons and the construction work time of the constructors in the worker management system, the operation monitoring unit is used to identify whether the work time of the constructors meets the requirements.
6. The intelligent management platform for building engineering data information according to claim 1 or 2, wherein a material type management module is arranged in the engineering material management system, a plurality of consumable management modules are arranged in the material type management module, and the plurality of consumable management modules correspond to a plurality of engineering materials;
each consumable management module is provided with a project consumable unit and a material loss reporting unit.
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