CN116797263A - Construction engineering cost accounting management method and system - Google Patents

Abstract

The application relates to the technical field of artificial intelligence, and provides a construction engineering cost accounting management method and system. The method comprises the following steps: carrying out attribute classification on the construction project construction record data information to obtain construction project attribute node data information; acquiring engineering cost influence factors, wherein the engineering cost influence factors comprise bidding factors, market factors and construction management factors; determining a project cost accounting rule according to the project cost influencing factors; calculating the construction project attribute node data information based on the project cost calculation rule to generate a project cost calculation result; determining an accounting error factor according to historical cost data processing experience; and adjusting the construction cost accounting result based on the accounting error factor to obtain a construction cost closed-loop accounting result. The method can achieve the technical effects of realizing the intelligent accounting processing of the engineering cost, ensuring the accounting accuracy of the engineering cost and improving the accounting processing efficiency of the engineering cost.

Description

Construction engineering cost accounting management method and system

Technical Field

The application relates to the technical field of artificial intelligence, in particular to a construction engineering cost accounting management method and system.

Background

The construction cost refers to the cost of carrying out a certain construction project, namely all the cost from the establishment to the completion of acceptance exchange, and the construction cost accounting is a necessary program and an important means for reasonably determining the construction cost. The errors and problems can be corrected in time through the construction cost accounting, so that the construction cost can be determined more reasonably, and the expected implementation of the construction project is ensured. However, the engineering cost accounting of the prior art has lower intelligent degree, which results in lower accuracy and efficiency of engineering cost accounting.

Disclosure of Invention

Based on the above, it is necessary to provide a construction project cost accounting management method and system capable of realizing intelligent accounting processing of the project cost, ensuring the accuracy of the project cost accounting and improving the efficiency of the cost accounting processing.

A construction project cost accounting management method, the method comprising: acquiring construction project construction record data information; performing attribute classification on the construction project construction record data information to obtain construction project attribute node data information; acquiring engineering cost influence factors, wherein the engineering cost influence factors comprise bidding factors, market factors and construction management factors; determining a project cost accounting rule according to the project cost influencing factors; calculating the construction project attribute node data information based on the project cost calculation rule to generate a project cost calculation result; determining an accounting error factor according to historical cost data processing experience; and adjusting the construction cost accounting result based on the accounting error factor to obtain a construction cost closed-loop accounting result.

A construction project cost accounting management system, the system comprising: the construction record data acquisition module is used for acquiring construction record data information of the building engineering; the data attribute classification module is used for carrying out attribute classification on the building engineering construction record data information to obtain building engineering attribute node data information; the construction cost influence factor acquisition module is used for acquiring construction cost influence factors, wherein the construction cost influence factors comprise bidding factors, market factors and construction management factors; the construction cost accounting rule determining module is used for determining construction cost accounting rules according to the construction cost influencing factors; the node data accounting module is used for accounting the construction project attribute node data information based on the project cost accounting rule to generate a project cost accounting result; the accounting error factor determining module is used for determining an accounting error factor according to the history cost data processing experience; the construction cost closed-loop accounting result obtaining module is used for adjusting the construction cost accounting result based on the accounting error factor to obtain the construction engineering cost closed-loop accounting result.

A computer device comprising a memory storing a computer program and a processor which when executing the computer program performs the steps of:

acquiring construction project construction record data information;

performing attribute classification on the construction project construction record data information to obtain construction project attribute node data information;

acquiring engineering cost influence factors, wherein the engineering cost influence factors comprise bidding factors, market factors and construction management factors;

determining a project cost accounting rule according to the project cost influencing factors;

calculating the construction project attribute node data information based on the project cost calculation rule to generate a project cost calculation result;

determining an accounting error factor according to historical cost data processing experience;

and adjusting the construction cost accounting result based on the accounting error factor to obtain a construction cost closed-loop accounting result.

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of:

acquiring construction project construction record data information;

performing attribute classification on the construction project construction record data information to obtain construction project attribute node data information;

acquiring engineering cost influence factors, wherein the engineering cost influence factors comprise bidding factors, market factors and construction management factors;

determining a project cost accounting rule according to the project cost influencing factors;

calculating the construction project attribute node data information based on the project cost calculation rule to generate a project cost calculation result;

determining an accounting error factor according to historical cost data processing experience;

and adjusting the construction cost accounting result based on the accounting error factor to obtain a construction cost closed-loop accounting result.

The construction project cost accounting management method and system solve the technical problems of lower construction cost accounting accuracy and lower accounting efficiency caused by lower intelligentization degree of construction project cost accounting in the prior art, and achieve the technical effects of realizing intelligent construction cost accounting processing, ensuring construction cost accounting accuracy and improving construction cost accounting processing efficiency.

The foregoing description is only an overview of the present application, and is intended to be implemented in accordance with the teachings of the present application in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present application more readily apparent.

Drawings

FIG. 1 is a flow diagram of a method of accounting and managing construction costs in one embodiment;

FIG. 2 is a schematic flow chart of obtaining data information of construction project attribute nodes in a construction project cost accounting management method according to one embodiment;

FIG. 3 is a block diagram of a construction project cost accounting management system in one embodiment;

fig. 4 is an internal structural diagram of a computer device in one embodiment.

Reference numerals illustrate: the construction record data acquisition module 11, the data attribute classification module 12, the cost impact factor acquisition module 13, the cost accounting rule determination module 14, the node data accounting module 15, the accounting error factor determination module 16 and the cost closed loop accounting result acquisition module 17.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

As shown in fig. 1, the present application provides a construction project cost accounting management method, the method comprising:

step S100: acquiring construction project construction record data information;

specifically, the construction cost refers to the cost of performing a certain construction project, that is, the total cost from the time of construction to the time of completion of the acceptance of the construction, and the construction cost accounting is a necessary procedure and an important means for reasonably determining the construction cost. The errors and problems can be corrected in time through the construction cost accounting, so that the construction cost can be determined more reasonably, and the expected implementation of the construction project is ensured. The construction project construction process is monitored in real time, construction project construction record data information is obtained, the construction project construction record data information comprises construction project constructed structure data and information of manpower, material resources and the like spent by each project in the construction process, and a data foundation is provided for subsequent project cost accounting.

Step S200: performing attribute classification on the construction project construction record data information to obtain construction project attribute node data information;

in one embodiment, as shown in fig. 2, the step S200 of obtaining the data information of the attribute node of the building engineering further includes:

step S210: carrying out hierarchical classification on the construction project construction record data information according to the project structure to obtain project structure hierarchical record data information;

step S220: carrying out construction project marking on the engineering structure hierarchy record data information to obtain engineering construction project subdivision data information;

step S230: obtaining a cost attribute information set, wherein the cost attribute information set comprises building material attributes, human resource attributes and construction equipment attributes;

step S240: and carrying out attribute integration on the project subdivision data information according to the cost attribute information set to obtain the construction project attribute node data information.

In one embodiment, the step S210 of obtaining the engineering structure level record data information further includes:

step S211: determining construction structure data information according to the construction record data information;

step S212: performing structure disassembly on the construction structure data information of the building engineering to obtain engineering structure disassembly element data information;

step S213: carrying out attribute marking on the basis of the engineering construction disassembly element data information to obtain engineering construction element attribute data information;

step S214: and classifying the engineering construction element attribute data information according to the construction area distribution in an area level manner to obtain the engineering structure level record data information.

Specifically, in order to improve the efficiency of construction cost accounting, attribute classification is performed on the construction project construction record data information, and first, hierarchical classification is performed on the construction project construction record data information according to a project structure. Specifically, according to the construction record data information, the construction structure data information, namely the constructed construction structure information, is determined. And then carrying out structure disassembly on the construction structure data information, namely carrying out specific functional structure disassembly on the construction structure to obtain construction disassembly element data information, such as beams, floors, roof boards, walls, columns and the like. And carrying out attribute marking on the basis of the engineering construction disassembly element data information, namely dividing the types of construction of each construction element, and obtaining the classified engineering construction element attribute data information, such as an external curtain wall of a building, a spandrel girder of a building workshop and the like. And classifying the engineering construction element attribute data information according to the building area distribution, namely classifying and integrating the attribute data according to the area distribution of the building structure level, such as primary workshop attribute and secondary workshop attribute, to obtain integrated engineering structure level record data information.

And marking construction projects on the engineering structure hierarchy record data information, namely marking specific construction project spending classification of each engineering structure hierarchy to obtain engineering construction project subdivision data information, such as constructors wages, building cement projects and the like. And formulating and obtaining a cost attribute information set, wherein the cost attribute information set comprises building material attributes, human resource attributes and construction equipment attributes, carrying out attribute integration on the project construction project subdivision data information according to the cost attribute information set, namely carrying out attribute classification on the subdivided construction expense projects, for example, the constructor wage projects are attributed to the human resource attributes, the building cement projects are attributed to the building material attributes, and carrying out classification integration to obtain the building project attribute node data information. And through the classified integration of the recorded data attributes, the data calculation preprocessing is realized, and the data calculation processing efficiency is further improved.

Step S300: acquiring engineering cost influence factors, wherein the engineering cost influence factors comprise bidding factors, market factors and construction management factors;

step S400: determining a project cost accounting rule according to the project cost influencing factors;

in one embodiment, the determining the construction cost accounting rule, the step S400 of the present application further includes:

step S410: performing content expansion based on the construction cost influence factors to construct a construction cost database, wherein the construction cost database comprises historical construction cost influence factor data and construction cost data;

step S420: the engineering cost databases are classified according to the engineering cost influencing factors to obtain an engineering cost influencing factor data set;

step S430: fitting is carried out on the basis of the engineering cost influence factor data sets respectively, and an engineering cost factor change function set is generated;

step S440: and carrying out function fusion on the engineering cost factor change function set, and determining the engineering cost accounting rule.

Specifically, the construction cost influence factors are obtained, the construction cost influence factors mainly comprise bid-in factors, market factors and construction management factors, and according to the construction cost influence factors, a construction cost accounting rule is determined, and the construction cost accounting rule is a cost accounting basis. The method specifically comprises the steps of carrying out content expansion based on the construction cost influence factors, carrying out data mining expansion through historical data or big data technology, and constructing a construction cost database, wherein the construction cost database comprises historical construction cost influence factor data and construction cost data. And classifying the engineering cost database according to the engineering cost influence factors, namely, carrying out partition clustering on data in the database according to the influence factors to obtain an engineering cost influence factor data set after the influence factors are integrated in a partitioning way.

And fitting the construction cost influence factor data sets respectively, namely, taking influence factor data in the construction cost data of each influence factor as independent variables, and taking the corresponding construction cost data as the dependent variables to perform function fitting so as to generate a construction cost factor change function set. And finally, carrying out function fusion on the engineering cost factor change function set, and determining the comprehensive engineering cost change function after the function fusion as an engineering cost accounting rule. By multi-factor analysis and fitting of the construction cost, the comprehensiveness of the construction cost accounting rules is improved, and the construction cost accounting accuracy is further ensured.

Step S500: calculating the construction project attribute node data information based on the project cost calculation rule to generate a project cost calculation result;

in one embodiment, the step S500 of the present application further includes:

step S510: performing accounting channel deployment based on the cost attribute information set to generate a project cost accounting multi-channel;

step S520: mapping the construction engineering attribute node data information according to the construction cost accounting multichannel to obtain construction engineering multichannel data information;

step S530: respectively carrying out accounting on the multi-channel data information of the building engineering based on the engineering cost accounting rules to obtain a multi-channel accounting result of the building engineering;

step S540: and carrying out fusion and summarization on the multi-channel accounting results of the construction engineering to generate the accounting results of the construction cost.

Specifically, the construction project attribute node data information is calculated based on the construction cost calculation rule, and firstly, calculation channel deployment is performed based on the construction cost attribute information set, namely, each construction cost attribute information is correspondingly deployed with one calculation channel, so that a construction cost calculation multi-channel is generated, and the construction cost calculation multi-channel comprises multi-core calculation channels such as construction material attributes, human resource attributes, construction equipment attributes and the like. Mapping the construction project attribute node data information according to the construction cost accounting multi-channel, namely classifying the construction project attribute node data information into corresponding accounting channels according to the corresponding construction cost attribute mapping, and obtaining the construction project multi-channel data information corresponding to each accounting channel. And respectively carrying out accounting on the multi-channel data information of the building engineering based on the engineering cost accounting rules to obtain corresponding multi-channel accounting results of the building engineering, and finally carrying out fusion and summarization on the multi-channel accounting results of the building engineering to generate final engineering cost accounting results. The multi-channel accounting processing of the engineering cost is realized, the accuracy of the engineering cost accounting is ensured, and the efficiency of the cost accounting processing is improved.

Step S600: determining an accounting error factor according to historical cost data processing experience;

step S700: and adjusting the construction cost accounting result based on the accounting error factor to obtain a construction cost closed-loop accounting result.

In one embodiment, step S700 of the present application further comprises:

step S710: acquiring construction project planning and design information, and determining construction project budget cost information according to the construction project planning and design information;

step S720: determining construction progress information of the building engineering according to the proportion of the construction structure data information of the building engineering to the planning and design information of the building engineering;

step S730: obtaining project construction progress budget cost information based on the construction project construction progress information and the construction project budget cost information;

step S740: and taking the difference value between the project construction progress budget cost information and the construction project cost closed-loop accounting result as a project cost optimization factor to carry out budget throttling.

In one embodiment, step S740 of the present application further includes:

step S741: carrying out resource analysis on the construction engineering planning design information to determine information of optimized construction cost resources;

step S742: calculating the optimizable cost resource information based on the engineering cost optimization factor to obtain an engineering cost resource optimization threshold;

step S743: generating a project construction cost optimization scheme according to the optimizable cost resource information and the project construction cost resource optimization threshold, and performing project construction cost throttling optimization based on the project construction cost optimization scheme.

Specifically, accounting errors are generated due to statistical errors of actual manufacturing cost and the like, so that an accounting error factor, that is, an error deviation constant is determined according to historical manufacturing cost data processing experience. And adjusting the construction cost accounting result based on the accounting error factor to obtain a construction cost closed-loop accounting result which accords with practical application, and further carrying out subsequent management on the construction cost. The method specifically comprises the steps of obtaining construction project planning and design information, wherein the construction project planning and design information is construction budget planning information of the construction project, and determining construction project budget cost information, namely cost budget of the whole project, according to the construction project planning and design information. And determining the currently monitored construction progress information of the building engineering according to the proportion of the construction structure data information of the building engineering to the planning and design information of the building engineering. And acquiring the construction project budget which is required to be spent by the target under the construction progress, namely the construction project progress budget cost information, based on the proportional product of the construction project construction progress information and the construction project budget cost information.

And taking the difference value between the project construction progress budget cost information and the construction project cost closed-loop accounting result as a project cost optimization factor to carry out budget throttling. Firstly, the construction engineering planning and design information is subjected to resource analysis, the resource which can save budget in the construction engineering planning and design information can be extracted according to a resource application way, and the information of the resource which can optimize the cost is determined, for example, the resources such as workshop power consumption, personnel management cost and the like can be properly reduced. And calculating the information of the optimizable cost resource based on the engineering cost optimization factor, planning the reduction degree of the optimizable resource, and carrying out proportional division calculation according to the reduction priority degree of the resource to obtain a corresponding engineering cost resource optimization threshold, namely an optimization reduction threshold corresponding to each optimizable resource. Generating a project construction cost optimization scheme according to the optimizable cost resource information and the project construction cost resource optimization threshold, and performing project construction cost throttling optimization based on the project construction cost optimization scheme. The method achieves the technical effects of timely throttling optimization of construction engineering cost, realizing accurate management and control of engineering cost, further effectively controlling construction project engineering cost and guaranteeing timely completion of engineering targets.

In one embodiment, as shown in fig. 3, there is provided a construction project cost accounting management system including: the construction record data acquisition module 11, the data attribute classification module 12, the cost impact factor acquisition module 13, the cost accounting rule determination module 14, the node data accounting module 15, the accounting error factor determination module 16 and the cost closed loop accounting result acquisition module 17, wherein:

a construction record data acquisition module 11 for acquiring construction record data information of a construction project;

the data attribute classification module 12 is configured to perform attribute classification on the construction record data information to obtain construction attribute node data information;

a cost impact factor obtaining module 13, configured to obtain engineering cost impact factors, where the engineering cost impact factors include bidding factors, market factors, and construction management factors;

a construction cost accounting rule determining module 14, configured to determine a construction cost accounting rule according to the construction cost influencing factor;

the node data accounting module 15 is configured to perform accounting on the construction project attribute node data information based on the project cost accounting rule, and generate a project cost accounting result;

a calculation error factor determining module 16 for determining a calculation error factor based on the historical cost data processing experience;

the construction cost closed loop accounting result obtaining module 17 is configured to adjust the construction cost accounting result based on the accounting error factor, and obtain a construction cost closed loop accounting result.

In one embodiment, the system further comprises:

the data hierarchy classification unit is used for performing hierarchy classification on the building engineering construction record data information according to the engineering structure to obtain engineering structure hierarchy record data information;

the construction project marking unit is used for marking construction projects on the engineering structure hierarchy record data information to acquire engineering construction project subdivision data information;

the construction cost attribute information acquisition unit is used for acquiring a construction cost attribute information set, wherein the construction cost attribute information set comprises building material attributes, human resource attributes and construction equipment attributes;

and the data attribute integration unit is used for carrying out attribute integration on the project subdivision data information according to the construction cost attribute information set to obtain the construction project attribute node data information.

In one embodiment, the system further comprises:

the building structure data determining unit is used for determining building engineering building structure data information according to the building engineering building record data information;

the structure disassembling unit is used for carrying out structure disassembling on the construction structure data information of the building engineering to obtain engineering structure disassembling element data information;

the data attribute marking unit is used for carrying out attribute marking on the basis of the engineering construction disassembly element data information to obtain engineering construction element attribute data information;

and the hierarchy record data obtaining unit is used for carrying out region hierarchy classification on the engineering construction element attribute data information according to the building region distribution to obtain the engineering structure hierarchy record data information.

In one embodiment, the system further comprises:

the data content expansion unit is used for carrying out content expansion based on the construction cost influence factors to construct a construction cost database, and the construction cost database comprises historical construction cost influence factor data and construction cost data;

the database sorting unit is used for sorting the engineering cost database according to the engineering cost influencing factors to obtain an engineering cost influencing factor data set;

the function fitting unit is used for respectively fitting based on the engineering cost influence factor data sets to generate an engineering cost factor change function set;

and the function fusion unit is used for carrying out function fusion on the engineering cost factor change function set and determining the engineering cost accounting rule.

In one embodiment, the system further comprises:

the accounting channel deployment unit is used for deploying the accounting channels based on the cost attribute information set to generate a project cost accounting multi-channel;

the channel mapping unit is used for mapping the construction project attribute node data information according to the construction cost accounting multichannel to obtain construction project multichannel data information;

the channel accounting unit is used for respectively accounting the multi-channel data information of the building engineering based on the engineering cost accounting rules to obtain a multi-channel accounting result of the building engineering;

and the fusion summarizing unit is used for carrying out fusion summarizing on the multi-channel accounting results of the construction engineering to generate the accounting results of the construction cost.

In one embodiment, the system further comprises:

the construction budget cost determining unit is used for acquiring construction project planning and design information and determining construction project budget cost information according to the construction project planning and design information;

the construction progress determining unit is used for determining construction progress information of the building engineering according to the proportion of the construction structure data information of the building engineering to the planning and design information of the building engineering;

a construction progress budget cost obtaining unit for obtaining construction progress budget cost information based on the construction progress information and the construction project budget cost information;

the cost optimization factor obtaining unit is used for taking the difference value between the project construction progress budget cost information and the construction project cost closed loop accounting result as a project cost optimization factor to carry out budget throttling.

In one embodiment, the system further comprises:

the optimized resource analysis unit is used for carrying out resource analysis on the construction engineering planning design information and determining information of optimized cost resources;

the resource optimization threshold value obtaining unit is used for calculating the optimizable cost resource information based on the engineering cost optimization factor to obtain an engineering cost resource optimization threshold value;

the construction cost throttling optimizing unit is used for generating a construction cost optimizing scheme according to the optimizable construction cost resource information and the construction cost resource optimizing threshold value, and carrying out construction cost throttling optimization based on the construction cost optimizing scheme.

For a specific embodiment of a construction cost accounting management system, reference is made to the above embodiment of a construction cost accounting management method, and no further description is given here. Each module in the construction project cost accounting management device can be fully or partially realized by software, hardware and a combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 4. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer device is used for storing news data, time attenuation factors and other data. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program, when executed by a processor, implements a construction project cost accounting management method.

It will be appreciated by persons skilled in the art that the architecture shown in fig. 4 is merely a block diagram of some of the architecture relevant to the present inventive arrangements and is not limiting as to the computer device to which the present inventive arrangements are applicable, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

In one embodiment, a computer device is provided comprising a memory and a processor, the memory having stored therein a computer program, the processor when executing the computer program performing the steps of: acquiring construction project construction record data information; performing attribute classification on the construction project construction record data information to obtain construction project attribute node data information; acquiring engineering cost influence factors, wherein the engineering cost influence factors comprise bidding factors, market factors and construction management factors; determining a project cost accounting rule according to the project cost influencing factors; calculating the construction project attribute node data information based on the project cost calculation rule to generate a project cost calculation result; determining an accounting error factor according to historical cost data processing experience; and adjusting the construction cost accounting result based on the accounting error factor to obtain a construction cost closed-loop accounting result.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of: acquiring construction project construction record data information; performing attribute classification on the construction project construction record data information to obtain construction project attribute node data information; acquiring engineering cost influence factors, wherein the engineering cost influence factors comprise bidding factors, market factors and construction management factors; determining a project cost accounting rule according to the project cost influencing factors; calculating the construction project attribute node data information based on the project cost calculation rule to generate a project cost calculation result; determining an accounting error factor according to historical cost data processing experience; and adjusting the construction cost accounting result based on the accounting error factor to obtain a construction cost closed-loop accounting result. The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (10)

1. A construction cost accounting management method, the method comprising:

acquiring construction project construction record data information;

performing attribute classification on the construction project construction record data information to obtain construction project attribute node data information;

acquiring engineering cost influence factors, wherein the engineering cost influence factors comprise bidding factors, market factors and construction management factors;

determining a project cost accounting rule according to the project cost influencing factors;

calculating the construction project attribute node data information based on the project cost calculation rule to generate a project cost calculation result;

determining an accounting error factor according to historical cost data processing experience;

and adjusting the construction cost accounting result based on the accounting error factor to obtain a construction cost closed-loop accounting result.

2. The method of claim 1, wherein the obtaining the construction property node data information comprises:

carrying out hierarchical classification on the construction project construction record data information according to the project structure to obtain project structure hierarchical record data information;

carrying out construction project marking on the engineering structure hierarchy record data information to obtain engineering construction project subdivision data information;

obtaining a cost attribute information set, wherein the cost attribute information set comprises building material attributes, human resource attributes and construction equipment attributes;

and carrying out attribute integration on the project subdivision data information according to the cost attribute information set to obtain the construction project attribute node data information.

3. The method of claim 2, wherein obtaining engineering structure level record data information comprises:

determining construction structure data information according to the construction record data information;

performing structure disassembly on the construction structure data information of the building engineering to obtain engineering structure disassembly element data information;

carrying out attribute marking on the basis of the engineering construction disassembly element data information to obtain engineering construction element attribute data information;

and classifying the engineering construction element attribute data information according to the construction area distribution in an area level manner to obtain the engineering structure level record data information.

4. The method of claim 1, wherein determining engineering cost accounting rules comprises:

performing content expansion based on the construction cost influence factors to construct a construction cost database, wherein the construction cost database comprises historical construction cost influence factor data and construction cost data;

the engineering cost databases are classified according to the engineering cost influencing factors to obtain an engineering cost influencing factor data set;

fitting is carried out on the basis of the engineering cost influence factor data sets respectively, and an engineering cost factor change function set is generated;

and carrying out function fusion on the engineering cost factor change function set, and determining the engineering cost accounting rule.

5. The method of claim 2, wherein generating engineering cost accounting results comprises:

performing accounting channel deployment based on the cost attribute information set to generate a project cost accounting multi-channel;

mapping the construction engineering attribute node data information according to the construction cost accounting multichannel to obtain construction engineering multichannel data information;

respectively carrying out accounting on the multi-channel data information of the building engineering based on the engineering cost accounting rules to obtain a multi-channel accounting result of the building engineering;

and carrying out fusion and summarization on the multi-channel accounting results of the construction engineering to generate the accounting results of the construction cost.

6. A method according to claim 3, wherein the method comprises:

acquiring construction project planning and design information, and determining construction project budget cost information according to the construction project planning and design information;

determining construction progress information of the building engineering according to the proportion of the construction structure data information of the building engineering to the planning and design information of the building engineering;

obtaining project construction progress budget cost information based on the construction project construction progress information and the construction project budget cost information;

and taking the difference value between the project construction progress budget cost information and the construction project cost closed-loop accounting result as a project cost optimization factor to carry out budget throttling.

7. The method of claim 6, wherein the method comprises:

carrying out resource analysis on the construction engineering planning design information to determine information of optimized construction cost resources;

calculating the optimizable cost resource information based on the engineering cost optimization factor to obtain an engineering cost resource optimization threshold;

generating a project construction cost optimization scheme according to the optimizable cost resource information and the project construction cost resource optimization threshold, and performing project construction cost throttling optimization based on the project construction cost optimization scheme.

8. A construction cost accounting management system, the system comprising:

the construction record data acquisition module is used for acquiring construction record data information of the building engineering;

the data attribute classification module is used for carrying out attribute classification on the building engineering construction record data information to obtain building engineering attribute node data information;

the construction cost influence factor acquisition module is used for acquiring construction cost influence factors, wherein the construction cost influence factors comprise bidding factors, market factors and construction management factors;

the construction cost accounting rule determining module is used for determining construction cost accounting rules according to the construction cost influencing factors;

the node data accounting module is used for accounting the construction project attribute node data information based on the project cost accounting rule to generate a project cost accounting result;

the accounting error factor determining module is used for determining an accounting error factor according to the history cost data processing experience;

the construction cost closed-loop accounting result obtaining module is used for adjusting the construction cost accounting result based on the accounting error factor to obtain the construction engineering cost closed-loop accounting result.

9. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 7 when the computer program is executed.

10. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 7.